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author | Dave Airlie <airlied@gmail.com> | 2013-08-07 18:09:03 +1000 |
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committer | Dave Airlie <airlied@gmail.com> | 2013-08-07 18:11:35 +1000 |
commit | 32c913e4369ce7bd1d16a9b6983f7b8975c13f5a (patch) | |
tree | da5868a2b7e7c068d4b733420330a15001786365 /drivers/staging | |
parent | abf190351b49937335130970a99a0b4275402b5e (diff) | |
parent | cd234b0bfd5ab012e42274b24aae420fa1823d58 (diff) | |
download | kernel_goldelico_gta04-32c913e4369ce7bd1d16a9b6983f7b8975c13f5a.zip kernel_goldelico_gta04-32c913e4369ce7bd1d16a9b6983f7b8975c13f5a.tar.gz kernel_goldelico_gta04-32c913e4369ce7bd1d16a9b6983f7b8975c13f5a.tar.bz2 |
Merge tag 'drm-intel-next-2013-07-26-fixed' of git://people.freedesktop.org/~danvet/drm-intel into drm-next
Neat that QA (and Ben) keeps on humming along while I'm on vacation, so
you already get the next feature pull request:
- proper eLLC support for HSW from Ben
- more interrupt refactoring
- add w/a tags where we implement them already (Damien)
- hangcheck fixes (Chris) + hangcheck stats (Mika)
- flesh out the new vm structs for ppgtt and ggtt (Ben)
- PSR for Haswell, still disabled by default (Rodrigo et al.)
- pc8+ refclock sequence code from Paulo
- more interrupt refactoring from Paulo, unifying ilk/snb with the ivb/hsw
interrupt code
- full solution for the Haswell concurrent reg access issues (Chris)
- fix racy object accounting, used by some new leak tests
- fix sync polarity settings on ch7xxx dvo encoder
- random bits&pieces, little fixes and better debug output all over
[airlied: fix conflict with drm_mm cleanups]
* tag 'drm-intel-next-2013-07-26-fixed' of git://people.freedesktop.org/~danvet/drm-intel: (289 commits)
drm/i915: Do not dereference NULL crtc or fb until after checking
drm/i915: fix pnv display core clock readout out
drm/i915: Replace open-coded offset_in_page()
drm/i915: Retry DP aux_ch communications with a different clock after failure
drm/i915: Add messages useful for HPD storm detection debugging (v2)
drm/i915: dvo_ch7xxx: fix vsync polarity setting
drm/i915: fix the racy object accounting
drm/i915: Convert the register access tracepoint to be conditional
drm/i915: Squash gen lookup through multiple indirections inside GT access
drm/i915: Use the common register access functions for NOTRACE variants
drm/i915: Use a private interface for register access within GT
drm/i915: Colocate all GT access routines in the same file
drm/i915: fix reference counting in i915_gem_create
drm/i915: Use Graphics Base of Stolen Memory on all gen3+
drm/i915: disable stolen mem for OVERLAY_NEEDS_PHYSICAL
drm/i915: add functions to disable and restore LCPLL
drm/i915: disable CLKOUT_DP when it's not needed
drm/i915: extend lpt_enable_clkout_dp
drm/i915: fix up error cleanup in i915_gem_object_bind_to_gtt
drm/i915: Add some debug breadcrumbs to connector detection
...
Diffstat (limited to 'drivers/staging')
149 files changed, 10 insertions, 91610 deletions
diff --git a/drivers/staging/Kconfig b/drivers/staging/Kconfig index 3227ebe..57d8b34 100644 --- a/drivers/staging/Kconfig +++ b/drivers/staging/Kconfig @@ -118,8 +118,6 @@ source "drivers/staging/ozwpan/Kconfig" source "drivers/staging/gdm72xx/Kconfig" -source "drivers/staging/csr/Kconfig" - source "drivers/staging/silicom/Kconfig" source "drivers/staging/ced1401/Kconfig" diff --git a/drivers/staging/Makefile b/drivers/staging/Makefile index 4d79ebe..429321f 100644 --- a/drivers/staging/Makefile +++ b/drivers/staging/Makefile @@ -52,7 +52,6 @@ obj-$(CONFIG_MFD_NVEC) += nvec/ obj-$(CONFIG_ANDROID) += android/ obj-$(CONFIG_USB_WPAN_HCD) += ozwpan/ obj-$(CONFIG_WIMAX_GDM72XX) += gdm72xx/ -obj-$(CONFIG_CSR_WIFI) += csr/ obj-$(CONFIG_NET_VENDOR_SILICOM) += silicom/ obj-$(CONFIG_CED1401) += ced1401/ obj-$(CONFIG_DRM_IMX) += imx-drm/ diff --git a/drivers/staging/csr/Kconfig b/drivers/staging/csr/Kconfig deleted file mode 100644 index ad2a109..0000000 --- a/drivers/staging/csr/Kconfig +++ /dev/null @@ -1,9 +0,0 @@ -config CSR_WIFI - tristate "CSR wireless driver" - depends on MMC && CFG80211_WEXT && INET - select WIRELESS_EXT - select WEXT_PRIV - help - Driver for the CSR wireless SDIO device. - - If unsure, select N. diff --git a/drivers/staging/csr/LICENSE.txt b/drivers/staging/csr/LICENSE.txt deleted file mode 100644 index 364853e..0000000 --- a/drivers/staging/csr/LICENSE.txt +++ /dev/null @@ -1,39 +0,0 @@ -Permission is hereby granted, free of charge, to any person obtaining -a copy of this software and associated documentation files (the -"Software"), to deal in the Software without restriction, including -without limitation the rights to use, copy, modify, merge, publish, -distribute, sublicense, and/or sell copies of the Software, and to -permit persons to whom the Software is furnished to do so, subject to -the following conditions: - -The above copyright notice and this permission notice shall be -included in all copies or substantial portions of the Software. - -Except as contained in this notice, the names of above-listed -copyright holders and the names of any contributors shall not be used -in advertising or otherwise to promote the sale, use or other dealings -in this Software without prior written authorization. - -THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, -EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF -MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND -NONINFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS OR -CONTRIBUTORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, -WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT -OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN -THE SOFTWARE. - -Alternatively, this software may be distributed under the terms of the -GNU General Public License ("GPL") version 2 as published -by the Free Software Foundation. - -As a special exception, if other files instantiate templates or use -macros or inline functions from this file, or you compile this file -and link it with other works to produce a work based on this file, -this file does not by itself cause the resulting work to be covered by -the GNU General Public License. However the source code for this file -must still be made available in accordance with section (3) of the GNU -General Public License. - -This exception does not invalidate any other reasons why a work based -on this file might be covered by the GNU General Public License. diff --git a/drivers/staging/csr/Makefile b/drivers/staging/csr/Makefile deleted file mode 100644 index dbd135a..0000000 --- a/drivers/staging/csr/Makefile +++ /dev/null @@ -1,73 +0,0 @@ -ccflags-y := -DCSR_SME_USERSPACE -DCSR_SUPPORT_SME -DREMOTE_SYS_SAP -DCSR_WIFI_SECURITY_WAPI_ENABLE -DENABLE_SHUTDOWN -DUNIFI_DEBUG -ccflags-y += -DSDIO_EXPORTS_STRUCT_DEVICE -DCSR_WIFI_SUPPORT_MMC_DRIVER -DCSR_WIFI_SINGLE_FUNCTION -DCSR_WIFI_SPLIT_PATCH -ccflags-y += -DCSR_SUPPORT_WEXT -DREMOTE_SYS_SAP -DREMOTE_MGT_SAP -DCSR_WIFI_SECURITY_WAPI_ENABLE -DCSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND -DENABLE_SHUTDOWN -DCSR_WIFI_NME_ENABLE -DCSR_WIFI_AP_ENABLE -DCSR_SUPPORT_WEXT_AP -DCSR_WIFI_REQUEUE_PACKET_TO_HAL - -obj-$(CONFIG_CSR_WIFI) += csr_wifi.o -obj-$(CONFIG_CSR_WIFI) += csr_helper.o - -csr_wifi-y := bh.o \ - data_tx.o \ - drv.o \ - firmware.o \ - inet.o \ - init_hw.o \ - io.o \ - monitor.o \ - netdev.o \ - os.o \ - putest.o \ - sdio_events.o \ - sdio_mmc.o \ - sdio_stubs.o \ - sme_blocking.o \ - ul_int.o \ - unifi_dbg.o \ - unifi_event.o \ - unifi_pdu_processing.o \ - unifi_sme.o \ - csr_wifi_hip_card_sdio.o \ - csr_wifi_hip_card_sdio_intr.o \ - csr_wifi_hip_card_sdio_mem.o \ - csr_wifi_hip_chiphelper.o \ - csr_wifi_hip_download.o \ - csr_wifi_hip_dump.o \ - csr_wifi_hip_packing.o \ - csr_wifi_hip_send.o \ - csr_wifi_hip_signals.o \ - csr_wifi_hip_ta_sampling.o \ - csr_wifi_hip_udi.o \ - csr_wifi_hip_unifi_signal_names.o \ - csr_wifi_hip_xbv.o \ - csr_wifi_nme_ap_converter_init.o \ - csr_wifi_nme_ap_free_downstream_contents.o \ - csr_wifi_nme_ap_free_upstream_contents.o \ - csr_wifi_nme_ap_serialize.o \ - csr_wifi_nme_ap_sef.o \ - csr_wifi_router_ctrl_sef.o \ - csr_wifi_router_sef.o \ - csr_wifi_router_transport.o \ - csr_wifi_sme_sef.o \ - csr_wifi_sme_converter_init.o \ - csr_wifi_sme_free_downstream_contents.o \ - csr_wifi_sme_free_upstream_contents.o \ - csr_wifi_sme_serialize.o \ - csr_wifi_router_ctrl_converter_init.o \ - csr_wifi_router_ctrl_free_downstream_contents.o \ - csr_wifi_router_ctrl_free_upstream_contents.o \ - csr_wifi_router_ctrl_serialize.o \ - csr_wifi_router_converter_init.o \ - csr_wifi_router_free_downstream_contents.o \ - csr_wifi_router_free_upstream_contents.o \ - csr_wifi_router_serialize.o \ - sme_mgt.o \ - sme_sys.o \ - sme_userspace.o \ - sme_wext.o \ - wext_events.o - -csr_helper-y := csr_time.o \ - csr_util.o \ - csr_framework_ext.o \ - csr_wifi_serialize_primitive_types.o \ - csr_serialize_primitive_types.o \ - csr_msgconv.o diff --git a/drivers/staging/csr/bh.c b/drivers/staging/csr/bh.c deleted file mode 100644 index d795852..0000000 --- a/drivers/staging/csr/bh.c +++ /dev/null @@ -1,404 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: bh.c - * - * PURPOSE: - * Provides an implementation for the driver bottom-half. - * It is part of the porting exercise in Linux. - * - * Copyright (C) 2005-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include "csr_wifi_hip_unifi.h" -#include "unifi_priv.h" -#include <linux/sched/rt.h> - -/* - * --------------------------------------------------------------------------- - * uf_start_thread - * - * Helper function to start a new thread. - * - * Arguments: - * priv Pointer to OS driver structure for the device. - * thread Pointer to the thread object - * func The thread function - * - * Returns: - * 0 on success or else a Linux error code. - * --------------------------------------------------------------------------- - */ -int uf_start_thread(unifi_priv_t *priv, - struct uf_thread *thread, int (*func)(void *)) -{ - if (thread->thread_task != NULL) { - unifi_error(priv, "%s thread already started\n", thread->name); - return 0; - } - - /* Start the kernel thread that handles all h/w accesses. */ - thread->thread_task = kthread_run(func, priv, "%s", thread->name); - if (IS_ERR(thread->thread_task)) - return PTR_ERR(thread->thread_task); - - /* Module parameter overides the thread priority */ - if (bh_priority != -1) { - if (bh_priority >= 0 && bh_priority <= MAX_RT_PRIO) { - struct sched_param param; - priv->bh_thread.prio = bh_priority; - unifi_trace(priv, UDBG1, - "%s thread (RT) priority = %d\n", - thread->name, bh_priority); - param.sched_priority = bh_priority; - sched_setscheduler(thread->thread_task, - SCHED_FIFO, ¶m); - } else if (bh_priority > MAX_RT_PRIO && - bh_priority <= MAX_PRIO) { - priv->bh_thread.prio = bh_priority; - unifi_trace(priv, UDBG1, "%s thread priority = %d\n", - thread->name, - PRIO_TO_NICE(bh_priority)); - set_user_nice(thread->thread_task, - PRIO_TO_NICE(bh_priority)); - } else { - priv->bh_thread.prio = DEFAULT_PRIO; - unifi_warning(priv, - "%s thread unsupported (%d) priority\n", - thread->name, bh_priority); - } - } else - priv->bh_thread.prio = DEFAULT_PRIO; - unifi_trace(priv, UDBG2, "Started %s thread\n", thread->name); - - return 0; -} /* uf_start_thread() */ - - -/* - * --------------------------------------------------------------------------- - * uf_stop_thread - * - * Helper function to stop a thread. - * - * Arguments: - * priv Pointer to OS driver structure for the device. - * thread Pointer to the thread object - * - * Returns: - * - * --------------------------------------------------------------------------- - */ -void uf_stop_thread(unifi_priv_t *priv, struct uf_thread *thread) -{ - if (!thread->thread_task) { - unifi_notice(priv, "%s thread is already stopped\n", - thread->name); - return; - } - - unifi_trace(priv, UDBG2, "Stopping %s thread\n", thread->name); - - kthread_stop(thread->thread_task); - thread->thread_task = NULL; - -} /* uf_stop_thread() */ - - - -/* - * --------------------------------------------------------------------------- - * uf_wait_for_thread_to_stop - * - * Helper function to wait until a thread is stopped. - * - * Arguments: - * priv Pointer to OS driver structure for the device. - * - * Returns: - * - * --------------------------------------------------------------------------- - */ -void -uf_wait_for_thread_to_stop(unifi_priv_t *priv, struct uf_thread *thread) -{ - /* - * kthread_stop() cannot handle the thread exiting while - * kthread_should_stop() is false, so sleep until kthread_stop() - * wakes us up - */ - unifi_trace(priv, UDBG2, "%s waiting for the stop signal.\n", - thread->name); - set_current_state(TASK_INTERRUPTIBLE); - if (!kthread_should_stop()) { - unifi_trace(priv, UDBG2, "%s schedule....\n", thread->name); - schedule(); - } - - thread->thread_task = NULL; - unifi_trace(priv, UDBG2, "%s exiting....\n", thread->name); -} /* uf_wait_for_thread_to_stop() */ - - -/* - * --------------------------------------------------------------------------- - * handle_bh_error - * - * This function reports an error returned from the HIP core bottom-half. - * Normally, implemented during the porting exercise, passing the error - * to the SME using unifi_sys_wifi_off_ind(). - * The SME will try to reset the device and go through - * the initialisation of the UniFi. - * - * Arguments: - * priv Pointer to OS driver structure for the device. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void -handle_bh_error(unifi_priv_t *priv) -{ - netInterface_priv_t *interfacePriv; - u8 conf_param = CONFIG_IND_ERROR; - u8 interfaceTag; - - - /* Block unifi_run_bh() until the error has been handled. */ - priv->bh_thread.block_thread = 1; - - /* Consider UniFi to be uninitialised */ - priv->init_progress = UNIFI_INIT_NONE; - - /* Stop the network traffic */ - for (interfaceTag = 0; - interfaceTag < CSR_WIFI_NUM_INTERFACES; interfaceTag++) { - interfacePriv = priv->interfacePriv[interfaceTag]; - if (interfacePriv->netdev_registered) - netif_carrier_off(priv->netdev[interfaceTag]); - } - -#ifdef CSR_NATIVE_LINUX - /* Force any client waiting on an mlme_wait_for_reply() to abort. */ - uf_abort_mlme(priv); - - /* Cancel any pending workqueue tasks */ - flush_workqueue(priv->unifi_workqueue); - -#endif /* CSR_NATIVE_LINUX */ - - unifi_error(priv, - "handle_bh_error: fatal error is reported to the SME.\n"); - /* Notify the clients (SME or unifi_manager) for the error. */ - ul_log_config_ind(priv, &conf_param, sizeof(u8)); - -} /* handle_bh_error() */ - - - -/* - * --------------------------------------------------------------------------- - * bh_thread_function - * - * All hardware access happens in this thread. - * This means there is no need for locks on the hardware and we don't need - * to worry about reentrancy with the SDIO library. - * Provides and example implementation on how to call unifi_bh(), which - * is part of the HIP core API. - * - * It processes the events generated by unifi_run_bh() to serialise calls - * to unifi_bh(). It also demonstrates how the timeout parameter passed in - * and returned from unifi_bh() needs to be handled. - * - * Arguments: - * arg Pointer to OS driver structure for the device. - * - * Returns: - * None. - * - * Notes: - * When the bottom half of the driver needs to process signals, events, - * or simply the host status (i.e sleep mode), it invokes unifi_run_bh(). - * Since we need all SDIO transaction to be in a single thread, the - * unifi_run_bh() will wake up this thread to process it. - * - * --------------------------------------------------------------------------- - */ -static int bh_thread_function(void *arg) -{ - unifi_priv_t *priv = (unifi_priv_t *)arg; - CsrResult csrResult; - long ret; - u32 timeout, t; - struct uf_thread *this_thread; - - unifi_trace(priv, UDBG2, "bh_thread_function starting\n"); - - this_thread = &priv->bh_thread; - - t = timeout = 0; - while (!kthread_should_stop()) { - /* - * wait until an error occurs, - * or we need to process something. - */ - unifi_trace(priv, UDBG3, "bh_thread goes to sleep.\n"); - - if (timeout > 0) { - /* Convert t in ms to jiffies */ - t = msecs_to_jiffies(timeout); - ret = wait_event_interruptible_timeout( - this_thread->wakeup_q, - (this_thread->wakeup_flag && !this_thread->block_thread) || - kthread_should_stop(), - t); - timeout = (ret > 0) ? jiffies_to_msecs(ret) : 0; - } else { - ret = wait_event_interruptible(this_thread->wakeup_q, - (this_thread->wakeup_flag && !this_thread->block_thread) || - kthread_should_stop()); - } - - if (kthread_should_stop()) { - unifi_trace(priv, UDBG2, - "bh_thread: signalled to exit\n"); - break; - } - - if (ret < 0) { - unifi_notice(priv, - "bh_thread: wait_event returned %d, thread will exit\n", - ret); - uf_wait_for_thread_to_stop(priv, this_thread); - break; - } - - this_thread->wakeup_flag = 0; - - unifi_trace(priv, UDBG3, "bh_thread calls unifi_bh().\n"); - - CsrSdioClaim(priv->sdio); - csrResult = unifi_bh(priv->card, &timeout); - if (csrResult != CSR_RESULT_SUCCESS) { - if (csrResult == CSR_WIFI_HIP_RESULT_NO_DEVICE) { - CsrSdioRelease(priv->sdio); - uf_wait_for_thread_to_stop(priv, this_thread); - break; - } - /* Errors must be delivered to the error task */ - handle_bh_error(priv); - } - CsrSdioRelease(priv->sdio); - } - - /* - * I would normally try to call csr_sdio_remove_irq() here to make sure - * that we do not get any interrupts while this thread is not running. - * However, the MMC/SDIO driver tries to kill its' interrupt thread. - * The kernel threads implementation does not allow to kill threads - * from a signalled to stop thread. - * So, instead call csr_sdio_linux_remove_irq() always after calling - * uf_stop_thread() to kill this thread. - */ - - unifi_trace(priv, UDBG2, "bh_thread exiting....\n"); - return 0; -} /* bh_thread_function() */ - - -/* - * --------------------------------------------------------------------------- - * uf_init_bh - * - * Helper function to start the bottom half of the driver. - * All we need to do here is start the I/O bh thread. - * - * Arguments: - * priv Pointer to OS driver structure for the device. - * - * Returns: - * 0 on success or else a Linux error code. - * --------------------------------------------------------------------------- - */ -int -uf_init_bh(unifi_priv_t *priv) -{ - int r; - - /* Enable mlme interface. */ - priv->io_aborted = 0; - - - /* Start the BH thread */ - r = uf_start_thread(priv, &priv->bh_thread, bh_thread_function); - if (r) { - unifi_error(priv, - "uf_init_bh: failed to start the BH thread.\n"); - return r; - } - - /* Allow interrupts */ - r = csr_sdio_linux_install_irq(priv->sdio); - if (r) { - unifi_error(priv, - "uf_init_bh: failed to install the IRQ.\n"); - - uf_stop_thread(priv, &priv->bh_thread); - } - - return r; -} /* uf_init_bh() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_run_bh - * - * Part of the HIP core lib API, implemented in the porting exercise. - * The bottom half of the driver calls this function when - * it wants to process anything that requires access to unifi. - * We need to call unifi_bh() which in this implementation is done - * by waking up the I/O thread. - * - * Arguments: - * ospriv Pointer to OS driver structure for the device. - * - * Returns: - * 0 on success or else a Linux error code. - * - * Notes: - * --------------------------------------------------------------------------- - */ -CsrResult unifi_run_bh(void *ospriv) -{ - unifi_priv_t *priv = ospriv; - - /* - * If an error has occurred, we discard silently all messages from the bh - * until the error has been processed and the unifi has been - * reinitialised. - */ - if (priv->bh_thread.block_thread == 1) { - unifi_trace(priv, UDBG3, "unifi_run_bh: discard message.\n"); - /* - * Do not try to acknowledge a pending interrupt here. - * This function is called by unifi_send_signal() - * which in turn can be running in an atomic or 'disabled irq' - * level if a signal is sent from a workqueue task - * (i.e multicass addresses set). We can not hold the SDIO lock - * because it might sleep. - */ - return CSR_RESULT_FAILURE; - } - - priv->bh_thread.wakeup_flag = 1; - /* wake up I/O thread */ - wake_up_interruptible(&priv->bh_thread.wakeup_q); - - return CSR_RESULT_SUCCESS; -} /* unifi_run_bh() */ - diff --git a/drivers/staging/csr/csr_framework_ext.c b/drivers/staging/csr/csr_framework_ext.c deleted file mode 100644 index 98122bc..0000000 --- a/drivers/staging/csr/csr_framework_ext.c +++ /dev/null @@ -1,40 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include <linux/kernel.h> -#include <linux/kthread.h> -#include <linux/module.h> -#include <linux/freezer.h> -#include <linux/semaphore.h> -#include <linux/slab.h> -#include <linux/bitops.h> - -#include "csr_framework_ext.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrThreadSleep - * - * DESCRIPTION - * Sleep for a given period. - * - * RETURNS - * void - * - *----------------------------------------------------------------------------*/ -void CsrThreadSleep(u16 sleepTimeInMs) -{ - unsigned long t; - - /* Convert t in ms to jiffies and round up */ - t = ((sleepTimeInMs * HZ) + 999) / 1000; - schedule_timeout_uninterruptible(t); -} -EXPORT_SYMBOL_GPL(CsrThreadSleep); diff --git a/drivers/staging/csr/csr_framework_ext.h b/drivers/staging/csr/csr_framework_ext.h deleted file mode 100644 index 6d26ac6..0000000 --- a/drivers/staging/csr/csr_framework_ext.h +++ /dev/null @@ -1,35 +0,0 @@ -#ifndef CSR_FRAMEWORK_EXT_H__ -#define CSR_FRAMEWORK_EXT_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include "csr_result.h" -#include "csr_framework_ext_types.h" - -/* Result codes */ -#define CSR_FE_RESULT_NO_MORE_EVENTS ((CsrResult) 0x0001) -#define CSR_FE_RESULT_INVALID_POINTER ((CsrResult) 0x0002) -#define CSR_FE_RESULT_INVALID_HANDLE ((CsrResult) 0x0003) -#define CSR_FE_RESULT_NO_MORE_MUTEXES ((CsrResult) 0x0004) -#define CSR_FE_RESULT_TIMEOUT ((CsrResult) 0x0005) -#define CSR_FE_RESULT_NO_MORE_THREADS ((CsrResult) 0x0006) - -/* Thread priorities */ -#define CSR_THREAD_PRIORITY_HIGHEST ((u16) 0) -#define CSR_THREAD_PRIORITY_HIGH ((u16) 1) -#define CSR_THREAD_PRIORITY_NORMAL ((u16) 2) -#define CSR_THREAD_PRIORITY_LOW ((u16) 3) -#define CSR_THREAD_PRIORITY_LOWEST ((u16) 4) - -#define CSR_EVENT_WAIT_INFINITE ((u16) 0xFFFF) - -void CsrThreadSleep(u16 sleepTimeInMs); - -#endif diff --git a/drivers/staging/csr/csr_framework_ext_types.h b/drivers/staging/csr/csr_framework_ext_types.h deleted file mode 100644 index 575598c..0000000 --- a/drivers/staging/csr/csr_framework_ext_types.h +++ /dev/null @@ -1,30 +0,0 @@ -#ifndef CSR_FRAMEWORK_EXT_TYPES_H__ -#define CSR_FRAMEWORK_EXT_TYPES_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifdef __KERNEL__ -#include <linux/kthread.h> -#include <linux/semaphore.h> -#else -#include <pthread.h> -#endif - -#ifdef __KERNEL__ - -typedef struct semaphore CsrMutexHandle; - -#else /* __KERNEL __ */ - -typedef pthread_mutex_t CsrMutexHandle; - -#endif /* __KERNEL__ */ - -#endif diff --git a/drivers/staging/csr/csr_log.h b/drivers/staging/csr/csr_log.h deleted file mode 100644 index 9829410..0000000 --- a/drivers/staging/csr/csr_log.h +++ /dev/null @@ -1,223 +0,0 @@ -#ifndef CSR_LOG_H__ -#define CSR_LOG_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include "csr_sched.h" -#include "csr_prim_defs.h" -#include "csr_msgconv.h" - -/* - * Log filtering - */ - -/*----------------------------------------------------*/ -/* Filtering on environment specific log levels */ -/*----------------------------------------------------*/ -typedef u32 CsrLogLevelEnvironment; -#define CSR_LOG_LEVEL_ENVIRONMENT_OFF ((CsrLogLevelEnvironment) 0x00000000) /* No environment data/events are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BCI_ACL ((CsrLogLevelEnvironment) 0x00000001) /* BlueCore Channel Interface HCI Acl data are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BCI_HCI ((CsrLogLevelEnvironment) 0x00000002) /* BlueCore Channel Interface HCI Cmd/Evt data are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BCI_SCO ((CsrLogLevelEnvironment) 0x00000004) /* BlueCore Channel Interface HCI Sco data are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BCI_VENDOR ((CsrLogLevelEnvironment) 0x00000008) /* BlueCore Channel Interface HCI Vendor specific data are logged (This includes BCCMD, HQ, VM etc) */ -#define CSR_LOG_LEVEL_ENVIRONMENT_TRANSPORTS ((CsrLogLevelEnvironment) 0x00000010) /* Transport protocol data is logged (This includes transport protocols like BCSP, H4 etc.) */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BGINT_REG ((CsrLogLevelEnvironment) 0x00000020) /* Background Interrupt registration events are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BGINT_UNREG ((CsrLogLevelEnvironment) 0x00000040) /* Background Interrupt unregistration events are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BGINT_SET ((CsrLogLevelEnvironment) 0x00000080) /* Background Interrupt set events are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BGINT_START ((CsrLogLevelEnvironment) 0x00000100) /* Background Interrupt start events are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_BGINT_DONE ((CsrLogLevelEnvironment) 0x00000200) /* Background Interrupt done events are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_PROTO ((CsrLogLevelEnvironment) 0x00000400) /* Transport protocol events are logged */ -#define CSR_LOG_LEVEL_ENVIRONMENT_PROTO_LOC ((CsrLogLevelEnvironment) 0x00000800) /* The Location where the transport protocol event occurred are logged NB: This is a supplement to CSR_LOG_LEVEL_ENVIRONMENT_PROTO, it has no effect without it */ -/* The bit masks between here are reserved for future usage */ -#define CSR_LOG_LEVEL_ENVIRONMENT_ALL ((CsrLogLevelEnvironment) 0xFFFFFFFF) /* All possible environment data/events are logged WARNING: By using this define the application also accepts future possible environment data/events in the logs */ - -/*----------------------------------------------------*/ -/* Filtering on task specific log levels */ -/*----------------------------------------------------*/ -typedef u32 CsrLogLevelTask; -#define CSR_LOG_LEVEL_TASK_OFF ((CsrLogLevelTask) 0x00000000) /* No events are logged for this task */ -#define CSR_LOG_LEVEL_TASK_TEXT ((CsrLogLevelTask) 0x00000001) /* Text strings printed by a task are logged NB: This bit does not affect the CSR_LOG_TEXT_LEVEL interface. This has to be configured separately */ -#define CSR_LOG_LEVEL_TASK_TEXT_LOC ((CsrLogLevelTask) 0x00000002) /* The locaction where the text string call occurred are logged. NB: This is a supplement to CSR_LOG_LEVEL_TASK_TEXT, it has no effect without it */ -#define CSR_LOG_LEVEL_TASK_STATE ((CsrLogLevelTask) 0x00000004) /* FSM state transitions in a task are logged */ -#define CSR_LOG_LEVEL_TASK_STATE_NAME ((CsrLogLevelTask) 0x00000008) /* The name of each state in a FSM state transition are logged. NB: This is a supplement to CSR_LOG_LEVEL_TASK_STATE, it has no effect without it */ -#define CSR_LOG_LEVEL_TASK_STATE_LOC ((CsrLogLevelTask) 0x00000010) /* The location where the FSM state transition occurred are logged. NB: This is a supplement to CSR_LOG_LEVEL_TASK_STATE, it has no effect without it */ -#define CSR_LOG_LEVEL_TASK_TASK_SWITCH ((CsrLogLevelTask) 0x00000020) /* Activation and deactiation of a task are logged */ -#define CSR_LOG_LEVEL_TASK_MESSAGE_PUT ((CsrLogLevelTask) 0x00000080) /* Message put operations are logged */ -#define CSR_LOG_LEVEL_TASK_MESSAGE_PUT_LOC ((CsrLogLevelTask) 0x00000100) /* The location where a message was sent are logged. NB: This is a supplement to CSR_LOG_LEVEL_TASK_MESSAGE_PUT, it has no effect without it */ -#define CSR_LOG_LEVEL_TASK_MESSAGE_GET ((CsrLogLevelTask) 0x00000200) /* Message get operations are logged */ -#define CSR_LOG_LEVEL_TASK_MESSAGE_QUEUE_PUSH ((CsrLogLevelTask) 0x00000400) /* Message push operations are logged */ -#define CSR_LOG_LEVEL_TASK_MESSAGE_QUEUE_POP ((CsrLogLevelTask) 0x00000800) /* Message pop operations are logged */ -#define CSR_LOG_LEVEL_TASK_PRIM_ONLY_TYPE ((CsrLogLevelTask) 0x00001000) /* Only the type of primitives in messages are logged. By default the entire primitive is serialized and logged */ -#define CSR_LOG_LEVEL_TASK_PRIM_APPLY_LIMIT ((CsrLogLevelTask) 0x00002000) /* An upper limit (defined by CSR_LOG_PRIM_SIZE_UPPER_LIMIT) is applied to how much of a primitive in a message are logged. NB: This limit is only applied if CSR_LOG_LEVEL_TASK_PRIM_ONLY_TYPE is _not_ defined */ -#define CSR_LOG_LEVEL_TASK_TIMER_IN ((CsrLogLevelTask) 0x00004000) /* TimedEventIn events are logged */ -#define CSR_LOG_LEVEL_TASK_TIMER_IN_LOC ((CsrLogLevelTask) 0x00008000) /* The location where a timer was started are logged. NB: This is a supplement to CSR_LOG_LEVEL_TASK_TIMER_IN, it has no effect without it */ -#define CSR_LOG_LEVEL_TASK_TIMER_CANCEL ((CsrLogLevelTask) 0x00010000) /* TimedEventCancel events are logged */ -#define CSR_LOG_LEVEL_TASK_TIMER_CANCEL_LOC ((CsrLogLevelTask) 0x00020000) /* The location where a timer was cancelled are logged. NB: This is a supplement to CSR_LOG_LEVEL_TASK_TIMER_CANCEL, it has no effect without it */ -#define CSR_LOG_LEVEL_TASK_TIMER_FIRE ((CsrLogLevelTask) 0x00040000) /* TimedEventFire events are logged */ -#define CSR_LOG_LEVEL_TASK_TIMER_DONE ((CsrLogLevelTask) 0x00080000) /* TimedEventDone events are logged */ -/* The bit masks between here are reserved for future usage */ -#define CSR_LOG_LEVEL_TASK_ALL ((CsrLogLevelTask) 0xFFFFFFFF & ~(CSR_LOG_LEVEL_TASK_PRIM_ONLY_TYPE | CSR_LOG_LEVEL_TASK_PRIM_APPLY_LIMIT)) /* All info possible to log for a task are logged. WARNING: By using this define the application also accepts future possible task data/events in the logs */ - -u8 CsrLogEnvironmentIsFiltered(CsrLogLevelEnvironment level); -CsrLogLevelTask CsrLogTaskFilterGet(CsrSchedQid taskId); -u8 CsrLogTaskIsFiltered(CsrSchedQid taskId, CsrLogLevelTask level); - -/* - * Logging stuff - */ -#define CSR_LOG_STRINGIFY_REAL(a) (#a) -#define CSR_LOG_STRINGIFY(a) CSR_LOG_STRINGIFY_REAL(a) - -typedef struct { - u16 primitiveType; - const char *primitiveName; - CsrMsgConvMsgEntry *messageConv; /* Private - do not use */ -} CsrLogPrimitiveInformation; - -typedef struct { - const char *techVer; - u32 primitiveInfoCount; - CsrLogPrimitiveInformation *primitiveInfo; -} CsrLogTechInformation; - -/*---------------------------------*/ -/* Tech logging */ -/*---------------------------------*/ -typedef u8 bitmask8_t; -typedef u16 bitmask16_t; -typedef u32 bitmask32_t; - -#ifdef CSR_LOG_ENABLE -#ifdef CSR_LOG_INCLUDE_FILE_NAME_AND_LINE_NUMBER -/* DEPRECATED - replaced by csr_log_text.h */ -#define CSR_LOG_TEXT(text) \ - do { \ - if (!CsrLogTaskIsFiltered(CsrSchedTaskQueueGet(), CSR_LOG_LEVEL_TASK_TEXT)) { \ - CsrLogTaskText(text, __LINE__, __FILE__); \ - } \ - } while (0) -#else -/* DEPRECATED - replaced by csr_log_text.h */ -#define CSR_LOG_TEXT(text) \ - do { \ - if (!CsrLogTaskIsFiltered(CsrSchedTaskQueueGet(), CSR_LOG_LEVEL_TASK_TEXT)) { \ - CsrLogTaskText(text, 0, NULL); \ - } \ - } while (0) -#endif -#else -#define CSR_LOG_TEXT(text) -#endif - -/* DEPRECATED - replaced by csr_log_text.h */ -void CsrLogTaskText(const char *text, - u32 line, - const char *file); - -#define CSR_LOG_STATE_TRANSITION_MASK_FSM_NAME (0x001) -#define CSR_LOG_STATE_TRANSITION_MASK_NEXT_STATE (0x002) -#define CSR_LOG_STATE_TRANSITION_MASK_NEXT_STATE_STR (0x004) -#define CSR_LOG_STATE_TRANSITION_MASK_PREV_STATE (0x008) -#define CSR_LOG_STATE_TRANSITION_MASK_PREV_STATE_STR (0x010) -#define CSR_LOG_STATE_TRANSITION_MASK_EVENT (0x020) -#define CSR_LOG_STATE_TRANSITION_MASK_EVENT_STR (0x040) - -/* DEPRECATED - replaced by csr_log_text.h */ -void CsrLogStateTransition(bitmask16_t mask, - u32 identifier, - const char *fsm_name, - u32 prev_state, - const char *prev_state_str, - u32 in_event, - const char *in_event_str, - u32 next_state, - const char *next_state_str, - u32 line, - const char *file); - -/*---------------------------------*/ -/* BSP logging */ -/*---------------------------------*/ -void CsrLogSchedInit(u8 thread_id); -void CsrLogSchedDeinit(u8 thread_id); - -void CsrLogSchedStart(u8 thread_id); -void CsrLogSchedStop(u8 thread_id); - -void CsrLogInitTask(u8 thread_id, CsrSchedQid tskid, const char *tskName); -void CsrLogDeinitTask(u16 task_id); - -void CsrLogActivate(CsrSchedQid tskid); -void CsrLogDeactivate(CsrSchedQid tskid); - -#define SYNERGY_SERIALIZER_TYPE_DUMP (0x000) -#define SYNERGY_SERIALIZER_TYPE_SER (0x001) - -void CsrLogMessagePut(u32 line, - const char *file, - CsrSchedQid src_task_id, - CsrSchedQid dst_taskid, - CsrSchedMsgId msg_id, - u16 prim_type, - const void *msg); - -void CsrLogMessageGet(CsrSchedQid src_task_id, - CsrSchedQid dst_taskid, - u8 get_res, - CsrSchedMsgId msg_id, - u16 prim_type, - const void *msg); - -void CsrLogTimedEventIn(u32 line, - const char *file, - CsrSchedQid task_id, - CsrSchedTid tid, - u32 requested_delay, - u16 fniarg, - const void *fnvarg); - -void CsrLogTimedEventFire(CsrSchedQid task_id, - CsrSchedTid tid); - -void CsrLogTimedEventDone(CsrSchedQid task_id, - CsrSchedTid tid); - -void CsrLogTimedEventCancel(u32 line, - const char *file, - CsrSchedQid task_id, - CsrSchedTid tid, - u8 cancel_res); - -void CsrLogBgintRegister(u8 thread_id, - CsrSchedBgint irq, - const char *callback, - const void *ptr); -void CsrLogBgintUnregister(CsrSchedBgint irq); -void CsrLogBgintSet(CsrSchedBgint irq); -void CsrLogBgintServiceStart(CsrSchedBgint irq); -void CsrLogBgintServiceDone(CsrSchedBgint irq); - -void CsrLogExceptionStateEvent(u16 prim_type, - CsrPrim msg_type, - u16 state, - u32 line, - const char *file); -void CsrLogExceptionGeneral(u16 prim_type, - u16 state, - const char *text, - u32 line, - const char *file); -void CsrLogExceptionWarning(u16 prim_type, - u16 state, - const char *text, - u32 line, - const char *file); - -#endif diff --git a/drivers/staging/csr/csr_log_configure.h b/drivers/staging/csr/csr_log_configure.h deleted file mode 100644 index 283647c..0000000 --- a/drivers/staging/csr/csr_log_configure.h +++ /dev/null @@ -1,39 +0,0 @@ -#ifndef CSR_LOG_CONFIGURE_H__ -#define CSR_LOG_CONFIGURE_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - - *****************************************************************************/ - -#include "csr_log.h" - -/*--------------------------------------------*/ -/* Filtering on log text warning levels */ -/*--------------------------------------------*/ -typedef u32 CsrLogLevelText; -#define CSR_LOG_LEVEL_TEXT_OFF ((CsrLogLevelText) 0x0000) - -#define CSR_LOG_LEVEL_TEXT_CRITICAL ((CsrLogLevelText) 0x0001) -#define CSR_LOG_LEVEL_TEXT_ERROR ((CsrLogLevelText) 0x0002) -#define CSR_LOG_LEVEL_TEXT_WARNING ((CsrLogLevelText) 0x0004) -#define CSR_LOG_LEVEL_TEXT_INFO ((CsrLogLevelText) 0x0008) -#define CSR_LOG_LEVEL_TEXT_DEBUG ((CsrLogLevelText) 0x0010) - -#define CSR_LOG_LEVEL_TEXT_ALL ((CsrLogLevelText) 0xFFFF) - -/* The log text interface is used by both scheduler tasks and components outside the scheduler context. - * Therefore a CsrLogTextTaskId is introduced. It is effectively considered as two u16's. The lower - * 16 bits corresponds one2one with the scheduler queueId's (CsrSchedQid) and as such these bits can not be used - * by components outside scheduler tasks. The upper 16 bits are allocated for use of components outside the - * scheduler like drivers etc. Components in this range is defined independently by each technology. To avoid - * clashes the technologies are only allowed to assign values within the same restrictive range as allies to - * primitive identifiers. eg. for the framework components outside the scheduler is only allowed to assign - * taskId's in the range 0x0600xxxx to 0x06FFxxxx. And so on for other technologies. */ -typedef u32 CsrLogTextTaskId; - -#endif diff --git a/drivers/staging/csr/csr_log_text.h b/drivers/staging/csr/csr_log_text.h deleted file mode 100644 index cfcf64a..0000000 --- a/drivers/staging/csr/csr_log_text.h +++ /dev/null @@ -1,124 +0,0 @@ -#ifndef CSR_LOG_TEXT_H__ -#define CSR_LOG_TEXT_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include "csr_log_configure.h" - -typedef struct CsrLogSubOrigin -{ - u16 subOriginNumber; /* Id of the given SubOrigin */ - const char *subOriginName; /* Prefix Text for this SubOrigin */ -} CsrLogSubOrigin; - -/* Register a task which is going to use the CSR_LOG_TEXT_XXX interface */ -#ifdef CSR_LOG_ENABLE -void CsrLogTextRegister(CsrLogTextTaskId taskId, const char *taskName, u16 subOriginsLength, const CsrLogSubOrigin *subOrigins); -#else -#define CsrLogTextRegister(taskId, taskName, subOriginsLength, subOrigins) -#endif - -/* CRITICAL: Conditions that are threatening to the integrity/stability of the - system as a whole. */ -#if defined(CSR_LOG_ENABLE) && !defined(CSR_LOG_LEVEL_TEXT_CRITICAL_DISABLE) -void CsrLogTextCritical(CsrLogTextTaskId taskId, u16 subOrigin, const char *formatString, ...); -void CsrLogTextBufferCritical(CsrLogTextTaskId taskId, u16 subOrigin, size_t bufferLength, const void *buffer, const char *formatString, ...); -#define CSR_LOG_TEXT_CRITICAL(taskId_subOrigin_formatString_varargs) CsrLogTextCritical taskId_subOrigin_formatString_varargs -#define CSR_LOG_TEXT_CONDITIONAL_CRITICAL(condition, logtextargs) {if (condition) {CSR_LOG_TEXT_CRITICAL(logtextargs);}} -#define CSR_LOG_TEXT_BUFFER_CRITICAL(taskId_subOrigin_length_buffer_formatString_varargs) CsrLogTextBufferCritical taskId_subOrigin_length_buffer_formatString_varargs -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_CRITICAL(condition, logtextbufferargs) {if (condition) {CSR_LOG_TEXT_BUFFER_CRITICAL(logtextbufferargs);}} -#else -#define CSR_LOG_TEXT_CRITICAL(taskId_subOrigin_formatString_varargs) -#define CSR_LOG_TEXT_CONDITIONAL_CRITICAL(condition, logtextargs) -#define CSR_LOG_TEXT_BUFFER_CRITICAL(taskId_subOrigin_length_buffer_formatString_varargs) -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_CRITICAL(condition, logtextbufferargs) -#endif - -/* ERROR: Malfunction of a component rendering it unable to operate correctly, - causing lack of functionality but not loss of system integrity/stability. */ -#if defined(CSR_LOG_ENABLE) && !defined(CSR_LOG_LEVEL_TEXT_ERROR_DISABLE) -void CsrLogTextError(CsrLogTextTaskId taskId, u16 subOrigin, const char *formatString, ...); -void CsrLogTextBufferError(CsrLogTextTaskId taskId, u16 subOrigin, size_t bufferLength, const void *buffer, const char *formatString, ...); -#define CSR_LOG_TEXT_ERROR(taskId_subOrigin_formatString_varargs) CsrLogTextError taskId_subOrigin_formatString_varargs -#define CSR_LOG_TEXT_CONDITIONAL_ERROR(condition, logtextargs) {if (condition) {CSR_LOG_TEXT_ERROR(logtextargs);}} -#define CSR_LOG_TEXT_BUFFER_ERROR(taskId_subOrigin_length_buffer_formatString_varargs) CsrLogTextBufferError taskId_subOrigin_length_buffer_formatString_varargs -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_ERROR(condition, logtextbufferargs) {if (condition) {CSR_LOG_TEXT_BUFFER_ERROR(logtextbufferargs);}} -#else -#define CSR_LOG_TEXT_ERROR(taskId_subOrigin_formatString_varargs) -#define CSR_LOG_TEXT_CONDITIONAL_ERROR(condition, logtextargs) -#define CSR_LOG_TEXT_BUFFER_ERROR(taskId_subOrigin_length_buffer_formatString_varargs) -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_ERROR(condition, logtextbufferargs) -#endif - -/* WARNING: Conditions that are unexpected and indicative of possible problems - or violations of specifications, where the result of such deviations does not - lead to malfunction of the component. */ -#if defined(CSR_LOG_ENABLE) && !defined(CSR_LOG_LEVEL_TEXT_WARNING_DISABLE) -void CsrLogTextWarning(CsrLogTextTaskId taskId, u16 subOrigin, const char *formatString, ...); -void CsrLogTextBufferWarning(CsrLogTextTaskId taskId, u16 subOrigin, size_t bufferLength, const void *buffer, const char *formatString, ...); -#define CSR_LOG_TEXT_WARNING(taskId_subOrigin_formatString_varargs) CsrLogTextWarning taskId_subOrigin_formatString_varargs -#define CSR_LOG_TEXT_CONDITIONAL_WARNING(condition, logtextargs) {if (condition) {CSR_LOG_TEXT_WARNING(logtextargs);}} -#define CSR_LOG_TEXT_BUFFER_WARNING(taskId_subOrigin_length_buffer_formatString_varargs) CsrLogTextBufferWarning taskId_subOrigin_length_buffer_formatString_varargs -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_WARNING(condition, logtextbufferargs) {if (condition) {CSR_LOG_TEXT_BUFFER_WARNING(logtextbufferargs);}} -#else -#define CSR_LOG_TEXT_WARNING(taskId_subOrigin_formatString_varargs) -#define CSR_LOG_TEXT_CONDITIONAL_WARNING(condition, logtextargs) -#define CSR_LOG_TEXT_BUFFER_WARNING(taskId_subOrigin_length_buffer_formatString_varargs) -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_WARNING(condition, logtextbufferargs) -#endif - -/* INFO: Important events that may aid in determining the conditions under which - the more severe conditions are encountered. */ -#if defined(CSR_LOG_ENABLE) && !defined(CSR_LOG_LEVEL_TEXT_INFO_DISABLE) -void CsrLogTextInfo(CsrLogTextTaskId taskId, u16 subOrigin, const char *formatString, ...); -void CsrLogTextBufferInfo(CsrLogTextTaskId taskId, u16 subOrigin, size_t bufferLength, const void *buffer, const char *formatString, ...); -#define CSR_LOG_TEXT_INFO(taskId_subOrigin_formatString_varargs) CsrLogTextInfo taskId_subOrigin_formatString_varargs -#define CSR_LOG_TEXT_CONDITIONAL_INFO(condition, logtextargs) {if (condition) {CSR_LOG_TEXT_INFO(logtextargs);}} -#define CSR_LOG_TEXT_BUFFER_INFO(taskId_subOrigin_length_buffer_formatString_varargs) CsrLogTextBufferInfo taskId_subOrigin_length_buffer_formatString_varargs -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_INFO(condition, logtextbufferargs) {if (condition) {CSR_LOG_TEXT_BUFFER_INFO(logtextbufferargs);}} -#else -#define CSR_LOG_TEXT_INFO(taskId_subOrigin_formatString_varargs) -#define CSR_LOG_TEXT_CONDITIONAL_INFO(condition, logtextargs) -#define CSR_LOG_TEXT_BUFFER_INFO(taskId_subOrigin_length_buffer_formatString_varargs) -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_INFO(condition, logtextbufferargs) -#endif - -/* DEBUG: Similar to INFO, but dedicated to events that occur more frequently. */ -#if defined(CSR_LOG_ENABLE) && !defined(CSR_LOG_LEVEL_TEXT_DEBUG_DISABLE) -void CsrLogTextDebug(CsrLogTextTaskId taskId, u16 subOrigin, const char *formatString, ...); -void CsrLogTextBufferDebug(CsrLogTextTaskId taskId, u16 subOrigin, size_t bufferLength, const void *buffer, const char *formatString, ...); -#define CSR_LOG_TEXT_DEBUG(taskId_subOrigin_formatString_varargs) CsrLogTextDebug taskId_subOrigin_formatString_varargs -#define CSR_LOG_TEXT_CONDITIONAL_DEBUG(condition, logtextargs) {if (condition) {CSR_LOG_TEXT_DEBUG(logtextargs);}} -#define CSR_LOG_TEXT_BUFFER_DEBUG(taskId_subOrigin_length_buffer_formatString_varargs) CsrLogTextBufferDebug taskId_subOrigin_length_buffer_formatString_varargs -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_DEBUG(condition, logtextbufferargs) {if (condition) {CSR_LOG_TEXT_BUFFER_DEBUG(logtextbufferargs);}} -#else -#define CSR_LOG_TEXT_DEBUG(taskId_subOrigin_formatString_varargs) -#define CSR_LOG_TEXT_CONDITIONAL_DEBUG(condition, logtextargs) -#define CSR_LOG_TEXT_BUFFER_DEBUG(taskId_subOrigin_length_buffer_formatString_varargs) -#define CSR_LOG_TEXT_BUFFER_CONDITIONAL_DEBUG(condition, logtextbufferargs) -#endif - -/* CSR_LOG_TEXT_ASSERT (CRITICAL) */ -#ifdef CSR_LOG_ENABLE -#define CSR_LOG_TEXT_ASSERT(origin, suborigin, condition) \ - {if (!(condition)) {CSR_LOG_TEXT_CRITICAL((origin, suborigin, "Assertion \"%s\" failed at %s:%u", #condition, __FILE__, __LINE__));}} -#else -#define CSR_LOG_TEXT_ASSERT(origin, suborigin, condition) -#endif - -/* CSR_LOG_TEXT_UNHANDLED_PRIM (CRITICAL) */ -#ifdef CSR_LOG_ENABLE -#define CSR_LOG_TEXT_UNHANDLED_PRIMITIVE(origin, suborigin, primClass, primType) \ - CSR_LOG_TEXT_CRITICAL((origin, suborigin, "Unhandled primitive 0x%04X:0x%04X at %s:%u", primClass, primType, __FILE__, __LINE__)) -#else -#define CSR_LOG_TEXT_UNHANDLED_PRIMITIVE(origin, suborigin, primClass, primType) -#endif - -#endif diff --git a/drivers/staging/csr/csr_macro.h b/drivers/staging/csr/csr_macro.h deleted file mode 100644 index c47f1d9..0000000 --- a/drivers/staging/csr/csr_macro.h +++ /dev/null @@ -1,39 +0,0 @@ -#ifndef CSR_MACRO_H__ -#define CSR_MACRO_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include <linux/types.h> - -#define FALSE (0) -#define TRUE (1) - -/*------------------------------------------------------------------*/ -/* Endian conversion */ -/*------------------------------------------------------------------*/ -#define CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr) (((u16) ((u8 *) (ptr))[0]) | ((u16) ((u8 *) (ptr))[1]) << 8) -#define CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr) (((u32) ((u8 *) (ptr))[0]) | ((u32) ((u8 *) (ptr))[1]) << 8 | \ - ((u32) ((u8 *) (ptr))[2]) << 16 | ((u32) ((u8 *) (ptr))[3]) << 24) -#define CSR_COPY_UINT16_TO_LITTLE_ENDIAN(uint, ptr) ((u8 *) (ptr))[0] = ((u8) ((uint) & 0x00FF)); \ - ((u8 *) (ptr))[1] = ((u8) ((uint) >> 8)) -#define CSR_COPY_UINT32_TO_LITTLE_ENDIAN(uint, ptr) ((u8 *) (ptr))[0] = ((u8) ((uint) & 0x000000FF)); \ - ((u8 *) (ptr))[1] = ((u8) (((uint) >> 8) & 0x000000FF)); \ - ((u8 *) (ptr))[2] = ((u8) (((uint) >> 16) & 0x000000FF)); \ - ((u8 *) (ptr))[3] = ((u8) (((uint) >> 24) & 0x000000FF)) - -/*------------------------------------------------------------------*/ -/* Misc */ -/*------------------------------------------------------------------*/ -/* Use this macro on unused local variables that cannot be removed (such as - unused function parameters). This will quell warnings from certain compilers - and static code analysis tools like Lint and Valgrind. */ -#define CSR_UNUSED(x) ((void) (x)) - -#endif diff --git a/drivers/staging/csr/csr_msg_transport.h b/drivers/staging/csr/csr_msg_transport.h deleted file mode 100644 index 8d88e78..0000000 --- a/drivers/staging/csr/csr_msg_transport.h +++ /dev/null @@ -1,17 +0,0 @@ -#ifndef CSR_MSG_TRANSPORT_H__ -#define CSR_MSG_TRANSPORT_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CsrMsgTransport -#define CsrMsgTransport CsrSchedMessagePut -#endif - -#endif /* CSR_MSG_TRANSPORT */ diff --git a/drivers/staging/csr/csr_msgconv.c b/drivers/staging/csr/csr_msgconv.c deleted file mode 100644 index db5e845..0000000 --- a/drivers/staging/csr/csr_msgconv.c +++ /dev/null @@ -1,291 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include <linux/module.h> -#include <linux/types.h> -#include <linux/slab.h> -#include "csr_sched.h" -#include "csr_msgconv.h" -#include "csr_macro.h" - -static CsrMsgConvEntry *converter; - -CsrMsgConvPrimEntry *CsrMsgConvFind(u16 primType) -{ - CsrMsgConvPrimEntry *ptr = NULL; - - if (converter) - { - ptr = converter->profile_converters; - while (ptr) - { - if (ptr->primType == primType) - { - break; - } - else - { - ptr = ptr->next; - } - } - } - - return ptr; -} - -static const CsrMsgConvMsgEntry *find_msg_converter(CsrMsgConvPrimEntry *ptr, u16 msgType) -{ - const CsrMsgConvMsgEntry *cv = ptr->conv; - if (ptr->lookupFunc) - { - return (const CsrMsgConvMsgEntry *) ptr->lookupFunc((CsrMsgConvMsgEntry *) cv, msgType); - } - - while (cv) - { - if (cv->serFunc == NULL) - { - /* We've reached the end of the chain */ - cv = NULL; - break; - } - - if (cv->msgType == msgType) - { - break; - } - else - { - cv++; - } - } - - return cv; -} - -static void *deserialize_data(u16 primType, - size_t length, - u8 *data) -{ - CsrMsgConvPrimEntry *ptr; - u8 *ret; - - ptr = CsrMsgConvFind(primType); - - if (ptr) - { - const CsrMsgConvMsgEntry *cv; - u16 msgId = 0; - size_t offset = 0; - CsrUint16Des(&msgId, data, &offset); - - cv = find_msg_converter(ptr, msgId); - if (cv) - { - ret = cv->deserFunc(data, length); - } - else - { - ret = NULL; - } - } - else - { - ret = NULL; - } - - return ret; -} - -static size_t sizeof_message(u16 primType, void *msg) -{ - CsrMsgConvPrimEntry *ptr = CsrMsgConvFind(primType); - size_t ret; - - if (ptr) - { - const CsrMsgConvMsgEntry *cv; - u16 msgId = *(u16 *) msg; - - cv = find_msg_converter(ptr, msgId); - if (cv) - { - ret = cv->sizeofFunc(msg); - } - else - { - ret = 0; - } - } - else - { - ret = 0; - } - - return ret; -} - -static u8 free_message(u16 primType, u8 *data) -{ - CsrMsgConvPrimEntry *ptr; - u8 ret; - - ptr = CsrMsgConvFind(primType); - - if (ptr) - { - const CsrMsgConvMsgEntry *cv; - u16 msgId = *(u16 *) data; - - cv = find_msg_converter(ptr, msgId); - if (cv) - { - cv->freeFunc(data); - ret = TRUE; - } - else - { - ret = FALSE; - } - } - else - { - ret = FALSE; - } - - return ret; -} - -static u8 *serialize_message(u16 primType, - void *msg, - size_t *length, - u8 *buffer) -{ - CsrMsgConvPrimEntry *ptr; - u8 *ret; - - ptr = CsrMsgConvFind(primType); - - *length = 0; - - if (ptr) - { - const CsrMsgConvMsgEntry *cv; - - cv = find_msg_converter(ptr, *(u16 *) msg); - if (cv) - { - ret = cv->serFunc(buffer, length, msg); - } - else - { - ret = NULL; - } - } - else - { - ret = NULL; - } - - return ret; -} - -size_t CsrMsgConvSizeof(u16 primType, void *msg) -{ - return sizeof_message(primType, msg); -} - -u8 *CsrMsgConvSerialize(u8 *buffer, size_t maxBufferOffset, size_t *offset, u16 primType, void *msg) -{ - if (converter) - { - size_t serializedLength; - u8 *bufSerialized; - u8 *bufOffset = &buffer[*offset]; - bufSerialized = converter->serialize_message(primType, msg, &serializedLength, bufOffset); - *offset += serializedLength; - return bufSerialized; - } - else - { - return NULL; - } -} - -/* Insert profile converter at head of converter list. */ -void CsrMsgConvInsert(u16 primType, const CsrMsgConvMsgEntry *ce) -{ - CsrMsgConvPrimEntry *pc; - pc = CsrMsgConvFind(primType); - - if (pc) - { - /* Already registered. Do nothing */ - } - else - { - pc = kmalloc(sizeof(*pc), GFP_KERNEL); - pc->primType = primType; - pc->conv = ce; - pc->lookupFunc = NULL; - pc->next = converter->profile_converters; - converter->profile_converters = pc; - } -} -EXPORT_SYMBOL_GPL(CsrMsgConvInsert); - -CsrMsgConvMsgEntry *CsrMsgConvFindEntry(u16 primType, u16 msgType) -{ - CsrMsgConvPrimEntry *ptr = CsrMsgConvFind(primType); - if (ptr) - { - return (CsrMsgConvMsgEntry *) find_msg_converter(ptr, msgType); - } - return NULL; -} -EXPORT_SYMBOL_GPL(CsrMsgConvFindEntry); - -CsrMsgConvMsgEntry *CsrMsgConvFindEntryByMsg(u16 primType, const void *msg) -{ - CsrMsgConvPrimEntry *ptr = CsrMsgConvFind(primType); - if (ptr && msg) - { - u16 msgType = *((u16 *) msg); - return (CsrMsgConvMsgEntry *) find_msg_converter(ptr, msgType); - } - return NULL; -} - -void CsrMsgConvCustomLookupRegister(u16 primType, CsrMsgCustomLookupFunc *lookupFunc) -{ - CsrMsgConvPrimEntry *ptr = CsrMsgConvFind(primType); - if (ptr) - { - ptr->lookupFunc = lookupFunc; - } -} -EXPORT_SYMBOL_GPL(CsrMsgConvCustomLookupRegister); - -CsrMsgConvEntry *CsrMsgConvInit(void) -{ - if (!converter) - { - converter = kmalloc(sizeof(CsrMsgConvEntry), GFP_KERNEL); - - converter->profile_converters = NULL; - converter->free_message = free_message; - converter->sizeof_message = sizeof_message; - converter->serialize_message = serialize_message; - converter->deserialize_data = deserialize_data; - } - - return converter; -} -EXPORT_SYMBOL_GPL(CsrMsgConvInit); diff --git a/drivers/staging/csr/csr_msgconv.h b/drivers/staging/csr/csr_msgconv.h deleted file mode 100644 index 7e4dd38..0000000 --- a/drivers/staging/csr/csr_msgconv.h +++ /dev/null @@ -1,78 +0,0 @@ -#ifndef CSR_MSGCONV_H__ -#define CSR_MSGCONV_H__ - -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include <linux/types.h> -#include "csr_prim_defs.h" -#include "csr_sched.h" - -typedef size_t (CsrMsgSizeofFunc)(void *msg); -typedef u8 *(CsrMsgSerializeFunc)(u8 *buffer, size_t *length, void *msg); -typedef void (CsrMsgFreeFunc)(void *msg); -typedef void *(CsrMsgDeserializeFunc)(u8 *buffer, size_t length); - -/* Converter entry for one message type */ -typedef struct CsrMsgConvMsgEntry -{ - u16 msgType; - CsrMsgSizeofFunc *sizeofFunc; - CsrMsgSerializeFunc *serFunc; - CsrMsgDeserializeFunc *deserFunc; - CsrMsgFreeFunc *freeFunc; -} CsrMsgConvMsgEntry; - -/* Optional lookup function */ -typedef CsrMsgConvMsgEntry *(CsrMsgCustomLookupFunc)(CsrMsgConvMsgEntry *ce, u16 msgType); - -/* All converter entries for one specific primitive */ -typedef struct CsrMsgConvPrimEntry -{ - u16 primType; - const CsrMsgConvMsgEntry *conv; - CsrMsgCustomLookupFunc *lookupFunc; - struct CsrMsgConvPrimEntry *next; -} CsrMsgConvPrimEntry; - -typedef struct -{ - CsrMsgConvPrimEntry *profile_converters; - void *(*deserialize_data)(u16 primType, size_t length, u8 * data); - u8 (*free_message)(u16 primType, u8 *data); - size_t (*sizeof_message)(u16 primType, void *msg); - u8 *(*serialize_message)(u16 primType, void *msg, - size_t * length, - u8 * buffer); -} CsrMsgConvEntry; - -size_t CsrMsgConvSizeof(u16 primType, void *msg); -u8 *CsrMsgConvSerialize(u8 *buffer, size_t maxBufferOffset, size_t *offset, u16 primType, void *msg); -void CsrMsgConvCustomLookupRegister(u16 primType, CsrMsgCustomLookupFunc *lookupFunc); -void CsrMsgConvInsert(u16 primType, const CsrMsgConvMsgEntry *ce); -CsrMsgConvPrimEntry *CsrMsgConvFind(u16 primType); -CsrMsgConvMsgEntry *CsrMsgConvFindEntry(u16 primType, u16 msgType); -CsrMsgConvMsgEntry *CsrMsgConvFindEntryByMsg(u16 primType, const void *msg); -CsrMsgConvEntry *CsrMsgConvInit(void); - -/* Prototypes for primitive type serializers */ -void CsrUint8Ser(u8 *buffer, size_t *offset, u8 value); -void CsrUint16Ser(u8 *buffer, size_t *offset, u16 value); -void CsrUint32Ser(u8 *buffer, size_t *offset, u32 value); -void CsrMemCpySer(u8 *buffer, size_t *offset, const void *value, size_t length); -void CsrCharStringSer(u8 *buffer, size_t *offset, const char *value); - -void CsrUint8Des(u8 *value, u8 *buffer, size_t *offset); -void CsrUint16Des(u16 *value, u8 *buffer, size_t *offset); -void CsrUint32Des(u32 *value, u8 *buffer, size_t *offset); -void CsrMemCpyDes(void *value, u8 *buffer, size_t *offset, size_t length); -void CsrCharStringDes(char **value, u8 *buffer, size_t *offset); - -#endif diff --git a/drivers/staging/csr/csr_prim_defs.h b/drivers/staging/csr/csr_prim_defs.h deleted file mode 100644 index 81a1eaa..0000000 --- a/drivers/staging/csr/csr_prim_defs.h +++ /dev/null @@ -1,55 +0,0 @@ -#ifndef CSR_PRIM_DEFS_H__ -#define CSR_PRIM_DEFS_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/************************************************************************************ - * Segmentation of primitives in upstream and downstream segment - ************************************************************************************/ -typedef u16 CsrPrim; -#define CSR_PRIM_UPSTREAM ((CsrPrim) (0x8000)) - -/************************************************************************************ - * Primitive definitions for Synergy framework - ************************************************************************************/ -#define CSR_SYNERGY_EVENT_CLASS_BASE ((u16) (0x0600)) - -#define CSR_HCI_PRIM ((u16) (0x0000 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_BCCMD_PRIM ((u16) (0x0001 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_HQ_PRIM ((u16) (0x0002 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_VM_PRIM ((u16) (0x0003 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_TM_BLUECORE_PRIM ((u16) (0x0004 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_FP_PRIM ((u16) (0x0005 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_IP_SOCKET_PRIM ((u16) (0x0006 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_IP_ETHER_PRIM ((u16) (0x0007 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_IP_IFCONFIG_PRIM ((u16) (0x0008 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_IP_INTERNAL_PRIM ((u16) (0x0009 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_FSAL_PRIM ((u16) (0x000A | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_DATA_STORE_PRIM ((u16) (0x000B | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_AM_PRIM ((u16) (0x000C | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_TLS_PRIM ((u16) (0x000D | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_DHCP_SERVER_PRIM ((u16) (0x000E | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_TFTP_PRIM ((u16) (0x000F | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_DSPM_PRIM ((u16) (0x0010 | CSR_SYNERGY_EVENT_CLASS_BASE)) -#define CSR_TLS_INTERNAL_PRIM ((u16) (0x0011 | CSR_SYNERGY_EVENT_CLASS_BASE)) - -#define NUMBER_OF_CSR_FW_EVENTS (CSR_DSPM_PRIM - CSR_SYNERGY_EVENT_CLASS_BASE + 1) - -#define CSR_SYNERGY_EVENT_CLASS_MISC_BASE ((u16) (0x06A0)) - -#define CSR_UI_PRIM ((u16) (0x0000 | CSR_SYNERGY_EVENT_CLASS_MISC_BASE)) -#define CSR_APP_PRIM ((u16) (0x0001 | CSR_SYNERGY_EVENT_CLASS_MISC_BASE)) -#define CSR_SDIO_PROBE_PRIM ((u16) (0x0002 | CSR_SYNERGY_EVENT_CLASS_MISC_BASE)) - -#define NUMBER_OF_CSR_FW_MISC_EVENTS (CSR_SDIO_PROBE_PRIM - CSR_SYNERGY_EVENT_CLASS_MISC_BASE + 1) - -#define CSR_ENV_PRIM ((u16) (0x00FF | CSR_SYNERGY_EVENT_CLASS_MISC_BASE)) - -#endif /* CSR_PRIM_DEFS_H__ */ diff --git a/drivers/staging/csr/csr_result.h b/drivers/staging/csr/csr_result.h deleted file mode 100644 index cbb607d..0000000 --- a/drivers/staging/csr/csr_result.h +++ /dev/null @@ -1,17 +0,0 @@ -#ifndef CSR_RESULT_H__ -#define CSR_RESULT_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -typedef u16 CsrResult; -#define CSR_RESULT_SUCCESS ((CsrResult) 0x0000) -#define CSR_RESULT_FAILURE ((CsrResult) 0xFFFF) - -#endif diff --git a/drivers/staging/csr/csr_sched.h b/drivers/staging/csr/csr_sched.h deleted file mode 100644 index c7d672c..0000000 --- a/drivers/staging/csr/csr_sched.h +++ /dev/null @@ -1,85 +0,0 @@ -#ifndef CSR_SCHED_H__ -#define CSR_SCHED_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ -#include <linux/types.h> -#include "csr_time.h" - -/* An identifier issued by the scheduler. */ -typedef u32 CsrSchedIdentifier; - -/* A task identifier */ -typedef u16 CsrSchedTaskId; - -/* A queue identifier */ -typedef u16 CsrSchedQid; - -/* A message identifier */ -typedef CsrSchedIdentifier CsrSchedMsgId; - -/* A timer event identifier */ -typedef CsrSchedIdentifier CsrSchedTid; -#define CSR_SCHED_TID_INVALID ((CsrSchedTid) 0) - -/* Time constants. */ -#define CSR_SCHED_TIME_MAX (0xFFFFFFFF) -#define CSR_SCHED_MILLISECOND (1000) -#define CSR_SCHED_SECOND (1000 * CSR_SCHED_MILLISECOND) -#define CSR_SCHED_MINUTE (60 * CSR_SCHED_SECOND) - -/* Queue and primitive that identifies the environment */ -#define CSR_SCHED_TASK_ID 0xFFFF -#define CSR_SCHED_PRIM (CSR_SCHED_TASK_ID) -#define CSR_SCHED_EXCLUDED_MODULE_QUEUE 0xFFFF - -/* - * Background interrupt definitions - */ -typedef u16 CsrSchedBgint; -#define CSR_SCHED_BGINT_INVALID ((CsrSchedBgint) 0xFFFF) - -/*----------------------------------------------------------------------------* - * NAME - * CsrSchedMessagePut - * - * DESCRIPTION - * Sends a message consisting of the integer "mi" and the void * pointer - * "mv" to the message queue "q". - * - * "mi" and "mv" are neither inspected nor changed by the scheduler - the - * task that owns "q" is expected to make sense of the values. "mv" may - * be null. - * - * NOTE - * If "mv" is not null then it will typically be a chunk of kmalloc()ed - * memory, though there is no need for it to be so. Tasks should normally - * obey the convention that when a message built with kmalloc()ed memory - * is given to CsrSchedMessagePut() then ownership of the memory is ceded to the - * scheduler - and eventually to the recipient task. I.e., the receiver of - * the message will be expected to kfree() the message storage. - * - * RETURNS - * void. - * - *----------------------------------------------------------------------------*/ -#if defined(CSR_LOG_ENABLE) && defined(CSR_LOG_INCLUDE_FILE_NAME_AND_LINE_NUMBER) -void CsrSchedMessagePutStringLog(CsrSchedQid q, - u16 mi, - void *mv, - u32 line, - const char *file); -#define CsrSchedMessagePut(q, mi, mv) CsrSchedMessagePutStringLog((q), (mi), (mv), __LINE__, __FILE__) -#else -void CsrSchedMessagePut(CsrSchedQid q, - u16 mi, - void *mv); -#endif - -#endif diff --git a/drivers/staging/csr/csr_sdio.h b/drivers/staging/csr/csr_sdio.h deleted file mode 100644 index 0971d13..0000000 --- a/drivers/staging/csr/csr_sdio.h +++ /dev/null @@ -1,723 +0,0 @@ -#ifndef CSR_SDIO_H__ -#define CSR_SDIO_H__ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include "csr_result.h" - -/* Result Codes */ -#define CSR_SDIO_RESULT_INVALID_VALUE ((CsrResult) 1) /* Invalid argument value */ -#define CSR_SDIO_RESULT_NO_DEVICE ((CsrResult) 2) /* The specified device is no longer present */ -#define CSR_SDIO_RESULT_CRC_ERROR ((CsrResult) 3) /* The transmitted/received data or command response contained a CRC error */ -#define CSR_SDIO_RESULT_TIMEOUT ((CsrResult) 4) /* No command response or data received from device, or function enable/disable did not succeed within timeout period */ -#define CSR_SDIO_RESULT_NOT_RESET ((CsrResult) 5) /* The device was not reset */ - -/* Features (for use in features member of CsrSdioFunction) */ -#define CSR_SDIO_FEATURE_BYTE_MODE 0x00000001 /* Transfer sizes do not have to be a multiple of block size */ -#define CSR_SDIO_FEATURE_DMA_CAPABLE_MEM_REQUIRED 0x00000002 /* Bulk operations require DMA friendly memory */ - -/* CsrSdioFunctionId wildcards (for use in CsrSdioFunctionId members) */ -#define CSR_SDIO_ANY_MANF_ID 0xFFFF -#define CSR_SDIO_ANY_CARD_ID 0xFFFF -#define CSR_SDIO_ANY_SDIO_FUNCTION 0xFF -#define CSR_SDIO_ANY_SDIO_INTERFACE 0xFF - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioFunctionId - * - * DESCRIPTION - * This structure describes one or more functions of a device, based on - * four qualitative measures. The CsrSdioFunctionId wildcard defines can be - * used for making the CsrSdioFunctionId match more than one function. - * - * MEMBERS - * manfId - Vendor ID (or CSR_SDIO_ANY_MANF_ID). - * cardId - Device ID (or CSR_SDIO_ANY_CARD_ID). - * sdioFunction - SDIO Function number (or CSR_SDIO_ANY_SDIO_FUNCTION). - * sdioInterface - SDIO Standard Interface Code (or CSR_SDIO_ANY_SDIO_INTERFACE) - * - *----------------------------------------------------------------------------*/ -typedef struct -{ - u16 manfId; /* Vendor ID to match or CSR_SDIO_ANY_MANF_ID */ - u16 cardId; /* Device ID to match or CSR_SDIO_ANY_CARD_ID */ - u8 sdioFunction; /* SDIO Function number to match or CSR_SDIO_ANY_SDIO_FUNCTION */ - u8 sdioInterface; /* SDIO Standard Interface Code to match or CSR_SDIO_ANY_SDIO_INTERFACE */ -} CsrSdioFunctionId; - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioFunction - * - * DESCRIPTION - * This structure represents a single function on a device. - * - * MEMBERS - * sdioId - A CsrSdioFunctionId describing this particular function. The - * subfield shall not contain any CsrSdioFunctionId wildcards. The - * subfields shall describe the specific single function - * represented by this structure. - * blockSize - Actual configured block size, or 0 if unconfigured. - * features - Bit mask with any of CSR_SDIO_FEATURE_* set. - * device - Handle of device containing the function. If two functions have - * the same device handle, they reside on the same device. - * driverData - For use by the Function Driver. The SDIO Driver shall not - * attempt to dereference the pointer. - * priv - For use by the SDIO Driver. The Function Driver shall not attempt - * to dereference the pointer. - * - * - *----------------------------------------------------------------------------*/ -typedef struct -{ - CsrSdioFunctionId sdioId; - u16 blockSize; /* Actual configured block size, or 0 if unconfigured */ - u32 features; /* Bit mask with any of CSR_SDIO_FEATURE_* set */ - void *device; /* Handle of device containing the function */ - void *driverData; /* For use by the Function Driver */ - void *priv; /* For use by the SDIO Driver */ -} CsrSdioFunction; - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioInsertedCallback, CsrSdioRemovedCallback - * - * DESCRIPTION - * CsrSdioInsertedCallback is called when a function becomes available to - * a registered Function Driver that supports the function. - * CsrSdioRemovedCallback is called when a function is no longer available - * to a Function Driver, either because the device has been removed, or the - * Function Driver has been unregistered. - * - * NOTE: These functions are implemented by the Function Driver, and are - * passed as function pointers in the CsrSdioFunctionDriver struct. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * - *----------------------------------------------------------------------------*/ -typedef void (*CsrSdioInsertedCallback)(CsrSdioFunction *function); -typedef void (*CsrSdioRemovedCallback)(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioInterruptDsrCallback, CsrSdioInterruptCallback - * - * DESCRIPTION - * CsrSdioInterruptCallback is called when an interrupt occurs on the - * the device associated with the specified function. - * - * NOTE: These functions are implemented by the Function Driver, and are - * passed as function pointers in the CsrSdioFunctionDriver struct. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * - * RETURNS (only CsrSdioInterruptCallback) - * A pointer to a CsrSdioInterruptDsrCallback function. - * - *----------------------------------------------------------------------------*/ -typedef void (*CsrSdioInterruptDsrCallback)(CsrSdioFunction *function); -typedef CsrSdioInterruptDsrCallback (*CsrSdioInterruptCallback)(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioSuspendCallback, CsrSdioResumeCallback - * - * DESCRIPTION - * CsrSdioSuspendCallback is called when the system is preparing to go - * into a suspended state. CsrSdioResumeCallback is called when the system - * has entered an active state again. - * - * NOTE: These functions are implemented by the Function Driver, and are - * passed as function pointers in the CsrSdioFunctionDriver struct. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * - *----------------------------------------------------------------------------*/ -typedef void (*CsrSdioSuspendCallback)(CsrSdioFunction *function); -typedef void (*CsrSdioResumeCallback)(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioAsyncCallback, CsrSdioAsyncDsrCallback - * - * DESCRIPTION - * CsrSdioAsyncCallback is called when an asynchronous operation completes. - * - * NOTE: These functions are implemented by the Function Driver, and are - * passed as function pointers in the function calls that initiate - * the operation. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * result - The result of the operation that completed. See the description - * of the initiating function for possible result values. - * - * RETURNS (only CsrSdioAsyncCallback) - * A pointer to a CsrSdioAsyncDsrCallback function. - * - *----------------------------------------------------------------------------*/ -typedef void (*CsrSdioAsyncDsrCallback)(CsrSdioFunction *function, CsrResult result); -typedef CsrSdioAsyncDsrCallback (*CsrSdioAsyncCallback)(CsrSdioFunction *function, CsrResult result); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioFunctionDriver - * - * DESCRIPTION - * Structure representing a Function Driver. - * - * MEMBERS - * inserted - Callback, see description of CsrSdioInsertedCallback. - * removed - Callback, see description of CsrSdioRemovedCallback. - * intr - Callback, see description of CsrSdioInterruptCallback. - * suspend - Callback, see description of CsrSdioSuspendCallback. - * resume - Callback, see description of CsrSdioResumeCallback. - * ids - Array of CsrSdioFunctionId describing one or more functions that - * are supported by the Function Driver. - * idsCount - Length of the ids array. - * priv - For use by the SDIO Driver. The Function Driver may initialise - * it to NULL, but shall otherwise not access the pointer or attempt - * to dereference it. - * - *----------------------------------------------------------------------------*/ -typedef struct -{ - CsrSdioInsertedCallback inserted; - CsrSdioRemovedCallback removed; - CsrSdioInterruptCallback intr; - CsrSdioSuspendCallback suspend; - CsrSdioResumeCallback resume; - CsrSdioFunctionId *ids; - u8 idsCount; - void *priv; /* For use by the SDIO Driver */ -} CsrSdioFunctionDriver; - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioFunctionDriverRegister - * - * DESCRIPTION - * Register a Function Driver. - * - * PARAMETERS - * functionDriver - Pointer to struct describing the Function Driver. - * - * RETURNS - * CSR_RESULT_SUCCESS - The Function Driver was successfully - * registered. - * CSR_RESULT_FAILURE - Unable to register the function driver, - * because of an unspecified/unknown error. The - * Function Driver has not been registered. - * CSR_SDIO_RESULT_INVALID_VALUE - The specified Function Driver pointer - * does not point at a valid Function - * Driver structure, or some of the members - * contain invalid entries. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioFunctionDriverRegister(CsrSdioFunctionDriver *functionDriver); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioFunctionDriverUnregister - * - * DESCRIPTION - * Unregister a previously registered Function Driver. - * - * PARAMETERS - * functionDriver - pointer to struct describing the Function Driver. - * - *----------------------------------------------------------------------------*/ -void CsrSdioFunctionDriverUnregister(CsrSdioFunctionDriver *functionDriver); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioFunctionEnable, CsrSdioFunctionDisable - * - * DESCRIPTION - * Enable/disable the specified function by setting/clearing the - * corresponding bit in the I/O Enable register in function 0, and then - * periodically reading the related bit in the I/O Ready register until it - * is set/clear, limited by an implementation defined timeout. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * - * RETURNS - * CSR_RESULT_SUCCESS - The specified function was enabled/disabled. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred. The state of the - * related bit in the I/O Enable register is - * undefined. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device, or the related - * bit in the I/O ready register was not - * set/cleared within the timeout period. - * - * NOTE: If the SDIO R5 response is available, and either of the - * FUNCTION_NUMBER or OUT_OF_RANGE bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE shall be returned. If the ERROR bit - * is set (but none of FUNCTION_NUMBER or OUT_OF_RANGE), - * CSR_RESULT_FAILURE shall be returned. The ILLEGAL_COMMAND and - * COM_CRC_ERROR bits shall be ignored. - * - * If the CSPI response is available, and any of the - * FUNCTION_DISABLED or CLOCK_DISABLED bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE will be returned. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioFunctionEnable(CsrSdioFunction *function); -CsrResult CsrSdioFunctionDisable(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioInterruptEnable, CsrSdioInterruptDisable - * - * DESCRIPTION - * Enable/disable the interrupt for the specified function by - * setting/clearing the corresponding bit in the INT Enable register in - * function 0. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * - * RETURNS - * CSR_RESULT_SUCCESS - The specified function was enabled/disabled. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred. The state of the - * related bit in the INT Enable register is - * unchanged. - * CSR_SDIO_RESULT_INVALID_VALUE - The specified function cannot be - * enabled/disabled, because it either - * does not exist or it is not possible to - * individually enable/disable functions. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device. - * - * NOTE: If the SDIO R5 response is available, and either of the - * FUNCTION_NUMBER or OUT_OF_RANGE bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE shall be returned. If the ERROR bit - * is set (but none of FUNCTION_NUMBER or OUT_OF_RANGE), - * CSR_RESULT_FAILURE shall be returned. The ILLEGAL_COMMAND and - * COM_CRC_ERROR bits shall be ignored. - * - * If the CSPI response is available, and any of the - * FUNCTION_DISABLED or CLOCK_DISABLED bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE will be returned. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioInterruptEnable(CsrSdioFunction *function); -CsrResult CsrSdioInterruptDisable(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioInterruptAcknowledge - * - * DESCRIPTION - * Acknowledge that a signalled interrupt has been handled. Shall only - * be called once, and exactly once for each signalled interrupt to the - * corresponding function. - * - * PARAMETERS - * function - Pointer to struct representing the function to which the - * event was signalled. - * - *----------------------------------------------------------------------------*/ -void CsrSdioInterruptAcknowledge(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioInsertedAcknowledge, CsrSdioRemovedAcknowledge - * - * DESCRIPTION - * Acknowledge that a signalled inserted/removed event has been handled. - * Shall only be called once, and exactly once for each signalled event to - * the corresponding function. - * - * PARAMETERS - * function - Pointer to struct representing the function to which the - * inserted was signalled. - * result (CsrSdioInsertedAcknowledge only) - * CSR_RESULT_SUCCESS - The Function Driver has accepted the - * function, and the function is attached to - * the Function Driver until the - * CsrSdioRemovedCallback is called and - * acknowledged. - * CSR_RESULT_FAILURE - Unable to accept the function. The - * function is not attached to the Function - * Driver, and it may be passed to another - * Function Driver which supports the - * function. - * - *----------------------------------------------------------------------------*/ -void CsrSdioInsertedAcknowledge(CsrSdioFunction *function, CsrResult result); -void CsrSdioRemovedAcknowledge(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioSuspendAcknowledge, CsrSdioResumeAcknowledge - * - * DESCRIPTION - * Acknowledge that a signalled suspend event has been handled. Shall only - * be called once, and exactly once for each signalled event to the - * corresponding function. - * - * PARAMETERS - * function - Pointer to struct representing the function to which the - * event was signalled. - * result - * CSR_RESULT_SUCCESS - Successfully suspended/resumed. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * - *----------------------------------------------------------------------------*/ -void CsrSdioSuspendAcknowledge(CsrSdioFunction *function, CsrResult result); -void CsrSdioResumeAcknowledge(CsrSdioFunction *function, CsrResult result); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioBlockSizeSet - * - * DESCRIPTION - * Set the block size to use for the function. The actual configured block - * size shall be the minimum of: - * 1) Maximum block size supported by the function. - * 2) Maximum block size supported by the host controller. - * 3) The block size specified by the blockSize argument. - * - * When this function returns, the actual configured block size is - * available in the blockSize member of the function struct. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * blockSize - Block size to use for the function. Valid range is 1 to - * 2048. - * - * RETURNS - * CSR_RESULT_SUCCESS - The block size register on the chip - * was updated. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_INVALID_VALUE - One or more arguments were invalid. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred. The configured block - * size is undefined. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device. - * - * NOTE: If the SDIO R5 response is available, and the FUNCTION_NUMBER - * bits is set, CSR_SDIO_RESULT_INVALID_VALUE shall be returned. - * If the ERROR bit is set (but not FUNCTION_NUMBER), - * CSR_RESULT_FAILURE shall be returned. The ILLEGAL_COMMAND and - * COM_CRC_ERROR bits shall be ignored. - * - * If the CSPI response is available, and any of the - * FUNCTION_DISABLED or CLOCK_DISABLED bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE will be returned. - * - * NOTE: Setting the block size requires two individual operations. The - * implementation shall ignore the OUT_OF_RANGE bit of the SDIO R5 - * response for the first operation, as the partially configured - * block size may be out of range, even if the final block size - * (after the second operation) is in the valid range. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioBlockSizeSet(CsrSdioFunction *function, u16 blockSize); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioMaxBusClockFrequencySet - * - * DESCRIPTION - * Set the maximum clock frequency to use for the device associated with - * the specified function. The actual configured clock frequency for the - * device shall be the minimum of: - * 1) Maximum clock frequency supported by the device. - * 2) Maximum clock frequency supported by the host controller. - * 3) Maximum clock frequency specified for any function on the same - * device. - * - * If the clock frequency exceeds 25MHz, it is the responsibility of the - * SDIO driver to enable high speed mode on the device, using the standard - * defined procedure, before increasing the frequency beyond the limit. - * - * Note that the clock frequency configured affects all functions on the - * same device. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * maxFrequency - The maximum clock frequency for the function in Hertz. - * - * RETURNS - * CSR_RESULT_SUCCESS - The maximum clock frequency was successfully - * set for the function. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_INVALID_VALUE - One or more arguments were invalid. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * - * NOTE: If the SDIO R5 response is available, and the FUNCTION_NUMBER - * bits is set, CSR_SDIO_RESULT_INVALID_VALUE shall be returned. - * If the ERROR bit is set (but not FUNCTION_NUMBER), - * CSR_RESULT_FAILURE shall be returned. The ILLEGAL_COMMAND and - * COM_CRC_ERROR bits shall be ignored. - * - * If the CSPI response is available, and any of the - * FUNCTION_DISABLED or CLOCK_DISABLED bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE will be returned. - * - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioMaxBusClockFrequencySet(CsrSdioFunction *function, u32 maxFrequency); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioRead8, CsrSdioWrite8, CsrSdioRead8Async, CsrSdioWrite8Async - * - * DESCRIPTION - * Read/write an 8bit value from/to the specified register address. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * address - Register address within the function. - * data - The data to read/write. - * callback - The function to call on operation completion. - * - * RETURNS - * CSR_RESULT_SUCCESS - The data was successfully read/written. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_INVALID_VALUE - One or more arguments were invalid. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred. No data read/written. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device. - * - * NOTE: If the SDIO R5 response is available, and either of the - * FUNCTION_NUMBER or OUT_OF_RANGE bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE shall be returned. If the ERROR bit - * is set (but none of FUNCTION_NUMBER or OUT_OF_RANGE), - * CSR_RESULT_FAILURE shall be returned. The ILLEGAL_COMMAND and - * COM_CRC_ERROR bits shall be ignored. - * - * If the CSPI response is available, and any of the - * FUNCTION_DISABLED or CLOCK_DISABLED bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE will be returned. - * - * NOTE: The CsrSdioRead8Async and CsrSdioWrite8Async functions return - * immediately, and the supplied callback function is called when the - * operation is complete. The result value is given as an argument to - * the callback function. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioRead8(CsrSdioFunction *function, u32 address, u8 *data); -CsrResult CsrSdioWrite8(CsrSdioFunction *function, u32 address, u8 data); -void CsrSdioRead8Async(CsrSdioFunction *function, u32 address, u8 *data, CsrSdioAsyncCallback callback); -void CsrSdioWrite8Async(CsrSdioFunction *function, u32 address, u8 data, CsrSdioAsyncCallback callback); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioRead16, CsrSdioWrite16, CsrSdioRead16Async, CsrSdioWrite16Async - * - * DESCRIPTION - * Read/write a 16bit value from/to the specified register address. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * address - Register address within the function. - * data - The data to read/write. - * callback - The function to call on operation completion. - * - * RETURNS - * CSR_RESULT_SUCCESS - The data was successfully read/written. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_INVALID_VALUE - One or more arguments were invalid. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred. Data may have been - * partially read/written. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device. - * - * NOTE: If the SDIO R5 response is available, and either of the - * FUNCTION_NUMBER or OUT_OF_RANGE bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE shall be returned. If the ERROR bit - * is set (but none of FUNCTION_NUMBER or OUT_OF_RANGE), - * CSR_RESULT_FAILURE shall be returned. The ILLEGAL_COMMAND and - * COM_CRC_ERROR bits shall be ignored. - * - * If the CSPI response is available, and any of the - * FUNCTION_DISABLED or CLOCK_DISABLED bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE will be returned. - * - * NOTE: The CsrSdioRead16Async and CsrSdioWrite16Async functions return - * immediately, and the supplied callback function is called when the - * operation is complete. The result value is given as an argument to - * the callback function. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioRead16(CsrSdioFunction *function, u32 address, u16 *data); -CsrResult CsrSdioWrite16(CsrSdioFunction *function, u32 address, u16 data); -void CsrSdioRead16Async(CsrSdioFunction *function, u32 address, u16 *data, CsrSdioAsyncCallback callback); -void CsrSdioWrite16Async(CsrSdioFunction *function, u32 address, u16 data, CsrSdioAsyncCallback callback); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioF0Read8, CsrSdioF0Write8, CsrSdioF0Read8Async, - * CsrSdioF0Write8Async - * - * DESCRIPTION - * Read/write an 8bit value from/to the specified register address in - * function 0. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * address - Register address within the function. - * data - The data to read/write. - * callback - The function to call on operation completion. - * - * RETURNS - * CSR_RESULT_SUCCESS - The data was successfully read/written. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_INVALID_VALUE - One or more arguments were invalid. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred. No data read/written. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device. - * - * NOTE: If the SDIO R5 response is available, and either of the - * FUNCTION_NUMBER or OUT_OF_RANGE bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE shall be returned. If the ERROR bit - * is set (but none of FUNCTION_NUMBER or OUT_OF_RANGE), - * CSR_RESULT_FAILURE shall be returned. The ILLEGAL_COMMAND and - * COM_CRC_ERROR bits shall be ignored. - * - * If the CSPI response is available, and any of the - * FUNCTION_DISABLED or CLOCK_DISABLED bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE will be returned. - * - * NOTE: The CsrSdioF0Read8Async and CsrSdioF0Write8Async functions return - * immediately, and the supplied callback function is called when the - * operation is complete. The result value is given as an argument to - * the callback function. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioF0Read8(CsrSdioFunction *function, u32 address, u8 *data); -CsrResult CsrSdioF0Write8(CsrSdioFunction *function, u32 address, u8 data); -void CsrSdioF0Read8Async(CsrSdioFunction *function, u32 address, u8 *data, CsrSdioAsyncCallback callback); -void CsrSdioF0Write8Async(CsrSdioFunction *function, u32 address, u8 data, CsrSdioAsyncCallback callback); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioRead, CsrSdioWrite, CsrSdioReadAsync, CsrSdioWriteAsync - * - * DESCRIPTION - * Read/write a specified number of bytes from/to the specified register - * address. - * - * PARAMETERS - * function - Pointer to struct representing the function. - * address - Register address within the function. - * data - The data to read/write. - * length - Number of byte to read/write. - * callback - The function to call on operation completion. - * - * RETURNS - * CSR_RESULT_SUCCESS - The data was successfully read/written. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_INVALID_VALUE - One or more arguments were invalid. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred. Data may have been - * partially read/written. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device. - * - * NOTE: If the SDIO R5 response is available, and either of the - * FUNCTION_NUMBER or OUT_OF_RANGE bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE shall be returned. If the ERROR bit - * is set (but none of FUNCTION_NUMBER or OUT_OF_RANGE), - * CSR_RESULT_FAILURE shall be returned. The ILLEGAL_COMMAND and - * COM_CRC_ERROR bits shall be ignored. - * - * If the CSPI response is available, and any of the - * FUNCTION_DISABLED or CLOCK_DISABLED bits are set, - * CSR_SDIO_RESULT_INVALID_VALUE will be returned. - * - * NOTE: The CsrSdioF0Read8Async and CsrSdioF0Write8Async functions return - * immediately, and the supplied callback function is called when the - * operation is complete. The result value is given as an argument to - * the callback function. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioRead(CsrSdioFunction *function, u32 address, void *data, u32 length); -CsrResult CsrSdioWrite(CsrSdioFunction *function, u32 address, const void *data, u32 length); -void CsrSdioReadAsync(CsrSdioFunction *function, u32 address, void *data, u32 length, CsrSdioAsyncCallback callback); -void CsrSdioWriteAsync(CsrSdioFunction *function, u32 address, const void *data, u32 length, CsrSdioAsyncCallback callback); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioPowerOn, CsrSdioPowerOff - * - * DESCRIPTION - * Power on/off the device. - * - * PARAMETERS - * function - Pointer to struct representing the function that resides on - * the device to power on/off. - * - * RETURNS (only CsrSdioPowerOn) - * CSR_RESULT_SUCCESS - Power was successfully reapplied and the device - * has been reinitialised. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred during reinitialisation. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device during - * reinitialisation. - * CSR_SDIO_RESULT_NOT_RESET - The power was not removed by the - * CsrSdioPowerOff call. The state of the - * device is unchanged. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioPowerOn(CsrSdioFunction *function); -void CsrSdioPowerOff(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioHardReset - * - * DESCRIPTION - * Perform a hardware reset of the device. - * - * PARAMETERS - * function - Pointer to struct representing the function that resides on - * the device to hard reset. - * - * RETURNS - * CSR_RESULT_SUCCESS - Reset was successfully performed and the device - * has been reinitialised. - * CSR_RESULT_FAILURE - Unspecified/unknown error. - * CSR_SDIO_RESULT_NO_DEVICE - The device does not exist anymore. - * CSR_SDIO_RESULT_CRC_ERROR - A CRC error occurred during reinitialisation. - * CSR_SDIO_RESULT_TIMEOUT - No response from the device during - * reinitialisation. - * CSR_SDIO_RESULT_NOT_RESET - The reset was not applied because it is not - * supported. The state of the device is - * unchanged. - * - *----------------------------------------------------------------------------*/ -CsrResult CsrSdioHardReset(CsrSdioFunction *function); - -/*----------------------------------------------------------------------------* - * NAME - * CsrSdioFunctionActive, CsrSdioFunctionIdle - * - * DESCRIPTION - * - * PARAMETERS - * function - Pointer to struct representing the function. - * - *----------------------------------------------------------------------------*/ -void CsrSdioFunctionActive(CsrSdioFunction *function); -void CsrSdioFunctionIdle(CsrSdioFunction *function); - -#endif diff --git a/drivers/staging/csr/csr_serialize_primitive_types.c b/drivers/staging/csr/csr_serialize_primitive_types.c deleted file mode 100644 index 9713b9a..0000000 --- a/drivers/staging/csr/csr_serialize_primitive_types.c +++ /dev/null @@ -1,100 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include <linux/module.h> -#include <linux/slab.h> -#include "csr_prim_defs.h" -#include "csr_msgconv.h" -#include "csr_macro.h" - -void CsrUint8Des(u8 *value, u8 *buffer, size_t *offset) -{ - *value = buffer[*offset]; - *offset += sizeof(*value); -} -EXPORT_SYMBOL_GPL(CsrUint8Des); - -void CsrUint16Des(u16 *value, u8 *buffer, size_t *offset) -{ - *value = (buffer[*offset + 0] << 0) | - (buffer[*offset + 1] << 8); - *offset += sizeof(*value); -} -EXPORT_SYMBOL_GPL(CsrUint16Des); - -void CsrUint32Des(u32 *value, u8 *buffer, size_t *offset) -{ - *value = (buffer[*offset + 0] << 0) | - (buffer[*offset + 1] << 8) | - (buffer[*offset + 2] << 16) | - (buffer[*offset + 3] << 24); - *offset += sizeof(*value); -} -EXPORT_SYMBOL_GPL(CsrUint32Des); - -void CsrMemCpyDes(void *value, u8 *buffer, size_t *offset, size_t length) -{ - memcpy(value, &buffer[*offset], length); - *offset += length; -} -EXPORT_SYMBOL_GPL(CsrMemCpyDes); - -void CsrCharStringDes(char **value, u8 *buffer, size_t *offset) -{ - *value = kstrdup((char *) &buffer[*offset], GFP_KERNEL); - *offset += strlen(*value) + 1; -} -EXPORT_SYMBOL_GPL(CsrCharStringDes); - -void CsrUint8Ser(u8 *buffer, size_t *offset, u8 value) -{ - buffer[*offset] = value; - *offset += sizeof(value); -} -EXPORT_SYMBOL_GPL(CsrUint8Ser); - -void CsrUint16Ser(u8 *buffer, size_t *offset, u16 value) -{ - buffer[*offset + 0] = (u8) ((value >> 0) & 0xFF); - buffer[*offset + 1] = (u8) ((value >> 8) & 0xFF); - *offset += sizeof(value); -} -EXPORT_SYMBOL_GPL(CsrUint16Ser); - -void CsrUint32Ser(u8 *buffer, size_t *offset, u32 value) -{ - buffer[*offset + 0] = (u8) ((value >> 0) & 0xFF); - buffer[*offset + 1] = (u8) ((value >> 8) & 0xFF); - buffer[*offset + 2] = (u8) ((value >> 16) & 0xFF); - buffer[*offset + 3] = (u8) ((value >> 24) & 0xFF); - *offset += sizeof(value); -} -EXPORT_SYMBOL_GPL(CsrUint32Ser); - -void CsrMemCpySer(u8 *buffer, size_t *offset, const void *value, size_t length) -{ - memcpy(&buffer[*offset], value, length); - *offset += length; -} -EXPORT_SYMBOL_GPL(CsrMemCpySer); - -void CsrCharStringSer(u8 *buffer, size_t *offset, const char *value) -{ - if (value) - { - strcpy(((char *) &buffer[*offset]), value); - *offset += strlen(value) + 1; - } - else - { - CsrUint8Ser(buffer, offset, 0); - } -} -EXPORT_SYMBOL_GPL(CsrCharStringSer); diff --git a/drivers/staging/csr/csr_time.c b/drivers/staging/csr/csr_time.c deleted file mode 100644 index 01179e4..0000000 --- a/drivers/staging/csr/csr_time.c +++ /dev/null @@ -1,33 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include <linux/kernel.h> -#include <linux/time.h> -#include <linux/module.h> - -#include "csr_time.h" - -u32 CsrTimeGet(u32 *high) -{ - struct timespec ts; - u64 time; - u32 low; - - ts = current_kernel_time(); - time = (u64) ts.tv_sec * 1000000 + ts.tv_nsec / 1000; - - if (high != NULL) - *high = (u32) ((time >> 32) & 0xFFFFFFFF); - - low = (u32) (time & 0xFFFFFFFF); - - return low; -} -EXPORT_SYMBOL_GPL(CsrTimeGet); diff --git a/drivers/staging/csr/csr_time.h b/drivers/staging/csr/csr_time.h deleted file mode 100644 index fc29e8e..0000000 --- a/drivers/staging/csr/csr_time.h +++ /dev/null @@ -1,76 +0,0 @@ -#ifndef CSR_TIME_H__ -#define CSR_TIME_H__ -/***************************************************************************** - -(c) Cambridge Silicon Radio Limited 2010 -All rights reserved and confidential information of CSR - -Refer to LICENSE.txt included with this source for details -on the license terms. - -*****************************************************************************/ - -#include <linux/types.h> - -/******************************************************************************* - -NAME - CsrTimeGet - -DESCRIPTION - Returns the current system time in a low and a high part. The low part - is expressed in microseconds. The high part is incremented when the low - part wraps to provide an extended range. - - The caller may provide a NULL pointer as the high parameter. - In this case the function just returns the low part and ignores the - high parameter. - - Although the time is expressed in microseconds the actual resolution is - platform dependent and can be less. It is recommended that the - resolution is at least 10 milliseconds. - -PARAMETERS - high - Pointer to variable that will receive the high part of the - current system time. Passing NULL is valid. - -RETURNS - Low part of current system time in microseconds. - -*******************************************************************************/ -u32 CsrTimeGet(u32 *high); - - -/*------------------------------------------------------------------*/ -/* CsrTime Macros */ -/*------------------------------------------------------------------*/ - -/*----------------------------------------------------------------------------* - * NAME - * CsrTimeAdd - * - * DESCRIPTION - * Add two time values. Adding the numbers can overflow the range of a - * CsrTime, so the user must be cautious. - * - * RETURNS - * CsrTime - the sum of "t1" and "t2". - * - *----------------------------------------------------------------------------*/ -#define CsrTimeAdd(t1, t2) ((t1) + (t2)) - -/*----------------------------------------------------------------------------* - * NAME - * CsrTimeSub - * - * DESCRIPTION - * Subtract two time values. Subtracting the numbers can provoke an - * underflow, so the user must be cautious. - * - * RETURNS - * CsrTime - "t1" - "t2". - * - *----------------------------------------------------------------------------*/ -#define CsrTimeSub(t1, t2) ((s32) (t1) - (s32) (t2)) - -#endif diff --git a/drivers/staging/csr/csr_util.c b/drivers/staging/csr/csr_util.c deleted file mode 100644 index c3aa9d5..0000000 --- a/drivers/staging/csr/csr_util.c +++ /dev/null @@ -1,15 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include <linux/module.h> - -MODULE_DESCRIPTION("CSR Operating System Kernel Abstraction"); -MODULE_AUTHOR("Cambridge Silicon Radio Ltd."); -MODULE_LICENSE("GPL and additional rights"); diff --git a/drivers/staging/csr/csr_wifi_common.h b/drivers/staging/csr/csr_wifi_common.h deleted file mode 100644 index efc43a5..0000000 --- a/drivers/staging/csr/csr_wifi_common.h +++ /dev/null @@ -1,101 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_COMMON_H__ -#define CSR_WIFI_COMMON_H__ - -#include <linux/types.h> -#include "csr_result.h" - -/* MAC address */ -typedef struct -{ - u8 a[6]; -} CsrWifiMacAddress; - -/* IPv4 address */ -typedef struct -{ - u8 a[4]; -} CsrWifiIp4Address; - -/* IPv6 address */ -typedef struct -{ - u8 a[16]; -} CsrWifiIp6Address; - -typedef struct -{ - u8 ssid[32]; - u8 length; -} CsrWifiSsid; - -/******************************************************************************* - - DESCRIPTION - Result values used on the Wifi Interfaces - - VALUES - CSR_RESULT_SUCCESS - - The request/procedure succeeded - CSR_RESULT_FAILURE - - The request/procedure did not succeed because of an error - CSR_WIFI_RESULT_NOT_FOUND - - The request did not succeed because some resource was not - found. - CSR_WIFI_RESULT_TIMED_OUT - - The request/procedure did not succeed because of a time out - CSR_WIFI_RESULT_CANCELLED - - The request was canceled due to another conflicting - request that was issued before this one was completed - CSR_WIFI_RESULT_INVALID_PARAMETER - - The request/procedure did not succeed because it had an - invalid parameter - CSR_WIFI_RESULT_NO_ROOM - - The request did not succeed due to a lack of resources, - e.g. out of memory problem. - CSR_WIFI_RESULT_UNSUPPORTED - - The request/procedure did not succeed because the feature - is not supported yet - CSR_WIFI_RESULT_UNAVAILABLE - - The request cannot be processed at this time - CSR_WIFI_RESULT_WIFI_OFF - - The requested action is not available because Wi-Fi is - currently off - CSR_WIFI_RESULT_SECURITY_ERROR - - The request/procedure did not succeed because of a security - error - CSR_WIFI_RESULT_MIB_SET_FAILURE - - MIB Set Failure: either the MIB OID to be written to does - not exist or the MIB Value is invalid. - CSR_WIFI_RESULT_INVALID_INTERFACE_TAG - - The supplied Interface Tag is not valid. - CSR_WIFI_RESULT_P2P_NOA_CONFIG_CONFLICT - - The new NOA configuration conflicts with the existing NOA configuration - hence not accepted" -*******************************************************************************/ -#define CSR_WIFI_RESULT_NOT_FOUND ((CsrResult) 0x0001) -#define CSR_WIFI_RESULT_TIMED_OUT ((CsrResult) 0x0002) -#define CSR_WIFI_RESULT_CANCELLED ((CsrResult) 0x0003) -#define CSR_WIFI_RESULT_INVALID_PARAMETER ((CsrResult) 0x0004) -#define CSR_WIFI_RESULT_NO_ROOM ((CsrResult) 0x0005) -#define CSR_WIFI_RESULT_UNSUPPORTED ((CsrResult) 0x0006) -#define CSR_WIFI_RESULT_UNAVAILABLE ((CsrResult) 0x0007) -#define CSR_WIFI_RESULT_WIFI_OFF ((CsrResult) 0x0008) -#define CSR_WIFI_RESULT_SECURITY_ERROR ((CsrResult) 0x0009) -#define CSR_WIFI_RESULT_MIB_SET_FAILURE ((CsrResult) 0x000A) -#define CSR_WIFI_RESULT_INVALID_INTERFACE_TAG ((CsrResult) 0x000B) -#define CSR_WIFI_RESULT_P2P_NOA_CONFIG_CONFLICT ((CsrResult) 0x000C) - -#define CSR_WIFI_VERSION "5.1.0.0" - -#endif - diff --git a/drivers/staging/csr/csr_wifi_fsm.h b/drivers/staging/csr/csr_wifi_fsm.h deleted file mode 100644 index fc5c5aa..0000000 --- a/drivers/staging/csr/csr_wifi_fsm.h +++ /dev/null @@ -1,240 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_FSM_H -#define CSR_WIFI_FSM_H - -#include "csr_prim_defs.h" -#include "csr_log_text.h" -#include "csr_wifi_fsm_event.h" - -/* including this file for CsrWifiInterfaceMode*/ -#include "csr_wifi_common.h" - -#define CSR_WIFI_FSM_ENV (0xFFFF) - -/** - * @brief - * Toplevel FSM context data - * - * @par Description - * Holds ALL FSM static and dynamic data for a FSM - */ -typedef struct CsrWifiFsmContext CsrWifiFsmContext; - -/** - * @brief - * FSM External Wakeup CallbackFunction Pointer - * - * @par Description - * Defines the external wakeup function for the FSM - * to call when an external event is injected into the systen - * - * @param[in] context : External context - * - * @return - * void - */ -typedef void (*CsrWifiFsmExternalWakupCallbackPtr)(void *context); - -/** - * @brief - * Initialises a top level FSM context - * - * @par Description - * Initialises the FSM Context to an initial state and allocates - * space for "maxProcesses" number of instances - * - * @param[in] osaContext : OSA context - * @param[in] applicationContext : Internal fsm application context - * @param[in] externalContext : External context - * @param[in] maxProcesses : Max processes to allocate room for - * - * @return - * CsrWifiFsmContext* fsm context - */ -extern CsrWifiFsmContext* CsrWifiFsmInit(void *applicationContext, void *externalContext, u16 maxProcesses, CsrLogTextTaskId loggingTaskId); - -/** - * @brief - * Resets the FSM's back to first conditions - * - * @par Description - * This function is used to free any dynamic resources allocated for the - * given context by CsrWifiFsmInit(). - * The FSM's reset function is called to cleanup any fsm specific memory - * The reset function does NOT need to free the fsm data pointer as - * CsrWifiFsmShutdown() will do it. - * the FSM's init function is call again to reinitialise the FSM context. - * CsrWifiFsmReset() should NEVER be called when CsrWifiFsmExecute() is running. - * - * @param[in] context : FSM context - * - * @return - * void - */ -extern void CsrWifiFsmReset(CsrWifiFsmContext *context); - -/** - * @brief - * Frees resources allocated by CsrWifiFsmInit - * - * @par Description - * This function is used to free any dynamic resources allocated for the - * given context by CsrWifiFsmInit(), prior to complete termination of - * the program. - * The FSM's reset function is called to cleanup any fsm specific memory. - * The reset function does NOT need to free the fsm data pointer as - * CsrWifiFsmShutdown() will do it. - * CsrWifiFsmShutdown() should NEVER be called when CsrWifiFsmExecute() is running. - * - * @param[in] context : FSM context - * - * @return - * void - */ -extern void CsrWifiFsmShutdown(CsrWifiFsmContext *context); - -/** - * @brief - * Executes the fsm context - * - * @par Description - * Executes the FSM context and runs until ALL events in the context are processed. - * When no more events are left to process then CsrWifiFsmExecute() returns to a time - * specifying when to next call the CsrWifiFsmExecute() - * Scheduling, threading, blocking and external event notification are outside - * the scope of the FSM and CsrWifiFsmExecute(). - * - * @param[in] context : FSM context - * - * @return - * u32 Time in ms until next timeout or 0xFFFFFFFF for no timer set - */ -extern u32 CsrWifiFsmExecute(CsrWifiFsmContext *context); - -/** - * @brief - * Adds an event to the FSM context's external event queue for processing - * - * @par Description - * Adds an event to the contexts external queue - * This is thread safe and adds an event to the fsm's external event queue. - * - * @param[in] context : FSM context - * @param[in] event : event to add to the event queue - * @param[in] source : source of the event (this can be a synergy task queue or an fsm instance id) - * @param[in] destination : destination of the event (This can be a fsm instance id or CSR_WIFI_FSM_ENV) - * @param[in] id : event id - * - * @return - * void - */ -extern void CsrWifiFsmSendEventExternal(CsrWifiFsmContext *context, CsrWifiFsmEvent *event, u16 source, u16 destination, CsrPrim primtype, u16 id); - -/** - * @brief - * Adds an Alien event to the FSM context's external event queue for processing - * - * @par Description - * Adds an event to the contexts external queue - * This is thread safe and adds an event to the fsm's external event queue. - * - * @param[in] context : FSM context - * @param[in] event : event to add to the event queue - * @param[in] source : source of the event (this can be a synergy task queue or an fsm instance id) - * @param[in] destination : destination of the event (This can be a fsm instance id or CSR_WIFI_FSM_ENV) - * @param[in] id : event id - */ -#define CsrWifiFsmSendAlienEventExternal(_context, _alienEvent, _source, _destination, _primtype, _id) \ - { \ - CsrWifiFsmAlienEvent *_evt = kmalloc(sizeof(CsrWifiFsmAlienEvent), GFP_KERNEL); \ - _evt->alienEvent = _alienEvent; \ - CsrWifiFsmSendEventExternal(_context, (CsrWifiFsmEvent *)_evt, _source, _destination, _primtype, _id); \ - } - - -/** - * @brief - * Current time of day in ms - * - * @param[in] context : FSM context - * - * @return - * u32 32 bit ms tick - */ -extern u32 CsrWifiFsmGetTimeOfDayMs(CsrWifiFsmContext *context); - -/** - * @brief - * Gets the time until the next FSM timer expiry - * - * @par Description - * Returns the next timeout time or 0 if no timers are set. - * - * @param[in] context : FSM context - * - * @return - * u32 Time in ms until next timeout or 0xFFFFFFFF for no timer set - */ -extern u32 CsrWifiFsmGetNextTimeout(CsrWifiFsmContext *context); - -/** - * @brief - * Fast forwards the fsm timers by ms Milliseconds - * - * @param[in] context : FSM context - * @param[in] ms : Milliseconds to fast forward by - * - * @return - * void - */ -extern void CsrWifiFsmFastForward(CsrWifiFsmContext *context, u16 ms); - -/** - * @brief - * shift the current time of day by ms amount - * - * @par Description - * useful to speed up tests where time needs to pass - * - * @param[in] context : FSM context - * @param[in] ms : ms to adjust time by - * - * @return - * void - */ -extern void CsrWifiFsmTestAdvanceTime(CsrWifiFsmContext *context, u32 ms); - -/** - * @brief - * Check if the fsm has events to process - * - * @param[in] context : FSM context - * - * @return - * u8 returns TRUE if there are events for the FSM to process - */ -extern u8 CsrWifiFsmHasEvents(CsrWifiFsmContext *context); - -/** - * @brief - * function that installs the contexts wakeup function - * - * @param[in] context : FSM context - * @param[in] callback : Callback function pointer - * - * @return - * void - */ -extern void CsrWifiFsmInstallWakeupCallback(CsrWifiFsmContext *context, CsrWifiFsmExternalWakupCallbackPtr callback); - -#endif /* CSR_WIFI_FSM_H */ - diff --git a/drivers/staging/csr/csr_wifi_fsm_event.h b/drivers/staging/csr/csr_wifi_fsm_event.h deleted file mode 100644 index 0690ca9..0000000 --- a/drivers/staging/csr/csr_wifi_fsm_event.h +++ /dev/null @@ -1,42 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_FSM_EVENT_H -#define CSR_WIFI_FSM_EVENT_H - -#include "csr_prim_defs.h" -#include "csr_sched.h" - -/** - * @brief - * FSM event header. - * - * @par Description - * All events MUST have this struct as the FIRST member. - * The next member is used internally for linked lists - */ -typedef struct CsrWifiFsmEvent -{ - CsrPrim type; - u16 primtype; - CsrSchedQid destination; - CsrSchedQid source; - - /* Private pointer to allow an optimal Event list */ - /* NOTE: Ignore this pointer. - * Do not waste code initializing OR freeing it. - * The pointer is used internally in the CsrWifiFsm code - * to avoid a second malloc when queuing events. - */ - struct CsrWifiFsmEvent *next; -} CsrWifiFsmEvent; - -#endif /* CSR_WIFI_FSM_EVENT_H */ - diff --git a/drivers/staging/csr/csr_wifi_fsm_types.h b/drivers/staging/csr/csr_wifi_fsm_types.h deleted file mode 100644 index d21c60a..0000000 --- a/drivers/staging/csr/csr_wifi_fsm_types.h +++ /dev/null @@ -1,430 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_FSM_TYPES_H -#define CSR_WIFI_FSM_TYPES_H - -#include <linux/types.h> -#include "csr_macro.h" -#include "csr_sched.h" - -#ifdef CSR_WIFI_FSM_MUTEX_ENABLE -#include "csr_framework_ext.h" -#endif - -#include "csr_wifi_fsm.h" - -#define CSR_WIFI_FSM_MAX_TRANSITION_HISTORY 10 - -/** - * @brief - * FSM event list header. - * - * @par Description - * Singly linked list of events. - */ -typedef struct CsrWifiFsmEventList -{ - CsrWifiFsmEvent *first; - CsrWifiFsmEvent *last; -} CsrWifiFsmEventList; - - -/** - * @brief - * FSM timer id. - * - * @par Description - * Composite Id made up of the type, dest and a unique id so - * CsrWifiFsmRemoveTimer knows where to look when removing the timer - */ -typedef struct CsrWifiFsmTimerId -{ - CsrPrim type; - u16 primtype; - CsrSchedQid destination; - u16 uniqueid; -} CsrWifiFsmTimerId; - -/** - * @brief - * FSM timer header. - * - * @par Description - * All timer MUST have this struct as the FIRST member. - * The first members of the structure MUST remain compatable - * with the CsrWifiFsmEvent so that timers are just specialised events - */ -typedef struct CsrWifiFsmTimer -{ - CsrPrim type; - u16 primtype; - CsrSchedQid destination; - CsrSchedQid source; - - /* Private pointer to allow an optimal Event list */ - struct CsrWifiFsmTimer *next; - - CsrWifiFsmTimerId timerid; - u32 timeoutTimeMs; -} CsrWifiFsmTimer; - - -/** - * @brief - * Fsm Alien Event - * - * @par Description - * Allows the wrapping of alien events that do not use CsrWifiFsmEvent - * as the first member of the Event struct - */ -typedef struct -{ - CsrWifiFsmEvent event; - void *alienEvent; -} CsrWifiFsmAlienEvent; - - -/** - * @brief - * FSM timer list header. - * - * @par Description - * Singly linked list of timers. - */ -typedef struct CsrWifiFsmTimerList -{ - CsrWifiFsmTimer *first; - CsrWifiFsmTimer *last; - u16 nexttimerid; -} CsrWifiFsmTimerList; - -/** - * @brief - * Process Entry Function Pointer - * - * @par Description - * Defines the entry function for a processes. - * Called at process initialisation. - * - * @param[in] context : FSM context - * - * @return - * void - */ -typedef void (*CsrWifiFsmProcEntryFnPtr)(CsrWifiFsmContext *context); - -/** - * @brief - * Process Transition Function Pointer - * - * @par Description - * Defines a transition function for a processes. - * Called when an event causes a transition on a process - * - * @param[in] CsrWifiFsmContext* : FSM context - * @param[in] void* : FSM data (can be NULL) - * @param[in] const CsrWifiFsmEvent* : event to process - * - * @return - * void - */ -typedef void (*CsrWifiFsmTransitionFnPtr)(CsrWifiFsmContext *context, void *fsmData, const CsrWifiFsmEvent *event); - -/** - * @brief - * Process reset/shutdown Function Pointer - * - * @par Description - * Defines the reset/shutdown function for a processes. - * Called to reset or shutdown an fsm. - * - * @param[in] context : FSM context - * - * @return - * void - */ -typedef void (*CsrWifiFsmProcResetFnPtr)(CsrWifiFsmContext *context); - -/** - * @brief - * FSM Default Destination CallbackFunction Pointer - * - * @par Description - * Defines the default destination function for the FSM - * to call when an event does not have a valid destination. - * This - * - * @param[in] context : External context - * - * @return - * u16 a valid destination OR CSR_WIFI_FSM_ENV - */ -typedef u16 (*CsrWifiFsmDestLookupCallbackPtr)(void *context, const CsrWifiFsmEvent *event); - - -#ifdef CSR_WIFI_FSM_DUMP_ENABLE -/** - * @brief - * Trace Dump Function Pointer - * - * @par Description - * Called when we want to trace the FSM - * - * @param[in] context : FSM context - * @param[in] id : fsm id - * - * @return - * void - */ -typedef void (*CsrWifiFsmDumpFnPtr)(CsrWifiFsmContext *context, void *fsmData); -#endif - -/** - * @brief - * Event ID to transition function entry - * - * @par Description - * Event ID to Transition Entry in a state table. - */ -typedef struct -{ - u32 eventid; - CsrWifiFsmTransitionFnPtr transition; -#ifdef CSR_LOG_ENABLE - const char *transitionName; -#endif -} CsrWifiFsmEventEntry; - -/** - * @brief - * Single State's Transition Table - * - * @par Description - * Stores Data for a single State's event to - * transition functions mapping - */ -typedef struct -{ - const u8 numEntries; - const u8 saveAll; - const CsrWifiFsmEventEntry *eventEntryArray; /* array of transition function pointers for state */ -#ifdef CSR_LOG_ENABLE - u16 stateNumber; - const char *stateName; -#endif -} CsrWifiFsmTableEntry; - -/** - * @brief - * Process State Transtion table - * - * @par Description - * Stores Data for a processes State to transition table - */ -typedef struct -{ - u16 numStates; /* number of states */ - const CsrWifiFsmTableEntry *aStateEventMatrix; /* state event matrix */ -} CsrWifiFsmTransitionFunctionTable; - -/** - * @brief - * Const Process definition - * - * @par Description - * Constant process specification. - * This is ALL the non dynamic data that defines - * a process. - */ -typedef struct -{ - const char *processName; - const u32 processId; - const CsrWifiFsmTransitionFunctionTable transitionTable; - const CsrWifiFsmTableEntry unhandledTransitions; - const CsrWifiFsmTableEntry ignoreFunctions; - const CsrWifiFsmProcEntryFnPtr entryFn; - const CsrWifiFsmProcResetFnPtr resetFn; -#ifdef CSR_WIFI_FSM_DUMP_ENABLE - const CsrWifiFsmDumpFnPtr dumpFn; /* Called to dump fsm specific trace if not NULL */ -#endif -} CsrWifiFsmProcessStateMachine; - -#ifdef CSR_WIFI_FSM_DUMP_ENABLE -/** - * @brief - * Storage for state transition info - */ -typedef struct -{ - u16 transitionNumber; - CsrWifiFsmEvent event; - u16 fromState; - u16 toState; - CsrWifiFsmTransitionFnPtr transitionFn; - u16 transitionCount; /* number consecutive of times this transition was seen */ -#ifdef CSR_LOG_ENABLE - const char *transitionName; -#endif -} CsrWifiFsmTransitionRecord; - -/** - * @brief - * Storage for the last state X transitions - */ -typedef struct -{ - u16 numTransitions; - CsrWifiFsmTransitionRecord records[CSR_WIFI_FSM_MAX_TRANSITION_HISTORY]; -} CsrWifiFsmTransitionRecords; -#endif - -/** - * @brief - * Dynamic Process data - * - * @par Description - * Dynamic process data that is used to keep track of the - * state and data for a process instance - */ -typedef struct -{ - const CsrWifiFsmProcessStateMachine *fsmInfo; /* state machine info that is constant regardless of context */ - u16 instanceId; /* Runtime process id */ - u16 state; /* Current state */ - void *params; /* Instance user data */ - CsrWifiFsmEventList savedEventQueue; /* The saved event queue */ - struct CsrWifiFsmInstanceEntry *subFsm; /* Sub Fsm instance data */ - struct CsrWifiFsmInstanceEntry *subFsmCaller; /* The Fsm instance that created the SubFsm and should be used for callbacks*/ -#ifdef CSR_WIFI_FSM_DUMP_ENABLE - CsrWifiFsmTransitionRecords transitionRecords; /* Last X transitions in the FSM */ -#endif -} CsrWifiFsmInstanceEntry; - -/** - * @brief - * OnCreate Callback Function Pointer - * - * @par Description - * Called when an fsm is created. - * - * @param[in] extContext : External context - * @param[in] instance : FSM instance - * - * @return - * void - */ -typedef void (*CsrWifiFsmOnCreateFnPtr)(void *extContext, const CsrWifiFsmInstanceEntry *instance); - -/** - * @brief - * OnTransition Callback Function Pointer - * - * @par Description - * Called when an event is processed by a fsm - * - * @param[in] extContext : External context - * @param[in] eventEntryArray : Entry data - * @param[in] event : Event - * - * @return - * void - */ -typedef void (*CsrWifiFsmOnTransitionFnPtr)(void *extContext, const CsrWifiFsmEventEntry *eventEntryArray, const CsrWifiFsmEvent *event); - -/** - * @brief - * OnStateChange Callback Function Pointer - * - * @par Description - * Called when CsrWifiFsmNextState is called - * - * @param[in] extContext : External context - * - * @return - * void - */ -typedef void (*CsrWifiFsmOnStateChangeFnPtr)(void *extContext, u16 nextstate); - -/** - * @brief - * OnIgnore,OnError or OnInvalid Callback Function Pointer - * - * @par Description - * Called when an event is processed by a fsm - * - * @param[in] extContext : External context - * @param[in] event : Event - * - * @return - * void - */ -typedef void (*CsrWifiFsmOnEventFnPtr)(void *extContext, const CsrWifiFsmEvent *event); - -/** - * @brief - * Toplevel FSM context data - * - * @par Description - * Holds ALL FSM static and dynamic data for a FSM - */ -struct CsrWifiFsmContext -{ - CsrWifiFsmEventList eventQueue; /* The internal event queue */ - CsrWifiFsmEventList externalEventQueue; /* The external event queue */ -#ifdef CSR_WIFI_FSM_MUTEX_ENABLE - CsrMutexHandle externalEventQueueLock; /* The external event queue mutex */ -#endif - u32 timeOffset; /* Amount to adjust the TimeOfDayMs by */ - CsrWifiFsmTimerList timerQueue; /* The internal timer queue */ - u8 useTempSaveList; /* Should the temp save list be used */ - CsrWifiFsmEventList tempSaveList; /* The temp save event queue */ - CsrWifiFsmEvent *eventForwardedOrSaved; /* The event that was forwarded or Saved */ - u16 maxProcesses; /* Size of instanceArray */ - u16 numProcesses; /* Current number allocated in instanceArray */ - CsrWifiFsmInstanceEntry *instanceArray; /* Array of processes for this component */ - CsrWifiFsmInstanceEntry *ownerInstance; /* The Process that owns currentInstance (SubFsm support) */ - CsrWifiFsmInstanceEntry *currentInstance; /* Current Process that is executing */ - CsrWifiFsmExternalWakupCallbackPtr externalEventFn; /* External event Callback */ - CsrWifiFsmOnEventFnPtr appIgnoreCallback; /* Application Ignore event Callback */ - CsrWifiFsmDestLookupCallbackPtr appEvtDstCallback; /* Application Lookup event Destination Function*/ - - void *applicationContext; /* Internal fsm application context */ - void *externalContext; /* External context (set by the user of the fsm)*/ - CsrLogTextTaskId loggingTaskId; /* Task Id to use in any logging output */ - -#ifndef CSR_WIFI_FSM_SCHEDULER_DISABLED - CsrSchedTid schedTimerId; /* Scheduler TimerId for use in Scheduler Tasks */ - u32 schedTimerNexttimeoutMs; /* Next timeout time for the current timer */ -#endif - -#ifdef CSR_WIFI_FSM_MUTEX_ENABLE -#ifdef CSR_WIFI_FSM_TRANSITION_LOCK - CsrMutexHandle transitionLock; /* Lock when calling transition functions */ -#endif -#endif - -#ifdef CSR_LOG_ENABLE - CsrWifiFsmOnCreateFnPtr onCreate; /* Debug Transition Callback */ - CsrWifiFsmOnTransitionFnPtr onTransition; /* Debug Transition Callback */ - CsrWifiFsmOnTransitionFnPtr onUnhandedCallback; /* Unhanded event Callback */ - CsrWifiFsmOnStateChangeFnPtr onStateChange; /* Debug State Change Callback */ - CsrWifiFsmOnEventFnPtr onIgnoreCallback; /* Ignore event Callback */ - CsrWifiFsmOnEventFnPtr onSaveCallback; /* Save event Callback */ - CsrWifiFsmOnEventFnPtr onErrorCallback; /* Error event Callback */ - CsrWifiFsmOnEventFnPtr onInvalidCallback; /* Invalid event Callback */ -#endif -#ifdef CSR_WIFI_FSM_DUMP_ENABLE - u16 masterTransitionNumber; /* Increments on every transition */ -#endif -}; - -#endif /* CSR_WIFI_FSM_TYPES_H */ diff --git a/drivers/staging/csr/csr_wifi_hip_card.h b/drivers/staging/csr/csr_wifi_hip_card.h deleted file mode 100644 index bd47f60..0000000 --- a/drivers/staging/csr/csr_wifi_hip_card.h +++ /dev/null @@ -1,114 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - ****************************************************************************** - * FILE : csr_wifi_hip_card.h - * - * PURPOSE : Defines abstract interface for hardware specific functions. - * Note, this is a different file from one of the same name in the - * Windows driver. - * - ***************************************************************************** - */ -#ifndef __CARD_H__ -#define __CARD_H__ - -#include "csr_wifi_hip_card_sdio.h" -#include "csr_wifi_hip_signals.h" -#include "csr_wifi_hip_unifi_udi.h" - - -/***************************************************************************** - * CardEnableInt - - */ -CsrResult CardEnableInt(card_t *card); - -/***************************************************************************** - * CardGenInt - - */ -CsrResult CardGenInt(card_t *card); - -/***************************************************************************** - * CardPendingInt - - */ -CsrResult CardPendingInt(card_t *card, u8 *pintr); - -/***************************************************************************** - * CardDisableInt - - */ -CsrResult CardDisableInt(card_t *card); - -/***************************************************************************** - * CardClearInt - - */ -CsrResult CardClearInt(card_t *card); - -/***************************************************************************** - * CardDisable - - */ -void CardDisable(card_t *card); - -/***************************************************************************** - * CardIntEnabled - - */ -CsrResult CardIntEnabled(card_t *card, u8 *enabled); - -/***************************************************************************** - * CardGetDataSlotSize - */ -u16 CardGetDataSlotSize(card_t *card); - -/***************************************************************************** - * CardWriteBulkData - - */ -CsrResult CardWriteBulkData(card_t *card, card_signal_t *csptr, unifi_TrafficQueue queue); - - -/***************************************************************************** - * CardClearFromHostDataSlot - - */ -void CardClearFromHostDataSlot(card_t *card, const s16 aSlotNum); - -#ifdef CSR_WIFI_REQUEUE_PACKET_TO_HAL -/***************************************************************************** - * CardClearFromHostDataSlotWithoutFreeingBulkData - Clear the data stot - * without freeing the bulk data - */ - -void CardClearFromHostDataSlotWithoutFreeingBulkData(card_t *card, const s16 aSlotNum); -#endif - -/***************************************************************************** - * CardGetFreeFromHostDataSlots - - */ -u16 CardGetFreeFromHostDataSlots(card_t *card); - -u16 CardAreAllFromHostDataSlotsEmpty(card_t *card); - -CsrResult card_start_processor(card_t *card, enum unifi_dbg_processors_select which); - -CsrResult card_wait_for_firmware_to_start(card_t *card, u32 *paddr); - -CsrResult unifi_dl_firmware(card_t *card, void *arg); -CsrResult unifi_dl_patch(card_t *card, void *arg, u32 boot_ctrl); -CsrResult unifi_do_loader_op(card_t *card, u32 op_addr, u8 opcode); -void* unifi_dl_fw_read_start(card_t *card, s8 is_fw); - -CsrResult unifi_coredump_handle_request(card_t *card); - -CsrResult ConvertCsrSdioToCsrHipResult(card_t *card, CsrResult csrResult); -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -void unifi_debug_log_to_buf(const char *fmt, ...); -void unifi_debug_string_to_buf(const char *str); -void unifi_debug_hex_to_buf(const char *buff, u16 length); -#endif - -#endif /* __CARD_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_card_sdio.c b/drivers/staging/csr/csr_wifi_hip_card_sdio.c deleted file mode 100644 index d542532..0000000 --- a/drivers/staging/csr/csr_wifi_hip_card_sdio.c +++ /dev/null @@ -1,4001 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_card_sdio.c - * - * PURPOSE: Implementation of the Card API for SDIO. - * - * NOTES: - * CardInit() is called from the SDIO probe callback when a card is - * inserted. This performs the basic SDIO initialisation, enabling i/o - * etc. - * - * --------------------------------------------------------------------------- - */ -#include <linux/slab.h> -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" -#include "csr_wifi_hip_unifiversion.h" -#include "csr_wifi_hip_card.h" -#include "csr_wifi_hip_card_sdio.h" -#include "csr_wifi_hip_chiphelper.h" - - -/* Time to wait between attempts to read MAILBOX0 */ -#define MAILBOX1_TIMEOUT 10 /* in millisecs */ -#define MAILBOX1_ATTEMPTS 200 /* 2 seconds */ - -#define MAILBOX2_TIMEOUT 5 /* in millisecs */ -#define MAILBOX2_ATTEMPTS 10 /* 50ms */ - -#define RESET_SETTLE_DELAY 25 /* in millisecs */ - -static CsrResult card_init_slots(card_t *card); -static CsrResult card_hw_init(card_t *card); -static CsrResult firmware_present_in_flash(card_t *card); -static void bootstrap_chip_hw(card_t *card); -static CsrResult unifi_reset_hardware(card_t *card); -static CsrResult unifi_hip_init(card_t *card); -static CsrResult card_access_panic(card_t *card); -static CsrResult unifi_read_chip_version(card_t *card); - -/* - * --------------------------------------------------------------------------- - * unifi_alloc_card - * - * Allocate and initialise the card context structure. - * - * Arguments: - * sdio Pointer to SDIO context pointer to pass to low - * level i/o functions. - * ospriv Pointer to O/S private struct to pass when calling - * callbacks to the higher level system. - * - * Returns: - * Pointer to card struct, which represents the driver context or - * NULL if the allocation failed. - * --------------------------------------------------------------------------- - */ -card_t* unifi_alloc_card(CsrSdioFunction *sdio, void *ospriv) -{ - card_t *card; - u32 i; - - - card = kzalloc(sizeof(card_t), GFP_KERNEL); - if (card == NULL) - { - return NULL; - } - - card->sdio_if = sdio; - card->ospriv = ospriv; - - card->unifi_interrupt_seq = 1; - - /* Make these invalid. */ - card->proc_select = (u32)(-1); - card->dmem_page = (u32)(-1); - card->pmem_page = (u32)(-1); - - card->bh_reason_host = 0; - card->bh_reason_unifi = 0; - - for (i = 0; i < sizeof(card->tx_q_paused_flag) / sizeof(card->tx_q_paused_flag[0]); i++) - { - card->tx_q_paused_flag[i] = 0; - } - card->memory_resources_allocated = 0; - - card->low_power_mode = UNIFI_LOW_POWER_DISABLED; - card->periodic_wake_mode = UNIFI_PERIODIC_WAKE_HOST_DISABLED; - - card->host_state = UNIFI_HOST_STATE_AWAKE; - card->intmode = CSR_WIFI_INTMODE_DEFAULT; - - /* - * Memory resources for buffers are allocated when the chip is initialised - * because we need configuration information from the firmware. - */ - - /* - * Initialise wait queues and lists - */ - card->fh_command_queue.q_body = card->fh_command_q_body; - card->fh_command_queue.q_length = UNIFI_SOFT_COMMAND_Q_LENGTH; - - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - card->fh_traffic_queue[i].q_body = card->fh_traffic_q_body[i]; - card->fh_traffic_queue[i].q_length = UNIFI_SOFT_TRAFFIC_Q_LENGTH; - } - - - /* Initialise mini-coredump pointers in case no coredump buffers - * are requested by the OS layer. - */ - card->request_coredump_on_reset = 0; - card->dump_next_write = NULL; - card->dump_cur_read = NULL; - card->dump_buf = NULL; - -#ifdef UNIFI_DEBUG - /* Determine offset of LSB in pointer for later alignment sanity check. - * Synergy integer types have specific widths, which cause compiler - * warnings when casting pointer types, e.g. on 64-bit systems. - */ - { - u32 val = 0x01234567; - - if (*((u8 *)&val) == 0x01) - { - card->lsb = sizeof(void *) - 1; /* BE */ - } - else - { - card->lsb = 0; /* LE */ - } - } -#endif - return card; -} /* unifi_alloc_card() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_init_card - * - * Reset the hardware and perform HIP initialization - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CsrResult code - * CSR_RESULT_SUCCESS if successful - * --------------------------------------------------------------------------- - */ -CsrResult unifi_init_card(card_t *card, s32 led_mask) -{ - CsrResult r; - - - if (card == NULL) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - r = unifi_init(card); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - r = unifi_hip_init(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to start host protocol.\n"); - return r; - } - - return CSR_RESULT_SUCCESS; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_init - * - * Init the hardware. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CsrResult code - * CSR_RESULT_SUCCESS if successful - * --------------------------------------------------------------------------- - */ -CsrResult unifi_init(card_t *card) -{ - CsrResult r; - CsrResult csrResult; - - if (card == NULL) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* - * Disable the SDIO interrupts while initialising UniFi. - * Re-enable them when f/w is running. - */ - csrResult = CsrSdioInterruptDisable(card->sdio_if); - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - - /* - * UniFi's PLL may start with a slow clock (~ 1 MHz) so initially - * set the SDIO bus clock to a similar value or SDIO accesses may - * fail. - */ - csrResult = CsrSdioMaxBusClockFrequencySet(card->sdio_if, UNIFI_SDIO_CLOCK_SAFE_HZ); - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - return r; - } - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_SAFE_HZ; - - /* - * Reset UniFi. Note, this only resets the WLAN function part of the chip, - * the SDIO interface is not reset. - */ - unifi_trace(card->ospriv, UDBG1, "Resetting UniFi\n"); - r = unifi_reset_hardware(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to reset UniFi\n"); - return r; - } - - /* Reset the power save mode, to be active until the MLME-reset is complete */ - r = unifi_configure_low_power_mode(card, - UNIFI_LOW_POWER_DISABLED, UNIFI_PERIODIC_WAKE_HOST_DISABLED); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to set power save mode\n"); - return r; - } - - /* - * Set initial value of page registers. - * The page registers will be maintained by unifi_read...() and - * unifi_write...(). - */ - card->proc_select = (u32)(-1); - card->dmem_page = (u32)(-1); - card->pmem_page = (u32)(-1); - r = unifi_write_direct16(card, ChipHelper_HOST_WINDOW3_PAGE(card->helper) * 2, 0); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write SHARED_DMEM_PAGE\n"); - return r; - } - r = unifi_write_direct16(card, ChipHelper_HOST_WINDOW2_PAGE(card->helper) * 2, 0); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write PROG_MEM2_PAGE\n"); - return r; - } - - /* - * If the driver has reset UniFi due to previous SDIO failure, this may - * have been due to a chip watchdog reset. In this case, the driver may - * have requested a mini-coredump which needs to be captured now the - * SDIO interface is alive. - */ - (void)unifi_coredump_handle_request(card); - - /* - * Probe to see if the UniFi has ROM/flash to boot from. CSR6xxx should do. - */ - r = firmware_present_in_flash(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r == CSR_WIFI_HIP_RESULT_NOT_FOUND) - { - unifi_error(card->ospriv, "No firmware found\n"); - } - else if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Probe for Flash failed\n"); - } - - return r; -} /* unifi_init() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_download - * - * Load the firmware. - * - * Arguments: - * card Pointer to card struct - * led_mask Loader LED mask - * - * Returns: - * CSR_RESULT_SUCCESS on success - * CsrResult error code on failure. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_download(card_t *card, s32 led_mask) -{ - CsrResult r; - void *dlpriv; - - if (card == NULL) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* Set the loader led mask */ - card->loader_led_mask = led_mask; - - /* Get the firmware file information */ - unifi_trace(card->ospriv, UDBG1, "downloading firmware...\n"); - - dlpriv = unifi_dl_fw_read_start(card, UNIFI_FW_STA); - if (dlpriv == NULL) - { - return CSR_WIFI_HIP_RESULT_NOT_FOUND; - } - - /* Download the firmware. */ - r = unifi_dl_firmware(card, dlpriv); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to download firmware\n"); - return r; - } - - /* Free the firmware file information. */ - unifi_fw_read_stop(card->ospriv, dlpriv); - - return CSR_RESULT_SUCCESS; -} /* unifi_download() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_hip_init - * - * This function performs the f/w initialisation sequence as described - * in the Unifi Host Interface Protocol Specification. - * It allocates memory for host-side slot data and signal queues. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS on success or else a CSR error code - * - * Notes: - * The firmware must have been downloaded. - * --------------------------------------------------------------------------- - */ -static CsrResult unifi_hip_init(card_t *card) -{ - CsrResult r; - CsrResult csrResult; - - r = card_hw_init(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to establish communication with UniFi\n"); - return r; - } -#ifdef CSR_PRE_ALLOC_NET_DATA - /* if there is any preallocated netdata left from the prev session free it now */ - prealloc_netdata_free(card); -#endif - /* - * Allocate memory for host-side slot data and signal queues. - * We need the config info read from the firmware to know how much - * memory to allocate. - */ - r = card_init_slots(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Init slots failed: %d\n", r); - return r; - } - - unifi_trace(card->ospriv, UDBG2, "Sending first UniFi interrupt\n"); - - r = unifi_set_host_state(card, UNIFI_HOST_STATE_AWAKE); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - /* Enable the SDIO interrupts now that the f/w is running. */ - csrResult = CsrSdioInterruptEnable(card->sdio_if); - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - - /* Signal the UniFi to start handling messages */ - r = CardGenInt(card); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_hip_init() */ - - -/* - * --------------------------------------------------------------------------- - * _build_sdio_config_data - * - * Unpack the SDIO configuration information from a buffer read from - * UniFi into a host structure. - * The data is byte-swapped for a big-endian host if necessary by the - * UNPACK... macros. - * - * Arguments: - * card Pointer to card struct - * cfg_data Destination structure to unpack into. - * cfg_data_buf Source buffer to read from. This should be the raw - * data read from UniFi. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void _build_sdio_config_data(sdio_config_data_t *cfg_data, - const u8 *cfg_data_buf) -{ - s16 offset = 0; - - cfg_data->version = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->sdio_ctrl_offset = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->fromhost_sigbuf_handle = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->tohost_sigbuf_handle = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->num_fromhost_sig_frags = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->num_tohost_sig_frags = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->num_fromhost_data_slots = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->num_tohost_data_slots = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->data_slot_size = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->initialised = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->overlay_size = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT32; - - cfg_data->data_slot_round = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->sig_frag_size = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); - offset += SIZEOF_UINT16; - - cfg_data->tohost_signal_padding = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cfg_data_buf + offset); -} /* _build_sdio_config_data() */ - - -/* - * - Function ---------------------------------------------------------------- - * card_hw_init() - * - * Perform the initialisation procedure described in the UniFi Host - * Interface Protocol document (section 3.3.8) and read the run-time - * configuration information from the UniFi. This is stuff like number - * of bulk data slots etc. - * - * The card enumeration and SD initialisation has already been done by - * the SDIO library, see card_sdio_init(). - * - * The initialisation is done when firmware is ready, i.e. this may need - * to be called after a f/w download operation. - * - * The initialisation procedure goes like this: - * - Wait for UniFi to start-up by polling SHARED_MAILBOX1 - * - Find the symbol table and look up SLT_SDIO_SLOT_CONFIG - * - Read the config structure - * - Check the "SDIO initialised" flag, if not zero do a h/w reset and - * start again - * - Decide the number of bulk data slots to allocate, allocate them and - * set "SDIO initialised" flag (and generate an interrupt) to say so. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCEESS on success, - * a CSR error code on failure - * - * Notes: - * All data in the f/w is stored in a little endian format, without any - * padding bytes. Every read from this memory has to be transformed in - * host (cpu specific) format, before it is stored in driver's parameters - * or/and structures. Athough unifi_card_read16() and unifi_read32() do perform - * the conversion internally, unifi_readn() does not. - * --------------------------------------------------------------------------- - */ -static CsrResult card_hw_init(card_t *card) -{ - u32 slut_address; - u16 initialised; - u16 finger_print; - symbol_t slut; - sdio_config_data_t *cfg_data; - u8 cfg_data_buf[SDIO_CONFIG_DATA_SIZE]; - CsrResult r; - void *dlpriv; - s16 major, minor; - s16 search_4slut_again; - CsrResult csrResult; - - /* - * The device revision from the TPLMID_MANF and TPLMID_CARD fields - * of the CIS are available as - * card->sdio_if->pDevice->ManfID - * card->sdio_if->pDevice->AppID - */ - - /* - * Run in a loop so we can patch. - */ - do - { - /* Reset these each time around the loop. */ - search_4slut_again = 0; - cfg_data = NULL; - - r = card_wait_for_firmware_to_start(card, &slut_address); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Firmware hasn't started\n"); - return r; - } - unifi_trace(card->ospriv, UDBG4, "SLUT addr 0x%lX\n", slut_address); - - /* - * Firmware has started, but doesn't know full clock configuration yet - * as some of the information may be in the MIB. Therefore we set an - * initial SDIO clock speed, faster than UNIFI_SDIO_CLOCK_SAFE_HZ, for - * the patch download and subsequent firmware initialisation, and - * full speed UNIFI_SDIO_CLOCK_MAX_HZ will be set once the f/w tells us - * that it is ready. - */ - csrResult = CsrSdioMaxBusClockFrequencySet(card->sdio_if, UNIFI_SDIO_CLOCK_INIT_HZ); - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - return r; - } - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_INIT_HZ; - - /* - * Check the SLUT fingerprint. - * The slut_address is a generic pointer so we must use unifi_card_read16(). - */ - unifi_trace(card->ospriv, UDBG4, "Looking for SLUT finger print\n"); - finger_print = 0; - r = unifi_card_read16(card, slut_address, &finger_print); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read SLUT finger print\n"); - return r; - } - - if (finger_print != SLUT_FINGERPRINT) - { - unifi_error(card->ospriv, "Failed to find Symbol lookup table fingerprint\n"); - return CSR_RESULT_FAILURE; - } - - /* Symbol table starts imedately after the fingerprint */ - slut_address += 2; - - /* Search the table until either the end marker is found, or the - * loading of patch firmware invalidates the current table. - */ - while (!search_4slut_again) - { - u16 s; - u32 l; - - r = unifi_card_read16(card, slut_address, &s); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - slut_address += 2; - - if (s == CSR_SLT_END) - { - unifi_trace(card->ospriv, UDBG3, " found CSR_SLT_END\n"); - break; - } - - r = unifi_read32(card, slut_address, &l); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - slut_address += 4; - - slut.id = s; - slut.obj = l; - - unifi_trace(card->ospriv, UDBG3, " found SLUT id %02d.%08lx\n", slut.id, slut.obj); - switch (slut.id) - { - case CSR_SLT_SDIO_SLOT_CONFIG: - cfg_data = &card->config_data; - /* - * unifi_card_readn reads n bytes from the card, where data is stored - * in a little endian format, without any padding bytes. So, we - * can not just pass the cfg_data pointer or use the - * sizeof(sdio_config_data_t) since the structure in the host can - * be big endian formatted or have padding bytes for alignment. - * We use a char buffer to read the data from the card. - */ - r = unifi_card_readn(card, slut.obj, cfg_data_buf, SDIO_CONFIG_DATA_SIZE); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read config data\n"); - return r; - } - /* .. and then we copy the data to the host structure */ - _build_sdio_config_data(cfg_data, cfg_data_buf); - - /* Make sure the from host data slots are what we expect - we reserve 2 for commands and there should be at least - 1 left for each access category */ - if ((cfg_data->num_fromhost_data_slots < UNIFI_RESERVED_COMMAND_SLOTS) - || (cfg_data->num_fromhost_data_slots - UNIFI_RESERVED_COMMAND_SLOTS) / UNIFI_NO_OF_TX_QS == 0) - { - unifi_error(card->ospriv, "From host data slots %d\n", cfg_data->num_fromhost_data_slots); - unifi_error(card->ospriv, "need to be (queues * x + 2) (UNIFI_RESERVED_COMMAND_SLOTS for commands)\n"); - return CSR_RESULT_FAILURE; - } - - /* Configure SDIO to-block-size padding */ - if (card->sdio_io_block_pad) - { - /* - * Firmware limits the maximum padding size via data_slot_round. - * Therefore when padding to whole block sizes, the block size - * must be configured correctly by adjusting CSR_WIFI_HIP_SDIO_BLOCK_SIZE. - */ - if (cfg_data->data_slot_round < card->sdio_io_block_size) - { - unifi_error(card->ospriv, - "Configuration error: Block size of %d exceeds f/w data_slot_round of %d\n", - card->sdio_io_block_size, cfg_data->data_slot_round); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* - * To force the To-Host signals to be rounded up to the SDIO block - * size, we need to write the To-Host Signal Padding Fragments - * field of the SDIO configuration in UniFi. - */ - if ((card->sdio_io_block_size % cfg_data->sig_frag_size) != 0) - { - unifi_error(card->ospriv, "Configuration error: Can not pad to-host signals.\n"); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - cfg_data->tohost_signal_padding = (u16) (card->sdio_io_block_size / cfg_data->sig_frag_size); - unifi_info(card->ospriv, "SDIO block size %d requires %d padding chunks\n", - card->sdio_io_block_size, cfg_data->tohost_signal_padding); - r = unifi_card_write16(card, slut.obj + SDIO_TO_HOST_SIG_PADDING_OFFSET, cfg_data->tohost_signal_padding); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write To-Host Signal Padding Fragments\n"); - return r; - } - } - - /* Reconstruct the Generic Pointer address of the - * SDIO Control Data Struct. - */ - card->sdio_ctrl_addr = cfg_data->sdio_ctrl_offset | (UNIFI_SH_DMEM << 24); - card->init_flag_addr = slut.obj + SDIO_INIT_FLAG_OFFSET; - break; - - case CSR_SLT_BUILD_ID_NUMBER: - { - u32 n; - r = unifi_read32(card, slut.obj, &n); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read build id\n"); - return r; - } - card->build_id = n; - } - break; - - case CSR_SLT_BUILD_ID_STRING: - r = unifi_readnz(card, slut.obj, card->build_id_string, - sizeof(card->build_id_string)); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read build string\n"); - return r; - } - break; - - case CSR_SLT_PERSISTENT_STORE_DB: - break; - - case CSR_SLT_BOOT_LOADER_CONTROL: - - /* This command copies most of the station firmware - * image from ROM into program RAM. It also clears - * out the zerod data and sets up the initialised - * data. */ - r = unifi_do_loader_op(card, slut.obj + 6, UNIFI_BOOT_LOADER_LOAD_STA); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write loader load image command\n"); - return r; - } - - dlpriv = unifi_dl_fw_read_start(card, UNIFI_FW_STA); - - /* dlpriv might be NULL, we still need to do the do_loader_op step. */ - if (dlpriv != NULL) - { - /* Download the firmware. */ - r = unifi_dl_patch(card, dlpriv, slut.obj); - - /* Free the firmware file information. */ - unifi_fw_read_stop(card->ospriv, dlpriv); - - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to patch firmware\n"); - return r; - } - } - - /* This command starts the firmware image that we want (the - * station by default) with any patches required applied. */ - r = unifi_do_loader_op(card, slut.obj + 6, UNIFI_BOOT_LOADER_RESTART); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write loader restart command\n"); - return r; - } - - /* The now running patch f/w defines a new SLUT data structure - - * the current one is no longer valid. We must drop out of the - * processing loop and enumerate the new SLUT (which may appear - * at a different offset). - */ - search_4slut_again = 1; - break; - - case CSR_SLT_PANIC_DATA_PHY: - card->panic_data_phy_addr = slut.obj; - break; - - case CSR_SLT_PANIC_DATA_MAC: - card->panic_data_mac_addr = slut.obj; - break; - - default: - /* do nothing */ - break; - } - } /* while */ - } while (search_4slut_again); - - /* Did we find the Config Data ? */ - if (cfg_data == NULL) - { - unifi_error(card->ospriv, "Failed to find SDIO_SLOT_CONFIG Symbol\n"); - return CSR_RESULT_FAILURE; - } - - /* - * Has ths card already been initialised? - * If so, return an error so we do a h/w reset and start again. - */ - r = unifi_card_read16(card, card->init_flag_addr, &initialised); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read init flag at %08lx\n", - card->init_flag_addr); - return r; - } - if (initialised != 0) - { - return CSR_RESULT_FAILURE; - } - - - /* - * Now check the UniFi firmware version - */ - major = (cfg_data->version >> 8) & 0xFF; - minor = cfg_data->version & 0xFF; - unifi_info(card->ospriv, "UniFi f/w protocol version %d.%d (driver %d.%d)\n", - major, minor, - UNIFI_HIP_MAJOR_VERSION, UNIFI_HIP_MINOR_VERSION); - - unifi_info(card->ospriv, "Firmware build %u: %s\n", - card->build_id, card->build_id_string); - - if (major != UNIFI_HIP_MAJOR_VERSION) - { - unifi_error(card->ospriv, "UniFi f/w protocol major version (%d) is different from driver (v%d.%d)\n", - major, UNIFI_HIP_MAJOR_VERSION, UNIFI_HIP_MINOR_VERSION); -#ifndef CSR_WIFI_DISABLE_HIP_VERSION_CHECK - return CSR_RESULT_FAILURE; -#endif - } - if (minor < UNIFI_HIP_MINOR_VERSION) - { - unifi_error(card->ospriv, "UniFi f/w protocol version (v%d.%d) is older than minimum required by driver (v%d.%d).\n", - major, minor, - UNIFI_HIP_MAJOR_VERSION, UNIFI_HIP_MINOR_VERSION); -#ifndef CSR_WIFI_DISABLE_HIP_VERSION_CHECK - return CSR_RESULT_FAILURE; -#endif - } - - /* Read panic codes from a previous firmware panic. If the firmware has - * not panicked since power was applied (e.g. power-off hard reset) - * the stored panic codes will not be updated. - */ - unifi_read_panic(card); - - return CSR_RESULT_SUCCESS; -} /* card_hw_init() */ - - -/* - * --------------------------------------------------------------------------- - * card_wait_for_unifi_to_reset - * - * Waits for a reset to complete by polling the WLAN function enable - * bit (which is cleared on reset). - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on failure. - * --------------------------------------------------------------------------- - */ -static CsrResult card_wait_for_unifi_to_reset(card_t *card) -{ - s16 i; - CsrResult r; - u8 io_enable; - CsrResult csrResult; - - r = CSR_RESULT_SUCCESS; - for (i = 0; i < MAILBOX2_ATTEMPTS; i++) - { - unifi_trace(card->ospriv, UDBG1, "waiting for reset to complete, attempt %d\n", i); - if (card->chip_id > SDIO_CARD_ID_UNIFI_2) - { - /* It's quite likely that this read will timeout for the - * first few tries - especially if we have reset via - * DBG_RESET. - */ -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("m0@%02X=", SDIO_IO_READY); -#endif - csrResult = CsrSdioF0Read8(card->sdio_if, SDIO_IO_READY, &io_enable); -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_debug_log_to_buf("error=%X\n", csrResult); - } - else - { - unifi_debug_log_to_buf("%X\n", io_enable); - } -#endif - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - r = CSR_RESULT_SUCCESS; - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - } - } - else - { - r = sdio_read_f0(card, SDIO_IO_ENABLE, &io_enable); - } - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r == CSR_RESULT_SUCCESS) - { - u16 mbox2; - s16 enabled = io_enable & (1 << card->function); - - if (!enabled) - { - unifi_trace(card->ospriv, UDBG1, - "Reset complete (function %d is disabled) in ~ %u msecs\n", - card->function, i * MAILBOX2_TIMEOUT); - - /* Enable WLAN function and verify MAILBOX2 is zero'd */ - csrResult = CsrSdioFunctionEnable(card->sdio_if); - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - unifi_error(card->ospriv, "CsrSdioFunctionEnable failed %d\n", r); - break; - } - } - - r = unifi_read_direct16(card, ChipHelper_SDIO_HIP_HANDSHAKE(card->helper) * 2, &mbox2); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "read HIP_HANDSHAKE failed %d\n", r); - break; - } - if (mbox2 != 0) - { - unifi_error(card->ospriv, "MAILBOX2 non-zero after reset (mbox2 = %04x)\n", mbox2); - r = CSR_RESULT_FAILURE; - } - break; - } - else - { - if (card->chip_id > SDIO_CARD_ID_UNIFI_2) - { - /* We ignore read failures for the first few reads, - * they are probably benign. */ - if (i > MAILBOX2_ATTEMPTS / 4) - { - unifi_trace(card->ospriv, UDBG1, "Failed to read CCCR IO Ready register while polling for reset\n"); - } - } - else - { - unifi_trace(card->ospriv, UDBG1, "Failed to read CCCR IO Enable register while polling for reset\n"); - } - } - CsrThreadSleep(MAILBOX2_TIMEOUT); - } - - if (r == CSR_RESULT_SUCCESS && i == MAILBOX2_ATTEMPTS) - { - unifi_trace(card->ospriv, UDBG1, "Timeout waiting for UniFi to complete reset\n"); - r = CSR_RESULT_FAILURE; - } - - return r; -} /* card_wait_for_unifi_to_reset() */ - - -/* - * --------------------------------------------------------------------------- - * card_wait_for_unifi_to_disable - * - * Waits for the function to become disabled by polling the - * IO_READY bit. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on failure. - * - * Notes: This function can only be used with - * card->chip_id > SDIO_CARD_ID_UNIFI_2 - * --------------------------------------------------------------------------- - */ -static CsrResult card_wait_for_unifi_to_disable(card_t *card) -{ - s16 i; - CsrResult r; - u8 io_enable; - CsrResult csrResult; - - if (card->chip_id <= SDIO_CARD_ID_UNIFI_2) - { - unifi_error(card->ospriv, - "Function reset method not supported for chip_id=%d\n", - card->chip_id); - return CSR_RESULT_FAILURE; - } - - r = CSR_RESULT_SUCCESS; - for (i = 0; i < MAILBOX2_ATTEMPTS; i++) - { - unifi_trace(card->ospriv, UDBG1, "waiting for disable to complete, attempt %d\n", i); - - /* - * It's quite likely that this read will timeout for the - * first few tries - especially if we have reset via - * DBG_RESET. - */ -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("r0@%02X=", SDIO_IO_READY); -#endif - csrResult = CsrSdioF0Read8(card->sdio_if, SDIO_IO_READY, &io_enable); -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_debug_log_to_buf("error=%X\n", csrResult); - } - else - { - unifi_debug_log_to_buf("%X\n", io_enable); - } -#endif - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - if (csrResult == CSR_RESULT_SUCCESS) - { - s16 enabled = io_enable & (1 << card->function); - r = CSR_RESULT_SUCCESS; - if (!enabled) - { - unifi_trace(card->ospriv, UDBG1, - "Disable complete (function %d is disabled) in ~ %u msecs\n", - card->function, i * MAILBOX2_TIMEOUT); - - break; - } - } - else - { - /* - * We ignore read failures for the first few reads, - * they are probably benign. - */ - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - if (i > (MAILBOX2_ATTEMPTS / 4)) - { - unifi_trace(card->ospriv, UDBG1, - "Failed to read CCCR IO Ready register while polling for disable\n"); - } - } - CsrThreadSleep(MAILBOX2_TIMEOUT); - } - - if ((r == CSR_RESULT_SUCCESS) && (i == MAILBOX2_ATTEMPTS)) - { - unifi_trace(card->ospriv, UDBG1, "Timeout waiting for UniFi to complete disable\n"); - r = CSR_RESULT_FAILURE; - } - - return r; -} /* card_wait_for_unifi_to_reset() */ - - -/* - * --------------------------------------------------------------------------- - * card_wait_for_firmware_to_start - * - * Polls the MAILBOX1 register for a non-zero value. - * Then reads MAILBOX0 and forms the two values into a 32-bit address - * which is returned to the caller. - * - * Arguments: - * card Pointer to card struct - * paddr Pointer to receive the UniFi address formed - * by concatenating MAILBOX1 and MAILBOX0. - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on failure. - * --------------------------------------------------------------------------- - */ -CsrResult card_wait_for_firmware_to_start(card_t *card, u32 *paddr) -{ - s32 i; - u16 mbox0, mbox1; - CsrResult r; - - /* - * Wait for UniFi to initialise its data structures by polling - * the SHARED_MAILBOX1 register. - * Experience shows this is typically 120ms. - */ - CsrThreadSleep(MAILBOX1_TIMEOUT); - - mbox1 = 0; - unifi_trace(card->ospriv, UDBG1, "waiting for MAILBOX1 to be non-zero...\n"); - for (i = 0; i < MAILBOX1_ATTEMPTS; i++) - { - r = unifi_read_direct16(card, ChipHelper_MAILBOX1(card->helper) * 2, &mbox1); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - /* These reads can fail if UniFi isn't up yet, so try again */ - unifi_warning(card->ospriv, "Failed to read UniFi Mailbox1 register\n"); - } - - if ((r == CSR_RESULT_SUCCESS) && (mbox1 != 0)) - { - unifi_trace(card->ospriv, UDBG1, "MAILBOX1 ready (0x%04X) in %u millisecs\n", - mbox1, i * MAILBOX1_TIMEOUT); - - /* Read the MAILBOX1 again in case we caught the value as it - * changed. */ - r = unifi_read_direct16(card, ChipHelper_MAILBOX1(card->helper) * 2, &mbox1); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read UniFi Mailbox1 register for second time\n"); - return r; - } - unifi_trace(card->ospriv, UDBG1, "MAILBOX1 value=0x%04X\n", mbox1); - - break; - } - - CsrThreadSleep(MAILBOX1_TIMEOUT); - if ((i % 100) == 99) - { - unifi_trace(card->ospriv, UDBG2, "MAILBOX1 not ready (0x%X), still trying...\n", mbox1); - } - } - - if ((r == CSR_RESULT_SUCCESS) && (mbox1 == 0)) - { - unifi_trace(card->ospriv, UDBG1, "Timeout waiting for firmware to start, Mailbox1 still 0 after %d ms\n", - MAILBOX1_ATTEMPTS * MAILBOX1_TIMEOUT); - return CSR_RESULT_FAILURE; - } - - - /* - * Complete the reset handshake by setting MAILBOX2 to 0xFFFF - */ - r = unifi_write_direct16(card, ChipHelper_SDIO_HIP_HANDSHAKE(card->helper) * 2, 0xFFFF); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write f/w startup handshake to MAILBOX2\n"); - return r; - } - - - /* - * Read the Symbol Look Up Table (SLUT) offset. - * Top 16 bits are in mbox1, read the lower 16 bits from mbox0. - */ - mbox0 = 0; - r = unifi_read_direct16(card, ChipHelper_MAILBOX0(card->helper) * 2, &mbox0); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read UniFi Mailbox0 register\n"); - return r; - } - - *paddr = (((u32)mbox1 << 16) | mbox0); - - return CSR_RESULT_SUCCESS; -} /* card_wait_for_firmware_to_start() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_capture_panic - * - * Attempt to capture panic codes from the firmware. This may involve - * warm reset of the chip to regain access following a watchdog reset. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS if panic codes were captured, or none available - * CSR_RESULT_FAILURE if the driver could not access function 1 - * --------------------------------------------------------------------------- - */ -CsrResult unifi_capture_panic(card_t *card) -{ - - /* The firmware must have previously initialised to read the panic addresses - * from the SLUT - */ - if (!card->panic_data_phy_addr || !card->panic_data_mac_addr) - { - return CSR_RESULT_SUCCESS; - } - - /* Ensure we can access function 1 following a panic/watchdog reset */ - if (card_access_panic(card) == CSR_RESULT_SUCCESS) - { - /* Read the panic codes */ - unifi_read_panic(card); - } - else - { - unifi_info(card->ospriv, "Unable to read panic codes"); - } - - return CSR_RESULT_SUCCESS; -} - - -/* - * --------------------------------------------------------------------------- - * card_access_panic - * Attempt to read the WLAN SDIO function in order to read panic codes - * and perform various reset steps to regain access if the read fails. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS if panic codes can be read - * CSR error code if panic codes can not be read - * --------------------------------------------------------------------------- - */ -static CsrResult card_access_panic(card_t *card) -{ - u16 data_u16 = 0; - s32 i; - CsrResult r, sr; - - /* A chip version of zero means that the version never got successfully read - * during reset. In this case give up because it will not be possible to - * verify the chip version. - */ - if (!card->chip_version) - { - unifi_info(card->ospriv, "Unknown chip version\n"); - return CSR_RESULT_FAILURE; - } - - /* Ensure chip is awake or access to function 1 will fail */ - r = unifi_set_host_state(card, UNIFI_HOST_STATE_AWAKE); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "unifi_set_host_state() failed %d\n", r); - return CSR_RESULT_FAILURE; /* Card is probably unpowered */ - } - CsrThreadSleep(20); - - for (i = 0; i < 3; i++) - { - sr = CsrSdioRead16(card->sdio_if, CHIP_HELPER_UNIFI_GBL_CHIP_VERSION * 2, &data_u16); - if (sr != CSR_RESULT_SUCCESS || data_u16 != card->chip_version) - { - unifi_info(card->ospriv, "Failed to read valid chip version sr=%d (0x%04x want 0x%04x) try %d\n", - sr, data_u16, card->chip_version, i); - - /* Set clock speed low */ - sr = CsrSdioMaxBusClockFrequencySet(card->sdio_if, UNIFI_SDIO_CLOCK_SAFE_HZ); - if (sr != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "CsrSdioMaxBusClockFrequencySet() failed1 %d\n", sr); - r = ConvertCsrSdioToCsrHipResult(card, sr); - } - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_SAFE_HZ; - - /* First try re-enabling function in case a f/w watchdog reset disabled it */ - if (i == 0) - { - unifi_info(card->ospriv, "Try function enable\n"); - sr = CsrSdioFunctionEnable(card->sdio_if); - if (sr != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, sr); - unifi_error(card->ospriv, "CsrSdioFunctionEnable failed %d (HIP %d)\n", sr, r); - } - continue; - } - - /* Second try, set awake */ - unifi_info(card->ospriv, "Try set awake\n"); - - /* Ensure chip is awake */ - r = unifi_set_host_state(card, UNIFI_HOST_STATE_AWAKE); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "unifi_set_host_state() failed2 %d\n", r); - } - - /* Set clock speed low in case setting the host state raised it, which - * would only happen if host state was previously TORPID - */ - sr = CsrSdioMaxBusClockFrequencySet(card->sdio_if, UNIFI_SDIO_CLOCK_SAFE_HZ); - if (sr != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "CsrSdioMaxBusClockFrequencySet() failed2 %d\n", sr); - } - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_SAFE_HZ; - - if (i == 1) - { - continue; - } - - /* Perform a s/w reset to preserve as much as the card state as possible, - * (mainly the preserve RAM). The context will be lost for coredump - but as we - * were unable to access the WLAN function for panic, the coredump would have - * also failed without a reset. - */ - unifi_info(card->ospriv, "Try s/w reset\n"); - - r = unifi_card_hard_reset(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "unifi_card_hard_reset() failed %d\n", r); - } - } - else - { - if (i > 0) - { - unifi_info(card->ospriv, "Read chip version 0x%x after %d retries\n", data_u16, i); - } - break; - } - } - - r = ConvertCsrSdioToCsrHipResult(card, sr); - return r; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_read_panic - * Reads, saves and prints panic codes stored by the firmware in UniFi's - * preserve RAM by the last panic that occurred since chip was powered. - * Nothing is saved if the panic codes are read as zero. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * --------------------------------------------------------------------------- - */ -void unifi_read_panic(card_t *card) -{ - CsrResult r; - u16 p_code, p_arg; - - /* The firmware must have previously initialised to read the panic addresses - * from the SLUT - */ - if (!card->panic_data_phy_addr || !card->panic_data_mac_addr) - { - return; - } - - /* Get the panic data from PHY */ - r = unifi_card_read16(card, card->panic_data_phy_addr, &p_code); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "capture_panic: unifi_read16 %08x failed %d\n", card->panic_data_phy_addr, r); - p_code = 0; - } - if (p_code) - { - r = unifi_card_read16(card, card->panic_data_phy_addr + 2, &p_arg); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "capture_panic: unifi_read16 %08x failed %d\n", card->panic_data_phy_addr + 2, r); - } - unifi_error(card->ospriv, "Last UniFi PHY PANIC %04x arg %04x\n", p_code, p_arg); - card->last_phy_panic_code = p_code; - card->last_phy_panic_arg = p_arg; - } - - /* Get the panic data from MAC */ - r = unifi_card_read16(card, card->panic_data_mac_addr, &p_code); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "capture_panic: unifi_read16 %08x failed %d\n", card->panic_data_mac_addr, r); - p_code = 0; - } - if (p_code) - { - r = unifi_card_read16(card, card->panic_data_mac_addr + 2, &p_arg); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "capture_panic: unifi_read16 %08x failed %d\n", card->panic_data_mac_addr + 2, r); - } - unifi_error(card->ospriv, "Last UniFi MAC PANIC %04x arg %04x\n", p_code, p_arg); - card->last_mac_panic_code = p_code; - card->last_mac_panic_arg = p_arg; - } - -} - - -/* - * --------------------------------------------------------------------------- - * card_allocate_memory_resources - * - * Allocates memory for the from-host, to-host bulk data slots, - * soft queue buffers and bulk data buffers. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on failure. - * --------------------------------------------------------------------------- - */ -static CsrResult card_allocate_memory_resources(card_t *card) -{ - s16 n, i, k, r; - sdio_config_data_t *cfg_data; - - /* Reset any state carried forward from a previous life */ - card->fh_command_queue.q_rd_ptr = 0; - card->fh_command_queue.q_wr_ptr = 0; - (void)scnprintf(card->fh_command_queue.name, UNIFI_QUEUE_NAME_MAX_LENGTH, - "fh_cmd_q"); - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - card->fh_traffic_queue[i].q_rd_ptr = 0; - card->fh_traffic_queue[i].q_wr_ptr = 0; - (void)scnprintf(card->fh_traffic_queue[i].name, - UNIFI_QUEUE_NAME_MAX_LENGTH, "fh_data_q%d", i); - } -#ifndef CSR_WIFI_HIP_TA_DISABLE - unifi_ta_sampling_init(card); -#endif - /* Convenience short-cut */ - cfg_data = &card->config_data; - - /* - * Allocate memory for the from-host and to-host signal buffers. - */ - card->fh_buffer.buf = kmalloc(UNIFI_FH_BUF_SIZE, GFP_KERNEL); - if (card->fh_buffer.buf == NULL) - { - unifi_error(card->ospriv, "Failed to allocate memory for F-H signals\n"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - card->fh_buffer.bufsize = UNIFI_FH_BUF_SIZE; - card->fh_buffer.ptr = card->fh_buffer.buf; - card->fh_buffer.count = 0; - - card->th_buffer.buf = kmalloc(UNIFI_FH_BUF_SIZE, GFP_KERNEL); - if (card->th_buffer.buf == NULL) - { - unifi_error(card->ospriv, "Failed to allocate memory for T-H signals\n"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - card->th_buffer.bufsize = UNIFI_FH_BUF_SIZE; - card->th_buffer.ptr = card->th_buffer.buf; - card->th_buffer.count = 0; - - - /* - * Allocate memory for the from-host and to-host bulk data slots. - * This is done as separate kmallocs because lots of smaller - * allocations are more likely to succeed than one huge one. - */ - - /* Allocate memory for the array of pointers */ - n = cfg_data->num_fromhost_data_slots; - - unifi_trace(card->ospriv, UDBG3, "Alloc from-host resources, %d slots.\n", n); - card->from_host_data = kmalloc(n * sizeof(slot_desc_t), GFP_KERNEL); - if (card->from_host_data == NULL) - { - unifi_error(card->ospriv, "Failed to allocate memory for F-H bulk data array\n"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - - /* Initialise from-host bulk data slots */ - for (i = 0; i < n; i++) - { - UNIFI_INIT_BULK_DATA(&card->from_host_data[i].bd); - } - - /* Allocate memory for the array used for slot host tag mapping */ - card->fh_slot_host_tag_record = kmalloc(n * sizeof(u32), GFP_KERNEL); - - if (card->fh_slot_host_tag_record == NULL) - { - unifi_error(card->ospriv, "Failed to allocate memory for F-H slot host tag mapping array\n"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - - /* Initialise host tag entries for from-host bulk data slots */ - for (i = 0; i < n; i++) - { - card->fh_slot_host_tag_record[i] = CSR_WIFI_HIP_RESERVED_HOST_TAG; - } - - - /* Allocate memory for the array of pointers */ - n = cfg_data->num_tohost_data_slots; - - unifi_trace(card->ospriv, UDBG3, "Alloc to-host resources, %d slots.\n", n); - card->to_host_data = kmalloc(n * sizeof(bulk_data_desc_t), GFP_KERNEL); - if (card->to_host_data == NULL) - { - unifi_error(card->ospriv, "Failed to allocate memory for T-H bulk data array\n"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - - /* Initialise to-host bulk data slots */ - for (i = 0; i < n; i++) - { - UNIFI_INIT_BULK_DATA(&card->to_host_data[i]); - } - - /* - * Initialise buffers for soft Q - */ - for (i = 0; i < UNIFI_SOFT_COMMAND_Q_LENGTH; i++) - { - for (r = 0; r < UNIFI_MAX_DATA_REFERENCES; r++) - { - UNIFI_INIT_BULK_DATA(&card->fh_command_q_body[i].bulkdata[r]); - } - } - - for (k = 0; k < UNIFI_NO_OF_TX_QS; k++) - { - for (i = 0; i < UNIFI_SOFT_TRAFFIC_Q_LENGTH; i++) - { - for (r = 0; r < UNIFI_MAX_DATA_REFERENCES; r++) - { - UNIFI_INIT_BULK_DATA(&card->fh_traffic_q_body[k][i].bulkdata[r]); - } - } - } - - card->memory_resources_allocated = 1; - - return CSR_RESULT_SUCCESS; -} /* card_allocate_memory_resources() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_free_bulk_data - * - * Free the data associated to a bulk data structure. - * - * Arguments: - * card Pointer to card struct - * bulk_data_slot Pointer to bulk data structure - * - * Returns: - * None. - * - * --------------------------------------------------------------------------- - */ -static void unifi_free_bulk_data(card_t *card, bulk_data_desc_t *bulk_data_slot) -{ - if (bulk_data_slot->data_length != 0) - { - unifi_net_data_free(card->ospriv, bulk_data_slot); - } -} /* unifi_free_bulk_data() */ - - -/* - * --------------------------------------------------------------------------- - * card_free_memory_resources - * - * Frees memory allocated for the from-host, to-host bulk data slots, - * soft queue buffers and bulk data buffers. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void card_free_memory_resources(card_t *card) -{ - - unifi_trace(card->ospriv, UDBG1, "Freeing card memory resources.\n"); - - /* Clear our internal queues */ - unifi_cancel_pending_signals(card); - - - kfree(card->to_host_data); - card->to_host_data = NULL; - - kfree(card->from_host_data); - card->from_host_data = NULL; - - /* free the memory for slot host tag mapping array */ - kfree(card->fh_slot_host_tag_record); - card->fh_slot_host_tag_record = NULL; - - kfree(card->fh_buffer.buf); - card->fh_buffer.ptr = card->fh_buffer.buf = NULL; - card->fh_buffer.bufsize = 0; - card->fh_buffer.count = 0; - - kfree(card->th_buffer.buf); - card->th_buffer.ptr = card->th_buffer.buf = NULL; - card->th_buffer.bufsize = 0; - card->th_buffer.count = 0; - - - card->memory_resources_allocated = 0; - -} /* card_free_memory_resources() */ - - -static void card_init_soft_queues(card_t *card) -{ - s16 i; - - unifi_trace(card->ospriv, UDBG1, "Initialising internal signal queues.\n"); - /* Reset any state carried forward from a previous life */ - card->fh_command_queue.q_rd_ptr = 0; - card->fh_command_queue.q_wr_ptr = 0; - (void)scnprintf(card->fh_command_queue.name, UNIFI_QUEUE_NAME_MAX_LENGTH, - "fh_cmd_q"); - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - card->fh_traffic_queue[i].q_rd_ptr = 0; - card->fh_traffic_queue[i].q_wr_ptr = 0; - (void)scnprintf(card->fh_traffic_queue[i].name, - UNIFI_QUEUE_NAME_MAX_LENGTH, "fh_data_q%d", i); - } -#ifndef CSR_WIFI_HIP_TA_DISABLE - unifi_ta_sampling_init(card); -#endif -} - - -/* - * --------------------------------------------------------------------------- - * unifi_cancel_pending_signals - * - * Free the signals and associated bulk data, pending in the core. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void unifi_cancel_pending_signals(card_t *card) -{ - s16 i, n, r; - - unifi_trace(card->ospriv, UDBG1, "Canceling pending signals.\n"); - - if (card->to_host_data) - { - /* - * Free any bulk data buffers allocated for the t-h slots - * This will clear all buffers that did not make it to - * unifi_receive_event() before cancel was request. - */ - n = card->config_data.num_tohost_data_slots; - unifi_trace(card->ospriv, UDBG3, "Freeing to-host resources, %d slots.\n", n); - for (i = 0; i < n; i++) - { - unifi_free_bulk_data(card, &card->to_host_data[i]); - } - } - - /* - * If any of the from-host bulk data has reached the card->from_host_data - * but not UniFi, we need to free the buffers here. - */ - if (card->from_host_data) - { - /* Free any bulk data buffers allocated for the f-h slots */ - n = card->config_data.num_fromhost_data_slots; - unifi_trace(card->ospriv, UDBG3, "Freeing from-host resources, %d slots.\n", n); - for (i = 0; i < n; i++) - { - unifi_free_bulk_data(card, &card->from_host_data[i].bd); - } - - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - card->dynamic_slot_data.from_host_used_slots[i] = 0; - card->dynamic_slot_data.from_host_max_slots[i] = 0; - card->dynamic_slot_data.from_host_reserved_slots[i] = 0; - } - } - - /* - * Free any bulk data buffers allocated in the soft queues. - * This covers the case where a bulk data pointer has reached the soft queue - * but not the card->from_host_data. - */ - unifi_trace(card->ospriv, UDBG3, "Freeing cmd q resources.\n"); - for (i = 0; i < UNIFI_SOFT_COMMAND_Q_LENGTH; i++) - { - for (r = 0; r < UNIFI_MAX_DATA_REFERENCES; r++) - { - unifi_free_bulk_data(card, &card->fh_command_q_body[i].bulkdata[r]); - } - } - - unifi_trace(card->ospriv, UDBG3, "Freeing traffic q resources.\n"); - for (n = 0; n < UNIFI_NO_OF_TX_QS; n++) - { - for (i = 0; i < UNIFI_SOFT_TRAFFIC_Q_LENGTH; i++) - { - for (r = 0; r < UNIFI_MAX_DATA_REFERENCES; r++) - { - unifi_free_bulk_data(card, &card->fh_traffic_q_body[n][i].bulkdata[r]); - } - } - } - - card_init_soft_queues(card); - -} /* unifi_cancel_pending_signals() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_free_card - * - * Free the memory allocated for the card structure and buffers. - * - * Notes: - * The porting layer is responsible for freeing any mini-coredump buffers - * allocated when it called unifi_coredump_init(), by calling - * unifi_coredump_free() before calling this function. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void unifi_free_card(card_t *card) -{ -#ifdef CSR_PRE_ALLOC_NET_DATA - prealloc_netdata_free(card); -#endif - /* Free any memory allocated. */ - card_free_memory_resources(card); - - /* Warn if caller didn't free coredump buffers */ - if (card->dump_buf) - { - unifi_error(card->ospriv, "Caller should call unifi_coredump_free()\n"); - unifi_coredump_free(card); /* free anyway to prevent memory leak */ - } - - kfree(card); - -} /* unifi_free_card() */ - - -/* - * --------------------------------------------------------------------------- - * card_init_slots - * - * Allocate memory for host-side slot data and signal queues. - * - * Arguments: - * card Pointer to card object - * - * Returns: - * CSR error code. - * --------------------------------------------------------------------------- - */ -static CsrResult card_init_slots(card_t *card) -{ - CsrResult r; - u8 i; - - /* Allocate the buffers we need, only once. */ - if (card->memory_resources_allocated == 1) - { - card_free_memory_resources(card); - } - else - { - /* Initialise our internal command and traffic queues */ - card_init_soft_queues(card); - } - - r = card_allocate_memory_resources(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to allocate card memory resources.\n"); - card_free_memory_resources(card); - return r; - } - - if (card->sdio_ctrl_addr == 0) - { - unifi_error(card->ospriv, "Failed to find config struct!\n"); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* - * Set initial counts. - */ - - card->from_host_data_head = 0; - - /* Get initial signal counts from UniFi, in case it has not been reset. */ - { - u16 s; - - /* Get the from-host-signals-written count */ - r = unifi_card_read16(card, card->sdio_ctrl_addr + 0, &s); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read from-host sig written count\n"); - return r; - } - card->from_host_signals_w = (s16)s; - - /* Get the to-host-signals-written count */ - r = unifi_card_read16(card, card->sdio_ctrl_addr + 6, &s); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read to-host sig read count\n"); - return r; - } - card->to_host_signals_r = (s16)s; - } - - /* Set Initialised flag. */ - r = unifi_card_write16(card, card->init_flag_addr, 0x0001); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write initialised flag\n"); - return r; - } - - /* Dynamic queue reservation */ - memset(&card->dynamic_slot_data, 0, sizeof(card_dynamic_slot_t)); - - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - card->dynamic_slot_data.from_host_max_slots[i] = card->config_data.num_fromhost_data_slots - - UNIFI_RESERVED_COMMAND_SLOTS; - card->dynamic_slot_data.queue_stable[i] = FALSE; - } - - card->dynamic_slot_data.packets_interval = UNIFI_PACKETS_INTERVAL; - - return CSR_RESULT_SUCCESS; -} /* card_init_slots() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_set_udi_hook - * - * Registers the udi hook that reports the sent signals to the core. - * - * Arguments: - * card Pointer to the card context struct - * udi_fn Pointer to the callback function. - * - * Returns: - * CSR_WIFI_HIP_RESULT_INVALID_VALUE if the card pointer is invalid, - * CSR_RESULT_SUCCESS on success. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_set_udi_hook(card_t *card, udi_func_t udi_fn) -{ - if (card == NULL) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - if (card->udi_hook == NULL) - { - card->udi_hook = udi_fn; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_set_udi_hook() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_remove_udi_hook - * - * Removes the udi hook that reports the sent signals from the core. - * - * Arguments: - * card Pointer to the card context struct - * udi_fn Pointer to the callback function. - * - * Returns: - * CSR_WIFI_HIP_RESULT_INVALID_VALUE if the card pointer is invalid, - * CSR_RESULT_SUCCESS on success. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_remove_udi_hook(card_t *card, udi_func_t udi_fn) -{ - if (card == NULL) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - if (card->udi_hook == udi_fn) - { - card->udi_hook = NULL; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_remove_udi_hook() */ - - -static void CardReassignDynamicReservation(card_t *card) -{ - u8 i; - - unifi_trace(card->ospriv, UDBG5, "Packets Txed %d %d %d %d\n", - card->dynamic_slot_data.packets_txed[0], - card->dynamic_slot_data.packets_txed[1], - card->dynamic_slot_data.packets_txed[2], - card->dynamic_slot_data.packets_txed[3]); - - /* Clear reservation and recalculate max slots */ - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - card->dynamic_slot_data.queue_stable[i] = FALSE; - card->dynamic_slot_data.from_host_reserved_slots[i] = 0; - card->dynamic_slot_data.from_host_max_slots[i] = card->config_data.num_fromhost_data_slots - - UNIFI_RESERVED_COMMAND_SLOTS; - card->dynamic_slot_data.packets_txed[i] = 0; - - unifi_trace(card->ospriv, UDBG5, "CardReassignDynamicReservation: queue %d reserved %d Max %d\n", i, - card->dynamic_slot_data.from_host_reserved_slots[i], - card->dynamic_slot_data.from_host_max_slots[i]); - } - - card->dynamic_slot_data.total_packets_txed = 0; -} - - -/* Algorithm to dynamically reserve slots. The logic is based mainly on the outstanding queue - * length. Slots are reserved for particular queues during an interval and cleared after the interval. - * Each queue has three associated variables.. a) used slots - the number of slots currently occupied - * by the queue b) reserved slots - number of slots reserved specifically for the queue c) max slots - total - * slots that this queue can actually use (may be higher than reserved slots and is dependent on reserved slots - * for other queues). - * This function is called when there are no slots available for a queue. It checks to see if there are enough - * unreserved slots sufficient for this request. If available these slots are reserved for the queue. - * If there are not enough unreserved slots, a fair share for each queue is calculated based on the total slots - * and the number of active queues (any queue with existing reservation is considered active). Queues needing - * less than their fair share are allowed to have the previously reserved slots. The remaining slots are - * distributed evenly among queues that need more than the fair share - * - * A better scheme would take current bandwidth per AC into consideration when reserving slots. An - * implementation scheme could consider the relative time/service period for slots in an AC. If the firmware - * services other ACs faster than a particular AC (packets wait in the slots longer) then it is fair to reserve - * less slots for the AC - */ -static void CardCheckDynamicReservation(card_t *card, unifi_TrafficQueue queue) -{ - u16 q_len, active_queues = 0, excess_queue_slots, div_extra_slots, - queue_fair_share, reserved_slots = 0, q, excess_need_queues = 0, unmovable_slots = 0; - s32 i; - q_t *sigq; - u16 num_data_slots = card->config_data.num_fromhost_data_slots - UNIFI_RESERVED_COMMAND_SLOTS; - - /* Calculate the pending queue length */ - sigq = &card->fh_traffic_queue[queue]; - q_len = CSR_WIFI_HIP_Q_SLOTS_USED(sigq); - - if (q_len <= card->dynamic_slot_data.from_host_reserved_slots[queue]) - { - unifi_trace(card->ospriv, UDBG5, "queue %d q_len %d already has that many reserved slots, exiting\n", queue, q_len); - return; - } - - /* Upper limit */ - if (q_len > num_data_slots) - { - q_len = num_data_slots; - } - - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - if (i != (s32)queue) - { - reserved_slots += card->dynamic_slot_data.from_host_reserved_slots[i]; - } - if ((i == (s32)queue) || (card->dynamic_slot_data.from_host_reserved_slots[i] > 0)) - { - active_queues++; - } - } - - unifi_trace(card->ospriv, UDBG5, "CardCheckDynamicReservation: queue %d q_len %d\n", queue, q_len); - unifi_trace(card->ospriv, UDBG5, "Active queues %d reserved slots on other queues %d\n", - active_queues, reserved_slots); - - if (reserved_slots + q_len <= num_data_slots) - { - card->dynamic_slot_data.from_host_reserved_slots[queue] = q_len; - if (q_len == num_data_slots) - { - /* This is the common case when just 1 stream is going */ - card->dynamic_slot_data.queue_stable[queue] = TRUE; - } - } - else - { - queue_fair_share = num_data_slots / active_queues; - unifi_trace(card->ospriv, UDBG5, "queue fair share %d\n", queue_fair_share); - - /* Evenly distribute slots among active queues */ - /* Find out the queues that need excess of fair share. Also find slots allocated - * to queues less than their fair share, these slots cannot be reallocated (unmovable slots) */ - - card->dynamic_slot_data.from_host_reserved_slots[queue] = q_len; - - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - if (card->dynamic_slot_data.from_host_reserved_slots[i] > queue_fair_share) - { - excess_need_queues++; - } - else - { - unmovable_slots += card->dynamic_slot_data.from_host_reserved_slots[i]; - } - } - - unifi_trace(card->ospriv, UDBG5, "Excess need queues %d\n", excess_need_queues); - - /* Now find the slots per excess demand queue */ - excess_queue_slots = (num_data_slots - unmovable_slots) / excess_need_queues; - div_extra_slots = (num_data_slots - unmovable_slots) - excess_queue_slots * excess_need_queues; - for (i = UNIFI_NO_OF_TX_QS - 1; i >= 0; i--) - { - if (card->dynamic_slot_data.from_host_reserved_slots[i] > excess_queue_slots) - { - card->dynamic_slot_data.from_host_reserved_slots[i] = excess_queue_slots; - if (div_extra_slots > 0) - { - card->dynamic_slot_data.from_host_reserved_slots[i]++; - div_extra_slots--; - } - /* No more slots will be allocated to this queue during the current interval */ - card->dynamic_slot_data.queue_stable[i] = TRUE; - unifi_trace(card->ospriv, UDBG5, "queue stable %d\n", i); - } - } - } - - /* Redistribute max slots */ - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - reserved_slots = 0; - for (q = 0; q < UNIFI_NO_OF_TX_QS; q++) - { - if (i != q) - { - reserved_slots += card->dynamic_slot_data.from_host_reserved_slots[q]; - } - } - - card->dynamic_slot_data.from_host_max_slots[i] = num_data_slots - reserved_slots; - unifi_trace(card->ospriv, UDBG5, "queue %d reserved %d Max %d\n", i, - card->dynamic_slot_data.from_host_reserved_slots[i], - card->dynamic_slot_data.from_host_max_slots[i]); - } - -} - - -/* - * --------------------------------------------------------------------------- - * CardClearFromHostDataSlot - * - * Clear a the given data slot, making it available again. - * - * Arguments: - * card Pointer to Card object - * slot Index of the signal slot to clear. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void CardClearFromHostDataSlot(card_t *card, const s16 slot) -{ - u8 queue = card->from_host_data[slot].queue; - const void *os_data_ptr = card->from_host_data[slot].bd.os_data_ptr; - - if (card->from_host_data[slot].bd.data_length == 0) - { - unifi_warning(card->ospriv, - "Surprise: request to clear an already free FH data slot: %d\n", - slot); - return; - } - - if (os_data_ptr == NULL) - { - unifi_warning(card->ospriv, - "Clearing FH data slot %d: has null payload, len=%d\n", - slot, card->from_host_data[slot].bd.data_length); - } - - /* Free card->from_host_data[slot].bd.os_net_ptr here. */ - /* Mark slot as free by setting length to 0. */ - unifi_free_bulk_data(card, &card->from_host_data[slot].bd); - if (queue < UNIFI_NO_OF_TX_QS) - { - if (card->dynamic_slot_data.from_host_used_slots[queue] == 0) - { - unifi_error(card->ospriv, "Goofed up used slots q = %d used slots = %d\n", - queue, - card->dynamic_slot_data.from_host_used_slots[queue]); - } - else - { - card->dynamic_slot_data.from_host_used_slots[queue]--; - } - card->dynamic_slot_data.packets_txed[queue]++; - card->dynamic_slot_data.total_packets_txed++; - if (card->dynamic_slot_data.total_packets_txed >= card->dynamic_slot_data.packets_interval) - { - CardReassignDynamicReservation(card); - } - } - - unifi_trace(card->ospriv, UDBG4, "CardClearFromHostDataSlot: slot %d recycled %p\n", slot, os_data_ptr); - -} /* CardClearFromHostDataSlot() */ - - -#ifdef CSR_WIFI_REQUEUE_PACKET_TO_HAL -/* - * --------------------------------------------------------------------------- - * CardClearFromHostDataSlotWithoutFreeingBulkData - * - * Clear the given data slot with out freeing the bulk data. - * - * Arguments: - * card Pointer to Card object - * slot Index of the signal slot to clear. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void CardClearFromHostDataSlotWithoutFreeingBulkData(card_t *card, const s16 slot) -{ - u8 queue = card->from_host_data[slot].queue; - - /* Initialise the from_host data slot so it can be re-used, - * Set length field in from_host_data array to 0. - */ - UNIFI_INIT_BULK_DATA(&card->from_host_data[slot].bd); - - queue = card->from_host_data[slot].queue; - - if (queue < UNIFI_NO_OF_TX_QS) - { - if (card->dynamic_slot_data.from_host_used_slots[queue] == 0) - { - unifi_error(card->ospriv, "Goofed up used slots q = %d used slots = %d\n", - queue, - card->dynamic_slot_data.from_host_used_slots[queue]); - } - else - { - card->dynamic_slot_data.from_host_used_slots[queue]--; - } - card->dynamic_slot_data.packets_txed[queue]++; - card->dynamic_slot_data.total_packets_txed++; - if (card->dynamic_slot_data.total_packets_txed >= - card->dynamic_slot_data.packets_interval) - { - CardReassignDynamicReservation(card); - } - } -} /* CardClearFromHostDataSlotWithoutFreeingBulkData() */ - - -#endif - -u16 CardGetDataSlotSize(card_t *card) -{ - return card->config_data.data_slot_size; -} /* CardGetDataSlotSize() */ - - -/* - * --------------------------------------------------------------------------- - * CardGetFreeFromHostDataSlots - * - * Retrieve the number of from-host bulk data slots available. - * - * Arguments: - * card Pointer to the card context struct - * - * Returns: - * Number of free from-host bulk data slots. - * --------------------------------------------------------------------------- - */ -u16 CardGetFreeFromHostDataSlots(card_t *card) -{ - u16 i, n = 0; - - /* First two slots reserved for MLME */ - for (i = 0; i < card->config_data.num_fromhost_data_slots; i++) - { - if (card->from_host_data[i].bd.data_length == 0) - { - /* Free slot */ - n++; - } - } - - return n; -} /* CardGetFreeFromHostDataSlots() */ - - -/* - * --------------------------------------------------------------------------- - * CardAreAllFromHostDataSlotsEmpty - * - * Returns the state of from-host bulk data slots. - * - * Arguments: - * card Pointer to the card context struct - * - * Returns: - * 1 The from-host bulk data slots are all empty (available). - * 0 Some or all the from-host bulk data slots are in use. - * --------------------------------------------------------------------------- - */ -u16 CardAreAllFromHostDataSlotsEmpty(card_t *card) -{ - u16 i; - - for (i = 0; i < card->config_data.num_fromhost_data_slots; i++) - { - if (card->from_host_data[i].bd.data_length != 0) - { - return 0; - } - } - - return 1; -} /* CardGetFreeFromHostDataSlots() */ - - -static CsrResult unifi_identify_hw(card_t *card) -{ - - card->chip_id = card->sdio_if->sdioId.cardId; - card->function = card->sdio_if->sdioId.sdioFunction; - card->sdio_io_block_size = card->sdio_if->blockSize; - - /* If SDIO controller doesn't support byte mode CMD53, pad transfers to block sizes */ - card->sdio_io_block_pad = (card->sdio_if->features & CSR_SDIO_FEATURE_BYTE_MODE)?FALSE : TRUE; - - /* - * Setup the chip helper so that we can access the registers (and - * also tell what sub-type of HIP we should use). - */ - card->helper = ChipHelper_GetVersionSdio((u8)card->chip_id); - if (!card->helper) - { - unifi_error(card->ospriv, "Null ChipHelper\n"); - } - - unifi_info(card->ospriv, "Chip ID 0x%02X Function %u Block Size %u Name %s(%s)\n", - card->chip_id, card->function, card->sdio_io_block_size, - ChipHelper_MarketingName(card->helper), - ChipHelper_FriendlyName(card->helper)); - - return CSR_RESULT_SUCCESS; -} /* unifi_identify_hw() */ - - -static CsrResult unifi_prepare_hw(card_t *card) -{ - CsrResult r; - CsrResult csrResult; - enum unifi_host_state old_state = card->host_state; - - r = unifi_identify_hw(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to identify hw\n"); - return r; - } - - unifi_trace(card->ospriv, UDBG1, - "%s mode SDIO\n", card->sdio_io_block_pad?"Block" : "Byte"); - /* - * Chip must be a awake or blocks that are asleep may not get - * reset. We can only do this after we have read the chip_id. - */ - r = unifi_set_host_state(card, UNIFI_HOST_STATE_AWAKE); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - - if (old_state == UNIFI_HOST_STATE_TORPID) - { - /* Ensure the initial clock rate is set; if a reset occurred when the chip was - * TORPID, unifi_set_host_state() may have raised it to MAX. - */ - csrResult = CsrSdioMaxBusClockFrequencySet(card->sdio_if, UNIFI_SDIO_CLOCK_INIT_HZ); - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - return r; - } - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_INIT_HZ; - } - - /* - * The WLAN function must be enabled to access MAILBOX2 and DEBUG_RST - * registers. - */ - csrResult = CsrSdioFunctionEnable(card->sdio_if); - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - /* Can't enable WLAN function. Try resetting the SDIO block. */ - unifi_error(card->ospriv, "Failed to re-enable function %d.\n", card->function); - return r; - } - - /* - * Poke some registers to make sure the PLL has started, - * otherwise memory accesses are likely to fail. - */ - bootstrap_chip_hw(card); - - /* Try to read the chip version from register. */ - r = unifi_read_chip_version(card); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_prepare_hw() */ - - -static CsrResult unifi_read_chip_version(card_t *card) -{ - u32 gbl_chip_version; - CsrResult r; - u16 ver; - - gbl_chip_version = ChipHelper_GBL_CHIP_VERSION(card->helper); - - /* Try to read the chip version from register. */ - if (gbl_chip_version != 0) - { - r = unifi_read_direct16(card, gbl_chip_version * 2, &ver); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read GBL_CHIP_VERSION\n"); - return r; - } - card->chip_version = ver; - } - else - { - unifi_info(card->ospriv, "Unknown Chip ID, cannot locate GBL_CHIP_VERSION\n"); - r = CSR_RESULT_FAILURE; - } - - unifi_info(card->ospriv, "Chip Version 0x%04X\n", card->chip_version); - - return r; -} /* unifi_read_chip_version() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_reset_hardware - * - * Execute the UniFi reset sequence. - * - * Note: This may fail if the chip is going TORPID so retry at - * least once. - * - * Arguments: - * card - pointer to card context structure - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error otherwise. - * - * Notes: - * Some platforms (e.g. Windows Vista) do not allow access to registers - * that are necessary for a software soft reset. - * --------------------------------------------------------------------------- - */ -static CsrResult unifi_reset_hardware(card_t *card) -{ - CsrResult r; - u16 new_block_size = UNIFI_IO_BLOCK_SIZE; - CsrResult csrResult; - - /* Errors returned by unifi_prepare_hw() are not critical at this point */ - r = unifi_prepare_hw(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - - /* First try SDIO controller reset, which may power cycle the UniFi, assert - * its reset line, or not be implemented depending on the platform. - */ - unifi_info(card->ospriv, "Calling CsrSdioHardReset\n"); - csrResult = CsrSdioHardReset(card->sdio_if); - if (csrResult == CSR_RESULT_SUCCESS) - { - unifi_info(card->ospriv, "CsrSdioHardReset succeeded on resetting UniFi\n"); - r = unifi_prepare_hw(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "unifi_prepare_hw failed after hard reset\n"); - return r; - } - } - else if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - else - { - /* Falling back to software hard reset methods */ - unifi_info(card->ospriv, "Falling back to software hard reset\n"); - r = unifi_card_hard_reset(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "software hard reset failed\n"); - return r; - } - - /* If we fell back to unifi_card_hard_reset() methods, chip version may - * not have been read. (Note in the unlikely event that it is zero, - * it will be harmlessly read again) - */ - if (card->chip_version == 0) - { - r = unifi_read_chip_version(card); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - } - } - -#ifdef CSR_WIFI_HIP_SDIO_BLOCK_SIZE - new_block_size = CSR_WIFI_HIP_SDIO_BLOCK_SIZE; -#endif - - /* After hard reset, we need to restore the SDIO block size */ - csrResult = CsrSdioBlockSizeSet(card->sdio_if, new_block_size); - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - - /* Warn if a different block size was achieved by the transport */ - if (card->sdio_if->blockSize != new_block_size) - { - unifi_info(card->ospriv, - "Actually got block size %d\n", card->sdio_if->blockSize); - } - - /* sdio_io_block_size always needs be updated from the achieved block size, - * as it is used by the OS layer to allocate memory in unifi_net_malloc(). - * Controllers which don't support block mode (e.g. CSPI) will report a - * block size of zero. - */ - if (card->sdio_if->blockSize == 0) - { - unifi_info(card->ospriv, "Block size 0, block mode not available\n"); - - /* Set sdio_io_block_size to 1 so that unifi_net_data_malloc() has a - * sensible rounding value. Elsewhere padding will already be - * disabled because the controller supports byte mode. - */ - card->sdio_io_block_size = 1; - - /* Controller features must declare support for byte mode */ - if (!(card->sdio_if->features & CSR_SDIO_FEATURE_BYTE_MODE)) - { - unifi_error(card->ospriv, "Requires byte mode\n"); - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - } - else - { - /* Padding will be enabled if CSR_SDIO_FEATURE_BYTE_MODE isn't set */ - card->sdio_io_block_size = card->sdio_if->blockSize; - } - - - return r; -} /* unifi_reset_hardware() */ - - -/* - * --------------------------------------------------------------------------- - * card_reset_method_io_enable - * - * Issue a hard reset to the hw writing the IO_ENABLE. - * - * Arguments: - * card Pointer to Card object - * - * Returns: - * 0 on success, - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred or if a response - * was not seen in the expected time - * --------------------------------------------------------------------------- - */ -static CsrResult card_reset_method_io_enable(card_t *card) -{ - CsrResult r; - CsrResult csrResult; - - /* - * This resets only function 1, so should be used in - * preference to the method below (CSR_FUNC_EN) - */ - unifi_trace(card->ospriv, UDBG1, "Hard reset (IO_ENABLE)\n"); - - csrResult = CsrSdioFunctionDisable(card->sdio_if); - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - unifi_warning(card->ospriv, "SDIO error writing IO_ENABLE: %d\n", r); - } - else - { - /* Delay here to let the reset take affect. */ - CsrThreadSleep(RESET_SETTLE_DELAY); - - r = card_wait_for_unifi_to_disable(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - - if (r == CSR_RESULT_SUCCESS) - { - r = card_wait_for_unifi_to_reset(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - } - } - - if (r != CSR_RESULT_SUCCESS) - { - unifi_trace(card->ospriv, UDBG1, "Hard reset (CSR_FUNC_EN)\n"); - - r = sdio_write_f0(card, SDIO_CSR_FUNC_EN, 0); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_warning(card->ospriv, "SDIO error writing SDIO_CSR_FUNC_EN: %d\n", r); - return r; - } - else - { - /* Delay here to let the reset take affect. */ - CsrThreadSleep(RESET_SETTLE_DELAY); - - r = card_wait_for_unifi_to_reset(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - } - } - - if (r != CSR_RESULT_SUCCESS) - { - unifi_warning(card->ospriv, "card_reset_method_io_enable failed to reset UniFi\n"); - } - - return r; -} /* card_reset_method_io_enable() */ - - -/* - * --------------------------------------------------------------------------- - * card_reset_method_dbg_reset - * - * Issue a hard reset to the hw writing the DBG_RESET. - * - * Arguments: - * card Pointer to Card object - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred or if a response - * was not seen in the expected time - * --------------------------------------------------------------------------- - */ -static CsrResult card_reset_method_dbg_reset(card_t *card) -{ - CsrResult r; - - /* - * Prepare UniFi for h/w reset - */ - if (card->host_state == UNIFI_HOST_STATE_TORPID) - { - r = unifi_set_host_state(card, UNIFI_HOST_STATE_DROWSY); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to set UNIFI_HOST_STATE_DROWSY\n"); - return r; - } - CsrThreadSleep(5); - } - - r = unifi_card_stop_processor(card, UNIFI_PROC_BOTH); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Can't stop processors\n"); - return r; - } - - unifi_trace(card->ospriv, UDBG1, "Hard reset (DBG_RESET)\n"); - - /* - * This register write may fail. The debug reset resets - * parts of the Function 0 sections of the chip, and - * therefore the response cannot be sent back to the host. - */ - r = unifi_write_direct_8_or_16(card, ChipHelper_DBG_RESET(card->helper) * 2, 1); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_warning(card->ospriv, "SDIO error writing DBG_RESET: %d\n", r); - return r; - } - - /* Delay here to let the reset take affect. */ - CsrThreadSleep(RESET_SETTLE_DELAY); - - r = card_wait_for_unifi_to_reset(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_warning(card->ospriv, "card_reset_method_dbg_reset failed to reset UniFi\n"); - } - - return r; -} /* card_reset_method_dbg_reset() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_card_hard_reset - * - * Issue reset to hardware, by writing to registers on the card. - * Power to the card is preserved. - * - * Arguments: - * card Pointer to Card object - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred or if a response - * was not seen in the expected time - * --------------------------------------------------------------------------- - */ -CsrResult unifi_card_hard_reset(card_t *card) -{ - CsrResult r; - const struct chip_helper_reset_values *init_data; - u32 chunks; - - /* Clear cache of page registers */ - card->proc_select = (u32)(-1); - card->dmem_page = (u32)(-1); - card->pmem_page = (u32)(-1); - - /* - * We need to have a valid card->helper before we use software hard reset. - * If unifi_identify_hw() fails to get the card ID, it probably means - * that there is no way to talk to the h/w. - */ - r = unifi_identify_hw(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "unifi_card_hard_reset failed to identify h/w\n"); - return r; - } - - /* Search for some reset code. */ - chunks = ChipHelper_HostResetSequence(card->helper, &init_data); - if (chunks != 0) - { - unifi_error(card->ospriv, - "Hard reset (Code download) is unsupported\n"); - - return CSR_RESULT_FAILURE; - } - - if (card->chip_id > SDIO_CARD_ID_UNIFI_2) - { - /* The HIP spec considers this a bus-specific reset. - * This resets only function 1, so should be used in - * preference to the method below (CSR_FUNC_EN) - * If this method fails, it means that the f/w is probably - * not running. In this case, try the DBG_RESET method. - */ - r = card_reset_method_io_enable(card); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r == CSR_RESULT_SUCCESS) - { - return r; - } - } - - /* Software hard reset */ - r = card_reset_method_dbg_reset(card); - - return r; -} /* unifi_card_hard_reset() */ - - -/* - * --------------------------------------------------------------------------- - * - * CardGenInt - * - * Prod the card. - * This function causes an internal interrupt to be raised in the - * UniFi chip. It is used to signal the firmware that some action has - * been completed. - * The UniFi Host Interface asks that the value used increments for - * debugging purposes. - * - * Arguments: - * card Pointer to Card object - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred or if a response - * was not seen in the expected time - * --------------------------------------------------------------------------- - */ -CsrResult CardGenInt(card_t *card) -{ - CsrResult r; - - if (card->chip_id > SDIO_CARD_ID_UNIFI_2) - { - r = sdio_write_f0(card, SDIO_CSR_FROM_HOST_SCRATCH0, - (u8)card->unifi_interrupt_seq); - } - else - { - r = unifi_write_direct_8_or_16(card, - ChipHelper_SHARED_IO_INTERRUPT(card->helper) * 2, - (u8)card->unifi_interrupt_seq); - } - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error writing UNIFI_SHARED_IO_INTERRUPT: %d\n", r); - return r; - } - - card->unifi_interrupt_seq++; - - return CSR_RESULT_SUCCESS; -} /* CardGenInt() */ - - -/* - * --------------------------------------------------------------------------- - * CardEnableInt - * - * Enable the outgoing SDIO interrupt from UniFi to the host. - * - * Arguments: - * card Pointer to Card object - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred, - * --------------------------------------------------------------------------- - */ -CsrResult CardEnableInt(card_t *card) -{ - CsrResult r; - u8 int_enable; - - r = sdio_read_f0(card, SDIO_INT_ENABLE, &int_enable); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error reading SDIO_INT_ENABLE\n"); - return r; - } - - int_enable |= (1 << card->function) | UNIFI_SD_INT_ENABLE_IENM; - - r = sdio_write_f0(card, SDIO_INT_ENABLE, int_enable); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error writing SDIO_INT_ENABLE\n"); - return r; - } - - return CSR_RESULT_SUCCESS; -} /* CardEnableInt() */ - - -/* - * --------------------------------------------------------------------------- - * CardDisableInt - * - * Disable the outgoing SDIO interrupt from UniFi to the host. - * - * Arguments: - * card Pointer to Card object - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred, - * --------------------------------------------------------------------------- - */ -CsrResult CardDisableInt(card_t *card) -{ - CsrResult r; - u8 int_enable; - - r = sdio_read_f0(card, SDIO_INT_ENABLE, &int_enable); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error reading SDIO_INT_ENABLE\n"); - return r; - } - - int_enable &= ~(1 << card->function); - - r = sdio_write_f0(card, SDIO_INT_ENABLE, int_enable); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error writing SDIO_INT_ENABLE\n"); - return r; - } - - return CSR_RESULT_SUCCESS; -} /* CardDisableInt() */ - - -/* - * --------------------------------------------------------------------------- - * CardPendingInt - * - * Determine whether UniFi is currently asserting the SDIO interrupt - * request. - * - * Arguments: - * card Pointer to Card object - * pintr Pointer to location to write interrupt status, - * TRUE if interrupt pending, - * FALSE if no interrupt pending. - * Returns: - * CSR_RESULT_SUCCESS interrupt status read successfully - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred, - * --------------------------------------------------------------------------- - */ -CsrResult CardPendingInt(card_t *card, u8 *pintr) -{ - CsrResult r; - u8 pending; - - *pintr = FALSE; - - r = sdio_read_f0(card, SDIO_INT_PENDING, &pending); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error reading SDIO_INT_PENDING\n"); - return r; - } - - *pintr = (pending & (1 << card->function))?TRUE : FALSE; - - return CSR_RESULT_SUCCESS; -} /* CardPendingInt() */ - - -/* - * --------------------------------------------------------------------------- - * CardClearInt - * - * Clear the UniFi SDIO interrupt request. - * - * Arguments: - * card Pointer to Card object - * - * Returns: - * CSR_RESULT_SUCCESS if pending interrupt was cleared, or no pending interrupt. - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred, - * --------------------------------------------------------------------------- - */ -CsrResult CardClearInt(card_t *card) -{ - CsrResult r; - u8 intr; - - if (card->chip_id > SDIO_CARD_ID_UNIFI_2) - { - /* CardPendingInt() sets intr, if there is a pending interrupt */ - r = CardPendingInt(card, &intr); - if (intr == FALSE) - { - return r; - } - - r = sdio_write_f0(card, SDIO_CSR_HOST_INT_CLEAR, 1); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error writing SDIO_CSR_HOST_INT_CLEAR\n"); - } - } - else - { - r = unifi_write_direct_8_or_16(card, - ChipHelper_SDIO_HOST_INT(card->helper) * 2, - 0); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error writing UNIFI_SDIO_HOST_INT\n"); - } - } - - return r; -} /* CardClearInt() */ - - -/* - * --------------------------------------------------------------------------- - * CardIntEnabled - * - * Determine whether UniFi is currently asserting the SDIO interrupt - * request. - * - * Arguments: - * card Pointer to Card object - * enabled Pointer to location to write interrupt enable status, - * TRUE if interrupts enabled, - * FALSE if interupts disabled. - * - * Returns: - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred, - * --------------------------------------------------------------------------- - */ -CsrResult CardIntEnabled(card_t *card, u8 *enabled) -{ - CsrResult r; - u8 int_enable; - - r = sdio_read_f0(card, SDIO_INT_ENABLE, &int_enable); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "SDIO error reading SDIO_INT_ENABLE\n"); - return r; - } - - *enabled = (int_enable & (1 << card->function))?TRUE : FALSE; - - return CSR_RESULT_SUCCESS; -} /* CardIntEnabled() */ - - -/* - * --------------------------------------------------------------------------- - * CardWriteBulkData - * Allocate slot in the pending bulkdata arrays and assign it to a signal's - * bulkdata reference. The slot is then ready for UniFi's bulkdata commands - * to transfer the data to/from the host. - * - * Arguments: - * card Pointer to Card object - * csptr Pending signal pointer, including bulkdata ref - * queue Traffic queue that this signal is using - * - * Returns: - * CSR_RESULT_SUCCESS if a free slot was assigned - * CSR_RESULT_FAILURE if no slot was available - * --------------------------------------------------------------------------- - */ -CsrResult CardWriteBulkData(card_t *card, card_signal_t *csptr, unifi_TrafficQueue queue) -{ - u16 i, slots[UNIFI_MAX_DATA_REFERENCES], j = 0; - u8 *packed_sigptr, num_slots_required = 0; - bulk_data_desc_t *bulkdata = csptr->bulkdata; - s16 h, nslots; - - /* Count the number of slots required */ - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) - { - if (bulkdata[i].data_length != 0) - { - num_slots_required++; - } - } - - /* Get the slot numbers */ - if (num_slots_required != 0) - { - /* Last 2 slots for MLME */ - if (queue == UNIFI_TRAFFIC_Q_MLME) - { - h = card->config_data.num_fromhost_data_slots - UNIFI_RESERVED_COMMAND_SLOTS; - for (i = 0; i < card->config_data.num_fromhost_data_slots; i++) - { - if (card->from_host_data[h].bd.data_length == 0) - { - /* Free data slot, claim it */ - slots[j++] = h; - if (j == num_slots_required) - { - break; - } - } - - if (++h >= card->config_data.num_fromhost_data_slots) - { - h = 0; - } - } - } - else - { - if (card->dynamic_slot_data.from_host_used_slots[queue] - < card->dynamic_slot_data.from_host_max_slots[queue]) - { - /* Data commands get a free slot only after a few checks */ - nslots = card->config_data.num_fromhost_data_slots - UNIFI_RESERVED_COMMAND_SLOTS; - - h = card->from_host_data_head; - - for (i = 0; i < nslots; i++) - { - if (card->from_host_data[h].bd.data_length == 0) - { - /* Free data slot, claim it */ - slots[j++] = h; - if (j == num_slots_required) - { - break; - } - } - - if (++h >= nslots) - { - h = 0; - } - } - card->from_host_data_head = h; - } - } - - /* Required number of slots are not available, bail out */ - if (j != num_slots_required) - { - unifi_trace(card->ospriv, UDBG5, "CardWriteBulkData: didn't find free slot/s\n"); - - /* If we haven't already reached the stable state we can ask for reservation */ - if ((queue != UNIFI_TRAFFIC_Q_MLME) && (card->dynamic_slot_data.queue_stable[queue] == FALSE)) - { - CardCheckDynamicReservation(card, queue); - } - - for (i = 0; i < card->config_data.num_fromhost_data_slots; i++) - { - unifi_trace(card->ospriv, UDBG5, "fh data slot %d: %d\n", i, card->from_host_data[i].bd.data_length); - } - return CSR_RESULT_FAILURE; - } - } - - packed_sigptr = csptr->sigbuf; - - /* Fill in the slots with data */ - j = 0; - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) - { - if (bulkdata[i].data_length == 0) - { - /* Zero-out the DATAREF in the signal */ - SET_PACKED_DATAREF_SLOT(packed_sigptr, i, 0); - SET_PACKED_DATAREF_LEN(packed_sigptr, i, 0); - } - else - { - /* - * Fill in the slot number in the SIGNAL structure but - * preserve the offset already in there - */ - SET_PACKED_DATAREF_SLOT(packed_sigptr, i, slots[j] | (((u16)packed_sigptr[SIZEOF_SIGNAL_HEADER + (i * SIZEOF_DATAREF) + 1]) << 8)); - SET_PACKED_DATAREF_LEN(packed_sigptr, i, bulkdata[i].data_length); - - /* Do not copy the data, just store the information to them */ - card->from_host_data[slots[j]].bd.os_data_ptr = bulkdata[i].os_data_ptr; - card->from_host_data[slots[j]].bd.os_net_buf_ptr = bulkdata[i].os_net_buf_ptr; - card->from_host_data[slots[j]].bd.data_length = bulkdata[i].data_length; - card->from_host_data[slots[j]].bd.net_buf_length = bulkdata[i].net_buf_length; - card->from_host_data[slots[j]].queue = queue; - - unifi_trace(card->ospriv, UDBG4, "CardWriteBulkData sig=0x%x, fh slot %d = %p\n", - GET_SIGNAL_ID(packed_sigptr), i, bulkdata[i].os_data_ptr); - - /* Sanity-check that the bulk data desc being assigned to the slot - * actually has a payload. - */ - if (!bulkdata[i].os_data_ptr) - { - unifi_error(card->ospriv, "Assign null os_data_ptr (len=%d) fh slot %d, i=%d, q=%d, sig=0x%x", - bulkdata[i].data_length, slots[j], i, queue, GET_SIGNAL_ID(packed_sigptr)); - } - - j++; - if (queue < UNIFI_NO_OF_TX_QS) - { - card->dynamic_slot_data.from_host_used_slots[queue]++; - } - } - } - - return CSR_RESULT_SUCCESS; -} /* CardWriteBulkData() */ - - -/* - * --------------------------------------------------------------------------- - * card_find_data_slot - * - * Dereference references to bulk data slots into pointers to real data. - * - * Arguments: - * card Pointer to the card struct. - * slot Slot number from a signal structure - * - * Returns: - * Pointer to entry in bulk_data_slot array. - * --------------------------------------------------------------------------- - */ -bulk_data_desc_t* card_find_data_slot(card_t *card, s16 slot) -{ - s16 sn; - bulk_data_desc_t *bd; - - sn = slot & 0x7FFF; - - /* ?? check sanity of slot number ?? */ - - if (slot & SLOT_DIR_TO_HOST) - { - bd = &card->to_host_data[sn]; - } - else - { - bd = &card->from_host_data[sn].bd; - } - - return bd; -} /* card_find_data_slot() */ - - -/* - * --------------------------------------------------------------------------- - * firmware_present_in_flash - * - * Probe for external Flash that looks like it might contain firmware. - * - * If Flash is not present, reads always return 0x0008. - * If Flash is present, but empty, reads return 0xFFFF. - * Anything else is considered to be firmware. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS firmware is present in ROM or flash - * CSR_WIFI_HIP_RESULT_NOT_FOUND firmware is not present in ROM or flash - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred - * --------------------------------------------------------------------------- - */ -static CsrResult firmware_present_in_flash(card_t *card) -{ - CsrResult r; - u16 m1, m5; - - if (ChipHelper_HasRom(card->helper)) - { - return CSR_RESULT_SUCCESS; - } - if (!ChipHelper_HasFlash(card->helper)) - { - return CSR_WIFI_HIP_RESULT_NOT_FOUND; - } - - /* - * Examine the Flash locations that are the power-on default reset - * vectors of the XAP processors. - * These are words 1 and 5 in Flash. - */ - r = unifi_card_read16(card, UNIFI_MAKE_GP(EXT_FLASH, 2), &m1); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - r = unifi_card_read16(card, UNIFI_MAKE_GP(EXT_FLASH, 10), &m5); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - /* Check for uninitialised/missing flash */ - if ((m1 == 0x0008) || (m1 == 0xFFFF) || - (m1 == 0x0004) || (m5 == 0x0004) || - (m5 == 0x0008) || (m5 == 0xFFFF)) - { - return CSR_WIFI_HIP_RESULT_NOT_FOUND; - } - - return CSR_RESULT_SUCCESS; -} /* firmware_present_in_flash() */ - - -/* - * --------------------------------------------------------------------------- - * bootstrap_chip_hw - * - * Perform chip specific magic to "Get It Working" TM. This will - * increase speed of PLLs in analogue and maybe enable some - * on-chip regulators. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void bootstrap_chip_hw(card_t *card) -{ - const struct chip_helper_init_values *vals; - u32 i, len; - void *sdio = card->sdio_if; - CsrResult csrResult; - - len = ChipHelper_ClockStartupSequence(card->helper, &vals); - if (len != 0) - { - for (i = 0; i < len; i++) - { - csrResult = CsrSdioWrite16(sdio, vals[i].addr * 2, vals[i].value); - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_warning(card->ospriv, "Failed to write bootstrap value %d\n", i); - /* Might not be fatal */ - } - - CsrThreadSleep(1); - } - } -} /* bootstrap_chip_hw() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_card_stop_processor - * - * Stop the UniFi XAP processors. - * - * Arguments: - * card Pointer to card struct - * which One of UNIFI_PROC_MAC, UNIFI_PROC_PHY, UNIFI_PROC_BOTH - * - * Returns: - * CSR_RESULT_SUCCESS if successful, or CSR error code - * --------------------------------------------------------------------------- - */ -CsrResult unifi_card_stop_processor(card_t *card, enum unifi_dbg_processors_select which) -{ - CsrResult r = CSR_RESULT_SUCCESS; - u8 status; - s16 retry = 100; - - while (retry--) - { - /* Select both XAPs */ - r = unifi_set_proc_select(card, which); - if (r != CSR_RESULT_SUCCESS) - { - break; - } - - /* Stop processors */ - r = unifi_write_direct16(card, ChipHelper_DBG_EMU_CMD(card->helper) * 2, 2); - if (r != CSR_RESULT_SUCCESS) - { - break; - } - - /* Read status */ - r = unifi_read_direct_8_or_16(card, - ChipHelper_DBG_HOST_STOP_STATUS(card->helper) * 2, - &status); - if (r != CSR_RESULT_SUCCESS) - { - break; - } - - if ((status & 1) == 1) - { - /* Success! */ - return CSR_RESULT_SUCCESS; - } - - /* Processors didn't stop, try again */ - } - - if (r != CSR_RESULT_SUCCESS) - { - /* An SDIO error occurred */ - unifi_error(card->ospriv, "Failed to stop processors: SDIO error\n"); - } - else - { - /* If we reach here, we didn't the status in time. */ - unifi_error(card->ospriv, "Failed to stop processors: timeout waiting for stopped status\n"); - r = CSR_RESULT_FAILURE; - } - - return r; -} /* unifi_card_stop_processor() */ - - -/* - * --------------------------------------------------------------------------- - * card_start_processor - * - * Start the UniFi XAP processors. - * - * Arguments: - * card Pointer to card struct - * which One of UNIFI_PROC_MAC, UNIFI_PROC_PHY, UNIFI_PROC_BOTH - * - * Returns: - * CSR_RESULT_SUCCESS or CSR error code - * --------------------------------------------------------------------------- - */ -CsrResult card_start_processor(card_t *card, enum unifi_dbg_processors_select which) -{ - CsrResult r; - - /* Select both XAPs */ - r = unifi_set_proc_select(card, which); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "unifi_set_proc_select failed: %d.\n", r); - return r; - } - - - r = unifi_write_direct_8_or_16(card, - ChipHelper_DBG_EMU_CMD(card->helper) * 2, 8); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - r = unifi_write_direct_8_or_16(card, - ChipHelper_DBG_EMU_CMD(card->helper) * 2, 0); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - return CSR_RESULT_SUCCESS; -} /* card_start_processor() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_set_interrupt_mode - * - * Configure the interrupt processing mode used by the HIP - * - * Arguments: - * card Pointer to card struct - * mode Interrupt mode to apply - * - * Returns: - * None - * --------------------------------------------------------------------------- - */ -void unifi_set_interrupt_mode(card_t *card, u32 mode) -{ - if (mode == CSR_WIFI_INTMODE_RUN_BH_ONCE) - { - unifi_info(card->ospriv, "Scheduled interrupt mode"); - } - card->intmode = mode; -} /* unifi_set_interrupt_mode() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_start_processors - * - * Start all UniFi XAP processors. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on error - * --------------------------------------------------------------------------- - */ -CsrResult unifi_start_processors(card_t *card) -{ - return card_start_processor(card, UNIFI_PROC_BOTH); -} /* unifi_start_processors() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_request_max_sdio_clock - * - * Requests that the maximum SDIO clock rate is set at the next suitable - * opportunity (e.g. when the BH next runs, so as not to interfere with - * any current operation). - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * None - * --------------------------------------------------------------------------- - */ -void unifi_request_max_sdio_clock(card_t *card) -{ - card->request_max_clock = 1; -} /* unifi_request_max_sdio_clock() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_set_host_state - * - * Set the host deep-sleep state. - * - * If transitioning to TORPID, the SDIO driver will be notified - * that the SD bus will be unused (idle) and conversely, when - * transitioning from TORPID that the bus will be used (active). - * - * Arguments: - * card Pointer to card struct - * state New deep-sleep state. - * - * Returns: - * CSR_RESULT_SUCCESS on success - * CSR_WIFI_HIP_RESULT_NO_DEVICE if the card was ejected - * CSR_RESULT_FAILURE if an SDIO error occurred - * - * Notes: - * We need to reduce the SDIO clock speed before trying to wake up the - * chip. Actually, in the implementation below we reduce the clock speed - * not just before we try to wake up the chip, but when we put the chip to - * deep sleep. This means that if the f/w wakes up on its' own, we waste - * a reduce/increace cycle. However, trying to eliminate this overhead is - * proved difficult, as the current state machine in the HIP lib does at - * least a CMD52 to disable the interrupts before we configure the host - * state. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_set_host_state(card_t *card, enum unifi_host_state state) -{ - CsrResult r = CSR_RESULT_SUCCESS; - CsrResult csrResult; - static const char *const states[] = { - "AWAKE", "DROWSY", "TORPID" - }; - static const u8 state_csr_host_wakeup[] = { - 1, 3, 0 - }; - static const u8 state_io_abort[] = { - 0, 2, 3 - }; - - unifi_trace(card->ospriv, UDBG4, "State %s to %s\n", - states[card->host_state], states[state]); - - if (card->host_state == UNIFI_HOST_STATE_TORPID) - { - CsrSdioFunctionActive(card->sdio_if); - } - - /* Write the new state to UniFi. */ - if (card->chip_id > SDIO_CARD_ID_UNIFI_2) - { - r = sdio_write_f0(card, SDIO_CSR_HOST_WAKEUP, - (u8)((card->function << 4) | state_csr_host_wakeup[state])); - } - else - { - r = sdio_write_f0(card, SDIO_IO_ABORT, state_io_abort[state]); - } - - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write UniFi deep sleep state\n"); - } - else - { - /* - * If the chip was in state TORPID then we can now increase - * the maximum bus clock speed. - */ - if (card->host_state == UNIFI_HOST_STATE_TORPID) - { - csrResult = CsrSdioMaxBusClockFrequencySet(card->sdio_if, - UNIFI_SDIO_CLOCK_MAX_HZ); - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - /* Non-fatal error */ - if (r != CSR_RESULT_SUCCESS && r != CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - unifi_warning(card->ospriv, - "Failed to increase the SDIO clock speed\n"); - } - else - { - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_MAX_HZ; - } - } - - /* - * Cache the current state in the card structure to avoid - * unnecessary SDIO reads. - */ - card->host_state = state; - - if (state == UNIFI_HOST_STATE_TORPID) - { - /* - * If the chip is now in state TORPID then we must now decrease - * the maximum bus clock speed. - */ - csrResult = CsrSdioMaxBusClockFrequencySet(card->sdio_if, - UNIFI_SDIO_CLOCK_SAFE_HZ); - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - if (r != CSR_RESULT_SUCCESS && r != CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - unifi_warning(card->ospriv, - "Failed to decrease the SDIO clock speed\n"); - } - else - { - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_SAFE_HZ; - } - CsrSdioFunctionIdle(card->sdio_if); - } - } - - return r; -} /* unifi_set_host_state() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_card_info - * - * Update the card information data structure - * - * Arguments: - * card Pointer to card struct - * card_info Pointer to info structure to update - * - * Returns: - * None - * --------------------------------------------------------------------------- - */ -void unifi_card_info(card_t *card, card_info_t *card_info) -{ - card_info->chip_id = card->chip_id; - card_info->chip_version = card->chip_version; - card_info->fw_build = card->build_id; - card_info->fw_hip_version = card->config_data.version; - card_info->sdio_block_size = card->sdio_io_block_size; -} /* unifi_card_info() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_check_io_status - * - * Check UniFi for spontaneous reset and pending interrupt. - * - * Arguments: - * card Pointer to card struct - * status Pointer to location to write chip status: - * 0 if UniFi is running, and no interrupt pending - * 1 if UniFi has spontaneously reset - * 2 if there is a pending interrupt - * Returns: - * CSR_RESULT_SUCCESS if OK, or CSR error - * --------------------------------------------------------------------------- - */ -CsrResult unifi_check_io_status(card_t *card, s32 *status) -{ - u8 io_en; - CsrResult r; - u8 pending; - - *status = 0; - - r = sdio_read_f0(card, SDIO_IO_ENABLE, &io_en); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read SDIO_IO_ENABLE to check for spontaneous reset\n"); - return r; - } - - if ((io_en & (1 << card->function)) == 0) - { - s32 fw_count; - *status = 1; - unifi_error(card->ospriv, "UniFi has spontaneously reset.\n"); - - /* - * These reads are very likely to fail. We want to know if the function is really - * disabled or the SDIO driver just returns rubbish. - */ - fw_count = unifi_read_shared_count(card, card->sdio_ctrl_addr + 4); - if (fw_count < 0) - { - unifi_error(card->ospriv, "Failed to read to-host sig written count\n"); - } - else - { - unifi_error(card->ospriv, "thsw: %u (driver thinks is %u)\n", - fw_count, card->to_host_signals_w); - } - fw_count = unifi_read_shared_count(card, card->sdio_ctrl_addr + 2); - if (fw_count < 0) - { - unifi_error(card->ospriv, "Failed to read from-host sig read count\n"); - } - else - { - unifi_error(card->ospriv, "fhsr: %u (driver thinks is %u)\n", - fw_count, card->from_host_signals_r); - } - - return r; - } - - unifi_info(card->ospriv, "UniFi function %d is enabled.\n", card->function); - - /* See if we missed an SDIO interrupt */ - r = CardPendingInt(card, &pending); - if (pending) - { - unifi_error(card->ospriv, "There is an unhandled pending interrupt.\n"); - *status = 2; - return r; - } - - return r; -} /* unifi_check_io_status() */ - - -void unifi_get_hip_qos_info(card_t *card, unifi_HipQosInfo *hipqosinfo) -{ - s32 count_fhr; - s16 t; - u32 occupied_fh; - - q_t *sigq; - u16 nslots, i; - - memset(hipqosinfo, 0, sizeof(unifi_HipQosInfo)); - - nslots = card->config_data.num_fromhost_data_slots; - - for (i = 0; i < nslots; i++) - { - if (card->from_host_data[i].bd.data_length == 0) - { - hipqosinfo->free_fh_bulkdata_slots++; - } - } - - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - { - sigq = &card->fh_traffic_queue[i]; - t = sigq->q_wr_ptr - sigq->q_rd_ptr; - if (t < 0) - { - t += sigq->q_length; - } - hipqosinfo->free_fh_sig_queue_slots[i] = (sigq->q_length - t) - 1; - } - - count_fhr = unifi_read_shared_count(card, card->sdio_ctrl_addr + 2); - if (count_fhr < 0) - { - unifi_error(card->ospriv, "Failed to read from-host sig read count - %d\n", count_fhr); - hipqosinfo->free_fh_fw_slots = 0xfa; - return; - } - - occupied_fh = (card->from_host_signals_w - count_fhr) % 128; - - hipqosinfo->free_fh_fw_slots = (u16)(card->config_data.num_fromhost_sig_frags - occupied_fh); -} - - - -CsrResult ConvertCsrSdioToCsrHipResult(card_t *card, CsrResult csrResult) -{ - CsrResult r = CSR_RESULT_FAILURE; - - switch (csrResult) - { - case CSR_RESULT_SUCCESS: - r = CSR_RESULT_SUCCESS; - break; - /* Timeout errors */ - case CSR_SDIO_RESULT_TIMEOUT: - /* Integrity errors */ - case CSR_SDIO_RESULT_CRC_ERROR: - r = CSR_RESULT_FAILURE; - break; - case CSR_SDIO_RESULT_NO_DEVICE: - r = CSR_WIFI_HIP_RESULT_NO_DEVICE; - break; - case CSR_SDIO_RESULT_INVALID_VALUE: - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - break; - case CSR_RESULT_FAILURE: - r = CSR_RESULT_FAILURE; - break; - default: - unifi_warning(card->ospriv, "Unrecognised csrResult error code: %d\n", csrResult); - break; - } - - return r; -} /* ConvertCsrSdioToCsrHipResult() */ - - diff --git a/drivers/staging/csr/csr_wifi_hip_card_sdio.h b/drivers/staging/csr/csr_wifi_hip_card_sdio.h deleted file mode 100644 index a9b9ec4..0000000 --- a/drivers/staging/csr/csr_wifi_hip_card_sdio.h +++ /dev/null @@ -1,694 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * - * FILE: csr_wifi_hip_card_sdio.h - * - * PURPOSE: - * Internal header for Card API for SDIO. - * --------------------------------------------------------------------------- - */ -#ifndef __CARD_SDIO_H__ -#define __CARD_SDIO_H__ - -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_unifi_udi.h" -#include "csr_wifi_hip_unifihw.h" -#include "csr_wifi_hip_unifiversion.h" -#ifndef CSR_WIFI_HIP_TA_DISABLE -#include "csr_wifi_hip_ta_sampling.h" -#endif -#include "csr_wifi_hip_xbv.h" -#include "csr_wifi_hip_chiphelper.h" - - -/* - * - * Configuration items. - * Which of these should go in a platform unifi_config.h file? - * - */ - -/* - * When the traffic queues contain more signals than there is space for on - * UniFi, a limiting algorithm comes into play. - * If a traffic queue has enough slots free to buffer more traffic from the - * network stack, then the following check is applied. The number of free - * slots is RESUME_XMIT_THRESHOLD. - */ -#define RESUME_XMIT_THRESHOLD 4 - - -/* - * When reading signals from UniFi, the host processes pending all signals - * and then acknowledges them together in a single write to update the - * to-host-chunks-read location. - * When there is more than one bulk data transfer (e.g. one received data - * packet and a request for the payload data of a transmitted packet), the - * update can be delayed significantly. This ties up resources on chip. - * - * To remedy this problem, to-host-chunks-read is updated after processing - * a signal if TO_HOST_FLUSH_THRESHOLD bytes of bulk data have been - * transferred since the last update. - */ -#define TO_HOST_FLUSH_THRESHOLD (500 * 5) - - -/* SDIO Card Common Control Registers */ -#define SDIO_CCCR_SDIO_REVISION (0x00) -#define SDIO_SD_SPEC_REVISION (0x01) -#define SDIO_IO_ENABLE (0x02) -#define SDIO_IO_READY (0x03) -#define SDIO_INT_ENABLE (0x04) -#define SDIO_INT_PENDING (0x05) -#define SDIO_IO_ABORT (0x06) -#define SDIO_BUS_IFACE_CONTROL (0x07) -#define SDIO_CARD_CAPABILOTY (0x08) -#define SDIO_COMMON_CIS_POINTER (0x09) -#define SDIO_BUS_SUSPEND (0x0C) -#define SDIO_FUNCTION_SELECT (0x0D) -#define SDIO_EXEC_FLAGS (0x0E) -#define SDIO_READY_FLAGS (0x0F) -#define SDIO_FN0_BLOCK_SIZE (0x10) -#define SDIO_POWER_CONTROL (0x12) -#define SDIO_VENDOR_START (0xF0) - -#define SDIO_CSR_HOST_WAKEUP (0xf0) -#define SDIO_CSR_HOST_INT_CLEAR (0xf1) -#define SDIO_CSR_FROM_HOST_SCRATCH0 (0xf2) -#define SDIO_CSR_FROM_HOST_SCRATCH1 (0xf3) -#define SDIO_CSR_TO_HOST_SCRATCH0 (0xf4) -#define SDIO_CSR_TO_HOST_SCRATCH1 (0xf5) -#define SDIO_CSR_FUNC_EN (0xf6) -#define SDIO_CSR_CSPI_MODE (0xf7) -#define SDIO_CSR_CSPI_STATUS (0xf8) -#define SDIO_CSR_CSPI_PADDING (0xf9) - - -#define UNIFI_SD_INT_ENABLE_IENM 0x0001 /* Master INT Enable */ - -#ifdef CSR_PRE_ALLOC_NET_DATA -#define BULK_DATA_PRE_ALLOC_NUM 16 -#endif - -/* - * Structure to hold configuration information read from UniFi. - */ -typedef struct -{ - /* - * The version of the SDIO signal queues and bulk data pools - * configuration structure. The MSB is the major version number, used to - * indicate incompatible changes. The LSB gives the minor revision number, - * used to indicate changes that maintain backwards compatibility. - */ - u16 version; - - /* - * offset from the start of the shared data memory to the SD IO - * control structure. - */ - u16 sdio_ctrl_offset; - - /* Buffer handle of the from-host signal queue */ - u16 fromhost_sigbuf_handle; - - /* Buffer handle of the to-host signal queue */ - u16 tohost_sigbuf_handle; - - /* - * Maximum number of signal primitive or bulk data command fragments that may be - * pending in the to-hw signal queue. - */ - u16 num_fromhost_sig_frags; - - /* - * Number of signal primitive or bulk data command fragments that must be pending - * in the to-host signal queue before the host will generate an interrupt - * to indicate that it has read a signal. This will usually be the total - * capacity of the to-host signal buffer less the size of the largest signal - * primitive divided by the signal primitive fragment size, but may be set - * to 1 to request interrupts every time that the host read a signal. - * Note that the hw may place more signals in the to-host signal queue - * than indicated by this field. - */ - u16 num_tohost_sig_frags; - - /* - * Number of to-hw bulk data slots. Slots are numbered from 0 (zero) to - * one less than the value in this field - */ - u16 num_fromhost_data_slots; - - /* - * Number of frm-hw bulk data slots. Slots are numbered from 0 (zero) to - * one less than the value in this field - */ - u16 num_tohost_data_slots; - - /* - * Size of the bulk data slots (2 octets) - * The size of the bulk data slots in octets. This will usually be - * the size of the largest MSDU. The value should always be even. - */ - u16 data_slot_size; - - /* - * Indicates that the host has finished the initialisation sequence. - * Initialised to 0x0000 by the firmware, and set to 0x0001 by us. - */ - u16 initialised; - - /* Added by protocol version 0x0001 */ - u32 overlay_size; - - /* Added by protocol version 0x0300 */ - u16 data_slot_round; - u16 sig_frag_size; - - /* Added by protocol version 0x0500 */ - u16 tohost_signal_padding; -} sdio_config_data_t; - -/* - * These values may change with versions of the Host Interface Protocol. - */ -/* - * Size of config info block pointed to by the CSR_SLT_SDIO_SLOT_CONFIG - * entry in the f/w symbol table - */ -#define SDIO_CONFIG_DATA_SIZE 30 - -/* Offset of the INIT flag in the config info block. */ -#define SDIO_INIT_FLAG_OFFSET 0x12 -#define SDIO_TO_HOST_SIG_PADDING_OFFSET 0x1C - - -/* Structure for a bulk data transfer command */ -typedef struct -{ - u16 cmd_and_len; /* bits 12-15 cmd, bits 0-11 len */ - u16 data_slot; /* slot number, perhaps OR'd with SLOT_DIR_TO_HOST */ - u16 offset; - u16 buffer_handle; -} bulk_data_cmd_t; - - -/* Bulk Data signal command values */ -#define SDIO_CMD_SIGNAL 0x00 -#define SDIO_CMD_TO_HOST_TRANSFER 0x01 -#define SDIO_CMD_TO_HOST_TRANSFER_ACK 0x02 /*deprecated*/ -#define SDIO_CMD_FROM_HOST_TRANSFER 0x03 -#define SDIO_CMD_FROM_HOST_TRANSFER_ACK 0x04 /*deprecated*/ -#define SDIO_CMD_CLEAR_SLOT 0x05 -#define SDIO_CMD_OVERLAY_TRANSFER 0x06 -#define SDIO_CMD_OVERLAY_TRANSFER_ACK 0x07 /*deprecated*/ -#define SDIO_CMD_FROM_HOST_AND_CLEAR 0x08 -#define SDIO_CMD_PADDING 0x0f - -#define SLOT_DIR_TO_HOST 0x8000 - - -/* Initialise bulkdata slot - * params: - * bulk_data_desc_t *bulk_data_slot - */ -#define UNIFI_INIT_BULK_DATA(bulk_data_slot) \ - { \ - (bulk_data_slot)->os_data_ptr = NULL; \ - (bulk_data_slot)->data_length = 0; \ - (bulk_data_slot)->os_net_buf_ptr = NULL; \ - (bulk_data_slot)->net_buf_length = 0; \ - } - -/* - * Structure to contain a SIGNAL datagram. - * This is used to build signal queues between the main driver and the - * i/o thread. - * The fields are: - * sigbuf Contains the HIP signal is wire-format (i.e. packed, - * little-endian) - * bulkdata Contains a copy of any associated bulk data - * signal_length The size of the signal in the sigbuf - */ -typedef struct card_signal -{ - u8 sigbuf[UNIFI_PACKED_SIGBUF_SIZE]; - - /* Length of the SIGNAL inside sigbuf */ - u16 signal_length; - - bulk_data_desc_t bulkdata[UNIFI_MAX_DATA_REFERENCES]; -} card_signal_t; - - -/* - * Control structure for a generic ring buffer. - */ -#define UNIFI_QUEUE_NAME_MAX_LENGTH 16 -typedef struct -{ - card_signal_t *q_body; - - /* Num elements in queue (capacity is one less than this!) */ - u16 q_length; - - u16 q_wr_ptr; - u16 q_rd_ptr; - - char name[UNIFI_QUEUE_NAME_MAX_LENGTH]; -} q_t; - - -#define UNIFI_RESERVED_COMMAND_SLOTS 2 - -/* Considering approx 500 us per packet giving 0.5 secs */ -#define UNIFI_PACKETS_INTERVAL 1000 - -/* - * Dynamic slot reservation for QoS - */ -typedef struct -{ - u16 from_host_used_slots[UNIFI_NO_OF_TX_QS]; - u16 from_host_max_slots[UNIFI_NO_OF_TX_QS]; - u16 from_host_reserved_slots[UNIFI_NO_OF_TX_QS]; - - /* Parameters to determine if a queue was active. - If number of packets sent is greater than the threshold - for the queue, the queue is considered active and no - re reservation is done, it is important not to keep this - value too low */ - /* Packets sent during this interval */ - u16 packets_txed[UNIFI_NO_OF_TX_QS]; - u16 total_packets_txed; - - /* Number of packets to see if slots need to be reassigned */ - u16 packets_interval; - - /* Once a queue reaches a stable state, avoid processing */ - u8 queue_stable[UNIFI_NO_OF_TX_QS]; -} card_dynamic_slot_t; - - -/* These are type-safe and don't write incorrect values to the - * structure. */ - -/* Return queue slots used count - * params: - * const q_t *q - * returns: - * u16 - */ -#define CSR_WIFI_HIP_Q_SLOTS_USED(q) \ - (((q)->q_wr_ptr - (q)->q_rd_ptr < 0)? \ - ((q)->q_wr_ptr - (q)->q_rd_ptr + (q)->q_length) : ((q)->q_wr_ptr - (q)->q_rd_ptr)) - -/* Return queue slots free count - * params: - * const q_t *q - * returns: - * u16 - */ -#define CSR_WIFI_HIP_Q_SLOTS_FREE(q) \ - ((q)->q_length - CSR_WIFI_HIP_Q_SLOTS_USED((q)) - 1) - -/* Return slot signal data pointer - * params: - * const q_t *q - * u16 slot - * returns: - * card_signal_t * - */ -#define CSR_WIFI_HIP_Q_SLOT_DATA(q, slot) \ - ((q)->q_body + slot) - -/* Return queue next read slot - * params: - * const q_t *q - * returns: - * u16 slot offset - */ -#define CSR_WIFI_HIP_Q_NEXT_R_SLOT(q) \ - ((q)->q_rd_ptr) - -/* Return queue next write slot - * params: - * const q_t *q - * returns: - * u16 slot offset - */ -#define CSR_WIFI_HIP_Q_NEXT_W_SLOT(q) \ - ((q)->q_wr_ptr) - -/* Return updated queue pointer wrapped around its length - * params: - * const q_t *q - * u16 x amount to add to queue pointer - * returns: - * u16 wrapped queue pointer - */ -#define CSR_WIFI_HIP_Q_WRAP(q, x) \ - ((((x) >= (q)->q_length)?((x) % (q)->q_length) : (x))) - -/* Advance queue read pointer - * params: - * const q_t *q - */ -#define CSR_WIFI_HIP_Q_INC_R(q) \ - ((q)->q_rd_ptr = CSR_WIFI_HIP_Q_WRAP((q), (q)->q_rd_ptr + 1)) - -/* Advance queue write pointer - * params: - * const q_t *q - */ -#define CSR_WIFI_HIP_Q_INC_W(q) \ - ((q)->q_wr_ptr = CSR_WIFI_HIP_Q_WRAP((q), (q)->q_wr_ptr + 1)) - -enum unifi_host_state -{ - UNIFI_HOST_STATE_AWAKE = 0, - UNIFI_HOST_STATE_DROWSY = 1, - UNIFI_HOST_STATE_TORPID = 2 -}; - -typedef struct -{ - bulk_data_desc_t bd; - unifi_TrafficQueue queue; /* Used for dynamic slot reservation */ -} slot_desc_t; - -/* - * Structure describing a UniFi SDIO card. - */ -struct card -{ - /* - * Back pointer for the higher level OS code. This is passed as - * an argument to callbacks (e.g. for received data and indications). - */ - void *ospriv; - - /* - * mapping of HIP slot to MA-PACKET.req host tag, the - * array is indexed by slot numbers and each index stores - * information of the last host tag it was used for - */ - u32 *fh_slot_host_tag_record; - - - /* Info read from Symbol Table during probe */ - u32 build_id; - char build_id_string[128]; - - /* Retrieve from SDIO driver. */ - u16 chip_id; - - /* Read from GBL_CHIP_VERSION. */ - u16 chip_version; - - /* From the SDIO driver (probably 1) */ - u8 function; - - /* This is sused to get the register addresses and things. */ - ChipDescript *helper; - - /* - * Bit mask of PIOs for the loader to waggle during download. - * We assume these are connected to LEDs. The main firmware gets - * the mask from a MIB entry. - */ - s32 loader_led_mask; - - /* - * Support for flow control. When the from-host queue of signals - * is full, we ask the host upper layer to stop sending packets. When - * the queue drains we tell it that it can send packets again. - * We use this flag to remember the current state. - */ -#define card_is_tx_q_paused(card, q) (card->tx_q_paused_flag[q]) -#define card_tx_q_unpause(card, q) (card->tx_q_paused_flag[q] = 0) -#define card_tx_q_pause(card, q) (card->tx_q_paused_flag[q] = 1) - - u16 tx_q_paused_flag[UNIFI_TRAFFIC_Q_MAX + 1 + UNIFI_NO_OF_TX_QS]; /* defensive more than big enough */ - - /* UDI callback for logging UniFi interactions */ - udi_func_t udi_hook; - - u8 bh_reason_host; - u8 bh_reason_unifi; - - /* SDIO clock speed request from OS layer */ - u8 request_max_clock; - - /* Last SDIO clock frequency set */ - u32 sdio_clock_speed; - - /* - * Current host state (copy of value in IOABORT register and - * spinlock to protect it. - */ - enum unifi_host_state host_state; - - enum unifi_low_power_mode low_power_mode; - enum unifi_periodic_wake_mode periodic_wake_mode; - - /* - * Ring buffer of signal structs for a queue of data packets from - * the host. - * The queue is empty when fh_data_q_num_rd == fh_data_q_num_wr. - * To add a packet to the queue, copy it to index given by - * (fh_data_q_num_wr%UNIFI_SOFT_Q_LENGTH) and advance fh_data_q_num_wr. - * To take a packet from the queue, copy data from index given by - * (fh_data_q_num_rd%UNIFI_SOFT_Q_LENGTH) and advance fh_data_q_num_rd. - * fh_data_q_num_rd and fh_data_q_num_rd are both modulo 256. - */ - card_signal_t fh_command_q_body[UNIFI_SOFT_COMMAND_Q_LENGTH]; - q_t fh_command_queue; - - card_signal_t fh_traffic_q_body[UNIFI_NO_OF_TX_QS][UNIFI_SOFT_TRAFFIC_Q_LENGTH]; - q_t fh_traffic_queue[UNIFI_NO_OF_TX_QS]; - - /* - * Signal counts from UniFi SDIO Control Data Structure. - * These are cached and synchronised with the UniFi before and after - * a batch of operations. - * - * These are the modulo-256 count of signals written to or read from UniFi - * The value is incremented for every signal. - */ - s32 from_host_signals_w; - s32 from_host_signals_r; - s32 to_host_signals_r; - s32 to_host_signals_w; - - - /* Should specify buffer size as a number of signals */ - /* - * Enough for 10 th and 10 fh data slots: - * 1 * 10 * 8 = 80 - * 2 * 10 * 8 = 160 - */ -#define UNIFI_FH_BUF_SIZE 1024 - struct sigbuf - { - u8 *buf; /* buffer area */ - u8 *ptr; /* current pos */ - u16 count; /* signal count */ - u16 bufsize; - } fh_buffer; - struct sigbuf th_buffer; - - - /* - * Field to use for the incrementing value to write to the UniFi - * SHARED_IO_INTERRUPT register. - * Flag to say we need to generate an interrupt at end of processing. - */ - u32 unifi_interrupt_seq; - u8 generate_interrupt; - - - /* Pointers to the bulk data slots */ - slot_desc_t *from_host_data; - bulk_data_desc_t *to_host_data; - - - /* - * Index of the next (hopefully) free data slot. - * This is an optimisation that starts searching at a more likely point - * than the beginning. - */ - s16 from_host_data_head; - - /* Dynamic slot allocation for queues */ - card_dynamic_slot_t dynamic_slot_data; - - /* - * SDIO specific fields - */ - - /* Interface pointer for the SDIO library */ - CsrSdioFunction *sdio_if; - - /* Copy of config_data struct from the card */ - sdio_config_data_t config_data; - - /* SDIO address of the Initialised flag and Control Data struct */ - u32 init_flag_addr; - u32 sdio_ctrl_addr; - - /* The last value written to the Shared Data Memory Page register */ - u32 proc_select; - u32 dmem_page; - u32 pmem_page; - - /* SDIO traffic counters limited to 32 bits for Synergy compatibility */ - u32 sdio_bytes_read; - u32 sdio_bytes_written; - - u8 memory_resources_allocated; - - /* UniFi SDIO I/O Block size. */ - u16 sdio_io_block_size; - - /* Pad transfer sizes to SDIO block boundaries */ - u8 sdio_io_block_pad; - - /* Read from the XBV */ - struct FWOV fwov; - -#ifndef CSR_WIFI_HIP_TA_DISABLE - /* TA sampling */ - ta_data_t ta_sampling; -#endif - - /* Auto-coredump */ - s16 request_coredump_on_reset; /* request coredump on next reset */ - struct coredump_buf *dump_buf; /* root node */ - struct coredump_buf *dump_next_write; /* node to fill at next dump */ - struct coredump_buf *dump_cur_read; /* valid node to read, or NULL */ - -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - struct cmd_profile - { - u32 cmd52_count; - u32 cmd53_count; - u32 tx_count; - u32 tx_cfm_count; - u32 rx_count; - u32 bh_count; - u32 process_count; - u32 protocol_count; - - u32 cmd52_f0_r_count; - u32 cmd52_f0_w_count; - u32 cmd52_r8or16_count; - u32 cmd52_w8or16_count; - u32 cmd52_r16_count; - u32 cmd52_w16_count; - u32 cmd52_r32_count; - - u32 sdio_cmd_signal; - u32 sdio_cmd_clear_slot; - u32 sdio_cmd_to_host; - u32 sdio_cmd_from_host; - u32 sdio_cmd_from_host_and_clear; - } hip_prof; - struct cmd_profile cmd_prof; -#endif - - /* Interrupt processing mode flags */ - u32 intmode; - -#ifdef UNIFI_DEBUG - u8 lsb; -#endif - - /* Historic firmware panic codes */ - u32 panic_data_phy_addr; - u32 panic_data_mac_addr; - u16 last_phy_panic_code; - u16 last_phy_panic_arg; - u16 last_mac_panic_code; - u16 last_mac_panic_arg; -#ifdef CSR_PRE_ALLOC_NET_DATA - bulk_data_desc_t bulk_data_desc_list[BULK_DATA_PRE_ALLOC_NUM]; - u16 prealloc_netdata_r; - u16 prealloc_netdata_w; -#endif -}; /* struct card */ - - -/* Reset types */ -enum unifi_reset_type -{ - UNIFI_COLD_RESET = 1, - UNIFI_WARM_RESET = 2 -}; - -/* - * unifi_set_host_state() implements signalling for waking UniFi from - * deep sleep. The host indicates to UniFi that it is in one of three states: - * Torpid - host has nothing to send, UniFi can go to sleep. - * Drowsy - host has data to send to UniFi. UniFi will respond with an - * SDIO interrupt. When hosts responds it moves to Awake. - * Awake - host has data to transfer, UniFi must stay awake. - * When host has finished, it moves to Torpid. - */ -CsrResult unifi_set_host_state(card_t *card, enum unifi_host_state state); - - -CsrResult unifi_set_proc_select(card_t *card, enum unifi_dbg_processors_select select); -s32 card_read_signal_counts(card_t *card); -bulk_data_desc_t* card_find_data_slot(card_t *card, s16 slot); - - -CsrResult unifi_read32(card_t *card, u32 unifi_addr, u32 *pdata); -CsrResult unifi_readnz(card_t *card, u32 unifi_addr, - void *pdata, u16 len); -s32 unifi_read_shared_count(card_t *card, u32 addr); - -CsrResult unifi_writen(card_t *card, u32 unifi_addr, void *pdata, u16 len); - -CsrResult unifi_bulk_rw(card_t *card, u32 handle, - void *pdata, u32 len, s16 direction); -CsrResult unifi_bulk_rw_noretry(card_t *card, u32 handle, - void *pdata, u32 len, s16 direction); -#define UNIFI_SDIO_READ 0 -#define UNIFI_SDIO_WRITE 1 - -CsrResult unifi_read_8_or_16(card_t *card, u32 unifi_addr, u8 *pdata); -CsrResult unifi_write_8_or_16(card_t *card, u32 unifi_addr, u8 data); -CsrResult unifi_read_direct_8_or_16(card_t *card, u32 addr, u8 *pdata); -CsrResult unifi_write_direct_8_or_16(card_t *card, u32 addr, u8 data); - -CsrResult unifi_read_direct16(card_t *card, u32 addr, u16 *pdata); -CsrResult unifi_read_direct32(card_t *card, u32 addr, u32 *pdata); -CsrResult unifi_read_directn(card_t *card, u32 addr, void *pdata, u16 len); - -CsrResult unifi_write_direct16(card_t *card, u32 addr, u16 data); -CsrResult unifi_write_directn(card_t *card, u32 addr, void *pdata, u16 len); - -CsrResult sdio_read_f0(card_t *card, u32 addr, u8 *pdata); -CsrResult sdio_write_f0(card_t *card, u32 addr, u8 data); - -void unifi_read_panic(card_t *card); -#ifdef CSR_PRE_ALLOC_NET_DATA -void prealloc_netdata_free(card_t *card); -CsrResult prealloc_netdata_alloc(card_t *card); -#endif -/* For diagnostic use */ -void dump(void *mem, u16 len); -void dump16(void *mem, u16 len); - -#endif /* __CARD_SDIO_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_card_sdio_intr.c b/drivers/staging/csr/csr_wifi_hip_card_sdio_intr.c deleted file mode 100644 index cfe186e..0000000 --- a/drivers/staging/csr/csr_wifi_hip_card_sdio_intr.c +++ /dev/null @@ -1,2595 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_card_sdio_intr.c - * - * PURPOSE: - * Interrupt processing for the UniFi SDIO driver. - * - * We may need another signal queue of responses to UniFi to hold - * bulk data commands generated by read_to_host_signals(). - * - * --------------------------------------------------------------------------- - */ -#undef CSR_WIFI_HIP_NOISY - -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" -#include "csr_wifi_hip_card.h" -#include "csr_wifi_hip_xbv.h" - - -/* - * If the SDIO link is idle for this time (in milliseconds), - * signal UniFi to go into Deep Sleep. - * Valid return value of unifi_bh(). - */ -#define UNIFI_DEFAULT_HOST_IDLE_TIMEOUT 5 -/* - * If the UniFi has not woken up for this time (in milliseconds), - * signal the bottom half to take action. - * Valid return value of unifi_bh(). - */ -#define UNIFI_DEFAULT_WAKE_TIMEOUT 1000 - - -static CsrResult process_bh(card_t *card); -static CsrResult handle_host_protocol(card_t *card, u8 *processed_something); - -static CsrResult flush_fh_buffer(card_t *card); - -static CsrResult check_fh_sig_slots(card_t *card, u16 needed, s32 *space); - -static CsrResult read_to_host_signals(card_t *card, s32 *processed); -static CsrResult process_to_host_signals(card_t *card, s32 *processed); - -static CsrResult process_bulk_data_command(card_t *card, - const u8 *cmdptr, - s16 cmd, u16 len); -static CsrResult process_clear_slot_command(card_t *card, - const u8 *cmdptr); -static CsrResult process_fh_cmd_queue(card_t *card, s32 *processed); -static CsrResult process_fh_traffic_queue(card_t *card, s32 *processed); -static void restart_packet_flow(card_t *card); -static CsrResult process_clock_request(card_t *card); - -#ifdef CSR_WIFI_HIP_NOISY -s16 dump_fh_buf = 0; -#endif /* CSR_WIFI_HIP_NOISY */ - -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE - -/* - * The unifi_debug_output buffer can be used to debug the HIP behaviour offline - * i.e. without using the tracing functions that change the timing. - * - * Call unifi_debug_log_to_buf() with printf arguments to store a string into - * unifi_debug_output. When unifi_debug_buf_dump() is called, the contents of the - * buffer are dumped with dump_str() which has to be implemented in the - * OS layer, during the porting exercise. The offset printed, holds the - * offset where the last character is (always a zero). - * - */ - -#define UNIFI_DEBUG_GBUFFER_SIZE 8192 -static char unifi_debug_output[UNIFI_DEBUG_GBUFFER_SIZE]; -static char *unifi_dbgbuf_ptr = unifi_debug_output; -static char *unifi_dbgbuf_start = unifi_debug_output; - -static void append_char(char c) -{ - /* write char and advance pointer */ - *unifi_dbgbuf_ptr++ = c; - /* wrap pointer at end of buffer */ - if ((unifi_dbgbuf_ptr - unifi_debug_output) >= UNIFI_DEBUG_GBUFFER_SIZE) - { - unifi_dbgbuf_ptr = unifi_debug_output; - } -} /* append_char() */ - - -void unifi_debug_string_to_buf(const char *str) -{ - const char *p = str; - while (*p) - { - append_char(*p); - p++; - } - /* Update start-of-buffer pointer */ - unifi_dbgbuf_start = unifi_dbgbuf_ptr + 1; - if ((unifi_dbgbuf_start - unifi_debug_output) >= UNIFI_DEBUG_GBUFFER_SIZE) - { - unifi_dbgbuf_start = unifi_debug_output; - } -} - - -void unifi_debug_log_to_buf(const char *fmt, ...) -{ -#define DEBUG_BUFFER_SIZE 80 - static char s[DEBUG_BUFFER_SIZE]; - va_list args; - - va_start(args, fmt); - vsnprintf(s, DEBUG_BUFFER_SIZE, fmt, args); - va_end(args); - - unifi_debug_string_to_buf(s); -} /* unifi_debug_log_to_buf() */ - - -/* Convert signed 32 bit (or less) integer to string */ -static void CsrUInt16ToHex(u16 number, char *str) -{ - u16 index; - u16 currentValue; - - for (index = 0; index < 4; index++) - { - currentValue = (u16) (number & 0x000F); - number >>= 4; - str[3 - index] = (char) (currentValue > 9 ? currentValue + 55 : currentValue + '0'); - } - str[4] = '\0'; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_debug_hex_to_buf - * - * puts the contents of the passed buffer into the debug buffer as a hex string - * - * Arguments: - * buff buffer to print as hex - * length number of chars to print - * - * Returns: - * None. - * - * --------------------------------------------------------------------------- - */ -void unifi_debug_hex_to_buf(const char *buff, u16 length) -{ - char s[5]; - u16 i; - - for (i = 0; i < length; i = i + 2) - { - CsrUInt16ToHex(*((u16 *)(buff + i)), s); - unifi_debug_string_to_buf(s); - } -} - - -void unifi_debug_buf_dump(void) -{ - s32 offset = unifi_dbgbuf_ptr - unifi_debug_output; - - unifi_error(NULL, "HIP debug buffer offset=%d\n", offset); - dump_str(unifi_debug_output + offset, UNIFI_DEBUG_GBUFFER_SIZE - offset); - dump_str(unifi_debug_output, offset); -} /* unifi_debug_buf_dump() */ - - -#endif /* CSR_WIFI_HIP_DEBUG_OFFLINE */ - -#ifdef CSR_PRE_ALLOC_NET_DATA -#define NETDATA_PRE_ALLOC_BUF_SIZE 8000 - -void prealloc_netdata_free(card_t *card) -{ - unifi_warning(card->ospriv, "prealloc_netdata_free: IN: w=%d r=%d\n", card->prealloc_netdata_w, card->prealloc_netdata_r); - - while (card->bulk_data_desc_list[card->prealloc_netdata_r].data_length != 0) - { - unifi_warning(card->ospriv, "prealloc_netdata_free: r=%d\n", card->prealloc_netdata_r); - - unifi_net_data_free(card->ospriv, &card->bulk_data_desc_list[card->prealloc_netdata_r]); - card->prealloc_netdata_r++; - card->prealloc_netdata_r %= BULK_DATA_PRE_ALLOC_NUM; - } - card->prealloc_netdata_r = card->prealloc_netdata_w = 0; - - unifi_warning(card->ospriv, "prealloc_netdata_free: OUT: w=%d r=%d\n", card->prealloc_netdata_w, card->prealloc_netdata_r); -} - - -CsrResult prealloc_netdata_alloc(card_t *card) -{ - CsrResult r; - - unifi_trace(card->ospriv, UDBG5, "prealloc_netdata_alloc: IN: w=%d r=%d\n", card->prealloc_netdata_w, card->prealloc_netdata_r); - - while (card->bulk_data_desc_list[card->prealloc_netdata_w].data_length == 0) - { - r = unifi_net_data_malloc(card->ospriv, &card->bulk_data_desc_list[card->prealloc_netdata_w], NETDATA_PRE_ALLOC_BUF_SIZE); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "prealloc_netdata_alloc: Failed to allocate t-h bulk data\n"); - return CSR_RESULT_FAILURE; - } - card->prealloc_netdata_w++; - card->prealloc_netdata_w %= BULK_DATA_PRE_ALLOC_NUM; - } - unifi_trace(card->ospriv, UDBG5, "prealloc_netdata_alloc: OUT: w=%d r=%d\n", card->prealloc_netdata_w, card->prealloc_netdata_r); - - return CSR_RESULT_SUCCESS; -} - - -static CsrResult prealloc_netdata_get(card_t *card, bulk_data_desc_t *bulk_data_slot, u32 size) -{ - CsrResult r; - - unifi_trace(card->ospriv, UDBG5, "prealloc_netdata_get: IN: w=%d r=%d\n", card->prealloc_netdata_w, card->prealloc_netdata_r); - - if (card->bulk_data_desc_list[card->prealloc_netdata_r].data_length == 0) - { - unifi_error(card->ospriv, "prealloc_netdata_get: data_length = 0\n"); - } - - if ((size > NETDATA_PRE_ALLOC_BUF_SIZE) || (card->bulk_data_desc_list[card->prealloc_netdata_r].data_length == 0)) - { - unifi_warning(card->ospriv, "prealloc_netdata_get: Calling net_data_malloc\n"); - - r = unifi_net_data_malloc(card->ospriv, bulk_data_slot, size); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "prealloc_netdata_get: Failed to allocate t-h bulk data\n"); - return CSR_RESULT_FAILURE; - } - return CSR_RESULT_SUCCESS; - } - - *bulk_data_slot = card->bulk_data_desc_list[card->prealloc_netdata_r]; - card->bulk_data_desc_list[card->prealloc_netdata_r].os_data_ptr = NULL; - card->bulk_data_desc_list[card->prealloc_netdata_r].os_net_buf_ptr = NULL; - card->bulk_data_desc_list[card->prealloc_netdata_r].net_buf_length = 0; - card->bulk_data_desc_list[card->prealloc_netdata_r].data_length = 0; - - card->prealloc_netdata_r++; - card->prealloc_netdata_r %= BULK_DATA_PRE_ALLOC_NUM; - - unifi_trace(card->ospriv, UDBG5, "prealloc_netdata_get: OUT: w=%d r=%d\n", card->prealloc_netdata_w, card->prealloc_netdata_r); - - return CSR_RESULT_SUCCESS; -} - - -#endif - -/* - * --------------------------------------------------------------------------- - * unifi_sdio_interrupt_handler - * - * This function should be called by the OS-dependent code to handle - * an SDIO interrupt from the UniFi. - * - * Arguments: - * card Pointer to card context structure. - * - * Returns: - * None. - * - * Notes: This function may be called in DRS context. In this case, - * tracing with the unifi_trace(), etc, is not allowed. - * --------------------------------------------------------------------------- - */ -void unifi_sdio_interrupt_handler(card_t *card) -{ - /* - * Set the flag to say reason for waking was SDIO interrupt. - * Then ask the OS layer to run the unifi_bh to give attention to the UniFi. - */ - card->bh_reason_unifi = 1; - (void)unifi_run_bh(card->ospriv); -} /* sdio_interrupt_handler() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_configure_low_power_mode - * - * This function should be called by the OS-dependent when - * the deep sleep signaling needs to be enabled or disabled. - * - * Arguments: - * card Pointer to card context structure. - * low_power_mode Disable/Enable the deep sleep signaling - * periodic_wake_mode UniFi wakes host periodically. - * - * Returns: - * CSR_RESULT_SUCCESS on success or a CSR error code. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_configure_low_power_mode(card_t *card, - enum unifi_low_power_mode low_power_mode, - enum unifi_periodic_wake_mode periodic_wake_mode) -{ - card->low_power_mode = low_power_mode; - card->periodic_wake_mode = periodic_wake_mode; - - unifi_trace(card->ospriv, UDBG1, - "unifi_configure_low_power_mode: new mode = %s, wake_host = %s\n", - (low_power_mode == UNIFI_LOW_POWER_DISABLED)?"disabled" : "enabled", - (periodic_wake_mode == UNIFI_PERIODIC_WAKE_HOST_DISABLED)?"FALSE" : "TRUE"); - - (void)unifi_run_bh(card->ospriv); - return CSR_RESULT_SUCCESS; -} /* unifi_configure_low_power_mode() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_force_low_power_mode - * - * This function should be called by the OS-dependent when - * UniFi needs to be set to the low power mode (e.g. on suspend) - * - * Arguments: - * card Pointer to card context structure. - * - * Returns: - * CSR_RESULT_SUCCESS on success or a CSR error code. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_force_low_power_mode(card_t *card) -{ - if (card->low_power_mode == UNIFI_LOW_POWER_DISABLED) - { - unifi_error(card->ospriv, "Attempt to set mode to TORPID when lower power mode is disabled\n"); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - return unifi_set_host_state(card, UNIFI_HOST_STATE_TORPID); -} /* unifi_force_low_power_mode() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_bh - * - * This function should be called by the OS-dependent code when - * host and/or UniFi has requested an exchange of messages. - * - * Arguments: - * card Pointer to card context structure. - * - * Returns: - * CSR_RESULT_SUCCESS on success or a CSR error code. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_bh(card_t *card, u32 *remaining) -{ - CsrResult r; - CsrResult csrResult; - u8 pending; - s32 iostate, j; - const enum unifi_low_power_mode low_power_mode = card->low_power_mode; - u16 data_slots_used = 0; - - - /* Process request to raise the maximum SDIO clock */ - r = process_clock_request(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Error setting maximum SDIO clock\n"); - goto exit; - } - - /* - * Why was the BH thread woken? - * If it was an SDIO interrupt, UniFi is awake and we need to process it. - * If it was a host process queueing data, then we need to awaken UniFi. - * - * Priority of flags is top down. - * - * ----------------------------------------------------------+ - * \state| AWAKE | DROWSY | TORPID | - * flag\ | | | | - * ---------+--------------+----------------+----------------| - * | do the host | go to AWAKE and| go to AWAKE and| - * unifi | protocol | do the host | do the host | - * | | protocol | protocol | - * ---------+--------------+----------------+----------------| - * | do the host | | | - * host | protocol | do nothing | go to DROWSY | - * | | | | - * ---------+--------------+----------------+----------------| - * | | | should not | - * timeout | go to TORPID | error, unifi | occur | - * | | didn't wake up | do nothing | - * ----------------------------------------------------------+ - * - * Note that if we end up in the AWAKE state we always do the host protocol. - */ - - do - { - /* - * When the host state is set to DROWSY, then we can not disable the - * interrupts as UniFi can generate an interrupt even when the INT_ENABLE - * register has the interrupts disabled. This interrupt will be lost. - */ - if (card->host_state == UNIFI_HOST_STATE_DROWSY || card->host_state == UNIFI_HOST_STATE_TORPID) - { - u8 reason_unifi; - - /* - * An interrupt may occur while or after we cache the reason. - * This interrupt will cause the unifi_bh() to be scheduled again. - * Any interrupt that has happened before the register is read - * and is considered spurious has to acknowledged. - */ - reason_unifi = card->bh_reason_unifi; - - /* - * If an interrupt is received, check if it was a real one, - * set the host state to AWAKE and run the BH. - */ - r = CardPendingInt(card, &pending); - if (r != CSR_RESULT_SUCCESS) - { - goto exit; - } - - if (pending) - { - unifi_trace(card->ospriv, UDBG5, - "UNIFI_HOST_STATE_%s: Set state to AWAKE.\n", - (card->host_state == UNIFI_HOST_STATE_TORPID)?"TORPID" : "DROWSY"); - - r = unifi_set_host_state(card, UNIFI_HOST_STATE_AWAKE); - if (r == CSR_RESULT_SUCCESS) - { - (*remaining) = 0; - break; - } - } - else if (reason_unifi) - { - CsrSdioInterruptAcknowledge(card->sdio_if); - } - - /* - * If an chip is in TORPID, and the host wants to wake it up, - * set the host state to DROWSY and wait for the wake-up interrupt. - */ - if ((card->host_state == UNIFI_HOST_STATE_TORPID) && card->bh_reason_host) - { - r = unifi_set_host_state(card, UNIFI_HOST_STATE_DROWSY); - if (r == CSR_RESULT_SUCCESS) - { - /* - * set the timeout value to UNIFI_DEFAULT_WAKE_TIMEOUT - * to capture a wake error. - */ - card->bh_reason_host = 0; - (*remaining) = UNIFI_DEFAULT_WAKE_TIMEOUT; - return CSR_RESULT_SUCCESS; - } - - goto exit; - } - - /* - * If the chip is in DROWSY, and the timeout expires, - * we need to reset the chip. This should never occur. - * (If it does, check that the calling thread set "remaining" - * according to the time remaining when unifi_bh() was called). - */ - if ((card->host_state == UNIFI_HOST_STATE_DROWSY) && ((*remaining) == 0)) - { - unifi_error(card->ospriv, "UniFi did not wake up on time...\n"); - - /* - * Check if Function1 has gone away or - * if we missed an SDIO interrupt. - */ - r = unifi_check_io_status(card, &iostate); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - goto exit; - } - /* Need to reset and reboot */ - return CSR_RESULT_FAILURE; - } - } - else - { - if (card->bh_reason_unifi || card->bh_reason_host) - { - break; - } - - if (((*remaining) == 0) && (low_power_mode == UNIFI_LOW_POWER_ENABLED)) - { - r = unifi_set_host_state(card, UNIFI_HOST_STATE_TORPID); - if (r == CSR_RESULT_SUCCESS) - { - (*remaining) = 0; - return CSR_RESULT_SUCCESS; - } - - goto exit; - } - } - - /* No need to run the host protocol */ - return CSR_RESULT_SUCCESS; - } while (0); - - - /* Disable the SDIO interrupts while doing SDIO ops */ - csrResult = CsrSdioInterruptDisable(card->sdio_if); - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - r = CSR_WIFI_HIP_RESULT_NO_DEVICE; - goto exit; - } - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - unifi_error(card->ospriv, "Failed to disable SDIO interrupts. unifi_bh queues error.\n"); - goto exit; - } - - /* Now that the interrupts are disabled, ack the interrupt */ - CsrSdioInterruptAcknowledge(card->sdio_if); - - /* Run the HIP */ - r = process_bh(card); - if (r != CSR_RESULT_SUCCESS) - { - goto exit; - } - - /* - * If host is now idle, schedule a timer for the delay before we - * let UniFi go into deep sleep. - * If the timer goes off, we will move to TORPID state. - * If UniFi raises an interrupt in the meantime, we will cancel - * the timer and start a new one when we become idle. - */ - for (j = 0; j < UNIFI_NO_OF_TX_QS; j++) - { - data_slots_used += CSR_WIFI_HIP_Q_SLOTS_USED(&card->fh_traffic_queue[j]); - } - - if ((low_power_mode == UNIFI_LOW_POWER_ENABLED) && (data_slots_used == 0)) - { -#ifndef CSR_WIFI_HIP_TA_DISABLE - if (card->ta_sampling.traffic_type != CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_PERIODIC) - { -#endif - /* return the UNIFI_DEFAULT_HOST_IDLE_TIMEOUT, so we can go to sleep. */ - unifi_trace(card->ospriv, UDBG5, - "Traffic is not periodic, set timer for TORPID.\n"); - (*remaining) = UNIFI_DEFAULT_HOST_IDLE_TIMEOUT; -#ifndef CSR_WIFI_HIP_TA_DISABLE - } - else - { - unifi_trace(card->ospriv, UDBG5, - "Traffic is periodic, set unifi to TORPID immediately.\n"); - if (CardAreAllFromHostDataSlotsEmpty(card) == 1) - { - r = unifi_set_host_state(card, UNIFI_HOST_STATE_TORPID); - if (r != CSR_RESULT_SUCCESS) - { - goto exit; - } - } - } -#endif - } - - csrResult = CsrSdioInterruptEnable(card->sdio_if); - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - r = CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - unifi_error(card->ospriv, "Failed to enable SDIO interrupt\n"); - } - -exit: - - unifi_trace(card->ospriv, UDBG4, "New state=%d\n", card->host_state); - - if (r != CSR_RESULT_SUCCESS) - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_buf_dump(); -#endif - /* If an interrupt has been raised, ack it here */ - if (card->bh_reason_unifi) - { - CsrSdioInterruptAcknowledge(card->sdio_if); - } - - unifi_error(card->ospriv, - "unifi_bh: state=%d %c, clock=%dkHz, interrupt=%d host=%d, power_save=%s\n", - card->host_state, - (card->host_state == UNIFI_HOST_STATE_AWAKE)?'A' : (card->host_state == UNIFI_HOST_STATE_DROWSY)?'D' : 'T', - card->sdio_clock_speed / 1000, - card->bh_reason_unifi, card->bh_reason_host, - (low_power_mode == UNIFI_LOW_POWER_DISABLED)?"disabled" : "enabled"); - - /* Try to capture firmware panic codes */ - (void)unifi_capture_panic(card); - - /* Ask for a mini-coredump when the driver has reset UniFi */ - (void)unifi_coredump_request_at_next_reset(card, 1); - } - - return r; -} /* unifi_bh() */ - - -/* - * --------------------------------------------------------------------------- - * process_clock_request - * - * Handle request from the OS layer to increase the SDIO clock speed. - * The fast clock is limited until the firmware has indicated that it has - * completed initialisation to the OS layer. - * - * Arguments: - * card Pointer to card context structure. - * - * Returns: - * CSR_RESULT_SUCCESS on success or CSR error code. - * --------------------------------------------------------------------------- - */ -static CsrResult process_clock_request(card_t *card) -{ - CsrResult r = CSR_RESULT_SUCCESS; - CsrResult csrResult; - - if (!card->request_max_clock) - { - return CSR_RESULT_SUCCESS; /* No pending request */ - } - - /* - * The SDIO clock speed request from the OS layer is only acted upon if - * the UniFi is awake. If it was in any other state, the clock speed will - * transition through SAFE to MAX while the host wakes it up, and the - * final speed reached will be UNIFI_SDIO_CLOCK_MAX_HZ. - * This assumes that the SME never requests low power mode while the f/w - * initialisation takes place. - */ - if (card->host_state == UNIFI_HOST_STATE_AWAKE) - { - unifi_trace(card->ospriv, UDBG1, "Set SDIO max clock\n"); - csrResult = CsrSdioMaxBusClockFrequencySet(card->sdio_if, UNIFI_SDIO_CLOCK_MAX_HZ); - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - } - else - { - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_MAX_HZ; /* log the new freq */ - } - } - else - { - unifi_trace(card->ospriv, UDBG1, "Will set SDIO max clock after wakeup\n"); - } - - /* Cancel the request now that it has been acted upon, or is about to be - * by the wakeup mechanism - */ - card->request_max_clock = 0; - - return r; -} - - -/* - * --------------------------------------------------------------------------- - * process_bh - * - * Exchange messages with UniFi - * - * Arguments: - * card Pointer to card context structure. - * - * Returns: - * CSR_RESULT_SUCCESS on success or CSR error code. - * --------------------------------------------------------------------------- - */ -static CsrResult process_bh(card_t *card) -{ - CsrResult r; - u8 more; - more = FALSE; - - /* Process the reasons (interrupt, signals) */ - do - { - /* - * Run in a while loop, to save clearing the interrupts - * every time around the outside loop. - */ - do - { - /* If configured to run the HIP just once, skip first loop */ - if (card->intmode & CSR_WIFI_INTMODE_RUN_BH_ONCE) - { - break; - } - - r = handle_host_protocol(card, &more); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf("c52=%d c53=%d tx=%d txc=%d rx=%d s=%d t=%d fc=%d\n", - card->cmd_prof.cmd52_count, - card->cmd_prof.cmd53_count, - card->cmd_prof.tx_count, - card->cmd_prof.tx_cfm_count, - card->cmd_prof.rx_count, - card->cmd_prof.sdio_cmd_signal, - card->cmd_prof.sdio_cmd_to_host, - card->cmd_prof.sdio_cmd_from_host_and_clear - ); - - card->cmd_prof.cmd52_count = card->cmd_prof.cmd53_count = 0; - card->cmd_prof.tx_count = card->cmd_prof.tx_cfm_count = card->cmd_prof.rx_count = 0; - - card->cmd_prof.cmd52_f0_r_count = 0; - card->cmd_prof.cmd52_f0_w_count = 0; - card->cmd_prof.cmd52_r8or16_count = 0; - card->cmd_prof.cmd52_w8or16_count = 0; - card->cmd_prof.cmd52_r16_count = 0; - card->cmd_prof.cmd52_w16_count = 0; - card->cmd_prof.cmd52_r32_count = 0; - - card->cmd_prof.sdio_cmd_signal = 0; - card->cmd_prof.sdio_cmd_clear_slot = 0; - card->cmd_prof.sdio_cmd_to_host = 0; - card->cmd_prof.sdio_cmd_from_host = 0; - card->cmd_prof.sdio_cmd_from_host_and_clear = 0; -#endif - - - } while (more || card->bh_reason_unifi || card->bh_reason_host); - - /* Acknowledge the h/w interrupt */ - r = CardClearInt(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to acknowledge interrupt.\n"); - return r; - } - - /* - * UniFi may have tried to generate an interrupt during the - * CardClearInt() was running. So, we need to run the host - * protocol again, to check if there are any pending requests. - */ - r = handle_host_protocol(card, &more); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf("c52=%d c53=%d tx=%d txc=%d rx=%d s=%d t=%d fc=%d\n", - card->cmd_prof.cmd52_count, - card->cmd_prof.cmd53_count, - card->cmd_prof.tx_count, - card->cmd_prof.tx_cfm_count, - card->cmd_prof.rx_count, - card->cmd_prof.sdio_cmd_signal, - card->cmd_prof.sdio_cmd_to_host, - card->cmd_prof.sdio_cmd_from_host_and_clear - ); - - card->cmd_prof.cmd52_count = card->cmd_prof.cmd53_count = 0; - card->cmd_prof.tx_count = card->cmd_prof.tx_cfm_count = card->cmd_prof.rx_count = 0; - - card->cmd_prof.cmd52_f0_r_count = 0; - card->cmd_prof.cmd52_f0_w_count = 0; - card->cmd_prof.cmd52_r8or16_count = 0; - card->cmd_prof.cmd52_w8or16_count = 0; - card->cmd_prof.cmd52_r16_count = 0; - card->cmd_prof.cmd52_w16_count = 0; - card->cmd_prof.cmd52_r32_count = 0; - - card->cmd_prof.sdio_cmd_signal = 0; - card->cmd_prof.sdio_cmd_clear_slot = 0; - card->cmd_prof.sdio_cmd_to_host = 0; - card->cmd_prof.sdio_cmd_from_host = 0; - card->cmd_prof.sdio_cmd_from_host_and_clear = 0; -#endif - /* If configured to run the HIP just once, work is now done */ - if (card->intmode & CSR_WIFI_INTMODE_RUN_BH_ONCE) - { - break; - } - - } while (more || card->bh_reason_unifi || card->bh_reason_host); - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - if ((card->intmode & CSR_WIFI_INTMODE_RUN_BH_ONCE) == 0) - { - unifi_debug_log_to_buf("proc=%d\n", - card->cmd_prof.process_count); - } -#endif - - return CSR_RESULT_SUCCESS; -} /* process_bh() */ - - -/* - * --------------------------------------------------------------------------- - * handle_host_protocol - * - * This function implements the Host Interface Protocol (HIP) as - * described in the Host Interface Protocol Specification. - * - * Arguments: - * card Pointer to card context structure. - * processed_something Pointer to location to update processing status: - * TRUE when data was transferred - * FALSE when no data was transferred (queues empty) - * - * Returns: - * CSR_RESULT_SUCCESS on success or CSR error code. - * --------------------------------------------------------------------------- - */ -static CsrResult handle_host_protocol(card_t *card, u8 *processed_something) -{ - CsrResult r; - s32 done; - - *processed_something = FALSE; - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, " ======================== \n"); -#endif /* CSR_WIFI_HIP_NOISY */ - -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - card->cmd_prof.process_count++; -#endif - - card->bh_reason_unifi = card->bh_reason_host = 0; - card->generate_interrupt = 0; - - - /* - * (Re)fill the T-H signal buffer - */ - r = read_to_host_signals(card, &done); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Error occurred reading to-host signals\n"); - return r; - } - if (done > 0) - { - *processed_something = TRUE; - } - - /* - * Process any to-host signals. - * Perform any requested CMD53 transfers here, but just queue any - * bulk data command responses. - */ - r = process_to_host_signals(card, &done); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Error occurred processing to-host signals\n"); - return r; - } - - /* Now send any signals in the F-H queues */ - /* Give precedence to the command queue */ - r = process_fh_cmd_queue(card, &done); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Error occurred processing from-host signals\n"); - return r; - } - if (done > 0) - { - *processed_something = TRUE; - } - - r = process_fh_traffic_queue(card, &done); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Error occurred processing from-host data signals\n"); - return r; - } - if (done > 0) - { - *processed_something = TRUE; - } - - /* Flush out the batch of signals to the UniFi. */ - r = flush_fh_buffer(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to copy from-host signals to UniFi\n"); - return r; - } - - - /* - * Send the host interrupt to say the queues have been modified. - */ - if (card->generate_interrupt) - { - r = CardGenInt(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to notify UniFi that queues have been modified.\n"); - return r; - } - } - -#ifdef CSR_WIFI_RX_PATH_SPLIT -#ifdef CSR_WIFI_RX_PATH_SPLIT_DONT_USE_WQ - unifi_rx_queue_flush(card->ospriv); -#endif -#endif - - /* See if we can re-enable transmission now */ - restart_packet_flow(card); - -#ifdef CSR_PRE_ALLOC_NET_DATA - r = prealloc_netdata_alloc(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "prealloc_netdata failed\n"); - return r; - } -#endif - - /* - * Don't put the thread sleep if we just interacted with the chip, - * there might be more to do if we look again. - */ - return r; -} /* handle_host_protocol() */ - - -/* - * Rounds the given signal length in bytes to a whole number - * of sig_frag_size. - */ -#define GET_CHUNKS_FOR(SIG_FRAG_SIZE, LENGTH) (((LENGTH) + ((SIG_FRAG_SIZE)-1)) / (SIG_FRAG_SIZE)) - - -/* - * --------------------------------------------------------------------------- - * read_to_host_signals - * - * Read everything pending in the UniFi TH signal buffer. - * Only do it if the local buffer is empty. - * - * Arguments: - * card Pointer to card context struct - * processed Number of signals read: - * 0 if there were no signals pending, - * 1 if we read at least one signal - * Returns: - * CSR error code if an error occurred. - * --------------------------------------------------------------------------- - */ -static CsrResult read_to_host_signals(card_t *card, s32 *processed) -{ - s32 count_thw, count_thr; - s32 unread_chunks, unread_bytes; - CsrResult r; - - *processed = 0; - - /* Read any pending signals or bulk data commands */ - count_thw = unifi_read_shared_count(card, card->sdio_ctrl_addr + 4); - if (count_thw < 0) - { - unifi_error(card->ospriv, "Failed to read to-host sig written count\n"); - return CSR_RESULT_FAILURE; - } - card->to_host_signals_w = count_thw; /* diag */ - - count_thr = card->to_host_signals_r; - - if (count_thw == count_thr) - { - return CSR_RESULT_SUCCESS; - } - - unread_chunks = - (((count_thw - count_thr) + 128) % 128) - card->th_buffer.count; - - if (unread_chunks == 0) - { - return CSR_RESULT_SUCCESS; - } - - unread_bytes = card->config_data.sig_frag_size * unread_chunks; - - - r = unifi_bulk_rw(card, - card->config_data.tohost_sigbuf_handle, - card->th_buffer.ptr, - unread_bytes, - UNIFI_SDIO_READ); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read ToHost signal\n"); - return r; - } - - card->th_buffer.ptr += unread_bytes; - card->th_buffer.count += (u16)unread_chunks; - - *processed = 1; - - return CSR_RESULT_SUCCESS; -} /* read_to_host_signals() */ - - -/* - * --------------------------------------------------------------------------- - * update_to_host_signals_r - * - * Advance the shared-memory count of chunks read from the to-host - * signal buffer. - * Raise a UniFi internal interrupt to tell the firmware that the - * count has changed. - * - * Arguments: - * card Pointer to card context struct - * pending Number of chunks remaining - * - * Returns: - * CSR_RESULT_SUCCESS on success or CSR error code - * --------------------------------------------------------------------------- - */ -static CsrResult update_to_host_signals_r(card_t *card, s16 pending) -{ - CsrResult r; - - card->to_host_signals_r = - (card->to_host_signals_r + (card->th_buffer.count - pending)) % 128; - card->th_buffer.count = pending; - - /* Update the count of signals read */ - r = unifi_write_8_or_16(card, card->sdio_ctrl_addr + 6, - (u8)card->to_host_signals_r); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to update to-host signals read\n"); - return r; - } - - r = CardGenInt(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to notify UniFi that we processed to-host signals.\n"); - return r; - } - - card->generate_interrupt = 0; - - return CSR_RESULT_SUCCESS; -} /* update_to_host_signals_r() */ - - -/* - * --------------------------------------------------------------------------- - * read_unpack_cmd - * - * Converts a wire-formatted command to the host bulk_data_cmd_t structure. - * - * Arguments: - * ptr Pointer to the command - * bulk_data_cmd Pointer to the host structure - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void read_unpack_cmd(const u8 *ptr, bulk_data_cmd_t *bulk_data_cmd) -{ - s16 index = 0; - bulk_data_cmd->cmd_and_len = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - bulk_data_cmd->data_slot = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - bulk_data_cmd->offset = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - bulk_data_cmd->buffer_handle = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; -} /* read_unpack_cmd */ - - -/* - * --------------------------------------------------------------------------- - * process_to_host_signals - * - * Read and dispatch signals from the UniFi - * - * Arguments: - * card Pointer to card context struct - * processed Pointer to location to write processing result: - * 0 if there were no signals pending, - * 1 if we read at least one signal - * - * Returns: - * CSR error code if there was an error - * - * Notes: - * Since bulk data transfers can take a long time, if we wait until - * all are done before we acknowledge the signals, the UniFi runs out - * of buffer space. Therefore we keep a count of the bytes transferred - * in bulk data commands, and update the to-host-signals-read count - * if we've done a large transfer. - * - * All data in the f/w is stored in a little endian format, without any - * padding bytes. Every read from the memory has to be transformed in - * host (cpu specific) format, before we can process it. Therefore we - * use read_unpack_cmd() and read_unpack_signal() to convert the raw data - * contained in the card->th_buffer.buf to host structures. - * Important: UDI clients use wire-formatted structures, so we need to - * indicate all data, as we have read it from the device. - * --------------------------------------------------------------------------- - */ -static CsrResult process_to_host_signals(card_t *card, s32 *processed) -{ - s16 pending; - s16 remaining; - u8 *bufptr; - bulk_data_param_t data_ptrs; - s16 cmd; - u16 sig_len; - s16 i; - u16 chunks_in_buf; - u16 bytes_transferred = 0; - CsrResult r = CSR_RESULT_SUCCESS; - - *processed = 0; - - pending = card->th_buffer.count; - - /* Are there new to-host signals? */ - unifi_trace(card->ospriv, UDBG4, "handling %d to-host chunks\n", pending); - - if (!pending) - { - return CSR_RESULT_SUCCESS; - } - - /* - * This is a pointer to the raw data we have read from the f/w. - * Can be a signal or a command. Note that we need to convert - * it to a host structure before we process it. - */ - bufptr = card->th_buffer.buf; - - while (pending > 0) - { - s16 f_flush_count = 0; - - /* - * Command and length are common to signal and bulk data msgs. - * If command == 0 (i.e. a signal), len is number of bytes - * *following* the 2-byte header. - */ - cmd = bufptr[1] >> 4; - sig_len = bufptr[0] + ((bufptr[1] & 0x0F) << 8); - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "Received UniFi msg cmd=%d, len=%d\n", - cmd, sig_len); -#endif /* CSR_WIFI_HIP_NOISY */ - - if ((sig_len == 0) && - ((cmd != SDIO_CMD_CLEAR_SLOT) && (cmd != SDIO_CMD_PADDING))) - { - unifi_error(card->ospriv, "incomplete signal or command: has size zero\n"); - return CSR_RESULT_FAILURE; - } - /* - * Make sure the buffer contains a complete message. - * Signals may occupy multiple chunks, bulk-data commands occupy - * one chunk. - */ - if (cmd == SDIO_CMD_SIGNAL) - { - chunks_in_buf = GET_CHUNKS_FOR(card->config_data.sig_frag_size, (u16)(sig_len + 2)); - } - else - { - chunks_in_buf = 1; - } - - if (chunks_in_buf > (u16)pending) - { - unifi_error(card->ospriv, "incomplete signal (0x%x?): need %d chunks, got %d\n", - GET_SIGNAL_ID(bufptr + 2), - chunks_in_buf, pending); - unifi_error(card->ospriv, " thsw=%d, thsr=%d\n", - card->to_host_signals_w, - card->to_host_signals_r); - return CSR_RESULT_FAILURE; - } - - - switch (cmd) - { - case SDIO_CMD_SIGNAL: - /* This is a signal. Read the rest of it and then handle it. */ -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.sdio_cmd_signal++; -#endif - - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) - { - /* Retrieve dataRefs[i].DataLength */ - u16 data_len = GET_PACKED_DATAREF_LEN(bufptr + 2, i); - - /* - * The bulk data length in the signal can not be greater than - * the maximun length allowed by the SDIO config structure. - */ - if (data_len > card->config_data.data_slot_size) - { - unifi_error(card->ospriv, - "Bulk Data length (%d) exceeds Maximum Bulk Data length (%d)\n", - data_len, card->config_data.data_slot_size); - return CSR_RESULT_FAILURE; - } - - /* - * Len here might not be the same as the length in the - * bulk data slot. The slot length will always be even, - * but len could be odd. - */ - if (data_len != 0) - { - /* Retrieve dataRefs[i].SlotNumber */ - s16 slot = GET_PACKED_DATAREF_SLOT(bufptr + 2, i); - - if (slot >= card->config_data.num_tohost_data_slots) - { - unifi_error(card->ospriv, "!!!bad slot number in to-host signal: %d, sig 0x%X\n", - slot, cmd); - return CSR_RESULT_FAILURE; - } - - data_ptrs.d[i].os_data_ptr = card->to_host_data[slot].os_data_ptr; - data_ptrs.d[i].os_net_buf_ptr = card->to_host_data[slot].os_net_buf_ptr; - data_ptrs.d[i].net_buf_length = card->to_host_data[slot].net_buf_length; - data_ptrs.d[i].data_length = data_len; - } - else - { - UNIFI_INIT_BULK_DATA(&data_ptrs.d[i]); - } - } - - /* - * Log the signal to the UDI, before call unifi_receive_event() as - * it can modify the bulk data. - */ - if (card->udi_hook) - { - (*card->udi_hook)(card->ospriv, bufptr + 2, sig_len, - &data_ptrs, UDI_LOG_TO_HOST); - } - -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - if (GET_SIGNAL_ID(bufptr + 2) == CSR_MA_PACKET_CONFIRM_ID) - { - card->cmd_prof.tx_cfm_count++; - } - else if (GET_SIGNAL_ID(bufptr + 2) == CSR_MA_PACKET_INDICATION_ID) - { - if (data_ptrs.d[0].os_data_ptr) - { - if ((*data_ptrs.d[0].os_data_ptr) & 0x08) - { - card->cmd_prof.rx_count++; - } - } - } -#endif - /* - * Check if the signal is MA-PACKET.cfm and if so check the status. - * If the status is failure, search through the slot records to find - * if any slots are occupied for this host tag. This can happen if - * f/w has not downloaded the bulkdata and before that itself it has - * signalled the confirm with failure. If it finds a slot with that - * host tag then, it clears the corresponding slot - */ - - if (GET_SIGNAL_ID(bufptr + 2) == CSR_MA_PACKET_CONFIRM_ID) - { - /* Get host tag and transmission status */ - u32 host_tag = GET_PACKED_MA_PACKET_CONFIRM_HOST_TAG(bufptr + 2); - u16 status = GET_PACKED_MA_PACKET_CONFIRM_TRANSMISSION_STATUS(bufptr + 2); - - unifi_trace(card->ospriv, UDBG4, "process_to_host_signals signal ID=%x host Tag=%x status=%x\n", - GET_SIGNAL_ID(bufptr + 2), host_tag, status); - - /* If transmission status is failure then search through the slot records - * and if for any slot records the clear slot is not done then do it now - */ - - if (status && (card->fh_slot_host_tag_record)) - { - u16 num_fh_slots = card->config_data.num_fromhost_data_slots; - - /* search through the list of slot records and match with host tag - * If a slot is not yet cleared then clear the slot from here - */ - for (i = 0; i < num_fh_slots; i++) - { - if (card->fh_slot_host_tag_record[i] == host_tag) - { -#ifdef CSR_WIFI_REQUEUE_PACKET_TO_HAL - /* Invoke the HAL module function to requeue it back to HAL Queues */ - r = unifi_reque_ma_packet_request(card->ospriv, host_tag, status, &card->from_host_data[i].bd); - card->fh_slot_host_tag_record[i] = CSR_WIFI_HIP_RESERVED_HOST_TAG; - if (CSR_RESULT_SUCCESS != r) - { - unifi_trace(card->ospriv, UDBG5, "process_to_host_signals: Failed to requeue Packet(hTag:%x) back to HAL \n", host_tag); - CardClearFromHostDataSlot(card, i); - } - else - { - CardClearFromHostDataSlotWithoutFreeingBulkData(card, i); - } - -#else - unifi_trace(card->ospriv, UDBG4, "process_to_host_signals Clear slot=%x host tag=%x\n", i, host_tag); - card->fh_slot_host_tag_record[i] = CSR_WIFI_HIP_RESERVED_HOST_TAG; - - /* Set length field in from_host_data array to 0 */ - CardClearFromHostDataSlot(card, i); -#endif - break; - } - } - } - } - - /* Pass event to OS layer */ - unifi_receive_event(card->ospriv, bufptr + 2, sig_len, &data_ptrs); - - /* Initialise the to_host data, so it can be re-used. */ - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) - { - /* The slot is only valid if the length is non-zero. */ - if (GET_PACKED_DATAREF_LEN(bufptr + 2, i) != 0) - { - s16 slot = GET_PACKED_DATAREF_SLOT(bufptr + 2, i); - if (slot < card->config_data.num_tohost_data_slots) - { - UNIFI_INIT_BULK_DATA(&card->to_host_data[slot]); - } - } - } - -#ifndef CSR_WIFI_DEFER_TH_FLUSH - /* - * If we have previously transferred a lot of data, ack - * the signals read so far, so f/w can reclaim the buffer - * memory sooner. - */ - if (bytes_transferred >= TO_HOST_FLUSH_THRESHOLD) - { - f_flush_count = 1; - } -#endif - break; - - - case SDIO_CMD_CLEAR_SLOT: -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.sdio_cmd_clear_slot++; -#endif - /* This is a clear slot command. */ - if (sig_len != 0) - { - unifi_error(card->ospriv, "process_to_host_signals: clear slot, bad data len: 0x%X at offset %d\n", - sig_len, bufptr - card->th_buffer.buf); - return CSR_RESULT_FAILURE; - } - - r = process_clear_slot_command(card, bufptr); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to process clear slot\n"); - return r; - } - break; - - case SDIO_CMD_TO_HOST_TRANSFER: - case SDIO_CMD_FROM_HOST_TRANSFER: - case SDIO_CMD_FROM_HOST_AND_CLEAR: - case SDIO_CMD_OVERLAY_TRANSFER: - /* This is a bulk data command. */ - if (sig_len & 1) - { - unifi_error(card->ospriv, "process_to_host_signals: bulk data, bad data len: 0x%X at offset %d\n", - sig_len, bufptr - card->th_buffer.buf); - return CSR_RESULT_FAILURE; - } - - r = process_bulk_data_command(card, bufptr, cmd, sig_len); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to process bulk cmd\n"); - return r; - } - /* Count the bytes transferred */ - bytes_transferred += sig_len; - - if (cmd == SDIO_CMD_FROM_HOST_AND_CLEAR) - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.sdio_cmd_from_host_and_clear++; -#endif -#ifndef CSR_WIFI_DEFER_TH_FLUSH - f_flush_count = 1; -#endif - } -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - else if (cmd == SDIO_CMD_FROM_HOST_TRANSFER) - { - card->cmd_prof.sdio_cmd_from_host++; - } - else if (cmd == SDIO_CMD_TO_HOST_TRANSFER) - { - card->cmd_prof.sdio_cmd_to_host++; - } -#endif - break; - - case SDIO_CMD_PADDING: - break; - - default: - unifi_error(card->ospriv, "Unrecognised to-host command: %d\n", cmd); - break; - } - - bufptr += chunks_in_buf * card->config_data.sig_frag_size; - pending -= chunks_in_buf; - - /* - * Write out the host signal count when a significant - * number of bytes of bulk data have been transferred or - * when we have performed a CopyFromHostAndClear. - */ - if (f_flush_count) - { - r = update_to_host_signals_r(card, pending); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - bytes_transferred = 0; - } - } - - if (pending) - { - unifi_warning(card->ospriv, "proc_th_sigs: %d unprocessed\n", pending); - } - - /* If we processed any signals, write the updated count to UniFi */ - if (card->th_buffer.count != pending) - { - r = update_to_host_signals_r(card, pending); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - } - - /* - * Reset the buffer pointer, copying down any un-processed signals. - * This can happen if we enable the optimisation in read_to_host_signals() - * that limits the length to whole blocks. - */ - remaining = card->th_buffer.ptr - bufptr; - if (remaining < 0) - { - unifi_error(card->ospriv, "Processing TH signals overran the buffer\n"); - return CSR_RESULT_FAILURE; - } - if (remaining > 0) - { - /* Use a safe copy because source and destination may overlap */ - u8 *d = card->th_buffer.buf; - u8 *s = bufptr; - s32 n = remaining; - while (n--) - { - *d++ = *s++; - } - } - card->th_buffer.ptr = card->th_buffer.buf + remaining; - - - /* If we reach here then we processed something */ - *processed = 1; - return CSR_RESULT_SUCCESS; -} /* process_to_host_signals() */ - - -/* - * --------------------------------------------------------------------------- - * process_clear_slot_command - * - * Process a clear slot command fom the UniFi. - * - * Arguments: - * card Pointer to card context struct - * bdcmd Pointer to bulk-data command msg from UniFi - * - * Returns: - * 0 on success, CSR error code on error - * --------------------------------------------------------------------------- - */ -static CsrResult process_clear_slot_command(card_t *card, const u8 *cmdptr) -{ - u16 data_slot; - s16 slot; - - data_slot = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(cmdptr + SIZEOF_UINT16); - - unifi_trace(card->ospriv, UDBG4, "Processing clear slot cmd, slot=0x%X\n", - data_slot); - - slot = data_slot & 0x7FFF; - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "CMD clear data slot 0x%04x\n", data_slot); -#endif /* CSR_WIFI_HIP_NOISY */ - - if (data_slot & SLOT_DIR_TO_HOST) - { - if (slot >= card->config_data.num_tohost_data_slots) - { - unifi_error(card->ospriv, - "Invalid to-host data slot in SDIO_CMD_CLEAR_SLOT: %d\n", - slot); - return CSR_RESULT_FAILURE; - } - /* clear to-host data slot */ - unifi_warning(card->ospriv, "Unexpected clear to-host data slot cmd: 0x%04x\n", - data_slot); - } - else - { - if (slot >= card->config_data.num_fromhost_data_slots) - { - unifi_error(card->ospriv, - "Invalid from-host data slot in SDIO_CMD_CLEAR_SLOT: %d\n", - slot); - return CSR_RESULT_FAILURE; - } - - /* - * The driver is the owner to clear all slots now - * Ref - comment in process_fh_traffic_queue - * so it will just ignore the clear slot command from firmware - * and return success - */ - return CSR_RESULT_SUCCESS; - - /* Set length field in from_host_data array to 0 */ - /* CardClearFromHostDataSlot(card, slot); */ - } - - return CSR_RESULT_SUCCESS; -} /* process_clear_slot_command() */ - - -/* - * --------------------------------------------------------------------------- - * process_bulk_data_command - * - * Process a bulk data request from the UniFi. - * - * Arguments: - * card Pointer to card context struct - * bdcmd Pointer to bulk-data command msg from UniFi - * cmd, len Decoded values of command and length from the msg header - * Cmd will only be one of: - * SDIO_CMD_TO_HOST_TRANSFER - * SDIO_CMD_FROM_HOST_TRANSFER - * SDIO_CMD_FROM_HOST_AND_CLEAR - * SDIO_CMD_OVERLAY_TRANSFER - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on error - * --------------------------------------------------------------------------- - */ -static CsrResult process_bulk_data_command(card_t *card, const u8 *cmdptr, - s16 cmd, u16 len) -{ - bulk_data_desc_t *bdslot; -#ifdef CSR_WIFI_ALIGNMENT_WORKAROUND - u8 *host_bulk_data_slot; -#endif - bulk_data_cmd_t bdcmd; - s16 offset; - s16 slot; - s16 dir; - CsrResult r; - - read_unpack_cmd(cmdptr, &bdcmd); - - unifi_trace(card->ospriv, UDBG4, "Processing bulk data cmd %d %s, len=%d, slot=0x%X\n", - cmd, lookup_bulkcmd_name(cmd), len, bdcmd.data_slot); - - /* - * Round up the transfer length if required. - * This is useful to force all transfers to be a multiple of the SDIO block - * size, so the SDIO driver won't try to use a byte-mode CMD53. These are - * broken on some hardware platforms. - */ - if (card->sdio_io_block_pad) - { - len = (len + card->sdio_io_block_size - 1) & ~(card->sdio_io_block_size - 1); - unifi_trace(card->ospriv, UDBG4, "Rounded bulk data length up to %d\n", len); - } - - slot = bdcmd.data_slot & 0x7FFF; - - if (cmd == SDIO_CMD_OVERLAY_TRANSFER) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; /* Not used on CSR6xxx */ - } - else - { - if (bdcmd.data_slot & SLOT_DIR_TO_HOST) - { - /* Request is for to-host bulk data */ - - /* Check sanity of slot number */ - if (slot >= card->config_data.num_tohost_data_slots) - { - unifi_error(card->ospriv, - "Invalid to-host data slot in SDIO bulk xfr req: %d\n", - slot); - return CSR_RESULT_FAILURE; - } - - /* Allocate memory for card->to_host_data[slot] bulk data here. */ -#ifdef CSR_PRE_ALLOC_NET_DATA - r = prealloc_netdata_get(card, &card->to_host_data[slot], len); -#else - r = unifi_net_data_malloc(card->ospriv, &card->to_host_data[slot], len); -#endif - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to allocate t-h bulk data\n"); - return CSR_RESULT_FAILURE; - } - - bdslot = &card->to_host_data[slot]; - - /* Make sure that the buffer is 4-bytes aligned */ - r = unifi_net_dma_align(card->ospriv, bdslot); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to align t-h bulk data buffer for DMA\n"); - return CSR_RESULT_FAILURE; - } - } - else - { - /* Request is for from-host bulk data */ - - if (slot >= card->config_data.num_fromhost_data_slots) - { - unifi_error(card->ospriv, - "Invalid from-host data slot in SDIO bulk xfr req: %d\n", - slot); - return CSR_RESULT_FAILURE; - } - bdslot = &card->from_host_data[slot].bd; - } - offset = bdcmd.offset; - } - /* Do the transfer */ - dir = (cmd == SDIO_CMD_TO_HOST_TRANSFER)? - UNIFI_SDIO_READ : UNIFI_SDIO_WRITE; - - unifi_trace(card->ospriv, UDBG4, - "Bulk %c %s len=%d, handle %d - slot=%d %p+(%d)\n", - (dir == UNIFI_SDIO_READ)?'R' : 'W', - lookup_bulkcmd_name(cmd), - len, - bdcmd.buffer_handle, - slot, bdslot->os_data_ptr, offset); -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "Bulk %s len=%d, handle %d - slot=%d %p+(%d)\n", - lookup_bulkcmd_name(cmd), - len, - bdcmd.buffer_handle, - slot, bdslot->os_data_ptr, offset); -#endif /* CSR_WIFI_HIP_NOISY */ - - - if (bdslot->os_data_ptr == NULL) - { - unifi_error(card->ospriv, "Null os_data_ptr - Bulk %s handle %d - slot=%d o=(%d)\n", - lookup_bulkcmd_name(cmd), - bdcmd.buffer_handle, - slot, - offset); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - -#ifdef CSR_WIFI_ALIGNMENT_WORKAROUND - /* if os_data_ptr is not 4-byte aligned, then allocate a new buffer and copy data - to new buffer to ensure the address passed to unifi_bulk_rw is 4-byte aligned */ - - if (len != 0 && (dir == UNIFI_SDIO_WRITE) && (((ptrdiff_t)bdslot->os_data_ptr + offset) & 3)) - { - host_bulk_data_slot = kmalloc(len, GFP_KERNEL); - - if (!host_bulk_data_slot) - { - unifi_error(card->ospriv, " failed to allocate request_data before unifi_bulk_rw\n"); - return -1; - } - - memcpy((void *)host_bulk_data_slot, - (void *)(bdslot->os_data_ptr + offset), len); - - r = unifi_bulk_rw(card, - bdcmd.buffer_handle, - (void *)host_bulk_data_slot, - len, - dir); - } - else -#endif - { - r = unifi_bulk_rw(card, - bdcmd.buffer_handle, - (void *)(bdslot->os_data_ptr + offset), - len, - dir); - } - - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, - "Failed: %s hlen=%d, slen=%d, handle %d - slot=%d %p+0x%X\n", - lookup_bulkcmd_name(cmd), - len, /* Header length */ - bdslot->data_length, /* Length stored in slot */ - bdcmd.buffer_handle, - slot, bdslot->os_data_ptr, offset); - return r; - } - - bdslot->data_length = len; - - if (cmd == SDIO_CMD_FROM_HOST_AND_CLEAR) - { - if (slot >= card->config_data.num_fromhost_data_slots) - { - unifi_error(card->ospriv, - "Invalid from-host data slot in SDIO_CMD_FROM_HOST_AND_CLEAR: %d\n", - slot); - return CSR_RESULT_FAILURE; - } - -#ifdef CSR_WIFI_ALIGNMENT_WORKAROUND - /* moving this check before we clear host data slot */ - if ((len != 0) && (dir == UNIFI_SDIO_WRITE) && (((ptrdiff_t)bdslot->os_data_ptr + offset) & 3)) - { - kfree(host_bulk_data_slot); - } -#endif - - if (card->fh_slot_host_tag_record) - { - unifi_trace(card->ospriv, UDBG5, "CopyFromHostAndClearSlot Reset entry for slot=%d\n", slot); - - /* reset the host tag entry for the corresponding slot */ - card->fh_slot_host_tag_record[slot] = CSR_WIFI_HIP_RESERVED_HOST_TAG; - } - - - /* Set length field in from_host_data array to 0 */ - CardClearFromHostDataSlot(card, slot); - } - - return CSR_RESULT_SUCCESS; -} /* process_bulk_data_command() */ - - -/* - * --------------------------------------------------------------------------- - * check_fh_sig_slots - * - * Check whether there are <n> free signal slots available on UniFi. - * This takes into account the signals already batched since the - * from_host_signal counts were last read. - * If the from_host_signal counts indicate not enough space, we read - * the latest count from UniFi to see if some more have been freed. - * - * Arguments: - * None. - * - * Returns: - * CSR_RESULT_SUCCESS, otherwise CSR error code on error. - * --------------------------------------------------------------------------- - */ -static CsrResult check_fh_sig_slots(card_t *card, u16 needed, s32 *space_fh) -{ - u32 count_fhw; - u32 occupied_fh, slots_fh; - s32 count_fhr; - - count_fhw = card->from_host_signals_w; - count_fhr = card->from_host_signals_r; - slots_fh = card->config_data.num_fromhost_sig_frags; - - /* Only read the space in from-host queue if necessary */ - occupied_fh = (count_fhw - count_fhr) % 128; - - if (slots_fh < occupied_fh) - { - *space_fh = 0; - } - else - { - *space_fh = slots_fh - occupied_fh; - } - - if ((occupied_fh != 0) && (*space_fh < needed)) - { - count_fhr = unifi_read_shared_count(card, card->sdio_ctrl_addr + 2); - if (count_fhr < 0) - { - unifi_error(card->ospriv, "Failed to read from-host sig read count\n"); - return CSR_RESULT_FAILURE; - } - card->from_host_signals_r = count_fhr; /* diag */ - - occupied_fh = (count_fhw - count_fhr) % 128; - *space_fh = slots_fh - occupied_fh; - } - - return CSR_RESULT_SUCCESS; -} /* check_fh_sig_slots() */ - - -/* -* If we are padding the From-Host signals to the SDIO block size, -* we need to round up the needed_chunks to the SDIO block size. -*/ -#define ROUND_UP_NEEDED_CHUNKS(_card, _needed_chunks) \ - { \ - u16 _chunks_per_block; \ - u16 _chunks_in_last_block; \ - \ - if (_card->sdio_io_block_pad) \ - { \ - _chunks_per_block = _card->sdio_io_block_size / _card->config_data.sig_frag_size; \ - _chunks_in_last_block = _needed_chunks % _chunks_per_block; \ - if (_chunks_in_last_block != 0) \ - { \ - _needed_chunks = _needed_chunks + (_chunks_per_block - _chunks_in_last_block); \ - } \ - } \ - } - - -#define ROUND_UP_SPACE_CHUNKS(_card, _space_chunks) \ - { \ - u16 _chunks_per_block; \ - \ - if (_card->sdio_io_block_pad) \ - { \ - _chunks_per_block = _card->sdio_io_block_size / _card->config_data.sig_frag_size; \ - _space_chunks = ((_space_chunks / _chunks_per_block) * _chunks_per_block); \ - } \ - } - - - - - -/* - * --------------------------------------------------------------------------- - * process_fh_cmd_queue - * - * Take one signal off the from-host queue and copy it to the UniFi. - * Does nothing if the UniFi has no slots free. - * - * Arguments: - * card Pointer to card context struct - * processed Location to write: - * 0 if there is nothing on the queue to process - * 1 if a signal was successfully processed - * - * Returns: - * CSR error code if an error occurred. - * - * Notes: - * The from-host queue contains signal requests from the network driver - * and any UDI clients interspersed. UDI clients' requests have been stored - * in the from-host queue using the wire-format structures, as they arrive. - * All other requests are stored in the from-host queue using the host - * (cpu specific) structures. We use the is_packed member of the card_signal_t - * structure that describes the queue to make the distinction. - * --------------------------------------------------------------------------- - */ -static CsrResult process_fh_cmd_queue(card_t *card, s32 *processed) -{ - q_t *sigq = &card->fh_command_queue; - - CsrResult r; - u16 pending_sigs; - u16 pending_chunks; - u16 needed_chunks; - s32 space_chunks; - u16 q_index; - - *processed = 0; - - /* Get the number of pending signals. */ - pending_sigs = CSR_WIFI_HIP_Q_SLOTS_USED(sigq); - unifi_trace(card->ospriv, UDBG5, "proc_fh: %d pending\n", pending_sigs); - if (pending_sigs == 0) - { - /* Nothing to do */ - return CSR_RESULT_SUCCESS; - } - - /* Work out how many chunks we have waiting to send */ - for (pending_chunks = 0, q_index = CSR_WIFI_HIP_Q_NEXT_R_SLOT(sigq); - q_index != CSR_WIFI_HIP_Q_NEXT_W_SLOT(sigq); - q_index = CSR_WIFI_HIP_Q_WRAP(sigq, q_index + 1)) - { - card_signal_t *csptr = CSR_WIFI_HIP_Q_SLOT_DATA(sigq, q_index); - - /* - * Note that GET_CHUNKS_FOR() needs the size of the packed - * (wire-formatted) structure - */ - pending_chunks += GET_CHUNKS_FOR(card->config_data.sig_frag_size, (u16)(csptr->signal_length + 2)); - } - - /* - * Check whether UniFi has space for all the buffered bulk-data - * commands and signals as well. - */ - needed_chunks = pending_chunks + card->fh_buffer.count; - - /* Round up to the block size if necessary */ - ROUND_UP_NEEDED_CHUNKS(card, needed_chunks); - - r = check_fh_sig_slots(card, needed_chunks, &space_chunks); - if (r != CSR_RESULT_SUCCESS) - { - /* Error */ - unifi_error(card->ospriv, "Failed to read fh sig count\n"); - return r; - } - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "proc_fh: %d chunks free, need %d\n", - space_chunks, needed_chunks); -#endif /* CSR_WIFI_HIP_NOISY */ - - - /* - * Coalesce as many from-host signals as possible - * into a single block and write using a single CMD53 - */ - if (needed_chunks > (u16)space_chunks) - { - /* Round up to the block size if necessary */ - ROUND_UP_SPACE_CHUNKS(card, space_chunks); - - /* - * If the f/w has less free chunks than those already pending - * return immediately. - */ - if ((u16)space_chunks <= card->fh_buffer.count) - { - /* - * No room in UniFi for any signals after the buffered bulk - * data commands have been sent. - */ - unifi_error(card->ospriv, "not enough room to send signals, need %d chunks, %d free\n", - card->fh_buffer.count, space_chunks); - card->generate_interrupt = 1; - return CSR_RESULT_SUCCESS; - } - pending_chunks = (u16)(space_chunks - card->fh_buffer.count); - } - - while (pending_sigs-- && pending_chunks > 0) - { - card_signal_t *csptr; - s16 i; - u16 sig_chunks, total_length, free_chunks_in_fh_buffer; - bulk_data_param_t bulkdata; - u8 *packed_sigptr; - u16 signal_length = 0; - - /* Retrieve the entry at the head of the queue */ - q_index = CSR_WIFI_HIP_Q_NEXT_R_SLOT(sigq); - - /* Get a pointer to the containing card_signal_t struct */ - csptr = CSR_WIFI_HIP_Q_SLOT_DATA(sigq, q_index); - - /* Get the new length of the packed signal */ - signal_length = csptr->signal_length; - - if ((signal_length & 1) || (signal_length > UNIFI_PACKED_SIGBUF_SIZE)) - { - unifi_error(card->ospriv, "process_fh_queue: Bad len: %d\n", signal_length); - return CSR_RESULT_FAILURE; - } - - /* Need space for 2-byte SDIO protocol header + signal */ - sig_chunks = GET_CHUNKS_FOR(card->config_data.sig_frag_size, (u16)(signal_length + 2)); - - free_chunks_in_fh_buffer = GET_CHUNKS_FOR(card->config_data.sig_frag_size, - (u16)((card->fh_buffer.buf + UNIFI_FH_BUF_SIZE) - card->fh_buffer.ptr)); - if (free_chunks_in_fh_buffer < sig_chunks) - { - /* No more room */ - unifi_notice(card->ospriv, "proc_fh_cmd_q: no room in fh buffer for 0x%.4X, deferring\n", - (u16)(GET_SIGNAL_ID(csptr->sigbuf))); - break; - } - - packed_sigptr = csptr->sigbuf; - - /* Claim and set up a from-host data slot */ - if (CSR_RESULT_FAILURE == CardWriteBulkData(card, csptr, UNIFI_TRAFFIC_Q_MLME)) - { - unifi_notice(card->ospriv, "proc_fh_cmd_q: no fh data slots for 0x%.4X, deferring\n", - (u16)(GET_SIGNAL_ID(csptr->sigbuf))); - break; - } - - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) - { - if (csptr->bulkdata[i].data_length == 0) - { - UNIFI_INIT_BULK_DATA(&bulkdata.d[i]); - } - else - { - bulkdata.d[i].os_data_ptr = csptr->bulkdata[i].os_data_ptr; - bulkdata.d[i].data_length = csptr->bulkdata[i].data_length; - } - - /* Pass the free responsibility to the lower layer. */ - UNIFI_INIT_BULK_DATA(&csptr->bulkdata[i]); - } - - unifi_trace(card->ospriv, UDBG2, "Sending signal 0x%.4X\n", - GET_SIGNAL_ID(packed_sigptr)); -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "Sending signal 0x%.4X\n", - GET_SIGNAL_ID(packed_sigptr)); -#endif /* CSR_WIFI_HIP_NOISY */ - - - /* Append packed signal to F-H buffer */ - total_length = sig_chunks * card->config_data.sig_frag_size; - - card->fh_buffer.ptr[0] = (u8)(signal_length & 0xff); - card->fh_buffer.ptr[1] = - (u8)(((signal_length >> 8) & 0xf) | (SDIO_CMD_SIGNAL << 4)); - - memcpy(card->fh_buffer.ptr + 2, packed_sigptr, signal_length); - memset(card->fh_buffer.ptr + 2 + signal_length, 0, - total_length - (2 + signal_length)); - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "proc_fh: fh_buffer %d bytes \n", - signal_length + 2); - dump(card->fh_buffer.ptr, signal_length + 2); - unifi_trace(card->ospriv, UDBG1, " \n"); -#endif /* CSR_WIFI_HIP_NOISY */ - - card->fh_buffer.ptr += total_length; - card->fh_buffer.count += sig_chunks; - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "Added %d to fh buf, len now %d, count %d\n", - signal_length, - card->fh_buffer.ptr - card->fh_buffer.buf, - card->fh_buffer.count); -#endif /* CSR_WIFI_HIP_NOISY */ - - (*processed)++; - pending_chunks -= sig_chunks; - - /* Log the signal to the UDI. */ - /* UDI will get the packed structure */ - /* Can not log the unpacked signal, unless we reconstruct it! */ - if (card->udi_hook) - { - (*card->udi_hook)(card->ospriv, packed_sigptr, signal_length, - &bulkdata, UDI_LOG_FROM_HOST); - } - - /* Remove entry from q */ - csptr->signal_length = 0; - CSR_WIFI_HIP_Q_INC_R(sigq); - } - - return CSR_RESULT_SUCCESS; -} /* process_fh_cmd_queue() */ - - -/* - * --------------------------------------------------------------------------- - * process_fh_traffic_queue - * - * Take signals off the from-host queue and copy them to the UniFi. - * Does nothing if the UniFi has no slots free. - * - * Arguments: - * card Pointer to card context struct - * sigq Pointer to the traffic queue - * processed Pointer to location to write: - * 0 if there is nothing on the queue to process - * 1 if a signal was successfully processed - * - * Returns: - * CSR error code if an error occurred. - * - * Notes: - * The from-host queue contains signal requests from the network driver - * and any UDI clients interspersed. - * --------------------------------------------------------------------------- - */ -static CsrResult process_fh_traffic_queue(card_t *card, s32 *processed) -{ - q_t *sigq = card->fh_traffic_queue; - - CsrResult r; - s16 n = 0; - s32 q_no; - u16 pending_sigs = 0; - u16 pending_chunks = 0; - u16 needed_chunks; - s32 space_chunks; - u16 q_index; - u32 host_tag = 0; - u16 slot_num = 0; - - *processed = 0; - - /* calculate how many signals are in queues and how many chunks are needed. */ - for (n = UNIFI_NO_OF_TX_QS - 1; n >= 0; n--) - { - /* Get the number of pending signals. */ - pending_sigs += CSR_WIFI_HIP_Q_SLOTS_USED(&sigq[n]); - unifi_trace(card->ospriv, UDBG5, "proc_fh%d: %d pending\n", n, pending_sigs); - - /* Work out how many chunks we have waiting to send */ - for (q_index = CSR_WIFI_HIP_Q_NEXT_R_SLOT(&sigq[n]); - q_index != CSR_WIFI_HIP_Q_NEXT_W_SLOT(&sigq[n]); - q_index = CSR_WIFI_HIP_Q_WRAP(&sigq[n], q_index + 1)) - { - card_signal_t *csptr = CSR_WIFI_HIP_Q_SLOT_DATA(&sigq[n], q_index); - - /* - * Note that GET_CHUNKS_FOR() needs the size of the packed - * (wire-formatted) structure - */ - pending_chunks += GET_CHUNKS_FOR(card->config_data.sig_frag_size, (u16)(csptr->signal_length + 2)); - } - } - - /* If there are no pending signals, just return */ - if (pending_sigs == 0) - { - /* Nothing to do */ - return CSR_RESULT_SUCCESS; - } - - /* - * Check whether UniFi has space for all the buffered bulk-data - * commands and signals as well. - */ - needed_chunks = pending_chunks + card->fh_buffer.count; - - /* Round up to the block size if necessary */ - ROUND_UP_NEEDED_CHUNKS(card, needed_chunks); - - r = check_fh_sig_slots(card, needed_chunks, &space_chunks); - if (r != CSR_RESULT_SUCCESS) - { - /* Error */ - unifi_error(card->ospriv, "Failed to read fh sig count\n"); - return r; - } - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, - "process_fh_traffic_queue: %d chunks free, need %d\n", - space_chunks, needed_chunks); - read_fhsr(card); /* debugging only */ -#endif /* CSR_WIFI_HIP_NOISY */ - - /* Coalesce as many from-host signals as possible - into a single block and write using a single CMD53 */ - if (needed_chunks > (u16)space_chunks) - { - /* Round up to the block size if necessary */ - ROUND_UP_SPACE_CHUNKS(card, space_chunks); - - if ((u16)space_chunks <= card->fh_buffer.count) - { - /* - * No room in UniFi for any signals after the buffered bulk - * data commands have been sent. - */ - unifi_error(card->ospriv, "not enough room to send signals, need %d chunks, %d free\n", - card->fh_buffer.count, space_chunks); - card->generate_interrupt = 1; - return 0; - } - - pending_chunks = (u16)space_chunks - card->fh_buffer.count; - } - - q_no = UNIFI_NO_OF_TX_QS - 1; - - /* - * pending_sigs will be exhausted if there are is no restriction to the pending - * signals per queue. pending_chunks may be exhausted if there is a restriction. - * q_no check will be exhausted if there is a restriction and our round-robin - * algorith fails to fill all chunks. - */ - do - { - card_signal_t *csptr; - u16 sig_chunks, total_length, free_chunks_in_fh_buffer; - bulk_data_param_t bulkdata; - u8 *packed_sigptr; - u16 signal_length = 0; - - /* if this queue is empty go to next one. */ - if (CSR_WIFI_HIP_Q_SLOTS_USED(&sigq[q_no]) == 0) - { - q_no--; - continue; - } - - /* Retrieve the entry at the head of the queue */ - q_index = CSR_WIFI_HIP_Q_NEXT_R_SLOT(&sigq[q_no]); - - /* Get a pointer to the containing card_signal_t struct */ - csptr = CSR_WIFI_HIP_Q_SLOT_DATA(&sigq[q_no], q_index); - - /* Get the new length of the packed signal */ - signal_length = csptr->signal_length; - - if ((signal_length & 1) || (signal_length > UNIFI_PACKED_SIGBUF_SIZE)) - { - unifi_error(card->ospriv, "process_fh_traffic_queue: Bad len: %d\n", signal_length); - return CSR_RESULT_FAILURE; - } - - /* Need space for 2-byte SDIO protocol header + signal */ - sig_chunks = GET_CHUNKS_FOR(card->config_data.sig_frag_size, (u16)(signal_length + 2)); - free_chunks_in_fh_buffer = GET_CHUNKS_FOR(card->config_data.sig_frag_size, - (u16)((card->fh_buffer.buf + UNIFI_FH_BUF_SIZE) - card->fh_buffer.ptr)); - if (free_chunks_in_fh_buffer < sig_chunks) - { - /* No more room */ - unifi_notice(card->ospriv, "process_fh_traffic_queue: no more chunks.\n"); - break; - } - - packed_sigptr = csptr->sigbuf; - /* Claim and set up a from-host data slot */ - if (CSR_RESULT_FAILURE == CardWriteBulkData(card, csptr, (unifi_TrafficQueue)q_no)) - { - q_no--; - continue; - } - - /* Sanity check: MA-PACKET.req must have a valid bulk data */ - if ((csptr->bulkdata[0].data_length == 0) || (csptr->bulkdata[0].os_data_ptr == NULL)) - { - unifi_error(card->ospriv, "MA-PACKET.req with empty bulk data (%d bytes in %p)\n", - csptr->bulkdata[0].data_length, csptr->bulkdata[0].os_data_ptr); - dump(packed_sigptr, signal_length); - return CSR_RESULT_FAILURE; - } - - bulkdata.d[0].os_data_ptr = csptr->bulkdata[0].os_data_ptr; - bulkdata.d[0].data_length = csptr->bulkdata[0].data_length; - bulkdata.d[0].os_net_buf_ptr = csptr->bulkdata[0].os_net_buf_ptr; - bulkdata.d[0].net_buf_length = csptr->bulkdata[0].net_buf_length; - - /* The driver owns clearing of HIP slots for following scenario - * - driver has requested a MA-PACKET.req signal - * - The f/w after receiving the signal decides it can't send it out due to various reasons - * - So the f/w without downloading the bulk data decides to just send a confirmation with fail - * - and then sends a clear slot signal to HIP - * - * But in some cases the clear slot signal never comes and the slot remains --NOT-- freed for ever - * - * To handle this, HIP will keep the record of host tag for each occupied slot - * and then based on status of that Host tag and slot the driver will decide if the slot is - * cleared by f/w signal or the slot has to be freed by driver - */ - - if (card->fh_slot_host_tag_record) - { - /* Update the f-h slot record for the corresponding host tag */ - host_tag = GET_PACKED_MA_PACKET_REQUEST_HOST_TAG(packed_sigptr); - slot_num = GET_PACKED_DATAREF_SLOT(packed_sigptr, 0) & 0x00FF; - - unifi_trace(card->ospriv, UDBG5, - "process_fh_traffic_queue signal ID =%x fh slot=%x Host tag =%x\n", - GET_SIGNAL_ID(packed_sigptr), slot_num, host_tag); - card->fh_slot_host_tag_record[slot_num] = host_tag; - } - UNIFI_INIT_BULK_DATA(&bulkdata.d[1]); - UNIFI_INIT_BULK_DATA(&csptr->bulkdata[0]); - UNIFI_INIT_BULK_DATA(&csptr->bulkdata[1]); - -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - if (bulkdata.d[0].os_data_ptr) - { - if ((*bulkdata.d[0].os_data_ptr) & 0x08) - { - card->cmd_prof.tx_count++; - } - } -#endif - unifi_trace(card->ospriv, UDBG3, "Sending signal 0x%.4X\n", - GET_SIGNAL_ID(packed_sigptr)); -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "Sending signal 0x%.4X\n", - GET_SIGNAL_ID(packed_sigptr)); -#endif /* CSR_WIFI_HIP_NOISY */ - - /* Append packed signal to F-H buffer */ - total_length = sig_chunks * card->config_data.sig_frag_size; - - card->fh_buffer.ptr[0] = (u8)(signal_length & 0xff); - card->fh_buffer.ptr[1] = - (u8)(((signal_length >> 8) & 0xf) | (SDIO_CMD_SIGNAL << 4)); - - memcpy(card->fh_buffer.ptr + 2, packed_sigptr, signal_length); - memset(card->fh_buffer.ptr + 2 + signal_length, 0, - total_length - (2 + signal_length)); - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "proc_fh: fh_buffer %d bytes \n", - signal_length + 2); - dump(card->fh_buffer.ptr, signal_length + 2); - unifi_trace(card->ospriv, UDBG1, " \n"); -#endif /* CSR_WIFI_HIP_NOISY */ - - card->fh_buffer.ptr += total_length; - card->fh_buffer.count += sig_chunks; - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "Added %d to fh buf, len now %d, count %d\n", - signal_length, - card->fh_buffer.ptr - card->fh_buffer.buf, - card->fh_buffer.count); -#endif /* CSR_WIFI_HIP_NOISY */ - - (*processed)++; - pending_sigs--; - pending_chunks -= sig_chunks; - - /* Log the signal to the UDI. */ - /* UDI will get the packed structure */ - /* Can not log the unpacked signal, unless we reconstruct it! */ - if (card->udi_hook) - { - (*card->udi_hook)(card->ospriv, packed_sigptr, signal_length, - &bulkdata, UDI_LOG_FROM_HOST); - } - - /* Remove entry from q */ - csptr->signal_length = 0; - /* Note that the traffic queue has only one valid bulk data buffer. */ - csptr->bulkdata[0].data_length = 0; - - CSR_WIFI_HIP_Q_INC_R(&sigq[q_no]); - } while ((pending_sigs > 0) && (pending_chunks > 0) && (q_no >= 0)); - - return CSR_RESULT_SUCCESS; -} /* process_fh_traffic_queue() */ - - -/* - * --------------------------------------------------------------------------- - * flush_fh_buffer - * - * Write out the cache from-hosts signals to the UniFi. - * - * Arguments: - * card Pointer to card context struct - * - * Returns: - * CSR error code if an SDIO error occurred. - * --------------------------------------------------------------------------- - */ -static CsrResult flush_fh_buffer(card_t *card) -{ - CsrResult r; - u16 len; - u16 sig_units; - u16 data_round; - u16 chunks_in_last_block; - u16 padding_chunks; - u16 i; - - len = card->fh_buffer.ptr - card->fh_buffer.buf; - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "fh_buffer is at %p, ptr= %p\n", - card->fh_buffer.buf, card->fh_buffer.ptr); -#endif /* CSR_WIFI_HIP_NOISY */ - - if (len == 0) - { - return CSR_RESULT_SUCCESS; - } - -#ifdef CSR_WIFI_HIP_NOISY - if (dump_fh_buf) - { - dump(card->fh_buffer.buf, len); - dump_fh_buf = 0; - } -#endif /* CSR_WIFI_HIP_NOISY */ - - if (card->sdio_io_block_pad) - { - /* Both of these are powers of 2 */ - sig_units = card->config_data.sig_frag_size; - data_round = card->sdio_io_block_size; - - if (data_round > sig_units) - { - chunks_in_last_block = (len % data_round) / sig_units; - - if (chunks_in_last_block != 0) - { - padding_chunks = (data_round / sig_units) - chunks_in_last_block; - - memset(card->fh_buffer.ptr, 0, padding_chunks * sig_units); - for (i = 0; i < padding_chunks; i++) - { - card->fh_buffer.ptr[1] = SDIO_CMD_PADDING << 4; - card->fh_buffer.ptr += sig_units; - } - - card->fh_buffer.count += padding_chunks; - len += padding_chunks * sig_units; - } - } - } - - r = unifi_bulk_rw(card, - card->config_data.fromhost_sigbuf_handle, - card->fh_buffer.buf, - len, UNIFI_SDIO_WRITE); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write fh signals: %u bytes, error %d\n", len, r); - return r; - } - - /* Update from-host-signals-written signal count */ - card->from_host_signals_w = - (card->from_host_signals_w + card->fh_buffer.count) % 128u; - r = unifi_write_8_or_16(card, card->sdio_ctrl_addr + 0, - (u8)card->from_host_signals_w); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write fh signal count %u with error %d\n", - card->from_host_signals_w, r); - return r; - } - card->generate_interrupt = 1; - - /* Reset the fh buffer pointer */ - card->fh_buffer.ptr = card->fh_buffer.buf; - card->fh_buffer.count = 0; - -#ifdef CSR_WIFI_HIP_NOISY - unifi_error(card->ospriv, "END flush: fh len %d, count %d\n", - card->fh_buffer.ptr - card->fh_buffer.buf, - card->fh_buffer.count); -#endif /* CSR_WIFI_HIP_NOISY */ - - return CSR_RESULT_SUCCESS; -} /* flush_fh_buffer() */ - - -/* - * --------------------------------------------------------------------------- - * restart_packet_flow - * - * This function is called before the bottom-half thread sleeps. - * It checks whether both data and signal resources are available and - * then calls the OS-layer function to re-enable packet transmission. - * - * Arguments: - * card Pointer to card context struct - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void restart_packet_flow(card_t *card) -{ - u8 q; - - /* - * We only look at the fh_traffic_queue, because that is where packets from - * the network stack are placed. - */ - for (q = 0; q <= UNIFI_TRAFFIC_Q_VO; q++) - { - if (card_is_tx_q_paused(card, q) && - CSR_WIFI_HIP_Q_SLOTS_FREE(&card->fh_traffic_queue[q]) >= RESUME_XMIT_THRESHOLD) - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf("U"); -#endif - card_tx_q_unpause(card, q); - unifi_restart_xmit(card->ospriv, (unifi_TrafficQueue)q); - } - } -} /* restart_packet_flow() */ - - diff --git a/drivers/staging/csr/csr_wifi_hip_card_sdio_mem.c b/drivers/staging/csr/csr_wifi_hip_card_sdio_mem.c deleted file mode 100644 index 17867f6..0000000 --- a/drivers/staging/csr/csr_wifi_hip_card_sdio_mem.c +++ /dev/null @@ -1,1713 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_card_sdio_mem.c - * - * PURPOSE: Implementation of the Card API for SDIO. - * - * --------------------------------------------------------------------------- - */ -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_card.h" - -#define SDIO_RETRIES 3 -#define CSR_WIFI_HIP_SDIO_TRACE_DATA_LENGTH 16 - - -#define retryable_sdio_error(_csrResult) (((_csrResult) == CSR_SDIO_RESULT_CRC_ERROR) || ((_csrResult) == CSR_SDIO_RESULT_TIMEOUT)) - - -/* - * --------------------------------------------------------------------------- - * retrying_read8 - * retrying_write8 - * - * These functions provide the first level of retry for SDIO operations. - * If an SDIO command fails for reason of a response timeout or CRC - * error, it is retried immediately. If three attempts fail we report a - * failure. - * If the command failed for any other reason, the failure is reported - * immediately. - * - * Arguments: - * card Pointer to card structure. - * funcnum The SDIO function to access. - * Function 0 is the Card Configuration Register space, - * function 1/2 is the UniFi register space. - * addr Address to access - * pdata Pointer in which to return the value read. - * data Value to write. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * --------------------------------------------------------------------------- - */ -static CsrResult retrying_read8(card_t *card, s16 funcnum, u32 addr, u8 *pdata) -{ - CsrSdioFunction *sdio = card->sdio_if; - CsrResult r = CSR_RESULT_SUCCESS; - s16 retries; - CsrResult csrResult = CSR_RESULT_SUCCESS; - - retries = 0; - while (retries++ < SDIO_RETRIES) - { - if (funcnum == 0) - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("r0@%02X", addr); -#endif - csrResult = CsrSdioF0Read8(sdio, addr, pdata); - } - else - { -#ifdef CSR_WIFI_TRANSPORT_CSPI - unifi_error(card->ospriv, - "retrying_read_f0_8: F1 8-bit reads are not allowed.\n"); - return CSR_RESULT_FAILURE; -#else -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("r@%02X", addr); -#endif - csrResult = CsrSdioRead8(sdio, addr, pdata); -#endif - } -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_debug_log_to_buf("error=%X\n", csrResult); - } - else - { - unifi_debug_log_to_buf("=%X\n", *pdata); - } -#endif - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - /* - * Try again for retryable (CRC or TIMEOUT) errors, - * break on success or fatal error - */ - if (!retryable_sdio_error(csrResult)) - { -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - card->cmd_prof.cmd52_count++; -#endif - break; - } - unifi_trace(card->ospriv, UDBG2, "retryable SDIO error reading F%d 0x%lX\n", funcnum, addr); - } - - if ((csrResult == CSR_RESULT_SUCCESS) && (retries > 1)) - { - unifi_warning(card->ospriv, "Read succeeded after %d attempts\n", retries); - } - - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read from UniFi (addr 0x%lX) after %d tries\n", - addr, retries - 1); - /* Report any SDIO error as a general i/o error */ - r = CSR_RESULT_FAILURE; - } - - return r; -} /* retrying_read8() */ - - -static CsrResult retrying_write8(card_t *card, s16 funcnum, u32 addr, u8 data) -{ - CsrSdioFunction *sdio = card->sdio_if; - CsrResult r = CSR_RESULT_SUCCESS; - s16 retries; - CsrResult csrResult = CSR_RESULT_SUCCESS; - - retries = 0; - while (retries++ < SDIO_RETRIES) - { - if (funcnum == 0) - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("w0@%02X=%X", addr, data); -#endif - csrResult = CsrSdioF0Write8(sdio, addr, data); - } - else - { -#ifdef CSR_WIFI_TRANSPORT_CSPI - unifi_error(card->ospriv, - "retrying_write_f0_8: F1 8-bit writes are not allowed.\n"); - return CSR_RESULT_FAILURE; -#else -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("w@%02X=%X", addr, data); -#endif - csrResult = CsrSdioWrite8(sdio, addr, data); -#endif - } -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_debug_log_to_buf(",error=%X", csrResult); - } - unifi_debug_string_to_buf("\n"); -#endif - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - /* - * Try again for retryable (CRC or TIMEOUT) errors, - * break on success or fatal error - */ - if (!retryable_sdio_error(csrResult)) - { -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - card->cmd_prof.cmd52_count++; -#endif - break; - } - unifi_trace(card->ospriv, UDBG2, "retryable SDIO error writing %02X to F%d 0x%lX\n", - data, funcnum, addr); - } - - if ((csrResult == CSR_RESULT_SUCCESS) && (retries > 1)) - { - unifi_warning(card->ospriv, "Write succeeded after %d attempts\n", retries); - } - - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write to UniFi (addr 0x%lX) after %d tries\n", - addr, retries - 1); - /* Report any SDIO error as a general i/o error */ - r = CSR_RESULT_FAILURE; - } - - return r; -} /* retrying_write8() */ - - -static CsrResult retrying_read16(card_t *card, s16 funcnum, - u32 addr, u16 *pdata) -{ - CsrSdioFunction *sdio = card->sdio_if; - CsrResult r = CSR_RESULT_SUCCESS; - s16 retries; - CsrResult csrResult = CSR_RESULT_SUCCESS; - - retries = 0; - while (retries++ < SDIO_RETRIES) - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("r@%02X", addr); -#endif - csrResult = CsrSdioRead16(sdio, addr, pdata); -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_debug_log_to_buf("error=%X\n", csrResult); - } - else - { - unifi_debug_log_to_buf("=%X\n", *pdata); - } -#endif - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - - /* - * Try again for retryable (CRC or TIMEOUT) errors, - * break on success or fatal error - */ - if (!retryable_sdio_error(csrResult)) - { -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - card->cmd_prof.cmd52_count++; -#endif - break; - } - unifi_trace(card->ospriv, UDBG2, "retryable SDIO error reading F%d 0x%lX\n", funcnum, addr); - } - - if ((csrResult == CSR_RESULT_SUCCESS) && (retries > 1)) - { - unifi_warning(card->ospriv, "Read succeeded after %d attempts\n", retries); - } - - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read from UniFi (addr 0x%lX) after %d tries\n", - addr, retries - 1); - /* Report any SDIO error as a general i/o error */ - r = CSR_RESULT_FAILURE; - } - - return r; -} /* retrying_read16() */ - - -static CsrResult retrying_write16(card_t *card, s16 funcnum, - u32 addr, u16 data) -{ - CsrSdioFunction *sdio = card->sdio_if; - CsrResult r = CSR_RESULT_SUCCESS; - s16 retries; - CsrResult csrResult = CSR_RESULT_SUCCESS; - - retries = 0; - while (retries++ < SDIO_RETRIES) - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("w@%02X=%X", addr, data); -#endif - csrResult = CsrSdioWrite16(sdio, addr, data); -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_debug_log_to_buf(",error=%X", csrResult); - } - unifi_debug_string_to_buf("\n"); -#endif - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } - - /* - * Try again for retryable (CRC or TIMEOUT) errors, - * break on success or fatal error - */ - if (!retryable_sdio_error(csrResult)) - { -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - card->cmd_prof.cmd52_count++; -#endif - break; - } - unifi_trace(card->ospriv, UDBG2, "retryable SDIO error writing %02X to F%d 0x%lX\n", - data, funcnum, addr); - } - - if ((csrResult == CSR_RESULT_SUCCESS) && (retries > 1)) - { - unifi_warning(card->ospriv, "Write succeeded after %d attempts\n", retries); - } - - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write to UniFi (addr 0x%lX) after %d tries\n", - addr, retries - 1); - /* Report any SDIO error as a general i/o error */ - r = CSR_RESULT_FAILURE; - } - - return r; -} /* retrying_write16() */ - - -/* - * --------------------------------------------------------------------------- - * sdio_read_f0 - * - * Reads a byte value from the CCCR (func 0) area of UniFi. - * - * Arguments: - * card Pointer to card structure. - * addr Address to read from - * pdata Pointer in which to store the read value. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * --------------------------------------------------------------------------- - */ -CsrResult sdio_read_f0(card_t *card, u32 addr, u8 *pdata) -{ -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.cmd52_f0_r_count++; -#endif - return retrying_read8(card, 0, addr, pdata); -} /* sdio_read_f0() */ - - -/* - * --------------------------------------------------------------------------- - * sdio_write_f0 - * - * Writes a byte value to the CCCR (func 0) area of UniFi. - * - * Arguments: - * card Pointer to card structure. - * addr Address to read from - * data Data value to write. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * --------------------------------------------------------------------------- - */ -CsrResult sdio_write_f0(card_t *card, u32 addr, u8 data) -{ -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.cmd52_f0_w_count++; -#endif - return retrying_write8(card, 0, addr, data); -} /* sdio_write_f0() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_read_direct_8_or_16 - * - * Read a 8-bit value from the UniFi SDIO interface. - * - * Arguments: - * card Pointer to card structure. - * addr Address to read from - * pdata Pointer in which to return data. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * --------------------------------------------------------------------------- - */ -CsrResult unifi_read_direct_8_or_16(card_t *card, u32 addr, u8 *pdata) -{ -#ifdef CSR_WIFI_TRANSPORT_CSPI - u16 w; - CsrResult r; - - r = retrying_read16(card, card->function, addr, &w); - *pdata = (u8)(w & 0xFF); - return r; -#else - return retrying_read8(card, card->function, addr, pdata); -#endif -} /* unifi_read_direct_8_or_16() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_write_direct_8_or_16 - * - * Write a byte value to the UniFi SDIO interface. - * - * Arguments: - * card Pointer to card structure. - * addr Address to write to - * data Value to write. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error - * - * Notes: - * If 8-bit write is used, the even address *must* be written second. - * This is because writes to odd bytes are cached and not committed - * to memory until the preceding even address is written. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_write_direct_8_or_16(card_t *card, u32 addr, u8 data) -{ - if (addr & 1) - { - unifi_warning(card->ospriv, - "Warning: Byte write to an odd address (0x%lX) is dangerous\n", - addr); - } - -#ifdef CSR_WIFI_TRANSPORT_CSPI - return retrying_write16(card, card->function, addr, (u16)data); -#else - return retrying_write8(card, card->function, addr, data); -#endif -} /* unifi_write_direct_8_or_16() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_read_direct16 - * - * Read a 16-bit value from the UniFi SDIO interface. - * - * Arguments: - * card Pointer to card structure. - * addr Address to read from - * pdata Pointer in which to return data. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * - * Notes: - * The even address *must* be read first. This is because reads from - * odd bytes are cached and read from memory when the preceding - * even address is read. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_read_direct16(card_t *card, u32 addr, u16 *pdata) -{ - return retrying_read16(card, card->function, addr, pdata); -} /* unifi_read_direct16() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_write_direct16 - * - * Write a 16-bit value to the UniFi SDIO interface. - * - * Arguments: - * card Pointer to card structure. - * addr Address to write to - * data Value to write. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * - * Notes: - * The even address *must* be written second. This is because writes to - * odd bytes are cached and not committed to memory until the preceding - * even address is written. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_write_direct16(card_t *card, u32 addr, u16 data) -{ - return retrying_write16(card, card->function, addr, data); -} /* unifi_write_direct16() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_read_direct32 - * - * Read a 32-bit value from the UniFi SDIO interface. - * - * Arguments: - * card Pointer to card structure. - * addr Address to read from - * pdata Pointer in which to return data. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * --------------------------------------------------------------------------- - */ -CsrResult unifi_read_direct32(card_t *card, u32 addr, u32 *pdata) -{ - CsrResult r; - u16 w0, w1; - - r = retrying_read16(card, card->function, addr, &w0); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - r = retrying_read16(card, card->function, addr + 2, &w1); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - *pdata = ((u32)w1 << 16) | (u32)w0; - - return CSR_RESULT_SUCCESS; -} /* unifi_read_direct32() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_read_directn_match - * - * Read multiple 8-bit values from the UniFi SDIO interface, - * stopping when either we have read 'len' bytes or we have read - * a octet equal to 'match'. If 'match' is not a valid octet - * then this function is the same as 'unifi_read_directn'. - * - * Arguments: - * card Pointer to card structure. - * addr Start address to read from. - * pdata Pointer to which to write data. - * len Maximum umber of bytes to read - * match The value to stop reading at. - * num Pointer to buffer to write number of bytes read - * - * Returns: - * number of octets read on success, negative error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * - * Notes: - * The even address *must* be read first. This is because reads from - * odd bytes are cached and read from memory when the preceding - * even address is read. - * --------------------------------------------------------------------------- - */ -static CsrResult unifi_read_directn_match(card_t *card, u32 addr, void *pdata, u16 len, s8 m, u32 *num) -{ - CsrResult r; - u32 i; - u8 *cptr; - u16 w; - - *num = 0; - - cptr = (u8 *)pdata; - for (i = 0; i < len; i += 2) - { - r = retrying_read16(card, card->function, addr, &w); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - *cptr++ = ((u8)w & 0xFF); - if ((m >= 0) && (((s8)w & 0xFF) == m)) - { - break; - } - - if (i + 1 == len) - { - /* The len is odd. Ignore the last high byte */ - break; - } - - *cptr++ = ((u8)(w >> 8) & 0xFF); - if ((m >= 0) && (((s8)(w >> 8) & 0xFF) == m)) - { - break; - } - - addr += 2; - } - - *num = (s32)(cptr - (u8 *)pdata); - return CSR_RESULT_SUCCESS; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_read_directn - * - * Read multiple 8-bit values from the UniFi SDIO interface. - * - * Arguments: - * card Pointer to card structure. - * addr Start address to read from. - * pdata Pointer to which to write data. - * len Number of bytes to read - * - * Returns: - * 0 on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * - * Notes: - * The even address *must* be read first. This is because reads from - * odd bytes are cached and read from memory when the preceding - * even address is read. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_read_directn(card_t *card, u32 addr, void *pdata, u16 len) -{ - u32 num; - - return unifi_read_directn_match(card, addr, pdata, len, -1, &num); -} /* unifi_read_directn() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_write_directn - * - * Write multiple 8-bit values to the UniFi SDIO interface. - * - * Arguments: - * card Pointer to card structure. - * addr Start address to write to. - * pdata Source data pointer. - * len Number of bytes to write, must be even. - * - * Returns: - * 0 on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * - * Notes: - * The UniFi has a peculiar 16-bit bus architecture. Writes are only - * committed to memory when an even address is accessed. Writes to - * odd addresses are cached and only committed if the next write is - * to the preceding address. - * This means we must write data as pairs of bytes in reverse order. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_write_directn(card_t *card, u32 addr, void *pdata, u16 len) -{ - CsrResult r; - u8 *cptr; - s16 signed_len; - - cptr = (u8 *)pdata; - signed_len = (s16)len; - while (signed_len > 0) - { - /* This is UniFi-1 specific code. CSPI not supported so 8-bit write allowed */ - r = retrying_write16(card, card->function, addr, *cptr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - cptr += 2; - addr += 2; - signed_len -= 2; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_write_directn() */ - - -/* - * --------------------------------------------------------------------------- - * set_dmem_page - * set_pmem_page - * - * Set up the page register for the shared data memory window or program - * memory window. - * - * Arguments: - * card Pointer to card structure. - * dmem_addr UniFi shared-data-memory address to access. - * pmem_addr UniFi program memory address to access. This includes - * External FLASH memory at 0x000000 - * Processor program memory at 0x200000 - * External SRAM at memory 0x400000 - * paddr Location to write an SDIO address (24-bit) for - * use in a unifi_read_direct or unifi_write_direct call. - * - * Returns: - * CSR_RESULT_SUCCESS on success - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * --------------------------------------------------------------------------- - */ -static CsrResult set_dmem_page(card_t *card, u32 dmem_addr, u32 *paddr) -{ - u16 page, addr; - u32 len; - CsrResult r; - - *paddr = 0; - - if (!ChipHelper_DecodeWindow(card->helper, - CHIP_HELPER_WINDOW_3, - CHIP_HELPER_WT_SHARED, - dmem_addr / 2, - &page, &addr, &len)) - { - unifi_error(card->ospriv, "Failed to decode SHARED_DMEM_PAGE %08lx\n", dmem_addr); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - if (page != card->dmem_page) - { - unifi_trace(card->ospriv, UDBG6, "setting dmem page=0x%X, addr=0x%lX\n", page, addr); - - /* change page register */ - r = unifi_write_direct16(card, ChipHelper_HOST_WINDOW3_PAGE(card->helper) * 2, page); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write SHARED_DMEM_PAGE\n"); - return r; - } - - card->dmem_page = page; - } - - *paddr = ((s32)addr * 2) + (dmem_addr & 1); - - return CSR_RESULT_SUCCESS; -} /* set_dmem_page() */ - - -static CsrResult set_pmem_page(card_t *card, u32 pmem_addr, - enum chip_helper_window_type mem_type, u32 *paddr) -{ - u16 page, addr; - u32 len; - CsrResult r; - - *paddr = 0; - - if (!ChipHelper_DecodeWindow(card->helper, - CHIP_HELPER_WINDOW_2, - mem_type, - pmem_addr / 2, - &page, &addr, &len)) - { - unifi_error(card->ospriv, "Failed to decode PROG MEM PAGE %08lx %d\n", pmem_addr, mem_type); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - if (page != card->pmem_page) - { - unifi_trace(card->ospriv, UDBG6, "setting pmem page=0x%X, addr=0x%lX\n", page, addr); - - /* change page register */ - r = unifi_write_direct16(card, ChipHelper_HOST_WINDOW2_PAGE(card->helper) * 2, page); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write PROG MEM PAGE\n"); - return r; - } - - card->pmem_page = page; - } - - *paddr = ((s32)addr * 2) + (pmem_addr & 1); - - return CSR_RESULT_SUCCESS; -} /* set_pmem_page() */ - - -/* - * --------------------------------------------------------------------------- - * set_page - * - * Sets up the appropriate page register to access the given address. - * Returns the sdio address at which the unifi address can be accessed. - * - * Arguments: - * card Pointer to card structure. - * generic_addr UniFi internal address to access, in Generic Pointer - * format, i.e. top byte is space indicator. - * paddr Location to write page address - * SDIO address (24-bit) for use in a unifi_read_direct or - * unifi_write_direct call - * - * Returns: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * CSR_WIFI_HIP_RESULT_INVALID_VALUE the address is invalid - * --------------------------------------------------------------------------- - */ -static CsrResult set_page(card_t *card, u32 generic_addr, u32 *paddr) -{ - s32 space; - u32 addr; - CsrResult r = CSR_RESULT_SUCCESS; - - if (!paddr) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - *paddr = 0; - space = UNIFI_GP_SPACE(generic_addr); - addr = UNIFI_GP_OFFSET(generic_addr); - switch (space) - { - case UNIFI_SH_DMEM: - /* Shared Data Memory is accessed via the Shared Data Memory window */ - r = set_dmem_page(card, addr, paddr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - break; - - case UNIFI_EXT_FLASH: - if (!ChipHelper_HasFlash(card->helper)) - { - unifi_error(card->ospriv, "Bad address space for chip in generic pointer 0x%08lX (helper=0x%x)\n", - generic_addr, card->helper); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - /* External FLASH is accessed via the Program Memory window */ - r = set_pmem_page(card, addr, CHIP_HELPER_WT_FLASH, paddr); - break; - - case UNIFI_EXT_SRAM: - if (!ChipHelper_HasExtSram(card->helper)) - { - unifi_error(card->ospriv, "Bad address space for chip in generic pointer 0x%08l (helper=0x%x)\n", - generic_addr, card->helper); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - /* External SRAM is accessed via the Program Memory window */ - r = set_pmem_page(card, addr, CHIP_HELPER_WT_EXT_SRAM, paddr); - break; - - case UNIFI_REGISTERS: - /* Registers are accessed directly */ - *paddr = addr; - break; - - case UNIFI_PHY_DMEM: - r = unifi_set_proc_select(card, UNIFI_PROC_PHY); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - *paddr = ChipHelper_DATA_MEMORY_RAM_OFFSET(card->helper) * 2 + addr; - break; - - case UNIFI_MAC_DMEM: - r = unifi_set_proc_select(card, UNIFI_PROC_MAC); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - *paddr = ChipHelper_DATA_MEMORY_RAM_OFFSET(card->helper) * 2 + addr; - break; - - case UNIFI_BT_DMEM: - if (!ChipHelper_HasBt(card->helper)) - { - unifi_error(card->ospriv, "Bad address space for chip in generic pointer 0x%08lX (helper=0x%x)\n", - generic_addr, card->helper); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - r = unifi_set_proc_select(card, UNIFI_PROC_BT); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - *paddr = ChipHelper_DATA_MEMORY_RAM_OFFSET(card->helper) * 2 + addr; - break; - - case UNIFI_PHY_PMEM: - r = unifi_set_proc_select(card, UNIFI_PROC_PHY); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - r = set_pmem_page(card, addr, CHIP_HELPER_WT_CODE_RAM, paddr); - break; - - case UNIFI_MAC_PMEM: - r = unifi_set_proc_select(card, UNIFI_PROC_MAC); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - r = set_pmem_page(card, addr, CHIP_HELPER_WT_CODE_RAM, paddr); - break; - - case UNIFI_BT_PMEM: - if (!ChipHelper_HasBt(card->helper)) - { - unifi_error(card->ospriv, "Bad address space for chip in generic pointer 0x%08lX (helper=0x%x)\n", - generic_addr, card->helper); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - r = unifi_set_proc_select(card, UNIFI_PROC_BT); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - r = set_pmem_page(card, addr, CHIP_HELPER_WT_CODE_RAM, paddr); - break; - - case UNIFI_PHY_ROM: - if (!ChipHelper_HasRom(card->helper)) - { - unifi_error(card->ospriv, "Bad address space for chip in generic pointer 0x%08lX (helper=0x%x)\n", - generic_addr, card->helper); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - r = unifi_set_proc_select(card, UNIFI_PROC_PHY); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - r = set_pmem_page(card, addr, CHIP_HELPER_WT_ROM, paddr); - break; - - case UNIFI_MAC_ROM: - if (!ChipHelper_HasRom(card->helper)) - { - unifi_error(card->ospriv, "Bad address space for chip in generic pointer 0x%08lX (helper=0x%x)\n", - generic_addr, card->helper); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - r = unifi_set_proc_select(card, UNIFI_PROC_MAC); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - r = set_pmem_page(card, addr, CHIP_HELPER_WT_ROM, paddr); - break; - - case UNIFI_BT_ROM: - if (!ChipHelper_HasRom(card->helper) || !ChipHelper_HasBt(card->helper)) - { - unifi_error(card->ospriv, "Bad address space for chip in generic pointer 0x%08lX (helper=0x%x)\n", - generic_addr, card->helper); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - r = unifi_set_proc_select(card, UNIFI_PROC_BT); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - r = set_pmem_page(card, addr, CHIP_HELPER_WT_ROM, paddr); - break; - - default: - unifi_error(card->ospriv, "Bad address space %d in generic pointer 0x%08lX (helper=0x%x)\n", - space, generic_addr, card->helper); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - return r; -} /* set_page() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_set_proc_select - * - * - * Arguments: - * card Pointer to card structure. - * select Which XAP core to select - * - * Returns: - * 0 on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * --------------------------------------------------------------------------- - */ -CsrResult unifi_set_proc_select(card_t *card, enum unifi_dbg_processors_select select) -{ - CsrResult r; - - /* Verify the the select value is allowed. */ - switch (select) - { - case UNIFI_PROC_MAC: - case UNIFI_PROC_PHY: - case UNIFI_PROC_BOTH: - break; - - - default: - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - if (card->proc_select != (u32)select) - { - r = unifi_write_direct16(card, - ChipHelper_DBG_HOST_PROC_SELECT(card->helper) * 2, - (u8)select); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write to Proc Select register\n"); - return r; - } - - card->proc_select = (u32)select; - } - - return CSR_RESULT_SUCCESS; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_read_8_or_16 - * - * Performs a byte read of the given address in shared data memory. - * Set up the shared data memory page register as required. - * - * Arguments: - * card Pointer to card structure. - * unifi_addr UniFi shared-data-memory address to access. - * pdata Pointer to a byte variable for the value read. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * CSR_WIFI_HIP_RESULT_INVALID_VALUE a bad generic pointer was specified - * --------------------------------------------------------------------------- - */ -CsrResult unifi_read_8_or_16(card_t *card, u32 unifi_addr, u8 *pdata) -{ - u32 sdio_addr; - CsrResult r; -#ifdef CSR_WIFI_TRANSPORT_CSPI - u16 w; -#endif - - r = set_page(card, unifi_addr, &sdio_addr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.cmd52_r8or16_count++; -#endif -#ifdef CSR_WIFI_TRANSPORT_CSPI - r = retrying_read16(card, card->function, sdio_addr, &w); - *pdata = (u8)(w & 0xFF); - return r; -#else - return retrying_read8(card, card->function, sdio_addr, pdata); -#endif -} /* unifi_read_8_or_16() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_write_8_or_16 - * - * Performs a byte write of the given address in shared data memory. - * Set up the shared data memory page register as required. - * - * Arguments: - * card Pointer to card context struct. - * unifi_addr UniFi shared-data-memory address to access. - * data Value to write. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * CSR_WIFI_HIP_RESULT_INVALID_VALUE a bad generic pointer was specified - * - * Notes: - * Beware using unifi_write8() because byte writes are not safe on UniFi. - * Writes to odd bytes are cached, writes to even bytes perform a 16-bit - * write with the previously cached odd byte. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_write_8_or_16(card_t *card, u32 unifi_addr, u8 data) -{ - u32 sdio_addr; - CsrResult r; -#ifdef CSR_WIFI_TRANSPORT_CSPI - u16 w; -#endif - - r = set_page(card, unifi_addr, &sdio_addr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - if (sdio_addr & 1) - { - unifi_warning(card->ospriv, - "Warning: Byte write to an odd address (0x%lX) is dangerous\n", - sdio_addr); - } - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.cmd52_w8or16_count++; -#endif -#ifdef CSR_WIFI_TRANSPORT_CSPI - w = data; - return retrying_write16(card, card->function, sdio_addr, w); -#else - return retrying_write8(card, card->function, sdio_addr, data); -#endif -} /* unifi_write_8_or_16() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_card_read16 - * - * Performs a 16-bit read of the given address in shared data memory. - * Set up the shared data memory page register as required. - * - * Arguments: - * card Pointer to card structure. - * unifi_addr UniFi shared-data-memory address to access. - * pdata Pointer to a 16-bit int variable for the value read. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * CSR_WIFI_HIP_RESULT_INVALID_VALUE a bad generic pointer was specified - * --------------------------------------------------------------------------- - */ -CsrResult unifi_card_read16(card_t *card, u32 unifi_addr, u16 *pdata) -{ - u32 sdio_addr; - CsrResult r; - - r = set_page(card, unifi_addr, &sdio_addr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.cmd52_r16_count++; -#endif - return unifi_read_direct16(card, sdio_addr, pdata); -} /* unifi_card_read16() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_card_write16 - * - * Performs a 16-bit write of the given address in shared data memory. - * Set up the shared data memory page register as required. - * - * Arguments: - * card Pointer to card structure. - * unifi_addr UniFi shared-data-memory address to access. - * pdata Pointer to a byte variable for the value write. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * CSR_WIFI_HIP_RESULT_INVALID_VALUE a bad generic pointer was specified - * --------------------------------------------------------------------------- - */ -CsrResult unifi_card_write16(card_t *card, u32 unifi_addr, u16 data) -{ - u32 sdio_addr; - CsrResult r; - - r = set_page(card, unifi_addr, &sdio_addr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.cmd52_w16_count++; -#endif - return unifi_write_direct16(card, sdio_addr, data); -} /* unifi_card_write16() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_read32 - * - * Performs a 32-bit read of the given address in shared data memory. - * Set up the shared data memory page register as required. - * - * Arguments: - * card Pointer to card structure. - * unifi_addr UniFi shared-data-memory address to access. - * pdata Pointer to a int variable for the value read. - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * CSR_WIFI_HIP_RESULT_INVALID_VALUE a bad generic pointer was specified - * --------------------------------------------------------------------------- - */ -CsrResult unifi_read32(card_t *card, u32 unifi_addr, u32 *pdata) -{ - u32 sdio_addr; - CsrResult r; - - r = set_page(card, unifi_addr, &sdio_addr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - card->cmd_prof.cmd52_r32_count++; -#endif - return unifi_read_direct32(card, sdio_addr, pdata); -} /* unifi_read32() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_card_readn - * unifi_readnz - * - * Read multiple 8-bit values from the UniFi SDIO interface. - * This function interprets the address as a GenericPointer as - * defined in the UniFi Host Interface Protocol Specification. - * The readnz version of this function will stop when it reads a - * zero octet. - * - * Arguments: - * card Pointer to card structure. - * unifi_addr UniFi shared-data-memory address to access. - * pdata Pointer to which to write data. - * len Number of bytes to read - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * CSR_WIFI_HIP_RESULT_INVALID_VALUE a bad generic pointer was specified - * --------------------------------------------------------------------------- - */ -CsrResult unifi_readn_match(card_t *card, u32 unifi_addr, void *pdata, u16 len, s8 match) -{ - u32 sdio_addr; - CsrResult r; - u32 num; - - r = set_page(card, unifi_addr, &sdio_addr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - r = unifi_read_directn_match(card, sdio_addr, pdata, len, match, &num); - return r; -} /* unifi_readn_match() */ - - -CsrResult unifi_card_readn(card_t *card, u32 unifi_addr, void *pdata, u16 len) -{ - return unifi_readn_match(card, unifi_addr, pdata, len, -1); -} /* unifi_card_readn() */ - - -CsrResult unifi_readnz(card_t *card, u32 unifi_addr, void *pdata, u16 len) -{ - return unifi_readn_match(card, unifi_addr, pdata, len, 0); -} /* unifi_readnz() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_read_shared_count - * - * Read signal count locations, checking for an SDIO error. The - * signal count locations only contain a valid number if the - * highest bit isn't set. - * - * Arguments: - * card Pointer to card context structure. - * addr Shared-memory address to read. - * - * Returns: - * Value read from memory (0-127) or -1 on error - * --------------------------------------------------------------------------- - */ -s32 unifi_read_shared_count(card_t *card, u32 addr) -{ - u8 b; - /* I've increased this count, because I have seen cases where - * there were three reads in a row with the top bit set. I'm not - * sure why this might have happened, but I can't see a problem - * with increasing this limit. It's better to take a while to - * recover than to fail. */ -#define SHARED_READ_RETRY_LIMIT 10 - s32 i; - - /* - * Get the to-host-signals-written count. - * The top-bit will be set if the firmware was in the process of - * changing the value, in which case we read again. - */ - /* Limit the number of repeats so we don't freeze */ - for (i = 0; i < SHARED_READ_RETRY_LIMIT; i++) - { - CsrResult r; - r = unifi_read_8_or_16(card, addr, &b); - if (r != CSR_RESULT_SUCCESS) - { - return -1; - } - if (!(b & 0x80)) - { - /* There is a chance that the MSB may have contained invalid data - * (overflow) at the time it was read. Therefore mask off the MSB. - * This avoids a race between driver read and firmware write of the - * word, the value we need is in the lower 8 bits anway. - */ - return (s32)(b & 0xff); - } - } - - return -1; /* this function has changed in WMM mods */ -} /* unifi_read_shared_count() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_writen - * - * Write multiple 8-bit values to the UniFi SDIO interface using CMD52 - * This function interprets the address as a GenericPointer as - * defined in the UniFi Host Interface Protocol Specification. - * - * Arguments: - * card Pointer to card structure. - * unifi_addr UniFi shared-data-memory address to access. - * pdata Pointer to which to write data. - * len Number of bytes to write - * - * Returns: - * 0 on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * CSR_WIFI_HIP_RESULT_INVALID_VALUE an odd length or length too big. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_writen(card_t *card, u32 unifi_addr, void *pdata, u16 len) -{ - u32 sdio_addr; - CsrResult r; - - r = set_page(card, unifi_addr, &sdio_addr); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - return unifi_write_directn(card, sdio_addr, pdata, len); -} /* unifi_writen() */ - - -static CsrResult csr_sdio_block_rw(card_t *card, s16 funcnum, - u32 addr, u8 *pdata, - u16 count, s16 dir_is_write) -{ - CsrResult csrResult; - - if (dir_is_write == UNIFI_SDIO_READ) - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("r@%02X#%X=", addr, count); -#endif -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf("R"); -#endif - csrResult = CsrSdioRead(card->sdio_if, addr, pdata, count); -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf("<"); -#endif - } - else - { -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - unifi_debug_log_to_buf("w@%02X#%X=", addr, count); - unifi_debug_hex_to_buf(pdata, count > CSR_WIFI_HIP_SDIO_TRACE_DATA_LENGTH?CSR_WIFI_HIP_SDIO_TRACE_DATA_LENGTH : count); -#endif -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf("W"); -#endif - csrResult = CsrSdioWrite(card->sdio_if, addr, pdata, count); -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf(">"); -#endif - } -#ifdef CSR_WIFI_HIP_DATA_PLANE_PROFILE - card->cmd_prof.cmd53_count++; -#endif -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_SDIO_TRACE) - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_debug_log_to_buf("error=%X", csrResult); - } - else if (dir_is_write == UNIFI_SDIO_READ) - { - unifi_debug_hex_to_buf(pdata, count > CSR_WIFI_HIP_SDIO_TRACE_DATA_LENGTH?CSR_WIFI_HIP_SDIO_TRACE_DATA_LENGTH : count); - } - unifi_debug_string_to_buf("\n"); -#endif - return csrResult; /* CSR SDIO (not HIP) error code */ -} - - -/* - * --------------------------------------------------------------------------- - * unifi_bulk_rw - * - * Transfer bulk data to or from the UniFi SDIO interface. - * This function is used to read or write signals and bulk data. - * - * Arguments: - * card Pointer to card structure. - * handle Value to put in the Register Address field of the CMD53 req. - * data Pointer to data to write. - * direction One of UNIFI_SDIO_READ or UNIFI_SDIO_WRITE - * - * Returns: - * CSR_RESULT_SUCCESS on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * - * Notes: - * This function uses SDIO CMD53, which is the block transfer mode. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_bulk_rw(card_t *card, u32 handle, void *pdata, - u32 len, s16 direction) -{ -#define CMD53_RETRIES 3 - /* - * Ideally instead of sleeping, we want to busy wait. - * Currently there is no framework API to do this. When it becomes available, - * we can use it to busy wait using usecs - */ -#define REWIND_RETRIES 15 /* when REWIND_DELAY==1msec, or 250 when REWIND_DELAY==50usecs */ -#define REWIND_POLLING_RETRIES 5 -#define REWIND_DELAY 1 /* msec or 50usecs */ - CsrResult csrResult; /* SDIO error code */ - CsrResult r = CSR_RESULT_SUCCESS; /* HIP error code */ - s16 retries = CMD53_RETRIES; - s16 stat_retries; - u8 stat; - s16 dump_read; -#ifdef UNIFI_DEBUG - u8 *pdata_lsb = ((u8 *)&pdata) + card->lsb; -#endif -#ifdef CSR_WIFI_MAKE_FAKE_CMD53_ERRORS - static s16 fake_error; -#endif - - dump_read = 0; -#ifdef UNIFI_DEBUG - if (*pdata_lsb & 1) - { - unifi_notice(card->ospriv, "CD53 request on a unaligned buffer (addr: 0x%X) dir %s-Host\n", - pdata, (direction == UNIFI_SDIO_READ)?"To" : "From"); - if (direction == UNIFI_SDIO_WRITE) - { - dump(pdata, (u16)len); - } - else - { - dump_read = 1; - } - } -#endif - - /* Defensive checks */ - if (!pdata) - { - unifi_error(card->ospriv, "Null pdata for unifi_bulk_rw() len: %d\n", len); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - if ((len & 1) || (len > 0xffff)) - { - unifi_error(card->ospriv, "Impossible CMD53 length requested: %d\n", len); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - while (1) - { - csrResult = csr_sdio_block_rw(card, card->function, handle, - (u8 *)pdata, (u16)len, - direction); - if (csrResult == CSR_SDIO_RESULT_NO_DEVICE) - { - return CSR_WIFI_HIP_RESULT_NO_DEVICE; - } -#ifdef CSR_WIFI_MAKE_FAKE_CMD53_ERRORS - if (++fake_error > 100) - { - fake_error = 90; - unifi_warning(card->ospriv, "Faking a CMD53 error,\n"); - if (csrResult == CSR_RESULT_SUCCESS) - { - csrResult = CSR_RESULT_FAILURE; - } - } -#endif - if (csrResult == CSR_RESULT_SUCCESS) - { - if (dump_read) - { - dump(pdata, (u16)len); - } - break; - } - - /* - * At this point the SDIO driver should have written the I/O Abort - * register to notify UniFi that the command has failed. - * UniFi-1 and UniFi-2 (not UF6xxx) use the same register to store the - * Deep Sleep State. This means we have to restore the Deep Sleep - * State (AWAKE in any case since we can not perform a CD53 in any other - * state) by rewriting the I/O Abort register to its previous value. - */ - if (card->chip_id <= SDIO_CARD_ID_UNIFI_2) - { - (void)unifi_set_host_state(card, UNIFI_HOST_STATE_AWAKE); - } - - /* If csr_sdio_block_rw() failed in a non-retryable way, or retries exhausted - * then stop retrying - */ - if (!retryable_sdio_error(csrResult)) - { - unifi_error(card->ospriv, "Fatal error in a CMD53 transfer\n"); - break; - } - - /* - * These happen from time to time, try again - */ - if (--retries == 0) - { - break; - } - - unifi_trace(card->ospriv, UDBG4, - "Error in a CMD53 transfer, retrying (h:%d,l:%u)...\n", - (s16)handle & 0xff, len); - - /* The transfer failed, rewind and try again */ - r = unifi_write_8_or_16(card, card->sdio_ctrl_addr + 8, - (u8)(handle & 0xff)); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - /* - * If we can't even do CMD52 (register read/write) then - * stop here. - */ - unifi_error(card->ospriv, "Failed to write REWIND cmd\n"); - return r; - } - - /* Signal the UniFi to look for the rewind request. */ - r = CardGenInt(card); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - /* Wait for UniFi to acknowledge the rewind */ - stat_retries = REWIND_RETRIES; - while (1) - { - r = unifi_read_8_or_16(card, card->sdio_ctrl_addr + 8, &stat); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read REWIND status\n"); - return CSR_RESULT_FAILURE; - } - - if (stat == 0) - { - break; - } - if (--stat_retries == 0) - { - unifi_error(card->ospriv, "Timeout waiting for REWIND ready\n"); - return CSR_RESULT_FAILURE; - } - - /* Poll for the ack a few times */ - if (stat_retries < REWIND_RETRIES - REWIND_POLLING_RETRIES) - { - CsrThreadSleep(REWIND_DELAY); - } - } - } - - /* The call to csr_sdio_block_rw() still failed after retrying */ - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Block %s failed after %d retries\n", - (direction == UNIFI_SDIO_READ)?"read" : "write", - CMD53_RETRIES - retries); - /* Report any SDIO error as a general i/o error */ - return CSR_RESULT_FAILURE; - } - - /* Collect some stats */ - if (direction == UNIFI_SDIO_READ) - { - card->sdio_bytes_read += len; - } - else - { - card->sdio_bytes_written += len; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_bulk_rw() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_bulk_rw_noretry - * - * Transfer bulk data to or from the UniFi SDIO interface. - * This function is used to read or write signals and bulk data. - * - * Arguments: - * card Pointer to card structure. - * handle Value to put in the Register Address field of - * the CMD53 req. - * data Pointer to data to write. - * direction One of UNIFI_SDIO_READ or UNIFI_SDIO_WRITE - * - * Returns: - * 0 on success, non-zero error code on error: - * CSR_WIFI_HIP_RESULT_NO_DEVICE card was ejected - * CSR_RESULT_FAILURE an SDIO error occurred - * - * Notes: - * This function uses SDIO CMD53, which is the block transfer mode. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_bulk_rw_noretry(card_t *card, u32 handle, void *pdata, - u32 len, s16 direction) -{ - CsrResult csrResult; - - csrResult = csr_sdio_block_rw(card, card->function, handle, - (u8 *)pdata, (u16)len, direction); - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Block %s failed\n", - (direction == UNIFI_SDIO_READ)?"read" : "write"); - return csrResult; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_bulk_rw_noretry() */ - - diff --git a/drivers/staging/csr/csr_wifi_hip_chiphelper.c b/drivers/staging/csr/csr_wifi_hip_chiphelper.c deleted file mode 100644 index 5cf5b8a..0000000 --- a/drivers/staging/csr/csr_wifi_hip_chiphelper.c +++ /dev/null @@ -1,793 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include "csr_macro.h" -#include "csr_wifi_hip_chiphelper_private.h" - -#ifndef nelem -#define nelem(a) (sizeof(a) / sizeof(a[0])) -#endif - -#define counted(foo) { nelem(foo), foo } -#define null_counted() { 0, NULL } - -/* The init values are a set of register writes that we must - perform when we first connect to the chip to get it working. - They swicth on the correct clocks and possibly set the host - interface as a wkaeup source. They should not be used if - proper HIP opperation is required, but are useful before we - do a code download. */ -static const struct chip_helper_init_values init_vals_v1[] = { - { 0xFDBB, 0xFFFF }, - { 0xFDB6, 0x03FF }, - { 0xFDB1, 0x01E3 }, - { 0xFDB3, 0x0FFF }, - { 0xFEE3, 0x08F0 }, - { 0xFEE7, 0x3C3F }, - { 0xFEE6, 0x0050 }, - { 0xFDBA, 0x0000 } -}; - -static const struct chip_helper_init_values init_vals_v2[] = { - { 0xFDB6, 0x0FFF }, - { 0xF023, 0x3F3F }, - { 0xFDB1, 0x01E3 }, - { 0xFDB3, 0x0FFF }, - { 0xF003, 0x08F0 }, - { 0xF007, 0x3C3F }, - { 0xF006, 0x0050 } -}; - - -static const struct chip_helper_init_values init_vals_v22_v23[] = { - { 0xF81C, 0x00FF }, - /*{ 0x????, 0x???? }, */ - { 0xF80C, 0x1FFF }, - { 0xFA25, 0x001F }, - { 0xF804, 0x00FF }, - { 0xF802, 0x0FFF }, - /*{ 0x????, 0x???? }, - { 0x????, 0x???? }, - { 0x????, 0x???? }*/ -}; - -static const u16 reset_program_a_v1_or_v2[] = { - 0x0000 -}; -static const u16 reset_program_b_v1_or_v2[] = { - 0x0010, 0xFE00, 0xA021, 0xFF00, 0x8111, 0x0009, 0x0CA4, 0x0114, - 0x0280, 0x04F8, 0xFE00, 0x6F25, 0x06E0, 0x0010, 0xFC00, 0x0121, - 0xFC00, 0x0225, 0xFE00, 0x7125, 0xFE00, 0x6D11, 0x03F0, 0xFE00, - 0x6E25, 0x0008, 0x00E0 -}; - -static const struct chip_helper_reset_values reset_program_v1_or_v2[] = -{ - { - MAKE_GP(REGISTERS, 0x000C), - nelem(reset_program_a_v1_or_v2), - reset_program_a_v1_or_v2 - }, - { - MAKE_GP(MAC_PMEM, 0x000000), - nelem(reset_program_b_v1_or_v2), - reset_program_b_v1_or_v2 - } -}; - -static const struct chip_map_address_t unifi_map_address_v1_v2[] = -{ - { 0xFE9F, 0xFE7B }, /* PM1_BANK_SELECT */ - { 0xFE9E, 0xFE78 }, /* PM2_BANK_SELECT */ - { 0xFE9D, 0xFE7E }, /* SHARED_DMEM_PAGE */ - { 0xFE91, 0xFE90 }, /* PROC_SELECT */ - { 0xFE8D, 0xFE8C }, /* STOP_STATUS */ -}; - -static const struct chip_map_address_t unifi_map_address_v22_v23[] = -{ - { 0xF8F9, 0xF8AC }, /* GW1_CONFIG */ - { 0xF8FA, 0xF8AD }, /* GW2_CONFIG */ - { 0xF8FB, 0xF8AE }, /* GW3_CONFIG */ - { 0xF830, 0xF81E }, /* PROC_SELECT */ - { 0xF831, 0xF81F }, /* STOP_STATUS */ - { 0xF8FC, 0xF8AF }, /* IO_LOG_ADDRESS */ -}; - -static const struct chip_device_regs_t unifi_device_regs_null = -{ - 0xFE81, /* GBL_CHIP_VERSION */ - 0x0000, /* GBL_MISC_ENABLES */ - 0x0000, /* DBG_EMU_CMD */ - { - 0x0000, /* HOST.DBG_PROC_SELECT */ - 0x0000, /* HOST.DBG_STOP_STATUS */ - 0x0000, /* HOST.WINDOW1_PAGE */ - 0x0000, /* HOST.WINDOW2_PAGE */ - 0x0000, /* HOST.WINDOW3_PAGE */ - 0x0000 /* HOST.IO_LOG_ADDR */ - }, - { - 0x0000, /* SPI.DBG_PROC_SELECT */ - 0x0000, /* SPI.DBG_STOP_STATUS */ - 0x0000, /* SPI.WINDOW1_PAGE */ - 0x0000, /* SPI.WINDOW2_PAGE */ - 0x0000, /* SPI.WINDOW3_PAGE */ - 0x0000 /* SPI.IO_LOG_ADDR */ - }, - 0x0000, /* DBG_RESET */ - 0x0000, /* > DBG_RESET_VALUE */ - 0x0000, /* DBG_RESET_WARN */ - 0x0000, /* DBG_RESET_WARN_VALUE */ - 0x0000, /* DBG_RESET_RESULT */ - 0xFFE9, /* XAP_PCH */ - 0xFFEA, /* XAP_PCL */ - 0x0000, /* PROC_PC_SNOOP */ - 0x0000, /* WATCHDOG_DISABLE */ - 0x0000, /* MAILBOX0 */ - 0x0000, /* MAILBOX1 */ - 0x0000, /* MAILBOX2 */ - 0x0000, /* MAILBOX3 */ - 0x0000, /* SDIO_HOST_INT */ - 0x0000, /* SHARED_IO_INTERRUPT */ - 0x0000, /* SDIO HIP HANDSHAKE */ - 0x0000 /* COEX_STATUS */ -}; - -/* UF105x */ -static const struct chip_device_regs_t unifi_device_regs_v1 = -{ - 0xFE81, /* GBL_CHIP_VERSION */ - 0xFE87, /* GBL_MISC_ENABLES */ - 0xFE9C, /* DBG_EMU_CMD */ - { - 0xFE90, /* HOST.DBG_PROC_SELECT */ - 0xFE8C, /* HOST.DBG_STOP_STATUS */ - 0xFE7B, /* HOST.WINDOW1_PAGE */ - 0xFE78, /* HOST.WINDOW2_PAGE */ - 0xFE7E, /* HOST.WINDOW3_PAGE */ - 0x0000 /* HOST.IO_LOG_ADDR */ - }, - { - 0xFE91, /* SPI.DBG_PROC_SELECT */ - 0xFE8D, /* SPI.DBG_STOP_STATUS */ - 0xFE9F, /* SPI.WINDOW1_PAGE */ - 0xFE9E, /* SPI.WINDOW2_PAGE */ - 0xFE9D, /* SPI.WINDOW3_PAGE */ - 0x0000 /* SPI.IO_LOG_ADDR */ - }, - 0xFE92, /* DBG_RESET */ - 0x0001, /* > DBG_RESET_VALUE */ - 0xFDA0, /* DBG_RESET_WARN (HOST_SELECT) */ - 0x0000, /* DBG_RESET_WARN_VALUE */ - 0xFE92, /* DBG_RESET_RESULT */ - 0xFFE9, /* XAP_PCH */ - 0xFFEA, /* XAP_PCL */ - 0x0051, /* PROC_PC_SNOOP */ - 0xFE70, /* WATCHDOG_DISABLE */ - 0xFE6B, /* MAILBOX0 */ - 0xFE6A, /* MAILBOX1 */ - 0xFE69, /* MAILBOX2 */ - 0xFE68, /* MAILBOX3 */ - 0xFE67, /* SDIO_HOST_INT */ - 0xFE65, /* SHARED_IO_INTERRUPT */ - 0xFDE9, /* SDIO HIP HANDSHAKE */ - 0x0000 /* COEX_STATUS */ -}; - -/* UF2... */ -static const struct chip_device_regs_t unifi_device_regs_v2 = -{ - 0xFE81, /* GBL_CHIP_VERSION */ - 0xFE87, /* GBL_MISC_ENABLES */ - 0xFE9C, /* DBG_EMU_CMD */ - { - 0xFE90, /* HOST.DBG_PROC_SELECT */ - 0xFE8C, /* HOST.DBG_STOP_STATUS */ - 0xFE7B, /* HOST.WINDOW1_PAGE */ - 0xFE78, /* HOST.WINDOW2_PAGE */ - 0xFE7E, /* HOST.WINDOW3_PAGE */ - 0x0000 /* HOST.IO_LOG_ADDR */ - }, - { - 0xFE91, /* SPI.DBG_PROC_SELECT */ - 0xFE8D, /* SPI.DBG_STOP_STATUS */ - 0xFE9F, /* SPI.WINDOW1_PAGE */ - 0xFE9E, /* SPI.WINDOW2_PAGE */ - 0xFE9D, /* SPI.WINDOW3_PAGE */ - 0x0000 /* SPI.IO_LOG_ADDR */ - }, - 0xFE92, /* DBG_RESET */ - 0x0000, /* > DBG_RESET_VALUE */ - 0xFDE9, /* DBG_RESET_WARN (TEST_FLASH_DATA - SHARED_MAILBOX2B) */ - 0xFFFF, /* DBG_RESET_WARN_VALUE */ - 0xFDE9, /* DBG_RESET_RESULT (TEST_FLASH_DATA) */ - 0xFFE9, /* XAP_PCH */ - 0xFFEA, /* XAP_PCL */ - 0x0051, /* PROC_PC_SNOOP */ - 0xFE70, /* WATCHDOG_DISABLE */ - 0xFE6B, /* MAILBOX0 */ - 0xFE6A, /* MAILBOX1 */ - 0xFE69, /* MAILBOX2 */ - 0xFE68, /* MAILBOX3 */ - 0xFE67, /* SDIO_HOST_INT */ - 0xFE65, /* SHARED_IO_INTERRUPT */ - 0xFE69, /* SDIO HIP HANDSHAKE */ - 0x0000 /* COEX_STATUS */ -}; - -/* UF60xx */ -static const struct chip_device_regs_t unifi_device_regs_v22_v23 = -{ - 0xFE81, /* GBL_CHIP_VERSION */ - 0xF84F, /* GBL_MISC_ENABLES */ - 0xF81D, /* DBG_EMU_CMD */ - { - 0xF81E, /* HOST.DBG_PROC_SELECT */ - 0xF81F, /* HOST.DBG_STOP_STATUS */ - 0xF8AC, /* HOST.WINDOW1_PAGE */ - 0xF8AD, /* HOST.WINDOW2_PAGE */ - 0xF8AE, /* HOST.WINDOW3_PAGE */ - 0xF8AF /* HOST.IO_LOG_ADDR */ - }, - { - 0xF830, /* SPI.DBG_PROC_SELECT */ - 0xF831, /* SPI.DBG_STOP_STATUS */ - 0xF8F9, /* SPI.WINDOW1_PAGE */ - 0xF8FA, /* SPI.WINDOW2_PAGE */ - 0xF8FB, /* SPI.WINDOW3_PAGE */ - 0xF8FC /* SPI.IO_LOG_ADDR */ - }, - 0xF82F, /* DBG_RESET */ - 0x0001, /* > DBG_RESET_VALUE */ - 0x0000, /* DBG_RESET_WARN */ - 0x0000, /* DBG_RESET_WARN_VALUE */ - 0xF82F, /* DBG_RESET_RESULT */ - 0xFFE9, /* XAP_PCH */ - 0xFFEA, /* XAP_PCL */ - 0x001B, /* PROC_PC_SNOOP */ - 0x0055, /* WATCHDOG_DISABLE */ - 0xF84B, /* MAILBOX0 */ - 0xF84C, /* MAILBOX1 */ - 0xF84D, /* MAILBOX2 */ - 0xF84E, /* MAILBOX3 */ - 0xF92F, /* SDIO_HOST_INT */ - 0xF92B, /* SDIO_FROMHOST_SCRTACH0 / SHARED_IO_INTERRUPT */ - 0xF84D, /* SDIO HIP HANDSHAKE (MAILBOX2) */ - 0xF9FB /* COEX_STATUS */ -}; - -/* Program memory window on UF105x. */ -static const struct window_shift_info_t prog_window_array_unifi_v1_v2[CHIP_HELPER_WT_COUNT] = -{ - { TRUE, 11, 0x0200 }, /* CODE RAM */ - { TRUE, 11, 0x0000 }, /* FLASH */ - { TRUE, 11, 0x0400 }, /* External SRAM */ - { FALSE, 0, 0 }, /* ROM */ - { FALSE, 0, 0 } /* SHARED */ -}; - -/* Shared memory window on UF105x. */ -static const struct window_shift_info_t shared_window_array_unifi_v1_v2[CHIP_HELPER_WT_COUNT] = -{ - { FALSE, 0, 0 }, /* CODE RAM */ - { FALSE, 0, 0 }, /* FLASH */ - { FALSE, 0, 0 }, /* External SRAM */ - { FALSE, 0, 0 }, /* ROM */ - { TRUE, 11, 0x0000 } /* SHARED */ -}; - -/* One of the Generic Windows on UF60xx and later. */ -static const struct window_shift_info_t generic_window_array_unifi_v22_v23[CHIP_HELPER_WT_COUNT] = -{ - { TRUE, 11, 0x3800 }, /* CODE RAM */ - { FALSE, 0, 0 }, /* FLASH */ - { FALSE, 0, 0 }, /* External SRAM */ - { TRUE, 11, 0x2000 }, /* ROM */ - { TRUE, 11, 0x0000 } /* SHARED */ -}; - -/* The three windows on UF105x. */ -static const struct window_info_t prog1_window_unifi_v1_v2 = { 0x0000, 0x2000, 0x0080, prog_window_array_unifi_v1_v2 }; -static const struct window_info_t prog2_window_unifi_v1_v2 = { 0x2000, 0x2000, 0x0000, prog_window_array_unifi_v1_v2 }; -static const struct window_info_t shared_window_unifi_v1_v2 = { 0x4000, 0x2000, 0x0000, shared_window_array_unifi_v1_v2 }; - -/* The three windows on UF60xx and later. */ -static const struct window_info_t generic1_window_unifi_v22_v23 = { 0x0000, 0x2000, 0x0080, generic_window_array_unifi_v22_v23 }; -static const struct window_info_t generic2_window_unifi_v22_v23 = { 0x2000, 0x2000, 0x0000, generic_window_array_unifi_v22_v23 }; -static const struct window_info_t generic3_window_unifi_v22_v23 = { 0x4000, 0x2000, 0x0000, generic_window_array_unifi_v22_v23 }; - -static const struct chip_device_desc_t chip_device_desc_null = -{ - { FALSE, 0x0000, 0x0000, 0x00 }, - "", - "", - null_counted(), /* init */ - null_counted(), /* reset_prog */ - &unifi_device_regs_null, /* regs */ - { - FALSE, /* has_flash */ - FALSE, /* has_ext_sram */ - FALSE, /* has_rom */ - FALSE, /* has_bt */ - FALSE, /* has_wlan */ - }, - null_counted(), - /* prog_offset */ - { - 0x00000000, - 0x00000000, - 0x00000000, - 0x00000000 - }, - /* data_offset */ - { - 0x0000 /* ram */ - }, - /* windows */ - { - NULL, - NULL, - NULL - } -}; - -static const struct chip_device_desc_t unifi_device_desc_v1 = -{ - { FALSE, 0xf0ff, 0x1001, 0x01 }, /* UF105x R01 */ - "UF105x", - "UniFi-1", - counted(init_vals_v1), /* init */ - counted(reset_program_v1_or_v2), /* reset_prog */ - &unifi_device_regs_v1, /* regs */ - { - TRUE, /* has_flash */ - TRUE, /* has_ext_sram */ - FALSE, /* has_rom */ - FALSE, /* has_bt */ - TRUE, /* has_wlan */ - }, - counted(unifi_map_address_v1_v2), /* map */ - /* prog_offset */ - { - 0x00100000, /* ram */ - 0x00000000, /* rom (invalid) */ - 0x00000000, /* flash */ - 0x00200000, /* ext_ram */ - }, - /* data_offset */ - { - 0x8000 /* ram */ - }, - /* windows */ - { - &prog1_window_unifi_v1_v2, - &prog2_window_unifi_v1_v2, - &shared_window_unifi_v1_v2 - } -}; - -static const struct chip_device_desc_t unifi_device_desc_v2 = -{ - { FALSE, 0xf0ff, 0x2001, 0x02 }, /* UF2... R02 */ - "UF2...", - "UniFi-2", - counted(init_vals_v2), /* init */ - counted(reset_program_v1_or_v2), /* reset_prog */ - &unifi_device_regs_v2, /* regs */ - { - TRUE, /* has_flash */ - TRUE, /* has_ext_sram */ - FALSE, /* has_rom */ - FALSE, /* has_bt */ - TRUE, /* has_wlan */ - }, - counted(unifi_map_address_v1_v2), /* map */ - /* prog_offset */ - { - 0x00100000, /* ram */ - 0x00000000, /* rom (invalid) */ - 0x00000000, /* flash */ - 0x00200000, /* ext_ram */ - }, - /* data_offset */ - { - 0x8000 /* ram */ - }, - /* windows */ - { - &prog1_window_unifi_v1_v2, - &prog2_window_unifi_v1_v2, - &shared_window_unifi_v1_v2 - } -}; - -static const struct chip_device_desc_t unifi_device_desc_v3 = -{ - { FALSE, 0xf0ff, 0x3001, 0x02 }, /* UF2... R03 */ - "UF2...", - "UniFi-3", - counted(init_vals_v2), /* init */ - counted(reset_program_v1_or_v2), /* reset_prog */ - &unifi_device_regs_v2, /* regs */ - { - TRUE, /* has_flash */ - TRUE, /* has_ext_sram */ - FALSE, /* has_rom */ - FALSE, /* has_bt */ - TRUE, /* has_wlan */ - }, - counted(unifi_map_address_v1_v2), /* map */ - /* prog_offset */ - { - 0x00100000, /* ram */ - 0x00000000, /* rom (invalid) */ - 0x00000000, /* flash */ - 0x00200000, /* ext_ram */ - }, - /* data_offset */ - { - 0x8000 /* ram */ - }, - /* windows */ - { - &prog1_window_unifi_v1_v2, - &prog2_window_unifi_v1_v2, - &shared_window_unifi_v1_v2 - } -}; - -static const struct chip_device_desc_t unifi_device_desc_v22 = -{ - { FALSE, 0x00ff, 0x0022, 0x07 }, /* UF60xx */ - "UF60xx", - "UniFi-4", - counted(init_vals_v22_v23), /* init */ - null_counted(), /* reset_prog */ - &unifi_device_regs_v22_v23, /* regs */ - { - FALSE, /* has_flash */ - FALSE, /* has_ext_sram */ - TRUE, /* has_rom */ - FALSE, /* has_bt */ - TRUE, /* has_wlan */ - }, - counted(unifi_map_address_v22_v23), /* map */ - /* prog_offset */ - { - 0x00C00000, /* ram */ - 0x00000000, /* rom */ - 0x00000000, /* flash (invalid) */ - 0x00000000, /* ext_ram (invalid) */ - }, - /* data_offset */ - { - 0x8000 /* ram */ - }, - /* windows */ - { - &generic1_window_unifi_v22_v23, - &generic2_window_unifi_v22_v23, - &generic3_window_unifi_v22_v23 - } -}; - -static const struct chip_device_desc_t unifi_device_desc_v23 = -{ - { FALSE, 0x00ff, 0x0023, 0x08 }, /* UF.... */ - "UF....", - "UF.... (5)", - counted(init_vals_v22_v23), /* init */ - null_counted(), /* reset_prog */ - &unifi_device_regs_v22_v23, /* regs */ - { - FALSE, /* has_flash */ - FALSE, /* has_ext_sram */ - TRUE, /* has_rom */ - TRUE, /* has_bt */ - TRUE, /* has_wlan */ - }, - counted(unifi_map_address_v22_v23), - /* prog_offset */ - { - 0x00C00000, /* ram */ - 0x00000000, /* rom */ - 0x00000000, /* flash (invalid) */ - 0x00000000, /* ext_sram (invalid) */ - }, - /* data_offset */ - { - 0x8000 /* ram */ - }, - /* windows */ - { - &generic1_window_unifi_v22_v23, - &generic2_window_unifi_v22_v23, - &generic3_window_unifi_v22_v23 - } -}; - -static const struct chip_device_desc_t hyd_wlan_subsys_desc_v1 = -{ - { FALSE, 0x00ff, 0x0044, 0x00 }, /* UF.... */ - "HYD...", - "HYD... ", - counted(init_vals_v22_v23), /* init */ - null_counted(), /* reset_prog */ - &unifi_device_regs_v22_v23, /* regs */ - { - FALSE, /* has_flash */ - FALSE, /* has_ext_sram */ - TRUE, /* has_rom */ - FALSE, /* has_bt */ - TRUE, /* has_wlan */ - }, - counted(unifi_map_address_v22_v23), - /* prog_offset */ - { - 0x00C00000, /* ram */ - 0x00000000, /* rom */ - 0x00000000, /* flash (invalid) */ - 0x00000000, /* ext_sram (invalid) */ - }, - /* data_offset */ - { - 0x8000 /* ram */ - }, - /* windows */ - { - &generic1_window_unifi_v22_v23, - &generic2_window_unifi_v22_v23, - &generic3_window_unifi_v22_v23 - } -}; - - -/* This is the list of all chips that we know about. I'm - assuming that the order here will be important - we - might have multiple entries witrh the same SDIO id for - instance. The first one in this list will be the one - that is returned if a search is done on only that id. - The client will then have to call GetVersionXXX again - but with more detailed info. - - I don't know if we need to signal this up to the client - in some way? - - (We get the SDIO id before we know anything else about - the chip. We might not be able to read any of the other - registers at first, but we still need to know about the - chip). */ -static const struct chip_device_desc_t *chip_ver_to_desc[] = -{ - &unifi_device_desc_v1, /* UF105x R01 */ - &unifi_device_desc_v2, /* UF2... R02 */ - &unifi_device_desc_v3, /* UF2... R03 */ - &unifi_device_desc_v22, /* UF60xx */ - &unifi_device_desc_v23, /* UF.... */ - &hyd_wlan_subsys_desc_v1 -}; - -ChipDescript* ChipHelper_GetVersionSdio(u8 sdio_ver) -{ - u32 i; - - for (i = 0; i < nelem(chip_ver_to_desc); i++) - { - if (chip_ver_to_desc[i]->chip_version.sdio == sdio_ver) - { - return chip_ver_to_desc[i]; - } - } - - return &chip_device_desc_null; -} - - -ChipDescript* ChipHelper_GetVersionAny(u16 from_FF9A, u16 from_FE81) -{ - u32 i; - - if ((from_FF9A & 0xFF00) != 0) - { - for (i = 0; i < nelem(chip_ver_to_desc); i++) - { - if (chip_ver_to_desc[i]->chip_version.pre_bc7 && - ((from_FF9A & chip_ver_to_desc[i]->chip_version.mask) == - chip_ver_to_desc[i]->chip_version.result)) - { - return chip_ver_to_desc[i]; - } - } - } - else - { - for (i = 0; i < nelem(chip_ver_to_desc); i++) - { - if (!chip_ver_to_desc[i]->chip_version.pre_bc7 && - ((from_FE81 & chip_ver_to_desc[i]->chip_version.mask) == - chip_ver_to_desc[i]->chip_version.result)) - { - return chip_ver_to_desc[i]; - } - } - } - - return &chip_device_desc_null; -} - - -ChipDescript* ChipHelper_GetVersionUniFi(u16 ver) -{ - return ChipHelper_GetVersionAny(0x0000, ver); -} - - -ChipDescript *ChipHelper_Null(void) -{ - return &chip_device_desc_null; -} - - -ChipDescript* ChipHelper_GetVersionBlueCore(enum chip_helper_bluecore_age bc_age, u16 version) -{ - if (bc_age == chip_helper_bluecore_pre_bc7) - { - return ChipHelper_GetVersionAny(version, 0x0000); - } - else - { - return ChipHelper_GetVersionAny(0x0000, version); - } -} - - -/* Expand the DEF0 functions into simple code to return the - correct thing. The DEF1 functions expand to nothing in - this X macro expansion. */ -#define CHIP_HELPER_DEF0_C_DEF(ret_type, name, info) \ - ret_type ChipHelper_ ## name(ChipDescript * chip_help) \ - { \ - return chip_help->info; \ - } -#define CHIP_HELPER_DEF1_C_DEF(ret_type, name, type1, name1) - -CHIP_HELPER_LIST(C_DEF) - -/* - * Map register addresses between HOST and SPI access. - */ -u16 ChipHelper_MapAddress_SPI2HOST(ChipDescript *chip_help, u16 addr) -{ - u32 i; - for (i = 0; i < chip_help->map.len; i++) - { - if (chip_help->map.vals[i].spi == addr) - { - return chip_help->map.vals[i].host; - } - } - return addr; -} - - -u16 ChipHelper_MapAddress_HOST2SPI(ChipDescript *chip_help, u16 addr) -{ - u32 i; - for (i = 0; i < chip_help->map.len; i++) - { - if (chip_help->map.vals[i].host == addr) - { - return chip_help->map.vals[i].spi; - } - } - return addr; -} - - -/* The address returned by this function is the start of the - window in the address space, that is where we can start - accessing data from. If a section of the window at the - start is unusable because something else is cluttering up - the address map then that is taken into account and this - function returns that address justt past that. */ -u16 ChipHelper_WINDOW_ADDRESS(ChipDescript *chip_help, - enum chip_helper_window_index window) -{ - if (window < CHIP_HELPER_WINDOW_COUNT && - chip_help->windows[window] != NULL) - { - return chip_help->windows[window]->address + chip_help->windows[window]->blocked; - } - return 0; -} - - -/* This returns the size of the window minus any blocked section */ -u16 ChipHelper_WINDOW_SIZE(ChipDescript *chip_help, - enum chip_helper_window_index window) -{ - if (window < CHIP_HELPER_WINDOW_COUNT && - chip_help->windows[window] != NULL) - { - return chip_help->windows[window]->size - chip_help->windows[window]->blocked; - } - return 0; -} - - -/* Get the register writes we should do to make sure that - the chip is running with most clocks on. */ -u32 ChipHelper_ClockStartupSequence(ChipDescript *chip_help, - const struct chip_helper_init_values **val) -{ - *val = chip_help->init.vals; - return chip_help->init.len; -} - - -/* Get the set of values tat we should write to the chip to perform a reset. */ -u32 ChipHelper_HostResetSequence(ChipDescript *chip_help, - const struct chip_helper_reset_values **val) -{ - *val = chip_help->reset_prog.vals; - return chip_help->reset_prog.len; -} - - -/* Decode a windowed access to the chip. */ -s32 ChipHelper_DecodeWindow(ChipDescript *chip_help, - enum chip_helper_window_index window, - enum chip_helper_window_type type, - u32 offset, - u16 *page, u16 *addr, u32 *len) -{ - const struct window_info_t *win; - const struct window_shift_info_t *mode; - u16 of, pg; - - if (window >= CHIP_HELPER_WINDOW_COUNT) - { - return FALSE; - } - if ((win = chip_help->windows[window]) == NULL) - { - return FALSE; - } - if (type >= CHIP_HELPER_WT_COUNT) - { - return FALSE; - } - if ((mode = &win->mode[type]) == NULL) - { - return FALSE; - } - if (!mode->allowed) - { - return FALSE; - } - - pg = (u16)(offset >> mode->page_shift) + mode->page_offset; - of = (u16)(offset & ((1 << mode->page_shift) - 1)); - /* If 'blocked' is zero this does nothing, else decrease - the page register and increase the offset until we aren't - in the blocked region of the window. */ - while (of < win->blocked) - { - of += 1 << mode->page_shift; - pg--; - } - *page = pg; - *addr = win->address + of; - *len = win->size - of; - return TRUE; -} - - diff --git a/drivers/staging/csr/csr_wifi_hip_chiphelper.h b/drivers/staging/csr/csr_wifi_hip_chiphelper.h deleted file mode 100644 index 09b3aef..0000000 --- a/drivers/staging/csr/csr_wifi_hip_chiphelper.h +++ /dev/null @@ -1,407 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_HIP_CHIPHELPER_H__ -#define CSR_WIFI_HIP_CHIPHELPER_H__ - - -#include <linux/types.h> - -/* The age of the BlueCore chip. This is probably not useful, if - you know the age then you can probably work out the version directly. */ -enum chip_helper_bluecore_age -{ - chip_helper_bluecore_pre_bc7, - chip_helper_bluecore_bc7_or_later -}; - -/* We support up to three windowed regions at the moment. - Don't reorder these - they're used to index into an array. */ -enum chip_helper_window_index -{ - CHIP_HELPER_WINDOW_1 = 0, - CHIP_HELPER_WINDOW_2 = 1, - CHIP_HELPER_WINDOW_3 = 2, - CHIP_HELPER_WINDOW_COUNT = 3 -}; - -/* These are the things that we can access through a window. - Don't reorder these - they're used to index into an array. */ -enum chip_helper_window_type -{ - CHIP_HELPER_WT_CODE_RAM = 0, - CHIP_HELPER_WT_FLASH = 1, - CHIP_HELPER_WT_EXT_SRAM = 2, - CHIP_HELPER_WT_ROM = 3, - CHIP_HELPER_WT_SHARED = 4, - CHIP_HELPER_WT_COUNT = 5 -}; - -/* Commands to stop and start the XAP */ -enum chip_helper_dbg_emu_cmd_enum -{ - CHIP_HELPER_DBG_EMU_CMD_XAP_STEP_MASK = 0x0001, - CHIP_HELPER_DBG_EMU_CMD_XAP_RUN_B_MASK = 0x0002, - CHIP_HELPER_DBG_EMU_CMD_XAP_BRK_MASK = 0x0004, - CHIP_HELPER_DBG_EMU_CMD_XAP_WAKEUP_MASK = 0x0008 -}; - -/* Bitmasks for Stop and sleep status: DBG_SPI_STOP_STATUS & DBG_HOST_STOP_STATUS */ -enum chip_helper_dbg_stop_status_enum -{ - CHIP_HELPER_DBG_STOP_STATUS_NONE_MASK = 0x0000, - CHIP_HELPER_DBG_STOP_STATUS_P0_MASK = 0x0001, - CHIP_HELPER_DBG_STOP_STATUS_P1_MASK = 0x0002, - CHIP_HELPER_DBG_STOP_STATUS_P2_MASK = 0x0004, - CHIP_HELPER_DBG_STOP_STATUS_SLEEP_STATUS_P0_MASK = 0x0008, - CHIP_HELPER_DBG_STOP_STATUS_SLEEP_STATUS_P1_MASK = 0x0010, - CHIP_HELPER_DBG_STOP_STATUS_SLEEP_STATUS_P2_MASK = 0x0020, - /* Legacy names/alias */ - CHIP_HELPER_DBG_STOP_STATUS_MAC_MASK = 0x0001, - CHIP_HELPER_DBG_STOP_STATUS_PHY_MASK = 0x0002, - CHIP_HELPER_DBG_STOP_STATUS_BT_MASK = 0x0004, - CHIP_HELPER_DBG_STOP_STATUS_SLEEP_STATUS_MAC_MASK = 0x0008, - CHIP_HELPER_DBG_STOP_STATUS_SLEEP_STATUS_PHY_MASK = 0x0010, - CHIP_HELPER_DBG_STOP_STATUS_SLEEP_STATUS_BT_MASK = 0x0020 -}; - -/* Codes to disable the watchdog */ -enum chip_helper_watchdog_disable_enum -{ - CHIP_HELPER_WATCHDOG_DISABLE_CODE1 = 0x6734, - CHIP_HELPER_WATCHDOG_DISABLE_CODE2 = 0xD6BF, - CHIP_HELPER_WATCHDOG_DISABLE_CODE3 = 0xC31E -}; - -/* Other bits have changed between versions */ -enum chip_helper_gbl_misc_enum -{ - CHIP_HELPER_GBL_MISC_SPI_STOP_OUT_EN_MASK = 0x0001, - CHIP_HELPER_GBL_MISC_MMU_INIT_DONE_MASK = 0x0004 -}; - -/* Coex status register, contains interrupt status and reset pullup status. - * CHIP_HELPER_COEX_STATUS_RST_PULLS_MSB_MASK can be used to check - * for WAPI on R03 chips and later. */ -enum chip_helper_coex_status_mask_enum -{ - CHIP_HELPER_COEX_STATUS_RST_PULLS_LSB_MASK = 0x0001, - CHIP_HELPER_COEX_STATUS_RST_PULLS_MSB_MASK = 0x0008, - CHIP_HELPER_COEX_STATUS_WL_FEC_PINS_LSB_MASK = 0x0010, - CHIP_HELPER_COEX_STATUS_WL_FEC_PINS_MSB_MASK = 0x0080, - CHIP_HELPER_COEX_STATUS_INT_UART_MASK = 0x0100, - CHIP_HELPER_COEX_STATUS_INT_BT_LEG_MASK = 0x0200 -}; - -/* How to select the different CPUs */ -enum chip_helper_dbg_proc_sel_enum -{ - CHIP_HELPER_DBG_PROC_SEL_MAC = 0, - CHIP_HELPER_DBG_PROC_SEL_PHY = 1, - CHIP_HELPER_DBG_PROC_SEL_BT = 2, - CHIP_HELPER_DBG_PROC_SEL_NONE = 2, - CHIP_HELPER_DBG_PROC_SEL_BOTH = 3 -}; - -/* These are the only registers that we have to know the - address of before we know the chip version. */ -enum chip_helper_fixed_registers -{ - /* This is the address of GBL_CHIP_VERISON on BC7, - UF105x, UF60xx and - anything later than that. */ - CHIP_HELPER_UNIFI_GBL_CHIP_VERSION = 0xFE81, - - CHIP_HELPER_OLD_BLUECORE_GBL_CHIP_VERSION = 0xFF9A - - /* This isn't used at the moment (but might be needed - to distinguish the BlueCore sub version?) */ - /* CHIP_HELPER_OLD_BLUECORE_ANA_VERSION_ID = 0xFF7D */ -}; - -/* Address-value pairs for defining initialisation values */ -struct chip_helper_init_values -{ - u16 addr; - u16 value; -}; - -/* A block of data that should be written to the device */ -struct chip_helper_reset_values -{ - u32 gp_address; - u32 len; - const u16 *data; -}; - -/* - * This is the C API. - */ - -/* opaque type */ -typedef const struct chip_device_desc_t ChipDescript; - -/* Return a NULL descriptor */ -ChipDescript* ChipHelper_Null(void); - -/* This should get the correct version for any CSR chip. - The two parameters are what is read from addresses - 0xFF9A and 0xFE81 (OLD_BLUECORE_GBL_CHIP_VERSION and - UNIFI_GBL_CHIP_VERSION). These should give a unique identity - for most (all?) chips. - - FF9A is the old GBL_CHIP_VERSION register. If the high - eight bits are zero then the chip is a new (BC7 +) one - and FE81 is the _new_ GBL_CHIP_VERSION register. */ -ChipDescript* ChipHelper_GetVersionAny(u16 from_FF9A, u16 from_FE81); - -/* The chip is a UniFi, but we don't know which type - The parameter is the value of UNIFI_GBL_CHIP_VERSION (0xFE81) */ -ChipDescript* ChipHelper_GetVersionUniFi(u16 version); - -/* This gets the version from the SDIO device id. This only - gives quite a coarse grained version, so we should update once - we hav access to the function N registers. */ -ChipDescript* ChipHelper_GetVersionSdio(u8 sdio_version); - -/* The chip is some sort of BlueCore. If "age" is "pre_bc7" then - "version" is what was read from FF9A. If "age" is bc7_or_later - then "version" is read from FE81. If we don't know if we're pre - or post BC7 then we should use "GetVersionAny". */ -ChipDescript* ChipHelper_GetVersionBlueCore(enum chip_helper_bluecore_age age, - u16 version); - -/* The main functions of this class are built with an X macro. This - means we can generate the C and C++ versions from the same source - without the two diverging. - - The DEF0 functions are simple and take no parameters. The first - parameter to the macro is the return type. The second parameter - is the function name and the third parameter is where to get the - info from (this is hidden from the user). - - The DEF1 functions take one parameter. This time the third macro - parameter is the type of this parameter, and the fourth macro - parameter is the name of the parameter. The bodies of these - functions are hand written. */ -#define CHIP_HELPER_LIST(m) \ - CHIP_HELPER_DEF0(m, (const char *, FriendlyName, friendly_name)) \ - CHIP_HELPER_DEF0(m, (const char *, MarketingName, marketing_name)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_EMU_CMD, regs->dbg_emu_cmd)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_HOST_PROC_SELECT, regs->host.dbg_proc_select)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_HOST_STOP_STATUS, regs->host.dbg_stop_status)) \ - CHIP_HELPER_DEF0(m, (u16, HOST_WINDOW1_PAGE, regs->host.window1_page)) \ - CHIP_HELPER_DEF0(m, (u16, HOST_WINDOW2_PAGE, regs->host.window2_page)) \ - CHIP_HELPER_DEF0(m, (u16, HOST_WINDOW3_PAGE, regs->host.window3_page)) \ - CHIP_HELPER_DEF0(m, (u16, HOST_IO_LOG_ADDR, regs->host.io_log_addr)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_SPI_PROC_SELECT, regs->spi.dbg_proc_select)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_SPI_STOP_STATUS, regs->spi.dbg_stop_status)) \ - CHIP_HELPER_DEF0(m, (u16, SPI_WINDOW1_PAGE, regs->spi.window1_page)) \ - CHIP_HELPER_DEF0(m, (u16, SPI_WINDOW2_PAGE, regs->spi.window2_page)) \ - CHIP_HELPER_DEF0(m, (u16, SPI_WINDOW3_PAGE, regs->spi.window3_page)) \ - CHIP_HELPER_DEF0(m, (u16, SPI_IO_LOG_ADDR, regs->spi.io_log_addr)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_RESET, regs->dbg_reset)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_RESET_VALUE, regs->dbg_reset_value)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_RESET_WARN, regs->dbg_reset_warn)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_RESET_WARN_VALUE, regs->dbg_reset_warn_value)) \ - CHIP_HELPER_DEF0(m, (u16, DBG_RESET_RESULT, regs->dbg_reset_result)) \ - CHIP_HELPER_DEF0(m, (u16, WATCHDOG_DISABLE, regs->watchdog_disable)) \ - CHIP_HELPER_DEF0(m, (u16, PROC_PC_SNOOP, regs->proc_pc_snoop)) \ - CHIP_HELPER_DEF0(m, (u16, GBL_CHIP_VERSION, regs->gbl_chip_version)) \ - CHIP_HELPER_DEF0(m, (u16, GBL_MISC_ENABLES, regs->gbl_misc_enables)) \ - CHIP_HELPER_DEF0(m, (u16, XAP_PCH, regs->xap_pch)) \ - CHIP_HELPER_DEF0(m, (u16, XAP_PCL, regs->xap_pcl)) \ - CHIP_HELPER_DEF0(m, (u16, MAILBOX0, regs->mailbox0)) \ - CHIP_HELPER_DEF0(m, (u16, MAILBOX1, regs->mailbox1)) \ - CHIP_HELPER_DEF0(m, (u16, MAILBOX2, regs->mailbox2)) \ - CHIP_HELPER_DEF0(m, (u16, MAILBOX3, regs->mailbox3)) \ - CHIP_HELPER_DEF0(m, (u16, SDIO_HIP_HANDSHAKE, regs->sdio_hip_handshake)) \ - CHIP_HELPER_DEF0(m, (u16, SDIO_HOST_INT, regs->sdio_host_int)) \ - CHIP_HELPER_DEF0(m, (u16, COEX_STATUS, regs->coex_status)) \ - CHIP_HELPER_DEF0(m, (u16, SHARED_IO_INTERRUPT, regs->shared_io_interrupt)) \ - CHIP_HELPER_DEF0(m, (u32, PROGRAM_MEMORY_RAM_OFFSET, prog_offset.ram)) \ - CHIP_HELPER_DEF0(m, (u32, PROGRAM_MEMORY_ROM_OFFSET, prog_offset.rom)) \ - CHIP_HELPER_DEF0(m, (u32, PROGRAM_MEMORY_FLASH_OFFSET, prog_offset.flash)) \ - CHIP_HELPER_DEF0(m, (u32, PROGRAM_MEMORY_EXT_SRAM_OFFSET, prog_offset.ext_sram)) \ - CHIP_HELPER_DEF0(m, (u16, DATA_MEMORY_RAM_OFFSET, data_offset.ram)) \ - CHIP_HELPER_DEF0(m, (s32, HasFlash, bools.has_flash)) \ - CHIP_HELPER_DEF0(m, (s32, HasExtSram, bools.has_ext_sram)) \ - CHIP_HELPER_DEF0(m, (s32, HasRom, bools.has_rom)) \ - CHIP_HELPER_DEF0(m, (s32, HasBt, bools.has_bt)) \ - CHIP_HELPER_DEF0(m, (s32, HasWLan, bools.has_wlan)) \ - CHIP_HELPER_DEF1(m, (u16, WINDOW_ADDRESS, enum chip_helper_window_index, window)) \ - CHIP_HELPER_DEF1(m, (u16, WINDOW_SIZE, enum chip_helper_window_index, window)) \ - CHIP_HELPER_DEF1(m, (u16, MapAddress_SPI2HOST, u16, addr)) \ - CHIP_HELPER_DEF1(m, (u16, MapAddress_HOST2SPI, u16, addr)) \ - CHIP_HELPER_DEF1(m, (u32, ClockStartupSequence, const struct chip_helper_init_values **, val)) \ - CHIP_HELPER_DEF1(m, (u32, HostResetSequence, const struct chip_helper_reset_values **, val)) - -/* Some magic to help the expansion */ -#define CHIP_HELPER_DEF0(a, b) \ - CHIP_HELPER_DEF0_ ## a b -#define CHIP_HELPER_DEF1(a, b) \ - CHIP_HELPER_DEF1_ ## a b - -/* Macros so that when we expand the list we get "C" function prototypes. */ -#define CHIP_HELPER_DEF0_C_DEC(ret_type, name, info) \ - ret_type ChipHelper_ ## name(ChipDescript * chip_help); -#define CHIP_HELPER_DEF1_C_DEC(ret_type, name, type1, name1) \ - ret_type ChipHelper_ ## name(ChipDescript * chip_help, type1 name1); - -CHIP_HELPER_LIST(C_DEC) - -/* FriendlyName - MarketingName - - These two functions return human readable strings that describe - the chip. FriendlyName returns something that a software engineer - at CSR might understand. MarketingName returns something more like - an external name for a CSR chip. -*/ -/* DBG_EMU_CMD - WATCHDOG_DISABLE - PROC_PC_SNOOP - GBL_CHIP_VERSION - XAP_PCH - XAP_PCL - - These registers are used to control the XAPs. -*/ -/* DBG_HOST_PROC_SELECT DBG_HOST_STOP_STATUS - HOST_WINDOW1_PAGE HOST_WINDOW2_PAGE HOST_WINDOW3_PAGE - HOST_IO_LOG_ADDR - DBG_SPI_PROC_SELECT DBG_SPI_STOP_STATUS - SPI_WINDOW1_PAGE SPI_WINDOW2_PAGE SPI_WINDOW3_PAGE - SPI_IO_LOG_ADDR - - These register are used to control the XAPs and the memory - windows, normally while debugging the code on chip. There - are two versons of these registers, one for access via SPI - and another for access via the host interface. -*/ -/* DBG_RESET - DBG_RESET_VALUE - DBG_RESET_WARN - DBG_RESET_WARN_VALUE - DBG_RESET_RESULT - - These registers are used to reset the XAP. This can be - quite complex for some chips. If DBG_RESET_WARN is non - zero the DBG_RESET_WARN_VALUE should be written to address - DBG_RESET_WARN before the reset is perfeormed. DBG_RESET_VALUE - should then be written to DBG_RESET to make the reset happen. - The DBG_RESET_RESULT register should contain 0 if the reset - was successful. -*/ -/* GBL_MISC_ENABLES - - This register controls some special chip features. It - should be used with care is it changes quite a lot between - chip versions. -*/ -/* MAILBOX0 - MAILBOX1 - MAILBOX2 - MAILBOX3 - - The mailbox registers are for communication between the host - and the firmware. There use is described in part by the host - interface protcol specifcation. -*/ -/* SDIO_HIP_HANDSHAKE - - This is one of the more important SDIO HIP registers. On some - chips it has the same value as one of the mailbox registers - and on other chips it is different. -*/ -/* SDIO_HOST_INT - SHARED_IO_INTERRUPT - - These registers are used by some versions of the host interface - protocol specification. Their names should probably be changed - to hide the registers and to expose the functions more. -*/ -/* COEX_STATUS - - Coex status register, contains interrupt status and reset - pullup status. The latter is used to detect WAPI. -*/ -/* PROGRAM_MEMORY_RAM_OFFSET - PROGRAM_MEMORY_ROM_OFFSET - PROGRAM_MEMORY_FLASH_OFFSET - PROGRAM_MEMORY_EXT_SRAM_OFFSET - DATA_MEMORY_RAM_OFFSET - - These are constants that describe the offset of the different - memory types in the two different address spaces. -*/ -/* HasFlash HasExtSram HasRom - HasBt HasWLan - - These are a set of bools describing the chip. -*/ -/* WINDOW_ADDRESS WINDOW_SIZE - - These two functions return the size and address of the windows. - The address is the address of the lowest value in the address - map that is part of the window and the size is the number of - visible words. - - Some of the windows have their lowest portion covered by - registers. For these windows address is the first address - after the registers and size is the siave excluding the part - covered by registers. -*/ -/* MapAddress_SPI2HOST - MapAddress_HOST2SPI - - The debugging interface is duplicated on UniFi and later chips - so that there are two versions - one over the SPI interaface and - the other over the SDIO interface. These functions map the - registers between these two interfaces. -*/ -/* ClockStartupSequence - - This function returns the list of register value pairs that - should be forced into UniFi to enable SPI communication. This - set of registers is not needed if the firmware is running, but - will be needed if the device is being booted from cold. These - register writes enable the clocks and setup the PLL to a basic - working state. SPI access might be unreliable until these writes - have occurred (And they may take mulitple goes). -*/ -/* HostResetSequence - - This returns a number of chunks of data and generic pointers. - All of the XAPs should be stopped. The data should be written - to the generic pointers. The instruction pointer for the MAC - should then be set to the start of program memory and then the - MAC should be "go"d. This will reset the chip in a reliable - and orderly manner without resetting the SDIO interface. It - is therefore not needed if the chip is being accessed by the - SPI interface (the DBG_RESET_ mechanism can be used instead). -*/ - -/* The Decode Window function is more complex. For the window - 'window' it tries to return the address and page register - value needed to see offset 'offset' of memory type 'type'. - - It return 1 on success and 0 on failure. 'page' is what - should be written to the page register. 'addr' is the - address in the XAPs 16 address map to read from. 'len' - is the length that we can read without having to change - the page registers. */ -s32 ChipHelper_DecodeWindow(ChipDescript *chip_help, - enum chip_helper_window_index window, - enum chip_helper_window_type type, - u32 offset, - u16 *page, u16 *addr, u32 *len); - -#endif diff --git a/drivers/staging/csr/csr_wifi_hip_chiphelper_private.h b/drivers/staging/csr/csr_wifi_hip_chiphelper_private.h deleted file mode 100644 index e5e5799..0000000 --- a/drivers/staging/csr/csr_wifi_hip_chiphelper_private.h +++ /dev/null @@ -1,200 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_HIP_CHIPHELPER_PRIVATE_H__ -#define CSR_WIFI_HIP_CHIPHELPER_PRIVATE_H__ - - -#include "csr_wifi_hip_chiphelper.h" - -/* This GP stuff should be somewhere else? */ - -/* Memory spaces encoded in top byte of Generic Pointer type */ -#define UNIFI_SH_DMEM 0x01 /* Shared Data Memory */ -#define UNIFI_EXT_FLASH 0x02 /* External FLASH */ -#define UNIFI_EXT_SRAM 0x03 /* External SRAM */ -#define UNIFI_REGISTERS 0x04 /* Registers */ -#define UNIFI_PHY_DMEM 0x10 /* PHY Data Memory */ -#define UNIFI_PHY_PMEM 0x11 /* PHY Program Memory */ -#define UNIFI_PHY_ROM 0x12 /* PHY ROM */ -#define UNIFI_MAC_DMEM 0x20 /* MAC Data Memory */ -#define UNIFI_MAC_PMEM 0x21 /* MAC Program Memory */ -#define UNIFI_MAC_ROM 0x22 /* MAC ROM */ -#define UNIFI_BT_DMEM 0x30 /* BT Data Memory */ -#define UNIFI_BT_PMEM 0x31 /* BT Program Memory */ -#define UNIFI_BT_ROM 0x32 /* BT ROM */ - -#define MAKE_GP(R, O) (((UNIFI_ ## R) << 24) | (O)) -#define GP_OFFSET(GP) ((GP) & 0xFFFFFF) -#define GP_SPACE(GP) (((GP) >> 24) & 0xFF) - - -/* Address value pairs */ -struct val_array_t -{ - u32 len; - const struct chip_helper_init_values *vals; -}; - -/* Just a (counted) u16 array */ -struct data_array_t -{ - u32 len; - const u16 *vals; -}; - -struct reset_prog_t -{ - u32 len; - const struct chip_helper_reset_values *vals; -}; - -/* The addresses of registers that are equivalent but on - different host transports. */ -struct chip_map_address_t -{ - u16 spi, host; -}; - -struct map_array_t -{ - u32 len; - const struct chip_map_address_t *vals; -}; - -struct chip_device_regs_per_transport_t -{ - u16 dbg_proc_select; - u16 dbg_stop_status; - u16 window1_page; /* PROG_PMEM1 or GW1 */ - u16 window2_page; /* PROG_PMEM2 or GW2 */ - u16 window3_page; /* SHARED or GW3 */ - u16 io_log_addr; -}; - -struct chip_device_regs_t -{ - u16 gbl_chip_version; - u16 gbl_misc_enables; - u16 dbg_emu_cmd; - struct chip_device_regs_per_transport_t host; - struct chip_device_regs_per_transport_t spi; - u16 dbg_reset; - u16 dbg_reset_value; - u16 dbg_reset_warn; - u16 dbg_reset_warn_value; - u16 dbg_reset_result; - u16 xap_pch; - u16 xap_pcl; - u16 proc_pc_snoop; - u16 watchdog_disable; - u16 mailbox0; - u16 mailbox1; - u16 mailbox2; - u16 mailbox3; - u16 sdio_host_int; - u16 shared_io_interrupt; - u16 sdio_hip_handshake; - u16 coex_status; /* Allows WAPI detection */ -}; - -/* If allowed is false then this window does not provide this - type of access. - This describes how addresses should be shifted to make the - "page" address. The address is shifted left by 'page_shift' - and then has 'page_offset' added. This value should then be - written to the page register. */ -struct window_shift_info_t -{ - s32 allowed; - u32 page_shift; - u16 page_offset; -}; - -/* Each window has an address and size. These are obvious. It then - has a description for each type of memory that might be accessed - through it. There might also be a start to the offset of the window. - This means that that number of addresses at the start of the window - are unusable. */ -struct window_info_t -{ - u16 address; - u16 size; - u16 blocked; - const struct window_shift_info_t *mode; -}; - -/* If GBL_CHIP_VERSION and'ed with 'mask' and is equal to 'result' - then this is the correct set of info. If pre_bc7 is true then the - address of GBL_CHIP_VERSION is FF9A, else its FE81. */ -struct chip_version_t -{ - s32 pre_bc7; - u16 mask; - u16 result; - u8 sdio; -}; - -struct chip_device_desc_t -{ - struct chip_version_t chip_version; - - /* This is a text string that a human might find useful (BC02, UF105x) */ - const char *friendly_name; - /* This is what we show to customers */ - const char *marketing_name; - - /* Initialisation values to write following a reset */ - struct val_array_t init; - - /* Binary sequence for hard reset */ - struct reset_prog_t reset_prog; - - /* The register map */ - const struct chip_device_regs_t *regs; - - /* Some misc. info on the chip */ - struct - { - u32 has_flash : 1; - u32 has_ext_sram : 1; - u32 has_rom : 1; - u32 has_bt : 1; - u32 has_wlan : 1; - } bools; - - /* This table is used to remap register addresses depending on what - host interface is used. On the BC7 and later chips there are - multiple sets of memory window registers, on for each host - interafce (SDIO / SPI). The correct one is needed. */ - struct map_array_t map; - - /* The offsets into the program address space of the different types of memory. - The RAM offset is probably the most useful. */ - struct - { - u32 ram; - u32 rom; - u32 flash; - u32 ext_sram; - } prog_offset; - - /* The offsets into the data address space of interesting things. */ - struct - { - u16 ram; - /* maybe add shared / page tables? */ - } data_offset; - - /* Information on the different windows */ - const struct window_info_t *windows[CHIP_HELPER_WINDOW_COUNT]; -}; - -#endif /* CSR_WIFI_HIP_CHIPHELPER_PRIVATE_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_conversions.h b/drivers/staging/csr/csr_wifi_hip_conversions.h deleted file mode 100644 index bf7a52e..0000000 --- a/drivers/staging/csr/csr_wifi_hip_conversions.h +++ /dev/null @@ -1,73 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * - * FILE: csr_wifi_hip_conversions.h - * - * PURPOSE: - * This header file provides the macros for converting to and from - * wire format. - * These macros *MUST* work for little-endian AND big-endian hosts. - * - * --------------------------------------------------------------------------- - */ -#ifndef __CSR_WIFI_HIP_CONVERSIONS_H__ -#define __CSR_WIFI_HIP_CONVERSIONS_H__ - -#define SIZEOF_UINT16 2 -#define SIZEOF_UINT32 4 -#define SIZEOF_UINT64 8 - -#define SIZEOF_SIGNAL_HEADER 6 -#define SIZEOF_DATAREF 4 - - -/* - * Macro to retrieve the signal ID from a wire-format signal. - */ -#define GET_SIGNAL_ID(_buf) CSR_GET_UINT16_FROM_LITTLE_ENDIAN((_buf)) - -/* - * Macros to retrieve and set the DATAREF fields in a packed (i.e. wire-format) - * HIP signal. - */ -#define GET_PACKED_DATAREF_SLOT(_buf, _ref) \ - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(((_buf) + SIZEOF_SIGNAL_HEADER + ((_ref) * SIZEOF_DATAREF) + 0)) - -#define GET_PACKED_DATAREF_LEN(_buf, _ref) \ - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(((_buf) + SIZEOF_SIGNAL_HEADER + ((_ref) * SIZEOF_DATAREF) + 2)) - -#define SET_PACKED_DATAREF_SLOT(_buf, _ref, _slot) \ - CSR_COPY_UINT16_TO_LITTLE_ENDIAN((_slot), ((_buf) + SIZEOF_SIGNAL_HEADER + ((_ref) * SIZEOF_DATAREF) + 0)) - -#define SET_PACKED_DATAREF_LEN(_buf, _ref, _len) \ - CSR_COPY_UINT16_TO_LITTLE_ENDIAN((_len), ((_buf) + SIZEOF_SIGNAL_HEADER + ((_ref) * SIZEOF_DATAREF) + 2)) - -#define GET_PACKED_MA_PACKET_REQUEST_FRAME_PRIORITY(_buf) \ - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(((_buf) + SIZEOF_SIGNAL_HEADER + UNIFI_MAX_DATA_REFERENCES * SIZEOF_DATAREF + 8)) - -#define GET_PACKED_MA_PACKET_REQUEST_HOST_TAG(_buf) \ - CSR_GET_UINT32_FROM_LITTLE_ENDIAN(((_buf) + SIZEOF_SIGNAL_HEADER + UNIFI_MAX_DATA_REFERENCES * SIZEOF_DATAREF + 4)) - -#define GET_PACKED_MA_PACKET_CONFIRM_HOST_TAG(_buf) \ - CSR_GET_UINT32_FROM_LITTLE_ENDIAN(((_buf) + SIZEOF_SIGNAL_HEADER + UNIFI_MAX_DATA_REFERENCES * SIZEOF_DATAREF + 8)) - -#define GET_PACKED_MA_PACKET_CONFIRM_TRANSMISSION_STATUS(_buf) \ - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(((_buf) + SIZEOF_SIGNAL_HEADER + UNIFI_MAX_DATA_REFERENCES * SIZEOF_DATAREF + 2)) - - -s32 get_packed_struct_size(const u8 *buf); -CsrResult read_unpack_signal(const u8 *ptr, CSR_SIGNAL *sig); -CsrResult write_pack(const CSR_SIGNAL *sig, u8 *ptr, u16 *sig_len); - -#endif /* __CSR_WIFI_HIP_CONVERSIONS_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_hip_download.c b/drivers/staging/csr/csr_wifi_hip_download.c deleted file mode 100644 index 2f44a38..0000000 --- a/drivers/staging/csr/csr_wifi_hip_download.c +++ /dev/null @@ -1,819 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_download.c - * - * PURPOSE: - * Routines for downloading firmware to UniFi. - * - * --------------------------------------------------------------------------- - */ -#include <linux/slab.h> -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_unifiversion.h" -#include "csr_wifi_hip_card.h" -#include "csr_wifi_hip_xbv.h" - -#undef CSR_WIFI_IGNORE_PATCH_VERSION_MISMATCH - -static CsrResult do_patch_download(card_t *card, void *dlpriv, - xbv1_t *pfwinfo, u32 boot_ctrl_addr); - -static CsrResult do_patch_convert_download(card_t *card, - void *dlpriv, xbv1_t *pfwinfo); - -/* - * --------------------------------------------------------------------------- - * _find_in_slut - * - * Find the offset of the appropriate object in the SLUT of a card - * - * Arguments: - * card Pointer to card struct - * psym Pointer to symbol object. - * id set up by caller - * obj will be set up by this function - * pslut Pointer to SLUT address, if 0xffffffff then it must be - * read from the chip. - * Returns: - * CSR_RESULT_SUCCESS on success - * Non-zero on error, - * CSR_WIFI_HIP_RESULT_NOT_FOUND if not found - * --------------------------------------------------------------------------- - */ -static CsrResult _find_in_slut(card_t *card, symbol_t *psym, u32 *pslut) -{ - u32 slut_address; - u16 finger_print; - CsrResult r; - CsrResult csrResult; - - /* Get SLUT address */ - if (*pslut == 0xffffffff) - { - r = card_wait_for_firmware_to_start(card, &slut_address); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Firmware hasn't started\n"); - return r; - } - *pslut = slut_address; - - /* - * Firmware has started so set the SDIO bus clock to the initial speed, - * faster than UNIFI_SDIO_CLOCK_SAFE_HZ, to speed up the f/w download. - */ - csrResult = CsrSdioMaxBusClockFrequencySet(card->sdio_if, UNIFI_SDIO_CLOCK_INIT_HZ); - if (csrResult != CSR_RESULT_SUCCESS) - { - r = ConvertCsrSdioToCsrHipResult(card, csrResult); - return r; - } - card->sdio_clock_speed = UNIFI_SDIO_CLOCK_INIT_HZ; - } - else - { - slut_address = *pslut; /* Use previously discovered address */ - } - unifi_trace(card->ospriv, UDBG4, "SLUT addr: 0x%lX\n", slut_address); - - /* - * Check the SLUT fingerprint. - * The slut_address is a generic pointer so we must use unifi_card_read16(). - */ - unifi_trace(card->ospriv, UDBG4, "Looking for SLUT finger print\n"); - finger_print = 0; - r = unifi_card_read16(card, slut_address, &finger_print); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read SLUT finger print\n"); - return r; - } - - if (finger_print != SLUT_FINGERPRINT) - { - unifi_error(card->ospriv, "Failed to find SLUT fingerprint\n"); - return CSR_RESULT_FAILURE; - } - - /* Symbol table starts imedately after the fingerprint */ - slut_address += 2; - - while (1) - { - u16 id; - u32 obj; - - r = unifi_card_read16(card, slut_address, &id); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - slut_address += 2; - - if (id == CSR_SLT_END) - { - /* End of table reached: not found */ - r = CSR_WIFI_HIP_RESULT_RANGE; - break; - } - - r = unifi_read32(card, slut_address, &obj); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - slut_address += 4; - - unifi_trace(card->ospriv, UDBG3, " found SLUT id %02d.%08lx\n", id, obj); - - r = CSR_WIFI_HIP_RESULT_NOT_FOUND; - /* Found search term? */ - if (id == psym->id) - { - unifi_trace(card->ospriv, UDBG1, " matched SLUT id %02d.%08lx\n", id, obj); - psym->obj = obj; - r = CSR_RESULT_SUCCESS; - break; - } - } - - return r; -} - - -/* - * --------------------------------------------------------------------------- - * do_patch_convert_download - * - * Download the given firmware image to the UniFi, converting from FWDL - * to PTDL XBV format. - * - * Arguments: - * card Pointer to card struct - * dlpriv Pointer to source firmware image - * fwinfo Pointer to source firmware info struct - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on error - * - * Notes: - * --------------------------------------------------------------------------- - */ -static CsrResult do_patch_convert_download(card_t *card, void *dlpriv, xbv1_t *pfwinfo) -{ - CsrResult r; - u32 slut_base = 0xffffffff; - void *pfw; - u32 psize; - symbol_t sym; - - /* Reset the chip to guarantee that the ROM loader is running */ - r = unifi_init(card); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, - "do_patch_convert_download: failed to re-init UniFi\n"); - return r; - } - - /* If no unifi_helper is running, the firmware version must be read */ - if (card->build_id == 0) - { - u32 ver = 0; - sym.id = CSR_SLT_BUILD_ID_NUMBER; - sym.obj = 0; /* To be updated by _find_in_slut() */ - - unifi_trace(card->ospriv, UDBG1, "Need f/w version\n"); - - /* Find chip build id entry in SLUT */ - r = _find_in_slut(card, &sym, &slut_base); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to find CSR_SLT_BUILD_ID_NUMBER\n"); - return CSR_RESULT_FAILURE; - } - - /* Read running f/w version */ - r = unifi_read32(card, sym.obj, &ver); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read f/w id\n"); - return CSR_RESULT_FAILURE; - } - card->build_id = ver; - } - - /* Convert the ptest firmware to a patch against the running firmware */ - pfw = xbv_to_patch(card, unifi_fw_read, dlpriv, pfwinfo, &psize); - if (!pfw) - { - unifi_error(card->ospriv, "Failed to convert f/w to patch"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - else - { - void *desc; - sym.id = CSR_SLT_BOOT_LOADER_CONTROL; - sym.obj = 0; /* To be updated by _find_in_slut() */ - - /* Find boot loader control entry in SLUT */ - r = _find_in_slut(card, &sym, &slut_base); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to find BOOT_LOADER_CONTROL\n"); - kfree(pfw); - return CSR_RESULT_FAILURE; - } - - r = unifi_set_host_state(card, UNIFI_HOST_STATE_AWAKE); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to wake UniFi\n"); - } - - /* Get a dlpriv for the patch buffer so that unifi_fw_read() can - * access it. - */ - desc = unifi_fw_open_buffer(card->ospriv, pfw, psize); - if (!desc) - { - kfree(pfw); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - - /* Download the patch */ - unifi_info(card->ospriv, "Downloading converted f/w as patch\n"); - r = unifi_dl_patch(card, desc, sym.obj); - kfree(pfw); - unifi_fw_close_buffer(card->ospriv, desc); - - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Converted patch download failed\n"); - return r; - } - else - { - unifi_trace(card->ospriv, UDBG1, "Converted patch downloaded\n"); - } - - /* This command starts the firmware */ - r = unifi_do_loader_op(card, sym.obj + 6, UNIFI_BOOT_LOADER_RESTART); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write loader restart cmd\n"); - } - - return r; - } -} - - -/* - * --------------------------------------------------------------------------- - * unifi_dl_firmware - * - * Download the given firmware image to the UniFi. - * - * Arguments: - * card Pointer to card struct - * dlpriv A context pointer from the calling function to be - * passed when calling unifi_fw_read(). - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_NO_MEMORY memory allocation failed - * CSR_WIFI_HIP_RESULT_INVALID_VALUE error in XBV file - * CSR_RESULT_FAILURE SDIO error - * - * Notes: - * Stops and resets the chip, does the download and runs the new - * firmware. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_dl_firmware(card_t *card, void *dlpriv) -{ - xbv1_t *fwinfo; - CsrResult r; - - fwinfo = kmalloc(sizeof(xbv1_t), GFP_KERNEL); - if (fwinfo == NULL) - { - unifi_error(card->ospriv, "Failed to allocate memory for firmware\n"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - - /* - * Scan the firmware file to find the TLVs we are interested in. - * These are: - * - check we support the file format version in VERF - * - SLTP Symbol Lookup Table Pointer - * - FWDL firmware download segments - * - FWOV firmware overlay segment - * - VMEQ Register probe tests to verify matching h/w - */ - r = xbv1_parse(card, unifi_fw_read, dlpriv, fwinfo); - if (r != CSR_RESULT_SUCCESS || fwinfo->mode != xbv_firmware) - { - unifi_error(card->ospriv, "File type is %s, expected firmware.\n", - fwinfo->mode == xbv_patch?"patch" : "unknown"); - kfree(fwinfo); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* UF6xxx doesn't accept firmware, only patches. Therefore we convert - * the file to patch format with version numbers matching the current - * running firmware, and then download via the patch mechanism. - * The sole purpose of this is to support production test firmware across - * different ROM releases, the test firmware being provided in non-patch - * format. - */ - if (card->chip_id > SDIO_CARD_ID_UNIFI_2) - { - unifi_info(card->ospriv, "Must convert f/w to patch format\n"); - r = do_patch_convert_download(card, dlpriv, fwinfo); - } - else - { - /* Older UniFi chips allowed firmware to be directly loaded onto the - * chip, which is no longer supported. - */ - unifi_error(card->ospriv, "Only patch downloading supported\n"); - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - kfree(fwinfo); - return r; -} /* unifi_dl_firmware() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_dl_patch - * - * Load the given patch set into UniFi. - * - * Arguments: - * card Pointer to card struct - * dlpriv The os specific handle to the firmware file. - * boot_ctrl The address of the boot loader control structure. - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_NO_MEMORY memory allocation failed - * CSR_WIFI_HIP_RESULT_INVALID_VALUE error in XBV file - * CSR_RESULT_FAILURE SDIO error - * - * Notes: - * This ends up telling UniFi to restart. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_dl_patch(card_t *card, void *dlpriv, u32 boot_ctrl) -{ - xbv1_t *fwinfo; - CsrResult r; - - unifi_info(card->ospriv, "unifi_dl_patch %p %08x\n", dlpriv, boot_ctrl); - - fwinfo = kmalloc(sizeof(xbv1_t), GFP_KERNEL); - if (fwinfo == NULL) - { - unifi_error(card->ospriv, "Failed to allocate memory for patches\n"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - - /* - * Scan the firmware file to find the TLVs we are interested in. - * These are: - * - check we support the file format version in VERF - * - FWID The build ID of the ROM that we can patch - * - PTDL patch download segments - */ - r = xbv1_parse(card, unifi_fw_read, dlpriv, fwinfo); - if (r != CSR_RESULT_SUCCESS || fwinfo->mode != xbv_patch) - { - kfree(fwinfo); - unifi_error(card->ospriv, "Failed to read in patch file\n"); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* - * We have to check the build id read from the SLUT against that - * for the patch file. They have to match exactly. - * "card->build_id" == XBV1.PTCH.FWID - */ - if (card->build_id != fwinfo->build_id) - { - unifi_error(card->ospriv, "Wrong patch file for chip (chip = %lu, file = %lu)\n", - card->build_id, fwinfo->build_id); - kfree(fwinfo); -#ifndef CSR_WIFI_IGNORE_PATCH_VERSION_MISMATCH - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; -#else - fwinfo = NULL; - dlpriv = NULL; - return CSR_RESULT_SUCCESS; -#endif - } - - r = do_patch_download(card, dlpriv, fwinfo, boot_ctrl); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to patch image\n"); - } - - kfree(fwinfo); - - return r; -} /* unifi_dl_patch() */ - - -void* unifi_dl_fw_read_start(card_t *card, s8 is_fw) -{ - card_info_t card_info; - - unifi_card_info(card, &card_info); - unifi_trace(card->ospriv, UDBG5, - "id=%d, ver=0x%x, fw_build=%u, fw_hip=0x%x, block_size=%d\n", - card_info.chip_id, card_info.chip_version, - card_info.fw_build, card_info.fw_hip_version, - card_info.sdio_block_size); - - return unifi_fw_read_start(card->ospriv, is_fw, &card_info); -} - - -/* - * --------------------------------------------------------------------------- - * safe_read_shared_location - * - * Read a shared memory location repeatedly until we get two readings - * the same. - * - * Arguments: - * card Pointer to card context struct. - * unifi_addr UniFi shared-data-memory address to access. - * pdata Pointer to a byte variable for the value read. - * - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on failure - * --------------------------------------------------------------------------- - */ -static CsrResult safe_read_shared_location(card_t *card, u32 address, u8 *pdata) -{ - CsrResult r; - u16 limit = 1000; - u8 b, b2; - - *pdata = 0; - - r = unifi_read_8_or_16(card, address, &b); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - while (limit--) - { - r = unifi_read_8_or_16(card, address, &b2); - if (r != CSR_RESULT_SUCCESS) - { - return r; - } - - /* When we have a stable value, return it */ - if (b == b2) - { - *pdata = b; - return CSR_RESULT_SUCCESS; - } - - b = b2; - } - - return CSR_RESULT_FAILURE; -} /* safe_read_shared_location() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_do_loader_op - * - * Send a loader / boot_loader command to the UniFi and wait for - * it to complete. - * - * Arguments: - * card Pointer to card context struct. - * op_addr The address of the loader operation control word. - * opcode The operation to perform. - * - * Returns: - * CSR_RESULT_SUCCESS on success - * CSR_RESULT_FAILURE SDIO error or SDIO/XAP timeout - * --------------------------------------------------------------------------- - */ - -/* - * Ideally instead of sleeping, we want to busy wait. - * Currently there is no framework API to do this. When it becomes available, - * we can use it to busy wait using usecs - */ -#define OPERATION_TIMEOUT_LOOPS (100) /* when OPERATION_TIMEOUT_DELAY==1, (500) otherwise */ -#define OPERATION_TIMEOUT_DELAY 1 /* msec, or 200usecs */ - -CsrResult unifi_do_loader_op(card_t *card, u32 op_addr, u8 opcode) -{ - CsrResult r; - s16 op_retries; - - unifi_trace(card->ospriv, UDBG4, "Loader cmd 0x%0x -> 0x%08x\n", opcode, op_addr); - - /* Set the Operation command byte to the opcode */ - r = unifi_write_8_or_16(card, op_addr, opcode); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to write loader copy command\n"); - return r; - } - - /* Wait for Operation command byte to be Idle */ - /* Typically takes ~100us */ - op_retries = 0; - r = CSR_RESULT_SUCCESS; - while (1) - { - u8 op; - - /* - * Read the memory location until two successive reads give - * the same value. - * Then handle it. - */ - r = safe_read_shared_location(card, op_addr, &op); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to read loader status\n"); - break; - } - - if (op == UNIFI_LOADER_IDLE) - { - /* Success */ - break; - } - - if (op != opcode) - { - unifi_error(card->ospriv, "Error reported by loader: 0x%X\n", op); - r = CSR_RESULT_FAILURE; - break; - } - - /* Allow 500us timeout */ - if (++op_retries >= OPERATION_TIMEOUT_LOOPS) - { - unifi_error(card->ospriv, "Timeout waiting for loader to ack transfer\n"); - /* Stop XAPs to aid post-mortem */ - r = unifi_card_stop_processor(card, UNIFI_PROC_BOTH); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to stop UniFi processors\n"); - } - else - { - r = CSR_RESULT_FAILURE; - } - break; - } - CsrThreadSleep(OPERATION_TIMEOUT_DELAY); - } /* Loop exits with r != CSR_RESULT_SUCCESS on error */ - - return r; -} /* unifi_do_loader_op() */ - - -/* - * --------------------------------------------------------------------------- - * send_ptdl_to_unifi - * - * Copy a patch block from userland to the UniFi. - * This function reads data, 2K at a time, from userland and writes - * it to the UniFi. - * - * Arguments: - * card A pointer to the card structure - * dlpriv The os specific handle for the firmware file - * ptdl A pointer ot the PTDL block - * handle The buffer handle to use for the xfer - * op_addr The address of the loader operation control word - * - * Returns: - * Number of bytes sent (Positive) or negative value indicating - * error code: - * CSR_WIFI_HIP_RESULT_NO_MEMORY memory allocation failed - * CSR_WIFI_HIP_RESULT_INVALID_VALUE error in XBV file - * CSR_RESULT_FAILURE SDIO error - * --------------------------------------------------------------------------- - */ -static CsrResult send_ptdl_to_unifi(card_t *card, void *dlpriv, - const struct PTDL *ptdl, u32 handle, - u32 op_addr) -{ - u32 offset; - u8 *buf; - s32 data_len; - u32 write_len; - CsrResult r; - const u16 buf_size = 2 * 1024; - - offset = ptdl->dl_offset; - data_len = ptdl->dl_size; - - if (data_len > buf_size) - { - unifi_error(card->ospriv, "PTDL block is too large (%u)\n", - ptdl->dl_size); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - buf = kmalloc(buf_size, GFP_KERNEL); - if (buf == NULL) - { - unifi_error(card->ospriv, "Failed to allocate transfer buffer for firmware download\n"); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; - } - - r = CSR_RESULT_SUCCESS; - - if (unifi_fw_read(card->ospriv, dlpriv, offset, buf, data_len) != data_len) - { - unifi_error(card->ospriv, "Failed to read from file\n"); - } - else - { - /* We can always round these if the host wants to */ - if (card->sdio_io_block_pad) - { - write_len = (data_len + (card->sdio_io_block_size - 1)) & - ~(card->sdio_io_block_size - 1); - - /* Zero out the rest of the buffer (This isn't needed, but it - * makes debugging things later much easier). */ - memset(buf + data_len, 0, write_len - data_len); - } - else - { - write_len = data_len; - } - - r = unifi_bulk_rw_noretry(card, handle, buf, write_len, UNIFI_SDIO_WRITE); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "CMD53 failed writing %d bytes to handle %ld\n", - data_len, handle); - } - else - { - /* - * Can change the order of things to overlap read from file - * with copy to unifi - */ - r = unifi_do_loader_op(card, op_addr, UNIFI_BOOT_LOADER_PATCH); - } - } - - kfree(buf); - - if (r != CSR_RESULT_SUCCESS && r != CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - unifi_error(card->ospriv, "Failed to copy block of %u bytes to UniFi\n", - ptdl->dl_size); - } - - return r; -} /* send_ptdl_to_unifi() */ - - -/* - * --------------------------------------------------------------------------- - * do_patch_download - * - * This function downloads a set of patches to UniFi and then - * causes it to restart. - * - * Arguments: - * card Pointer to card struct. - * dlpriv A context pointer from the calling function to be - * used when reading the XBV file. This can be NULL - * in which case not patches are applied. - * pfwinfo Pointer to a fwinfo struct describing the f/w - * XBV file. - * boot_ctrl_addr The address of the boot loader control structure. - * - * Returns: - * 0 on success, or an error code - * CSR_WIFI_HIP_RESULT_INVALID_VALUE for a bad laoader version number - * --------------------------------------------------------------------------- - */ -static CsrResult do_patch_download(card_t *card, void *dlpriv, xbv1_t *pfwinfo, u32 boot_ctrl_addr) -{ - CsrResult r; - s32 i; - u16 loader_version; - u16 handle; - u32 total_bytes; - - /* - * Read info from the SDIO Loader Control Data Structure - */ - /* Check the loader version */ - r = unifi_card_read16(card, boot_ctrl_addr, &loader_version); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Patch download: Failed to read loader version\n"); - return r; - } - unifi_trace(card->ospriv, UDBG2, "Patch download: boot loader version 0x%04X\n", loader_version); - switch (loader_version) - { - case 0x0000: - break; - - default: - unifi_error(card->ospriv, "Patch loader version (0x%04X) is not supported by this driver\n", - loader_version); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* Retrieve the handle to use with CMD53 */ - r = unifi_card_read16(card, boot_ctrl_addr + 4, &handle); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Patch download: Failed to read loader handle\n"); - return r; - } - - /* Set the mask of LEDs to flash */ - if (card->loader_led_mask) - { - r = unifi_card_write16(card, boot_ctrl_addr + 2, - (u16)card->loader_led_mask); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Patch download: Failed to write LED mask\n"); - return r; - } - } - - total_bytes = 0; - - /* Copy download data to UniFi memory */ - for (i = 0; i < pfwinfo->num_ptdl; i++) - { - unifi_trace(card->ospriv, UDBG3, "Patch download: %d Downloading for %d from offset %d\n", - i, - pfwinfo->ptdl[i].dl_size, - pfwinfo->ptdl[i].dl_offset); - - r = send_ptdl_to_unifi(card, dlpriv, &pfwinfo->ptdl[i], - handle, boot_ctrl_addr + 6); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - return r; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Patch failed after %u bytes\n", - total_bytes); - return r; - } - total_bytes += pfwinfo->ptdl[i].dl_size; - } - - return CSR_RESULT_SUCCESS; -} /* do_patch_download() */ - - diff --git a/drivers/staging/csr/csr_wifi_hip_dump.c b/drivers/staging/csr/csr_wifi_hip_dump.c deleted file mode 100644 index 7b7eec4..0000000 --- a/drivers/staging/csr/csr_wifi_hip_dump.c +++ /dev/null @@ -1,837 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_dump.c - * - * PURPOSE: - * Routines for retrieving and buffering core status from the UniFi - * - * --------------------------------------------------------------------------- - */ -#include <linux/slab.h> -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_unifiversion.h" -#include "csr_wifi_hip_card.h" - -/* Locations to capture in dump (XAP words) */ -#define HIP_CDUMP_FIRST_CPUREG (0xFFE0) /* First CPU register */ -#define HIP_CDUMP_FIRST_LO (0) /* Start of low address range */ -#define HIP_CDUMP_FIRST_HI_MAC (0x3C00) /* Start of MAC high area */ -#define HIP_CDUMP_FIRST_HI_PHY (0x1C00) /* Start of PHY high area */ -#define HIP_CDUMP_FIRST_SH (0) /* Start of shared memory area */ - -#define HIP_CDUMP_NCPUREGS (10) /* No. of 16-bit XAP registers */ -#define HIP_CDUMP_NWORDS_LO (0x0100) /* Low area size in 16-bit words */ -#define HIP_CDUMP_NWORDS_HI (0x0400) /* High area size in 16-bit words */ -#define HIP_CDUMP_NWORDS_SH (0x0500) /* Shared memory area size, 16-bit words */ - -#define HIP_CDUMP_NUM_ZONES 7 /* Number of UniFi memory areas to capture */ - -/* Mini-coredump state */ -typedef struct coredump_buf -{ - u16 count; /* serial number of dump */ - u32 timestamp; /* host's system time at capture */ - s16 requestor; /* request: 0=auto dump, 1=manual */ - u16 chip_ver; - u32 fw_ver; - u16 *zone[HIP_CDUMP_NUM_ZONES]; - - struct coredump_buf *next; /* circular list */ - struct coredump_buf *prev; /* circular list */ -} coredump_buffer; - -/* Structure used to describe a zone of chip memory captured by mini-coredump */ -struct coredump_zone -{ - unifi_coredump_space_t space; /* XAP memory space this zone covers */ - enum unifi_dbg_processors_select cpu; /* XAP CPU core selector */ - u32 gp; /* Generic Pointer to memory zone on XAP */ - u16 offset; /* 16-bit XAP word offset of zone in memory space */ - u16 length; /* Length of zone in XAP words */ -}; - -static CsrResult unifi_coredump_from_sdio(card_t *card, coredump_buffer *dump_buf); -static CsrResult unifi_coredump_read_zones(card_t *card, coredump_buffer *dump_buf); -static CsrResult unifi_coredump_read_zone(card_t *card, u16 *zone, - const struct coredump_zone *def); -static s32 get_value_from_coredump(const coredump_buffer *dump, - const unifi_coredump_space_t space, const u16 offset); - -/* Table of chip memory zones we capture on mini-coredump */ -static const struct coredump_zone zonedef_table[HIP_CDUMP_NUM_ZONES] = { - { UNIFI_COREDUMP_MAC_REG, UNIFI_PROC_MAC, UNIFI_MAKE_GP(REGISTERS, HIP_CDUMP_FIRST_CPUREG * 2), HIP_CDUMP_FIRST_CPUREG, HIP_CDUMP_NCPUREGS }, - { UNIFI_COREDUMP_PHY_REG, UNIFI_PROC_PHY, UNIFI_MAKE_GP(REGISTERS, HIP_CDUMP_FIRST_CPUREG * 2), HIP_CDUMP_FIRST_CPUREG, HIP_CDUMP_NCPUREGS }, - { UNIFI_COREDUMP_SH_DMEM, UNIFI_PROC_INVALID, UNIFI_MAKE_GP(SH_DMEM, HIP_CDUMP_FIRST_SH * 2), HIP_CDUMP_FIRST_SH, HIP_CDUMP_NWORDS_SH }, - { UNIFI_COREDUMP_MAC_DMEM, UNIFI_PROC_MAC, UNIFI_MAKE_GP(MAC_DMEM, HIP_CDUMP_FIRST_LO * 2), HIP_CDUMP_FIRST_LO, HIP_CDUMP_NWORDS_LO }, - { UNIFI_COREDUMP_MAC_DMEM, UNIFI_PROC_MAC, UNIFI_MAKE_GP(MAC_DMEM, HIP_CDUMP_FIRST_HI_MAC * 2), HIP_CDUMP_FIRST_HI_MAC, HIP_CDUMP_NWORDS_HI }, - { UNIFI_COREDUMP_PHY_DMEM, UNIFI_PROC_PHY, UNIFI_MAKE_GP(PHY_DMEM, HIP_CDUMP_FIRST_LO * 2), HIP_CDUMP_FIRST_LO, HIP_CDUMP_NWORDS_LO }, - { UNIFI_COREDUMP_PHY_DMEM, UNIFI_PROC_PHY, UNIFI_MAKE_GP(PHY_DMEM, HIP_CDUMP_FIRST_HI_PHY * 2), HIP_CDUMP_FIRST_HI_PHY, HIP_CDUMP_NWORDS_HI }, -}; - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_request_at_next_reset - * - * Request that a mini-coredump is performed when the driver has - * completed resetting the UniFi device. - * - * Arguments: - * card Pointer to card struct - * enable If non-zero, sets the request. - * If zero, cancels any pending request. - * - * Returns: - * CSR_RESULT_SUCCESS or CSR HIP error code - * - * Notes: - * This function is typically called once the driver has detected that - * the UniFi device has become unresponsive due to crash, or internal - * watchdog reset. The driver must reset it to regain communication and, - * immediately after that, the mini-coredump can be captured. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_coredump_request_at_next_reset(card_t *card, s8 enable) -{ - CsrResult r; - - if (enable) - { - unifi_trace(card->ospriv, UDBG2, "Mini-coredump requested after reset\n"); - } - - if (card == NULL) - { - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - else - { - card->request_coredump_on_reset = enable?1 : 0; - r = CSR_RESULT_SUCCESS; - } - - return r; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_handle_request - * - * Performs a coredump now, if one was requested, and clears the request. - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * CSR_RESULT_SUCCESS or CSR HIP error code - * - * Notes: - * --------------------------------------------------------------------------- - */ -CsrResult unifi_coredump_handle_request(card_t *card) -{ - CsrResult r = CSR_RESULT_SUCCESS; - - if (card == NULL) - { - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - else - { - if (card->request_coredump_on_reset == 1) - { - card->request_coredump_on_reset = 0; - r = unifi_coredump_capture(card, NULL); - } - } - - return r; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_capture - * - * Capture the current status of the UniFi device. - * Various registers are buffered for future offline inspection. - * - * Arguments: - * card Pointer to card struct - * req Pointer to request struct, or NULL: - * A coredump requested manually by the user app - * will have a request struct pointer, an automatic - * coredump will have a NULL pointer. - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_RESULT_FAILURE SDIO error - * CSR_WIFI_HIP_RESULT_INVALID_VALUE Initialisation not complete - * - * Notes: - * The result is a filled entry in the circular buffer of core dumps, - * values from which can be extracted to userland via an ioctl. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_coredump_capture(card_t *card, struct unifi_coredump_req *req) -{ - CsrResult r = CSR_RESULT_SUCCESS; - static u16 dump_seq_no = 1; - u32 time_of_capture; - - if (card->dump_next_write == NULL) - { - r = CSR_RESULT_SUCCESS; - goto done; - } - - /* Reject forced capture before initialisation has happened */ - if (card->helper == NULL) - { - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - goto done; - } - - - /* - * Force a mini-coredump capture right now - */ - time_of_capture = CsrTimeGet(NULL); - unifi_info(card->ospriv, "Mini-coredump capture at t=%u\n", time_of_capture); - - /* Wake up the processors so we can talk to them */ - r = unifi_set_host_state(card, UNIFI_HOST_STATE_AWAKE); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to wake UniFi\n"); - goto done; - } - CsrThreadSleep(20); - - /* Stop both XAPs */ - unifi_trace(card->ospriv, UDBG4, "Stopping XAPs for coredump capture\n"); - r = unifi_card_stop_processor(card, UNIFI_PROC_BOTH); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to stop UniFi XAPs\n"); - goto done; - } - - /* Dump core into the next available slot in the circular list */ - r = unifi_coredump_from_sdio(card, card->dump_next_write); - if (r == CSR_RESULT_SUCCESS) - { - /* Record whether the dump was manual or automatic */ - card->dump_next_write->requestor = (req?1 : 0); - card->dump_next_write->timestamp = time_of_capture; - /* Advance to the next buffer */ - card->dump_next_write->count = dump_seq_no++; - card->dump_cur_read = card->dump_next_write; - card->dump_next_write = card->dump_next_write->next; - - /* Sequence no. of zero indicates slot not in use, so handle wrap */ - if (dump_seq_no == 0) - { - dump_seq_no = 1; - } - - unifi_trace(card->ospriv, UDBG3, - "Coredump (%p), SeqNo=%d, cur_read=%p, next_write=%p\n", - req, - card->dump_cur_read->count, - card->dump_cur_read, card->dump_next_write); - } - - /* Start both XAPs */ - unifi_trace(card->ospriv, UDBG4, "Restart XAPs after coredump\n"); - r = card_start_processor(card, UNIFI_PROC_BOTH); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Failed to start UniFi XAPs\n"); - goto done; - } - -done: - return r; -} /* unifi_coredump_capture() */ - - -/* - * --------------------------------------------------------------------------- - * get_value_from_coredump - * - * - * - * Arguments: - * dump Pointer to buffered coredump data - * offset_in_space XAP memory space to retrieve from the buffer (there - * may be more than one zone covering the same memory - * space, but starting from different offsets). - * offset Offset within the XAP memory space to be retrieved - * - * Returns: - * >=0 Register value on success - * <0 Register out of range of any captured zones - * - * Notes: - * --------------------------------------------------------------------------- - */ -static s32 get_value_from_coredump(const coredump_buffer *coreDump, - const unifi_coredump_space_t space, - const u16 offset_in_space) -{ - s32 r = -1; - u16 offset_in_zone; - u32 zone_end_offset; - s32 i; - const struct coredump_zone *def = &zonedef_table[0]; - - /* Search zone def table for a match with the requested memory space */ - for (i = 0; i < HIP_CDUMP_NUM_ZONES; i++, def++) - { - if (space == def->space) - { - zone_end_offset = def->offset + def->length; - - /* Is the space offset contained in this zone? */ - if (offset_in_space < zone_end_offset && - offset_in_space >= def->offset) - { - /* Calculate the offset of data within the zone buffer */ - offset_in_zone = offset_in_space - def->offset; - r = (s32) * (coreDump->zone[i] + offset_in_zone); - - unifi_trace(NULL, UDBG6, - "sp %d, offs 0x%04x = 0x%04x (in z%d 0x%04x->0x%04x)\n", - space, offset_in_space, r, - i, def->offset, zone_end_offset - 1); - break; - } - } - } - return r; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_get_value - * - * Retrieve the value of a register buffered from a previous core dump, - * so that it may be reported back to application code. - * - * Arguments: - * card Pointer to card struct - * req_reg Pointer to request parameter partially filled. This - * function puts in the values retrieved from the dump. - * - * Returns: - * CSR_RESULT_SUCCESS on success, or: - * CSR_WIFI_HIP_RESULT_INVALID_VALUE Null parameter error - * CSR_WIFI_HIP_RESULT_RANGE Register out of range - * CSR_WIFI_HIP_RESULT_NOT_FOUND Dump index not (yet) captured - * - * Notes: - * --------------------------------------------------------------------------- - */ -CsrResult unifi_coredump_get_value(card_t *card, struct unifi_coredump_req *req) -{ - CsrResult r; - s32 i = 0; - coredump_buffer *find_dump = NULL; - - if (req == NULL || card == NULL) - { - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - goto done; - } - req->value = -1; - if (card->dump_buf == NULL) - { - unifi_trace(card->ospriv, UDBG2, "No coredump buffers\n"); - r = CSR_WIFI_HIP_RESULT_NOT_FOUND; /* Coredumping disabled */ - goto done; - } - if (card->dump_cur_read == NULL) - { - unifi_trace(card->ospriv, UDBG4, "No coredumps captured\n"); - r = CSR_WIFI_HIP_RESULT_NOT_FOUND; /* No coredump yet captured */ - goto done; - } - - /* Find the requested dump buffer */ - switch (req->index) - { - case 0: /* Newest */ - find_dump = card->dump_cur_read; - break; - case -1: /* Oldest: The next used slot forward */ - for (find_dump = card->dump_cur_read->next; - (find_dump->count == 0) && (find_dump != card->dump_cur_read); - find_dump = card->dump_cur_read->next) - { - } - break; - default: /* Number of steps back from current read position */ - for (i = 0, find_dump = card->dump_cur_read; - i < req->index; - i++, find_dump = find_dump->prev) - { - /* Walk the list for the index'th entry, but - * stop when about to wrap. */ - unifi_trace(card->ospriv, UDBG6, - "%d: %d, @%p, p=%p, n=%p, cr=%p, h=%p\n", - i, find_dump->count, find_dump, find_dump->prev, - find_dump->next, card->dump_cur_read, card->dump_buf); - if (find_dump->prev == card->dump_cur_read) - { - /* Wrapped but still not found, index out of range */ - if (i != req->index) - { - unifi_trace(card->ospriv, UDBG6, - "Dump index %d not found %d\n", req->index, i); - r = CSR_WIFI_HIP_RESULT_NOT_FOUND; - goto done; - } - break; - } - } - break; - } - - /* Check if the slot is actually filled with a core dump */ - if (find_dump->count == 0) - { - unifi_trace(card->ospriv, UDBG4, "Not captured %d\n", req->index); - r = CSR_WIFI_HIP_RESULT_NOT_FOUND; - goto done; - } - - unifi_trace(card->ospriv, UDBG6, "Req index %d, found seq %d at step %d\n", - req->index, find_dump->count, i); - - /* Find the appropriate entry in the buffer */ - req->value = get_value_from_coredump(find_dump, req->space, (u16)req->offset); - if (req->value < 0) - { - r = CSR_WIFI_HIP_RESULT_RANGE; /* Un-captured register */ - unifi_trace(card->ospriv, UDBG4, - "Can't read space %d, reg 0x%x from coredump buffer %d\n", - req->space, req->offset, req->index); - } - else - { - r = CSR_RESULT_SUCCESS; - } - - /* Update the private request structure with the found values */ - req->chip_ver = find_dump->chip_ver; - req->fw_ver = find_dump->fw_ver; - req->timestamp = find_dump->timestamp; - req->requestor = find_dump->requestor; - req->serial = find_dump->count; - -done: - return r; -} /* unifi_coredump_get_value() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_read_zone - * - * Captures a UniFi memory zone into a buffer on the host - * - * Arguments: - * card Pointer to card struct - * zonebuf Pointer to on-host buffer to dump the memory zone into - * def Pointer to description of the memory zone to read from UniFi. - * - * Returns: - * CSR_RESULT_SUCCESS on success, or: - * CSR_RESULT_FAILURE SDIO error - * CSR_WIFI_HIP_RESULT_INVALID_VALUE Parameter error - * - * Notes: - * It is assumed that the caller has already stopped the XAPs - * --------------------------------------------------------------------------- - */ -static CsrResult unifi_coredump_read_zone(card_t *card, u16 *zonebuf, const struct coredump_zone *def) -{ - CsrResult r; - - if (zonebuf == NULL || def == NULL) - { - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - goto done; - } - - /* Select XAP CPU if necessary */ - if (def->cpu != UNIFI_PROC_INVALID) - { - if (def->cpu != UNIFI_PROC_MAC && def->cpu != UNIFI_PROC_PHY) - { - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - goto done; - } - r = unifi_set_proc_select(card, def->cpu); - if (r != CSR_RESULT_SUCCESS) - { - goto done; - } - } - - unifi_trace(card->ospriv, UDBG4, - "Dump sp %d, offs 0x%04x, 0x%04x words @GP=%08x CPU %d\n", - def->space, def->offset, def->length, def->gp, def->cpu); - - /* Read on-chip RAM (byte-wise) */ - r = unifi_card_readn(card, def->gp, zonebuf, (u16)(def->length * 2)); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - goto done; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Can't read UniFi shared data area\n"); - goto done; - } - -done: - return r; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_read_zones - * - * Walks through the table of on-chip memory zones defined in zonedef_table, - * and reads each of them from the UniFi chip - * - * Arguments: - * card Pointer to card struct - * dump_buf Buffer into which register values will be dumped - * - * Returns: - * CSR_RESULT_SUCCESS on success, or: - * CSR_RESULT_FAILURE SDIO error - * CSR_WIFI_HIP_RESULT_INVALID_VALUE Parameter error - * - * Notes: - * It is assumed that the caller has already stopped the XAPs - * --------------------------------------------------------------------------- - */ -static CsrResult unifi_coredump_read_zones(card_t *card, coredump_buffer *dump_buf) -{ - CsrResult r = CSR_RESULT_SUCCESS; - s32 i; - - /* Walk the table of coredump zone definitions and read them from the chip */ - for (i = 0; - (i < HIP_CDUMP_NUM_ZONES) && (r == 0); - i++) - { - r = unifi_coredump_read_zone(card, dump_buf->zone[i], &zonedef_table[i]); - } - - return r; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_from_sdio - * - * Capture the status of the UniFi processors, over SDIO - * - * Arguments: - * card Pointer to card struct - * reg_buffer Buffer into which register values will be dumped - * - * Returns: - * CSR_RESULT_SUCCESS on success, or: - * CSR_RESULT_FAILURE SDIO error - * CSR_WIFI_HIP_RESULT_INVALID_VALUE Parameter error - * - * Notes: - * --------------------------------------------------------------------------- - */ -static CsrResult unifi_coredump_from_sdio(card_t *card, coredump_buffer *dump_buf) -{ - u16 val; - CsrResult r; - u32 sdio_addr; - - if (dump_buf == NULL) - { - r = CSR_WIFI_HIP_RESULT_INVALID_VALUE; - goto done; - } - - - /* Chip and firmware version */ - unifi_trace(card->ospriv, UDBG4, "Get chip version\n"); - sdio_addr = 2 * ChipHelper_GBL_CHIP_VERSION(card->helper); - if (sdio_addr != 0) - { - r = unifi_read_direct16(card, sdio_addr, &val); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - goto done; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Can't read GBL_CHIP_VERSION\n"); - goto done; - } - } - dump_buf->chip_ver = val; - dump_buf->fw_ver = card->build_id; - - unifi_trace(card->ospriv, UDBG4, "chip_ver 0x%04x, fw_ver %u\n", - dump_buf->chip_ver, dump_buf->fw_ver); - - /* Capture the memory zones required from UniFi */ - r = unifi_coredump_read_zones(card, dump_buf); - if (r == CSR_WIFI_HIP_RESULT_NO_DEVICE) - { - goto done; - } - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "Can't read UniFi memory areas\n"); - goto done; - } - -done: - return r; -} /* unifi_coredump_from_sdio() */ - - -#ifndef UNIFI_DISABLE_COREDUMP -/* - * --------------------------------------------------------------------------- - * new_coredump_node - * - * Allocates a coredump linked-list node, and links it to the previous. - * - * Arguments: - * ospriv OS context - * prevnode Previous node to link into - * - * Returns: - * Pointer to valid coredump_buffer on success - * NULL on memory allocation failure - * - * Notes: - * Allocates "all or nothing" - * --------------------------------------------------------------------------- - */ -static -coredump_buffer* new_coredump_node(void *ospriv, coredump_buffer *prevnode) -{ - coredump_buffer *newnode = NULL; - u16 *newzone = NULL; - s32 i; - u32 zone_size; - - /* Allocate node header */ - newnode = kzalloc(sizeof(coredump_buffer), GFP_KERNEL); - if (newnode == NULL) - { - return NULL; - } - - /* Allocate chip memory zone capture buffers */ - for (i = 0; i < HIP_CDUMP_NUM_ZONES; i++) - { - zone_size = sizeof(u16) * zonedef_table[i].length; - newzone = kzalloc(zone_size, GFP_KERNEL); - newnode->zone[i] = newzone; - if (newzone == NULL) - { - unifi_error(ospriv, "Out of memory on coredump zone %d (%d words)\n", - i, zonedef_table[i].length); - break; - } - } - - /* Clean up if any zone alloc failed */ - if (newzone == NULL) - { - for (i = 0; newnode->zone[i] != NULL; i++) - { - kfree(newnode->zone[i]); - newnode->zone[i] = NULL; - } - } - - /* Link to previous node */ - newnode->prev = prevnode; - if (prevnode) - { - prevnode->next = newnode; - } - newnode->next = NULL; - - return newnode; -} - - -#endif /* UNIFI_DISABLE_COREDUMP */ - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_init - * - * Allocates buffers for the automatic SDIO core dump - * - * Arguments: - * card Pointer to card struct - * num_dump_buffers Number of buffers to reserve for coredumps - * - * Returns: - * CSR_RESULT_SUCCESS on success, or: - * CSR_WIFI_HIP_RESULT_NO_MEMORY memory allocation failed - * - * Notes: - * Allocates space in advance, to be used for the last n coredump buffers - * the intention being that the size is sufficient for at least one dump, - * probably several. - * It's probably advisable to have at least 2 coredump buffers to allow - * one to be enquired with the unifi_coredump tool, while leaving another - * free for capturing. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_coredump_init(card_t *card, u16 num_dump_buffers) -{ -#ifndef UNIFI_DISABLE_COREDUMP - void *ospriv = card->ospriv; - coredump_buffer *prev = NULL; - coredump_buffer *newnode = NULL; - u32 i = 0; -#endif - - card->request_coredump_on_reset = 0; - card->dump_next_write = NULL; - card->dump_cur_read = NULL; - card->dump_buf = NULL; - -#ifndef UNIFI_DISABLE_COREDUMP - unifi_trace(ospriv, UDBG1, - "Allocate buffers for %d core dumps\n", num_dump_buffers); - if (num_dump_buffers == 0) - { - goto done; - } - - /* Root node */ - card->dump_buf = new_coredump_node(ospriv, NULL); - if (card->dump_buf == NULL) - { - goto fail; - } - prev = card->dump_buf; - newnode = card->dump_buf; - - /* Add each subsequent node at tail */ - for (i = 1; i < num_dump_buffers; i++) - { - newnode = new_coredump_node(ospriv, prev); - if (newnode == NULL) - { - goto fail; - } - prev = newnode; - } - - /* Link the first and last nodes to make the list circular */ - card->dump_buf->prev = newnode; - newnode->next = card->dump_buf; - - /* Set initial r/w access pointers */ - card->dump_next_write = card->dump_buf; - card->dump_cur_read = NULL; - - unifi_trace(ospriv, UDBG2, "Core dump configured (%d dumps max)\n", i); - -done: -#endif - return CSR_RESULT_SUCCESS; - -#ifndef UNIFI_DISABLE_COREDUMP -fail: - /* Unwind what we allocated so far */ - unifi_error(ospriv, "Out of memory allocating core dump node %d\n", i); - unifi_coredump_free(card); - return CSR_WIFI_HIP_RESULT_NO_MEMORY; -#endif -} /* unifi_coreump_init() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_coredump_free - * - * Free all memory dynamically allocated for core dump - * - * Arguments: - * card Pointer to card struct - * - * Returns: - * None - * - * Notes: - * --------------------------------------------------------------------------- - */ -void unifi_coredump_free(card_t *card) -{ - void *ospriv = card->ospriv; - coredump_buffer *node, *del_node; - s16 i = 0; - s16 j; - - unifi_trace(ospriv, UDBG2, "Core dump de-configured\n"); - - if (card->dump_buf == NULL) - { - return; - } - - node = card->dump_buf; - do - { - /* Free payload zones */ - for (j = 0; j < HIP_CDUMP_NUM_ZONES; j++) - { - kfree(node->zone[j]); - node->zone[j] = NULL; - } - - /* Detach */ - del_node = node; - node = node->next; - - /* Free header */ - kfree(del_node); - i++; - } while ((node != NULL) && (node != card->dump_buf)); - - unifi_trace(ospriv, UDBG3, "Freed %d coredump buffers\n", i); - - card->dump_buf = NULL; - card->dump_next_write = NULL; - card->dump_cur_read = NULL; -} /* unifi_coredump_free() */ - - diff --git a/drivers/staging/csr/csr_wifi_hip_packing.c b/drivers/staging/csr/csr_wifi_hip_packing.c deleted file mode 100644 index 0768aef..0000000 --- a/drivers/staging/csr/csr_wifi_hip_packing.c +++ /dev/null @@ -1,4804 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#include "csr_wifi_hip_signals.h" -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" - - -/* - * --------------------------------------------------------------------------- - * get_packed_struct_size - * - * Examine a buffer containing a UniFi signal in wire-format. - * The first two bytes contain the signal ID, decode the signal ID and - * return the size, in bytes, of the signal, not including any bulk - * data. - * - * WARNING: This function is auto-generated, DO NOT EDIT! - * - * Arguments: - * buf Pointer to buffer to decode. - * - * Returns: - * 0 if the signal ID is not recognised (i.e. zero length), - * otherwise the number of bytes occupied by the signal in the buffer. - * This is useful for stepping past the signal to the object in the buffer. - * --------------------------------------------------------------------------- - */ -s32 get_packed_struct_size(const u8 *buf) -{ - s32 size = 0; - u16 sig_id; - - sig_id = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(buf); - - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - switch (sig_id) - { -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_WORD16_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; - case CSR_DEBUG_GENERIC_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; - case CSR_MA_PACKET_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT64; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; - case CSR_MLME_SET_TIM_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECTED_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_TRIGGERED_GET_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - break; -#endif - case CSR_DEBUG_GENERIC_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CANCEL_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - case CSR_MLME_SET_TIM_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_GENERIC_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; - case CSR_MA_PACKET_CANCEL_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - case CSR_MA_VIF_AVAILABILITY_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLACKOUT_ENDED_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - break; -#endif - case CSR_MA_VIF_AVAILABILITY_RESPONSE_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - size += SIZEOF_UINT32; - size += SIZEOF_UINT32; - size += 48 / 8; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 32 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_ERROR_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - size += SIZEOF_UINT32; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_STRING_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLOCKACK_ERROR_INDICATION_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += 48 / 8; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT32; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_CONFIRM_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_REQUEST_ID: - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - size += SIZEOF_UINT16; - break; -#endif - default: - size = 0; - } - return size; -} /* get_packed_struct_size() */ - - -/* - * --------------------------------------------------------------------------- - * read_unpack_signal - * - * Unpack a wire-format signal into a host-native structure. - * This function handles any necessary conversions for endianness and - * places no restrictions on packing or alignment for the structure - * definition. - * - * WARNING: This function is auto-generated, DO NOT EDIT! - * - * Arguments: - * ptr Signal buffer to unpack. - * sig Pointer to destination structure to populate. - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_INVALID_VALUE if the ID of signal was not recognised. - * --------------------------------------------------------------------------- - */ -CsrResult read_unpack_signal(const u8 *ptr, CSR_SIGNAL *sig) -{ - s32 index = 0; - - sig->SignalPrimitiveHeader.SignalId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - - sig->SignalPrimitiveHeader.ReceiverProcessId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - - sig->SignalPrimitiveHeader.SenderProcessId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - - switch (sig->SignalPrimitiveHeader.SignalId) - { -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_CONFIRM_ID: - sig->u.MlmeSetPacketFilterConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_CONFIRM_ID: - sig->u.MlmeSetkeysConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_CONFIRM_ID: - sig->u.MlmeConfigQueueConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM_ID: - sig->u.MlmeAddAutonomousScanConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanConfirm.AutonomousScanId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_CONFIRM_ID: - sig->u.MlmeAddBlackoutConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutConfirm.BlackoutId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_REQUEST_ID: - sig->u.MlmeDelBlackoutRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutRequest.BlackoutId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_CONFIRM_ID: - sig->u.MlmeGetKeySequenceConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[0] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[1] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[2] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[3] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[4] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[5] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[6] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[7] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_CONFIRM_ID: - sig->u.MlmeSmStartConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_CONFIRM_ID: - sig->u.MlmeStopAggregationConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeStopAggregationConfirm.PeerQstaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeStopAggregationConfirm.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationConfirm.Direction = (CSR_DIRECTION) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_REQUEST_ID: - sig->u.MlmeDelTspecRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecRequest.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecRequest.Direction = (CSR_DIRECTION) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_WORD16_INDICATION_ID: - sig->u.DebugWord16Indication.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[0] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[1] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[2] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[3] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[4] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[5] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[6] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[7] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[8] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[9] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[10] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[11] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[12] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[13] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[14] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugWord16Indication.DebugWords[15] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; - case CSR_DEBUG_GENERIC_CONFIRM_ID: - sig->u.DebugGenericConfirm.DebugVariable.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugVariable.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugWords[0] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugWords[1] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugWords[2] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugWords[3] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugWords[4] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugWords[5] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugWords[6] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericConfirm.DebugWords[7] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; - case CSR_MA_PACKET_INDICATION_ID: - sig->u.MaPacketIndication.Data.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.Data.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MaPacketIndication.LocalTime.x, &ptr[index], 64 / 8); - index += 64 / 8; - sig->u.MaPacketIndication.Ifindex = (CSR_IFINTERFACE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.Channel = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.ReceptionStatus = (CSR_RECEPTION_STATUS) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.Rssi = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.Snr = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketIndication.ReceivedRate = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; - case CSR_MLME_SET_TIM_REQUEST_ID: - sig->u.MlmeSetTimRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimRequest.AssociationId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimRequest.TimValue = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECTED_INDICATION_ID: - sig->u.MlmeConnectedIndication.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectedIndication.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectedIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectedIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectedIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectedIndication.ConnectionStatus = (CSR_CONNECTION_STATUS) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeConnectedIndication.PeerMacAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_REQUEST_ID: - sig->u.MlmeDelRxTriggerRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerRequest.TriggerId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_TRIGGERED_GET_INDICATION_ID: - sig->u.MlmeTriggeredGetIndication.MibAttributeValue.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeTriggeredGetIndication.MibAttributeValue.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeTriggeredGetIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeTriggeredGetIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeTriggeredGetIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeTriggeredGetIndication.Status = (CSR_MIB_STATUS) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeTriggeredGetIndication.ErrorIndex = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeTriggeredGetIndication.TriggeredId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_REQUEST_ID: - sig->u.MlmeScanRequest.ChannelList.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanRequest.ChannelList.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanRequest.InformationElements.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanRequest.InformationElements.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanRequest.Ifindex = (CSR_IFINTERFACE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanRequest.ScanType = (CSR_SCAN_TYPE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanRequest.ProbeDelay = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - sig->u.MlmeScanRequest.MinChannelTime = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanRequest.MaxChannelTime = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_CONFIRM_ID: - sig->u.MlmeDeletekeysConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_REQUEST_ID: - sig->u.MlmeGetNextRequest.MibAttribute.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetNextRequest.MibAttribute.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetNextRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetNextRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_CONFIRM_ID: - sig->u.MlmeSetChannelConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_REQUEST_ID: - sig->u.MlmeStartAggregationRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeStartAggregationRequest.PeerQstaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeStartAggregationRequest.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationRequest.Direction = (CSR_DIRECTION) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationRequest.StartingSequenceNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationRequest.BufferSize = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationRequest.BlockAckTimeout = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_REQUEST_ID: - sig->u.MlmeHlSyncRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeHlSyncRequest.GroupAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - break; -#endif - case CSR_DEBUG_GENERIC_REQUEST_ID: - sig->u.DebugGenericRequest.DebugVariable.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugVariable.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugWords[0] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugWords[1] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugWords[2] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugWords[3] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugWords[4] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugWords[5] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugWords[6] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericRequest.DebugWords[7] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_CONFIRM_ID: - sig->u.MlmeLeaveConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_REQUEST_ID: - sig->u.MlmeDelTriggeredGetRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetRequest.TriggeredId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST_ID: - sig->u.MlmeAddMulticastAddressRequest.Data.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressRequest.Data.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressRequest.NumberOfMulticastGroupAddresses = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_REQUEST_ID: - sig->u.MlmeResetRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeResetRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeResetRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeResetRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeResetRequest.StaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeResetRequest.SetDefaultMib = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CANCEL_REQUEST_ID: - sig->u.MlmeScanCancelRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanCancelRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanCancelRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanCancelRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanCancelRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_CONFIRM_ID: - sig->u.MlmeAddTriggeredGetConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetConfirm.TriggeredId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_REQUEST_ID: - sig->u.MlmeSetPacketFilterRequest.InformationElements.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterRequest.InformationElements.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterRequest.PacketFilterMode = (CSR_PACKET_FILTER_MODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetPacketFilterRequest.ArpFilterAddress = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_CONFIRM_ID: - sig->u.MlmeDelRxTriggerConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerConfirm.TriggerId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelRxTriggerConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_REQUEST_ID: - sig->u.MlmeConnectStatusRequest.InformationElements.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusRequest.InformationElements.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusRequest.ConnectionStatus = (CSR_CONNECTION_STATUS) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeConnectStatusRequest.StaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeConnectStatusRequest.AssociationId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusRequest.AssociationCapabilityInformation = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_REQUEST_ID: - sig->u.MlmeLeaveRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeLeaveRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_REQUEST_ID: - sig->u.MlmeConfigQueueRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueRequest.QueueIndex = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueRequest.Aifs = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueRequest.Cwmin = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueRequest.Cwmax = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConfigQueueRequest.TxopLimit = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_CONFIRM_ID: - sig->u.MlmeDelTspecConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecConfirm.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTspecConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MLME_SET_TIM_CONFIRM_ID: - sig->u.MlmeSetTimConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetTimConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_INDICATION_ID: - sig->u.MlmeMeasureIndication.MeasurementReportSet.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureIndication.MeasurementReportSet.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureIndication.DialogToken = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_CONFIRM_ID: - sig->u.MlmeDelBlackoutConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutConfirm.BlackoutId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelBlackoutConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_CONFIRM_ID: - sig->u.MlmeDelTriggeredGetConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelTriggeredGetConfirm.TriggeredId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_GENERIC_INDICATION_ID: - sig->u.DebugGenericIndication.DebugVariable.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugVariable.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugWords[0] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugWords[1] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugWords[2] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugWords[3] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugWords[4] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugWords[5] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugWords[6] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugGenericIndication.DebugWords[7] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; - case CSR_MA_PACKET_CANCEL_REQUEST_ID: - sig->u.MaPacketCancelRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketCancelRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketCancelRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketCancelRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketCancelRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketCancelRequest.HostTag = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM_ID: - sig->u.MlmeModifyBssParameterConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM_ID: - sig->u.MlmePauseAutonomousScanConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanConfirm.AutonomousScanId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_REQUEST_ID: - sig->u.MaPacketRequest.Data.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketRequest.Data.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketRequest.TransmitRate = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketRequest.HostTag = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - sig->u.MaPacketRequest.Priority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MaPacketRequest.Ra.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MaPacketRequest.TransmissionControl = (CSR_TRANSMISSION_CONTROL) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST_ID: - sig->u.MlmeModifyBssParameterRequest.Data.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterRequest.Data.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterRequest.BeaconPeriod = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterRequest.DtimPeriod = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeModifyBssParameterRequest.CapabilityInformation = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeModifyBssParameterRequest.Bssid.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeModifyBssParameterRequest.RtsThreshold = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_REQUEST_ID: - sig->u.MlmeAddRxTriggerRequest.InformationElements.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerRequest.InformationElements.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerRequest.TriggerId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerRequest.Priority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MA_VIF_AVAILABILITY_INDICATION_ID: - sig->u.MaVifAvailabilityIndication.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityIndication.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityIndication.Multicast = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_REQUEST_ID: - sig->u.MlmeHlSyncCancelRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncCancelRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncCancelRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncCancelRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeHlSyncCancelRequest.GroupAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST_ID: - sig->u.MlmeDelAutonomousScanRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanRequest.AutonomousScanId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLACKOUT_ENDED_INDICATION_ID: - sig->u.MlmeBlackoutEndedIndication.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlackoutEndedIndication.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlackoutEndedIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlackoutEndedIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlackoutEndedIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlackoutEndedIndication.BlackoutId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION_ID: - sig->u.MlmeAutonomousScanDoneIndication.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanDoneIndication.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanDoneIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanDoneIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanDoneIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanDoneIndication.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanDoneIndication.AutonomousScanId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_REQUEST_ID: - sig->u.MlmeGetKeySequenceRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceRequest.KeyId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetKeySequenceRequest.KeyType = (CSR_KEY_TYPE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeGetKeySequenceRequest.Address.x, &ptr[index], 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_REQUEST_ID: - sig->u.MlmeSetChannelRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelRequest.Ifindex = (CSR_IFINTERFACE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelRequest.Channel = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeSetChannelRequest.Address.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeSetChannelRequest.AvailabilityDuration = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetChannelRequest.AvailabilityInterval = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_CONFIRM_ID: - sig->u.MlmeMeasureConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureConfirm.DialogToken = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_REQUEST_ID: - sig->u.MlmeAddTriggeredGetRequest.MibAttribute.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetRequest.MibAttribute.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTriggeredGetRequest.TriggeredId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION_ID: - sig->u.MlmeAutonomousScanLossIndication.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanLossIndication.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanLossIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanLossIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAutonomousScanLossIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeAutonomousScanLossIndication.Bssid.x, &ptr[index], 48 / 8); - index += 48 / 8; - break; -#endif - case CSR_MA_VIF_AVAILABILITY_RESPONSE_ID: - sig->u.MaVifAvailabilityResponse.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityResponse.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityResponse.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityResponse.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityResponse.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaVifAvailabilityResponse.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_REQUEST_ID: - sig->u.MlmeAddTemplateRequest.Data1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateRequest.Data1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateRequest.Data2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateRequest.Data2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateRequest.FrameType = (CSR_FRAME_TYPE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateRequest.MinTransmitRate = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_CONFIRM_ID: - sig->u.MlmePowermgtConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_CONFIRM_ID: - sig->u.MlmeAddPeriodicConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicConfirm.PeriodicId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_CONFIRM_ID: - sig->u.MlmeGetConfirm.MibAttributeValue.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetConfirm.MibAttributeValue.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetConfirm.Status = (CSR_MIB_STATUS) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetConfirm.ErrorIndex = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_CONFIRM_ID: - sig->u.MlmeGetNextConfirm.MibAttributeValue.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetNextConfirm.MibAttributeValue.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetNextConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetNextConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetNextConfirm.Status = (CSR_MIB_STATUS) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetNextConfirm.ErrorIndex = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_REQUEST_ID: - sig->u.MlmeStopAggregationRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeStopAggregationRequest.PeerQstaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeStopAggregationRequest.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopAggregationRequest.Direction = (CSR_DIRECTION) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_CONFIRM_ID: - sig->u.MlmeAddRxTriggerConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerConfirm.TriggerId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddRxTriggerConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_REQUEST_ID: - sig->u.MlmeAddBlackoutRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutRequest.BlackoutId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutRequest.BlackoutType = (CSR_BLACKOUT_TYPE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutRequest.BlackoutSource = (CSR_BLACKOUT_SOURCE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddBlackoutRequest.BlackoutStartReference = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - sig->u.MlmeAddBlackoutRequest.BlackoutPeriod = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - sig->u.MlmeAddBlackoutRequest.BlackoutDuration = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - memcpy(sig->u.MlmeAddBlackoutRequest.PeerStaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeAddBlackoutRequest.BlackoutCount = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_REQUEST_ID: - sig->u.MlmeDeletekeysRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysRequest.KeyId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDeletekeysRequest.KeyType = (CSR_KEY_TYPE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeDeletekeysRequest.Address.x, &ptr[index], 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_CONFIRM_ID: - sig->u.MlmeResetConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeResetConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeResetConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeResetConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeResetConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CONFIRM_ID: - sig->u.MlmeHlSyncConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeHlSyncConfirm.GroupAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeHlSyncConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST_ID: - sig->u.MlmeAddAutonomousScanRequest.ChannelList.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.ChannelList.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.InformationElements.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.InformationElements.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.AutonomousScanId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.Ifindex = (CSR_IFINTERFACE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.ChannelStartingFactor = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.ScanType = (CSR_SCAN_TYPE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.ProbeDelay = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - sig->u.MlmeAddAutonomousScanRequest.MinChannelTime = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddAutonomousScanRequest.MaxChannelTime = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_REQUEST_ID: - sig->u.MlmeSetRequest.MibAttributeValue.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetRequest.MibAttributeValue.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_REQUEST_ID: - sig->u.MlmeSmStartRequest.Beacon.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartRequest.Beacon.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartRequest.BssParameters.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartRequest.BssParameters.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartRequest.Ifindex = (CSR_IFINTERFACE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartRequest.Channel = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeSmStartRequest.InterfaceAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - memcpy(sig->u.MlmeSmStartRequest.Bssid.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeSmStartRequest.BeaconPeriod = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartRequest.DtimPeriod = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSmStartRequest.CapabilityInformation = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_CONFIRM_ID: - sig->u.MlmeConnectStatusConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeConnectStatusConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM_ID: - sig->u.MlmeDelAutonomousScanConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelAutonomousScanConfirm.AutonomousScanId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_REQUEST_ID: - sig->u.MlmeDelPeriodicRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicRequest.PeriodicId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_REQUEST_ID: - sig->u.MlmeSetkeysRequest.Key.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.Key.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.Length = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.KeyId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.KeyType = (CSR_KEY_TYPE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeSetkeysRequest.Address.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeSetkeysRequest.SequenceNumber[0] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.SequenceNumber[1] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.SequenceNumber[2] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.SequenceNumber[3] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.SequenceNumber[4] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.SequenceNumber[5] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.SequenceNumber[6] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetkeysRequest.SequenceNumber[7] = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(&sig->u.MlmeSetkeysRequest.CipherSuiteSelector, &ptr[index], 32 / 8); - index += 32 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST_ID: - sig->u.MlmePauseAutonomousScanRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanRequest.AutonomousScanId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePauseAutonomousScanRequest.Pause = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_REQUEST_ID: - sig->u.MlmeGetRequest.MibAttribute.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetRequest.MibAttribute.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeGetRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_REQUEST_ID: - sig->u.MlmePowermgtRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtRequest.PowerManagementMode = (CSR_POWER_MANAGEMENT_MODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtRequest.ReceiveDtims = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtRequest.ListenInterval = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmePowermgtRequest.TrafficWindow = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_ERROR_INDICATION_ID: - sig->u.MaPacketErrorIndication.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketErrorIndication.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketErrorIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketErrorIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketErrorIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MaPacketErrorIndication.PeerQstaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MaPacketErrorIndication.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketErrorIndication.SequenceNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_REQUEST_ID: - sig->u.MlmeAddPeriodicRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicRequest.PeriodicId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicRequest.MaximumLatency = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - sig->u.MlmeAddPeriodicRequest.PeriodicSchedulingMode = (CSR_PERIODIC_SCHEDULING_MODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicRequest.WakeHost = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddPeriodicRequest.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_REQUEST_ID: - sig->u.MlmeAddTspecRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.Direction = (CSR_DIRECTION) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.PsScheme = (CSR_PS_SCHEME) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.MediumTime = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecRequest.ServiceStartTime = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - sig->u.MlmeAddTspecRequest.ServiceInterval = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - sig->u.MlmeAddTspecRequest.MinimumDataRate = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM_ID: - sig->u.MlmeAddMulticastAddressConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddMulticastAddressConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_CONFIRM_ID: - sig->u.MlmeAddTspecConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecConfirm.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTspecConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_CONFIRM_ID: - sig->u.MlmeHlSyncCancelConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncCancelConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncCancelConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncCancelConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeHlSyncCancelConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CONFIRM_ID: - sig->u.MlmeScanConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeScanConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_STRING_INDICATION_ID: - sig->u.DebugStringIndication.DebugMessage.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugStringIndication.DebugMessage.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugStringIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.DebugStringIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_CONFIRM_ID: - sig->u.MlmeAddTemplateConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateConfirm.FrameType = (CSR_FRAME_TYPE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeAddTemplateConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLOCKACK_ERROR_INDICATION_ID: - sig->u.MlmeBlockackErrorIndication.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlockackErrorIndication.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlockackErrorIndication.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlockackErrorIndication.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlockackErrorIndication.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeBlockackErrorIndication.ResultCode = (CSR_REASON_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeBlockackErrorIndication.PeerQstaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CONFIRM_ID: - sig->u.MlmeSetConfirm.MibAttributeValue.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetConfirm.MibAttributeValue.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetConfirm.Status = (CSR_MIB_STATUS) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeSetConfirm.ErrorIndex = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_REQUEST_ID: - sig->u.MlmeMeasureRequest.MeasurementRequestSet.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureRequest.MeasurementRequestSet.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeMeasureRequest.DialogToken = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_CONFIRM_ID: - sig->u.MlmeStartAggregationConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - memcpy(sig->u.MlmeStartAggregationConfirm.PeerQstaAddress.x, &ptr[index], 48 / 8); - index += 48 / 8; - sig->u.MlmeStartAggregationConfirm.UserPriority = (CSR_PRIORITY) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationConfirm.Direction = (CSR_DIRECTION) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStartAggregationConfirm.SequenceNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_CONFIRM_ID: - sig->u.MlmeStopMeasureConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureConfirm.DialogToken = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_CONFIRM_ID: - sig->u.MaPacketConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketConfirm.TransmissionStatus = (CSR_TRANSMISSION_STATUS) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketConfirm.RetryCount = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketConfirm.Rate = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MaPacketConfirm.HostTag = CSR_GET_UINT32_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT32; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_CONFIRM_ID: - sig->u.MlmeDelPeriodicConfirm.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicConfirm.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicConfirm.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicConfirm.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicConfirm.VirtualInterfaceIdentifier = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicConfirm.PeriodicId = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeDelPeriodicConfirm.ResultCode = (CSR_RESULT_CODE) CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_REQUEST_ID: - sig->u.MlmeStopMeasureRequest.Dummydataref1.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureRequest.Dummydataref1.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureRequest.Dummydataref2.SlotNumber = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureRequest.Dummydataref2.DataLength = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - sig->u.MlmeStopMeasureRequest.DialogToken = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(ptr + index); - index += SIZEOF_UINT16; - break; -#endif - - default: - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - return CSR_RESULT_SUCCESS; -} /* read_unpack_signal() */ - - -/* - * --------------------------------------------------------------------------- - * write_pack - * - * Convert a signal structure, in host-native format, to the - * little-endian wire format specified in the UniFi Host Interface - * Protocol Specification. - * - * WARNING: This function is auto-generated, DO NOT EDIT! - * - * Arguments: - * sig Pointer to signal structure to pack. - * ptr Destination buffer to pack into. - * sig_len Returns the length of the packed signal, i.e. the - * number of bytes written to ptr. - * - * Returns: - * CSR_RESULT_SUCCESS on success, - * CSR_WIFI_HIP_RESULT_INVALID_VALUE if the ID of signal was not recognised. - * --------------------------------------------------------------------------- - */ -CsrResult write_pack(const CSR_SIGNAL *sig, u8 *ptr, u16 *sig_len) -{ - s16 index = 0; - - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->SignalPrimitiveHeader.SignalId, ptr + index); - index += SIZEOF_UINT16; - - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->SignalPrimitiveHeader.ReceiverProcessId, ptr + index); - index += SIZEOF_UINT16; - - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->SignalPrimitiveHeader.SenderProcessId, ptr + index); - index += SIZEOF_UINT16; - - switch (sig->SignalPrimitiveHeader.SignalId) - { -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanConfirm.AutonomousScanId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutConfirm.BlackoutId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutRequest.BlackoutId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[0], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[1], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[2], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[3], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[4], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[5], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[6], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceConfirm.SequenceNumber[7], ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeStopAggregationConfirm.PeerQstaAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationConfirm.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationConfirm.Direction, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecRequest.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecRequest.Direction, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_WORD16_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[0], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[1], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[2], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[3], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[4], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[5], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[6], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[7], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[8], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[9], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[10], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[11], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[12], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[13], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[14], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugWord16Indication.DebugWords[15], ptr + index); - index += SIZEOF_UINT16; - break; - case CSR_DEBUG_GENERIC_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugVariable.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugVariable.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugWords[0], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugWords[1], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugWords[2], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugWords[3], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugWords[4], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugWords[5], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugWords[6], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericConfirm.DebugWords[7], ptr + index); - index += SIZEOF_UINT16; - break; - case CSR_MA_PACKET_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.Data.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.Data.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MaPacketIndication.LocalTime.x, 64 / 8); - index += 64 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.Ifindex, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.Channel, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.ReceptionStatus, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.Rssi, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.Snr, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketIndication.ReceivedRate, ptr + index); - index += SIZEOF_UINT16; - break; - case CSR_MLME_SET_TIM_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimRequest.AssociationId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimRequest.TimValue, ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECTED_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectedIndication.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectedIndication.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectedIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectedIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectedIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectedIndication.ConnectionStatus, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeConnectedIndication.PeerMacAddress.x, 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerRequest.TriggerId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_TRIGGERED_GET_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeTriggeredGetIndication.MibAttributeValue.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeTriggeredGetIndication.MibAttributeValue.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeTriggeredGetIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeTriggeredGetIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeTriggeredGetIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeTriggeredGetIndication.Status, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeTriggeredGetIndication.ErrorIndex, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeTriggeredGetIndication.TriggeredId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.ChannelList.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.ChannelList.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.InformationElements.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.InformationElements.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.Ifindex, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.ScanType, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.ProbeDelay, ptr + index); - index += SIZEOF_UINT32; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.MinChannelTime, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanRequest.MaxChannelTime, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextRequest.MibAttribute.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextRequest.MibAttribute.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeStartAggregationRequest.PeerQstaAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.Direction, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.StartingSequenceNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.BufferSize, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationRequest.BlockAckTimeout, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeHlSyncRequest.GroupAddress.x, 48 / 8); - index += 48 / 8; - break; -#endif - case CSR_DEBUG_GENERIC_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugVariable.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugVariable.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugWords[0], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugWords[1], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugWords[2], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugWords[3], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugWords[4], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugWords[5], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugWords[6], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericRequest.DebugWords[7], ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetRequest.TriggeredId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressRequest.Data.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressRequest.Data.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressRequest.NumberOfMulticastGroupAddresses, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeResetRequest.StaAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetRequest.SetDefaultMib, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CANCEL_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanCancelRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanCancelRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanCancelRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanCancelRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanCancelRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetConfirm.TriggeredId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterRequest.InformationElements.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterRequest.InformationElements.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterRequest.PacketFilterMode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeSetPacketFilterRequest.ArpFilterAddress, ptr + index); - index += SIZEOF_UINT32; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerConfirm.TriggerId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelRxTriggerConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusRequest.InformationElements.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusRequest.InformationElements.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusRequest.ConnectionStatus, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeConnectStatusRequest.StaAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusRequest.AssociationId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusRequest.AssociationCapabilityInformation, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeLeaveRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.QueueIndex, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.Aifs, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.Cwmin, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.Cwmax, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConfigQueueRequest.TxopLimit, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecConfirm.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTspecConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MLME_SET_TIM_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetTimConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureIndication.MeasurementReportSet.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureIndication.MeasurementReportSet.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureIndication.DialogToken, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutConfirm.BlackoutId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelBlackoutConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelTriggeredGetConfirm.TriggeredId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_GENERIC_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugVariable.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugVariable.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugWords[0], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugWords[1], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugWords[2], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugWords[3], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugWords[4], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugWords[5], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugWords[6], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugGenericIndication.DebugWords[7], ptr + index); - index += SIZEOF_UINT16; - break; - case CSR_MA_PACKET_CANCEL_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketCancelRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketCancelRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketCancelRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketCancelRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketCancelRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MaPacketCancelRequest.HostTag, ptr + index); - index += SIZEOF_UINT32; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanConfirm.AutonomousScanId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.Data.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.Data.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.TransmitRate, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.HostTag, ptr + index); - index += SIZEOF_UINT32; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.Priority, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MaPacketRequest.Ra.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketRequest.TransmissionControl, ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.Data.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.Data.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.BeaconPeriod, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.DtimPeriod, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.CapabilityInformation, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeModifyBssParameterRequest.Bssid.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeModifyBssParameterRequest.RtsThreshold, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerRequest.InformationElements.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerRequest.InformationElements.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerRequest.TriggerId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerRequest.Priority, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MA_VIF_AVAILABILITY_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityIndication.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityIndication.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityIndication.Multicast, ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeHlSyncCancelRequest.GroupAddress.x, 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanRequest.AutonomousScanId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLACKOUT_ENDED_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlackoutEndedIndication.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlackoutEndedIndication.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlackoutEndedIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlackoutEndedIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlackoutEndedIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlackoutEndedIndication.BlackoutId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanDoneIndication.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanDoneIndication.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanDoneIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanDoneIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanDoneIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanDoneIndication.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanDoneIndication.AutonomousScanId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceRequest.KeyId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetKeySequenceRequest.KeyType, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeGetKeySequenceRequest.Address.x, 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.Ifindex, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.Channel, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeSetChannelRequest.Address.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.AvailabilityDuration, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetChannelRequest.AvailabilityInterval, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureConfirm.DialogToken, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetRequest.MibAttribute.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetRequest.MibAttribute.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTriggeredGetRequest.TriggeredId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanLossIndication.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanLossIndication.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanLossIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanLossIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAutonomousScanLossIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeAutonomousScanLossIndication.Bssid.x, 48 / 8); - index += 48 / 8; - break; -#endif - case CSR_MA_VIF_AVAILABILITY_RESPONSE_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityResponse.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityResponse.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityResponse.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityResponse.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityResponse.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaVifAvailabilityResponse.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateRequest.Data1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateRequest.Data1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateRequest.Data2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateRequest.Data2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateRequest.FrameType, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateRequest.MinTransmitRate, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicConfirm.PeriodicId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetConfirm.MibAttributeValue.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetConfirm.MibAttributeValue.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetConfirm.Status, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetConfirm.ErrorIndex, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextConfirm.MibAttributeValue.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextConfirm.MibAttributeValue.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextConfirm.Status, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetNextConfirm.ErrorIndex, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeStopAggregationRequest.PeerQstaAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationRequest.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopAggregationRequest.Direction, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerConfirm.TriggerId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddRxTriggerConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.BlackoutId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.BlackoutType, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.BlackoutSource, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.BlackoutStartReference, ptr + index); - index += SIZEOF_UINT32; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.BlackoutPeriod, ptr + index); - index += SIZEOF_UINT32; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.BlackoutDuration, ptr + index); - index += SIZEOF_UINT32; - memcpy(ptr + index, sig->u.MlmeAddBlackoutRequest.PeerStaAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddBlackoutRequest.BlackoutCount, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysRequest.KeyId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDeletekeysRequest.KeyType, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeDeletekeysRequest.Address.x, 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeResetConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeHlSyncConfirm.GroupAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.ChannelList.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.ChannelList.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.InformationElements.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.InformationElements.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.AutonomousScanId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.Ifindex, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.ChannelStartingFactor, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.ScanType, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.ProbeDelay, ptr + index); - index += SIZEOF_UINT32; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.MinChannelTime, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddAutonomousScanRequest.MaxChannelTime, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetRequest.MibAttributeValue.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetRequest.MibAttributeValue.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.Beacon.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.Beacon.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.BssParameters.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.BssParameters.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.Ifindex, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.Channel, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeSmStartRequest.InterfaceAddress.x, 48 / 8); - index += 48 / 8; - memcpy(ptr + index, sig->u.MlmeSmStartRequest.Bssid.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.BeaconPeriod, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.DtimPeriod, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSmStartRequest.CapabilityInformation, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeConnectStatusConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelAutonomousScanConfirm.AutonomousScanId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicRequest.PeriodicId, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.Key.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.Key.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.Length, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.KeyId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.KeyType, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeSetkeysRequest.Address.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.SequenceNumber[0], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.SequenceNumber[1], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.SequenceNumber[2], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.SequenceNumber[3], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.SequenceNumber[4], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.SequenceNumber[5], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.SequenceNumber[6], ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetkeysRequest.SequenceNumber[7], ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, &sig->u.MlmeSetkeysRequest.CipherSuiteSelector, 32 / 8); - index += 32 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanRequest.AutonomousScanId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePauseAutonomousScanRequest.Pause, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetRequest.MibAttribute.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetRequest.MibAttribute.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeGetRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.PowerManagementMode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.ReceiveDtims, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.ListenInterval, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmePowermgtRequest.TrafficWindow, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_ERROR_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketErrorIndication.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketErrorIndication.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketErrorIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketErrorIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketErrorIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MaPacketErrorIndication.PeerQstaAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketErrorIndication.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketErrorIndication.SequenceNumber, ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.PeriodicId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.MaximumLatency, ptr + index); - index += SIZEOF_UINT32; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.PeriodicSchedulingMode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.WakeHost, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddPeriodicRequest.UserPriority, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.Direction, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.PsScheme, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.MediumTime, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.ServiceStartTime, ptr + index); - index += SIZEOF_UINT32; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.ServiceInterval, ptr + index); - index += SIZEOF_UINT32; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecRequest.MinimumDataRate, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddMulticastAddressConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecConfirm.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTspecConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeHlSyncCancelConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeScanConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_DEBUG_STRING_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugStringIndication.DebugMessage.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugStringIndication.DebugMessage.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugStringIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.DebugStringIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateConfirm.FrameType, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeAddTemplateConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLOCKACK_ERROR_INDICATION_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlockackErrorIndication.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlockackErrorIndication.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlockackErrorIndication.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlockackErrorIndication.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlockackErrorIndication.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeBlockackErrorIndication.ResultCode, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeBlockackErrorIndication.PeerQstaAddress.x, 48 / 8); - index += 48 / 8; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetConfirm.MibAttributeValue.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetConfirm.MibAttributeValue.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetConfirm.Status, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeSetConfirm.ErrorIndex, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureRequest.MeasurementRequestSet.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureRequest.MeasurementRequestSet.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeMeasureRequest.DialogToken, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - memcpy(ptr + index, sig->u.MlmeStartAggregationConfirm.PeerQstaAddress.x, 48 / 8); - index += 48 / 8; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.UserPriority, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.Direction, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStartAggregationConfirm.SequenceNumber, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureConfirm.DialogToken, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - case CSR_MA_PACKET_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.TransmissionStatus, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.RetryCount, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.Rate, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT32_TO_LITTLE_ENDIAN(sig->u.MaPacketConfirm.HostTag, ptr + index); - index += SIZEOF_UINT32; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_CONFIRM_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicConfirm.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicConfirm.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicConfirm.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicConfirm.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicConfirm.VirtualInterfaceIdentifier, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicConfirm.PeriodicId, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeDelPeriodicConfirm.ResultCode, ptr + index); - index += SIZEOF_UINT16; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_REQUEST_ID: - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureRequest.Dummydataref1.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureRequest.Dummydataref1.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureRequest.Dummydataref2.SlotNumber, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureRequest.Dummydataref2.DataLength, ptr + index); - index += SIZEOF_UINT16; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(sig->u.MlmeStopMeasureRequest.DialogToken, ptr + index); - index += SIZEOF_UINT16; - break; -#endif - - default: - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - *sig_len = index; - - return CSR_RESULT_SUCCESS; -} /* write_pack() */ - - diff --git a/drivers/staging/csr/csr_wifi_hip_send.c b/drivers/staging/csr/csr_wifi_hip_send.c deleted file mode 100644 index 76429e5..0000000 --- a/drivers/staging/csr/csr_wifi_hip_send.c +++ /dev/null @@ -1,415 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * *************************************************************************** - * - * FILE: csr_wifi_hip_send.c - * - * PURPOSE: - * Code for adding a signal request to the from-host queue. - * When the driver bottom-half is run, it will take requests from the - * queue and pass them to the UniFi. - * - * *************************************************************************** - */ -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" -#include "csr_wifi_hip_sigs.h" -#include "csr_wifi_hip_card.h" - -unifi_TrafficQueue unifi_frame_priority_to_queue(CSR_PRIORITY priority) -{ - switch (priority) - { - case CSR_QOS_UP0: - case CSR_QOS_UP3: - return UNIFI_TRAFFIC_Q_BE; - case CSR_QOS_UP1: - case CSR_QOS_UP2: - return UNIFI_TRAFFIC_Q_BK; - case CSR_QOS_UP4: - case CSR_QOS_UP5: - return UNIFI_TRAFFIC_Q_VI; - case CSR_QOS_UP6: - case CSR_QOS_UP7: - case CSR_MANAGEMENT: - return UNIFI_TRAFFIC_Q_VO; - default: - return UNIFI_TRAFFIC_Q_BE; - } -} - - -CSR_PRIORITY unifi_get_default_downgrade_priority(unifi_TrafficQueue queue) -{ - switch (queue) - { - case UNIFI_TRAFFIC_Q_BE: - return CSR_QOS_UP0; - case UNIFI_TRAFFIC_Q_BK: - return CSR_QOS_UP1; - case UNIFI_TRAFFIC_Q_VI: - return CSR_QOS_UP5; - case UNIFI_TRAFFIC_Q_VO: - return CSR_QOS_UP6; - default: - return CSR_QOS_UP0; - } -} - - -/* - * --------------------------------------------------------------------------- - * send_signal - * - * This function queues a signal for sending to UniFi. It first checks - * that there is space on the fh_signal_queue for another entry, then - * claims any bulk data slots required and copies data into them. Then - * increments the fh_signal_queue write count. - * - * The fh_signal_queue is later processed by the driver bottom half - * (in unifi_bh()). - * - * This function call unifi_pause_xmit() to pause the flow of data plane - * packets when: - * - the fh_signal_queue ring buffer is full - * - there are less than UNIFI_MAX_DATA_REFERENCES (2) bulk data - * slots available. - * - * Arguments: - * card Pointer to card context structure - * sigptr Pointer to the signal to write to UniFi. - * siglen Number of bytes pointer to by sigptr. - * bulkdata Array of pointers to an associated bulk data. - * sigq To which from-host queue to add the signal. - * - * Returns: - * CSR_RESULT_SUCCESS on success - * CSR_WIFI_HIP_RESULT_NO_SPACE if there were insufficient data slots or - * no free signal queue entry - * - * Notes: - * Calls unifi_pause_xmit() when the last slots are used. - * --------------------------------------------------------------------------- - */ -static CsrResult send_signal(card_t *card, const u8 *sigptr, u32 siglen, - const bulk_data_param_t *bulkdata, - q_t *sigq, u32 priority_q, u32 run_bh) -{ - u16 i, data_slot_size; - card_signal_t *csptr; - s16 qe; - CsrResult r; - s16 debug_print = 0; - - data_slot_size = CardGetDataSlotSize(card); - - /* Check that the fh_data_queue has a free slot */ - if (!CSR_WIFI_HIP_Q_SLOTS_FREE(sigq)) - { - unifi_trace(card->ospriv, UDBG3, "send_signal: %s full\n", sigq->name); - - return CSR_WIFI_HIP_RESULT_NO_SPACE; - } - - /* - * Now add the signal to the From Host signal queue - */ - /* Get next slot on queue */ - qe = CSR_WIFI_HIP_Q_NEXT_W_SLOT(sigq); - csptr = CSR_WIFI_HIP_Q_SLOT_DATA(sigq, qe); - - /* Make up the card_signal struct */ - csptr->signal_length = (u16)siglen; - memcpy((void *)csptr->sigbuf, (void *)sigptr, siglen); - - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; ++i) - { - if ((bulkdata != NULL) && (bulkdata->d[i].data_length != 0)) - { - u32 datalen = bulkdata->d[i].data_length; - - /* Make sure data will fit in a bulk data slot */ - if (bulkdata->d[i].os_data_ptr == NULL) - { - unifi_error(card->ospriv, "send_signal - NULL bulkdata[%d]\n", i); - debug_print++; - csptr->bulkdata[i].data_length = 0; - } - else - { - if (datalen > data_slot_size) - { - unifi_error(card->ospriv, - "send_signal - Invalid data length %u (@%p), " - "truncating\n", - datalen, bulkdata->d[i].os_data_ptr); - datalen = data_slot_size; - debug_print++; - } - /* Store the bulk data info in the soft queue. */ - csptr->bulkdata[i].os_data_ptr = (u8 *)bulkdata->d[i].os_data_ptr; - csptr->bulkdata[i].os_net_buf_ptr = (u8 *)bulkdata->d[i].os_net_buf_ptr; - csptr->bulkdata[i].net_buf_length = bulkdata->d[i].net_buf_length; - csptr->bulkdata[i].data_length = datalen; - } - } - else - { - UNIFI_INIT_BULK_DATA(&csptr->bulkdata[i]); - } - } - - if (debug_print) - { - const u8 *sig = sigptr; - - unifi_error(card->ospriv, "Signal(%d): %*ph\n", siglen, - 16, sig); - unifi_error(card->ospriv, "Bulkdata pointer %p(%d), %p(%d)\n", - bulkdata != NULL?bulkdata->d[0].os_data_ptr : NULL, - bulkdata != NULL?bulkdata->d[0].data_length : 0, - bulkdata != NULL?bulkdata->d[1].os_data_ptr : NULL, - bulkdata != NULL?bulkdata->d[1].data_length : 0); - } - - /* Advance the written count to say there is a new entry */ - CSR_WIFI_HIP_Q_INC_W(sigq); - - /* - * Set the flag to say reason for waking was a host request. - * Then ask the OS layer to run the unifi_bh. - */ - if (run_bh == 1) - { - card->bh_reason_host = 1; - r = unifi_run_bh(card->ospriv); - if (r != CSR_RESULT_SUCCESS) - { - unifi_error(card->ospriv, "failed to run bh.\n"); - card->bh_reason_host = 0; - - /* - * The bulk data buffer will be freed by the caller. - * We need to invalidate the description of the bulk data in our - * soft queue, to prevent the core freeing the bulk data again later. - */ - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; ++i) - { - if (csptr->bulkdata[i].data_length != 0) - { - csptr->bulkdata[i].os_data_ptr = csptr->bulkdata[i].os_net_buf_ptr = NULL; - csptr->bulkdata[i].net_buf_length = csptr->bulkdata[i].data_length = 0; - } - } - return r; - } - } - else - { - unifi_error(card->ospriv, "run_bh=%d, bh not called.\n", run_bh); - } - - /* - * Have we used up all the fh signal list entries? - */ - if (CSR_WIFI_HIP_Q_SLOTS_FREE(sigq) == 0) - { - /* We have filled the queue, so stop the upper layer. The command queue - * is an exception, as suspending due to that being full could delay - * resume/retry until new commands or data are received. - */ - if (sigq != &card->fh_command_queue) - { - /* - * Must call unifi_pause_xmit() *before* setting the paused flag. - * (the unifi_pause_xmit call should not be after setting the flag because of the possibility of being interrupted - * by the bh thread between our setting the flag and the call to unifi_pause_xmit() - * If bh thread then cleared the flag, we would end up paused, but without the flag set) - * Instead, setting it afterwards means that if this thread is interrupted by the bh thread - * the pause flag is still guaranteed to end up set - * However the potential deadlock now is that if bh thread emptied the queue and cleared the flag before this thread's - * call to unifi_pause_xmit(), then bh thread may not run again because it will be waiting for - * a packet to appear in the queue but nothing ever will because xmit is paused. - * So we will end up with the queue paused, and the flag set to say it is paused, but bh never runs to unpause it. - * (Note even this bad situation would not persist long in practice, because something else (eg rx, or tx in different queue) - * is likely to wake bh thread quite soon) - * But to avoid this deadlock completely, after setting the flag we check that there is something left in the queue. - * If there is, we know that bh thread has not emptied the queue yet. - * Since bh thread checks to unpause the queue *after* taking packets from the queue, we know that it is still going to make at - * least one more check to see whether it needs to unpause the queue. So all is well. - * If there are no packets in the queue, then the deadlock described above might happen. To make sure it does not, we - * unpause the queue here. A possible side effect is that unifi_restart_xmit() may (rarely) be called for second time - * unnecessarily, which is harmless - */ - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf("P"); -#endif - unifi_pause_xmit(card->ospriv, (unifi_TrafficQueue)priority_q); - card_tx_q_pause(card, priority_q); - if (CSR_WIFI_HIP_Q_SLOTS_USED(sigq) == 0) - { - card_tx_q_unpause(card, priority_q); - unifi_restart_xmit(card->ospriv, (unifi_TrafficQueue) priority_q); - } - } - else - { - unifi_warning(card->ospriv, - "send_signal: fh_cmd_q full, not pausing (run_bh=%d)\n", - run_bh); - } - } - - return CSR_RESULT_SUCCESS; -} /* send_signal() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_send_signal - * - * Invokes send_signal() to queue a signal in the command or traffic queue - * If sigptr pointer is NULL, it pokes the bh to check if UniFi is responsive. - * - * Arguments: - * card Pointer to card context struct - * sigptr Pointer to signal from card. - * siglen Size of the signal - * bulkdata Pointer to the bulk data of the signal - * - * Returns: - * CSR_RESULT_SUCCESS on success - * CSR_WIFI_HIP_RESULT_NO_SPACE if there were insufficient data slots or no free signal queue entry - * - * Notes: - * unifi_send_signal() is used to queue signals, created by the driver, - * to the device. Signals are constructed using the UniFi packed structures. - * --------------------------------------------------------------------------- - */ -CsrResult unifi_send_signal(card_t *card, const u8 *sigptr, u32 siglen, - const bulk_data_param_t *bulkdata) -{ - q_t *sig_soft_q; - u16 signal_id; - CsrResult r; - u32 run_bh; - u32 priority_q; - - /* A NULL signal pointer is a request to check if UniFi is responsive */ - if (sigptr == NULL) - { - card->bh_reason_host = 1; - return unifi_run_bh(card->ospriv); - } - - priority_q = 0; - run_bh = 1; - signal_id = GET_SIGNAL_ID(sigptr); - /* - * If the signal is a CSR_MA_PACKET_REQUEST , - * we send it using the traffic soft queue. Else we use the command soft queue. - */ - if (signal_id == CSR_MA_PACKET_REQUEST_ID) - { - u16 frame_priority; - - if (card->periodic_wake_mode == UNIFI_PERIODIC_WAKE_HOST_ENABLED) - { - run_bh = 0; - } - -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) && defined (CSR_WIFI_HIP_DATA_PLANE_PROFILE) - unifi_debug_log_to_buf("D"); -#endif - /* Sanity check: MA-PACKET.req must have a valid bulk data */ - if ((bulkdata->d[0].data_length == 0) || (bulkdata->d[0].os_data_ptr == NULL)) - { - unifi_error(card->ospriv, "MA-PACKET.req with empty bulk data (%d bytes in %p)\n", - bulkdata->d[0].data_length, bulkdata->d[0].os_data_ptr); - dump((void *)sigptr, siglen); - return CSR_RESULT_FAILURE; - } - - /* Map the frame priority to a traffic queue index. */ - frame_priority = GET_PACKED_MA_PACKET_REQUEST_FRAME_PRIORITY(sigptr); - priority_q = unifi_frame_priority_to_queue((CSR_PRIORITY)frame_priority); - - sig_soft_q = &card->fh_traffic_queue[priority_q]; - } - else - { - sig_soft_q = &card->fh_command_queue; - } - - r = send_signal(card, sigptr, siglen, bulkdata, sig_soft_q, priority_q, run_bh); - /* On error, the caller must free or requeue bulkdata buffers */ - - return r; -} /* unifi_send_signal() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_send_resources_available - * - * Examines whether there is available space to queue - * a signal in the command or traffic queue - * - * Arguments: - * card Pointer to card context struct - * sigptr Pointer to signal. - * - * Returns: - * CSR_RESULT_SUCCESS if resources available - * CSR_WIFI_HIP_RESULT_NO_SPACE if there was no free signal queue entry - * - * Notes: - * --------------------------------------------------------------------------- - */ -CsrResult unifi_send_resources_available(card_t *card, const u8 *sigptr) -{ - q_t *sig_soft_q; - u16 signal_id = GET_SIGNAL_ID(sigptr); - - /* - * If the signal is a CSR_MA_PACKET_REQUEST , - * we send it using the traffic soft queue. Else we use the command soft queue. - */ - if (signal_id == CSR_MA_PACKET_REQUEST_ID) - { - u16 frame_priority; - u32 priority_q; - - /* Map the frame priority to a traffic queue index. */ - frame_priority = GET_PACKED_MA_PACKET_REQUEST_FRAME_PRIORITY(sigptr); - priority_q = unifi_frame_priority_to_queue((CSR_PRIORITY)frame_priority); - - sig_soft_q = &card->fh_traffic_queue[priority_q]; - } - else - { - sig_soft_q = &card->fh_command_queue; - } - - /* Check that the fh_data_queue has a free slot */ - if (!CSR_WIFI_HIP_Q_SLOTS_FREE(sig_soft_q)) - { - unifi_notice(card->ospriv, "unifi_send_resources_available: %s full\n", - sig_soft_q->name); - return CSR_WIFI_HIP_RESULT_NO_SPACE; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_send_resources_available() */ - - diff --git a/drivers/staging/csr/csr_wifi_hip_signals.c b/drivers/staging/csr/csr_wifi_hip_signals.c deleted file mode 100644 index 3c82132..0000000 --- a/drivers/staging/csr/csr_wifi_hip_signals.c +++ /dev/null @@ -1,1313 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - - -/* Generated by hip_dd_l_c_gen.pl */ - -#include "csr_wifi_hip_signals.h" - -#include "csr_wifi_hip_unifi.h" - -s32 SigGetSize(const CSR_SIGNAL *aSignal) -{ - switch (aSignal->SignalPrimitiveHeader.SignalId) - { - case CSR_MA_PACKET_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MA_PACKET_REQUEST); - case CSR_MA_PACKET_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MA_PACKET_CONFIRM); - case CSR_MA_PACKET_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MA_PACKET_INDICATION); - case CSR_MA_PACKET_CANCEL_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MA_PACKET_CANCEL_REQUEST); - case CSR_MA_VIF_AVAILABILITY_RESPONSE_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MA_VIF_AVAILABILITY_RESPONSE); - case CSR_MA_VIF_AVAILABILITY_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MA_VIF_AVAILABILITY_INDICATION); - case CSR_MA_PACKET_ERROR_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MA_PACKET_ERROR_INDICATION); -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_RESET_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_RESET_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_GET_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_GET_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SET_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SET_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_GET_NEXT_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_GET_NEXT_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_POWERMGT_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_POWERMGT_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SCAN_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SCAN_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_HL_SYNC_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_HL_SYNC_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_MEASURE_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_MEASURE_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_MEASURE_INDICATION); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SETKEYS_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SETKEYS_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DELETEKEYS_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DELETEKEYS_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECTED_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_CONNECTED_INDICATION); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CANCEL_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SCAN_CANCEL_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_HL_SYNC_CANCEL_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_HL_SYNC_CANCEL_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_PERIODIC_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_PERIODIC_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_PERIODIC_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_PERIODIC_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SET_PACKET_FILTER_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SET_PACKET_FILTER_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_STOP_MEASURE_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_STOP_MEASURE_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_TRIGGERED_GET_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_TRIGGERED_GET_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_TRIGGERED_GET_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_TRIGGERED_GET_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_TRIGGERED_GET_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_TRIGGERED_GET_INDICATION); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_BLACKOUT_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_BLACKOUT_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLACKOUT_ENDED_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_BLACKOUT_ENDED_INDICATION); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_BLACKOUT_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_BLACKOUT_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_RX_TRIGGER_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_RX_TRIGGER_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_RX_TRIGGER_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_RX_TRIGGER_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_CONNECT_STATUS_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_CONNECT_STATUS_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_TEMPLATE_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_TEMPLATE_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_CONFIG_QUEUE_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_CONFIG_QUEUE_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_TSPEC_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_TSPEC_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_TSPEC_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_DEL_TSPEC_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_START_AGGREGATION_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_START_AGGREGATION_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLOCKACK_ERROR_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_BLOCKACK_ERROR_INDICATION); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_STOP_AGGREGATION_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_STOP_AGGREGATION_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SM_START_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SM_START_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_LEAVE_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_LEAVE_CONFIRM); -#endif - case CSR_MLME_SET_TIM_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SET_TIM_REQUEST); - case CSR_MLME_SET_TIM_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SET_TIM_CONFIRM); -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_GET_KEY_SEQUENCE_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_GET_KEY_SEQUENCE_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SET_CHANNEL_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_SET_CHANNEL_CONFIRM); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST); -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM); -#endif - case CSR_DEBUG_STRING_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_DEBUG_STRING_INDICATION); - case CSR_DEBUG_WORD16_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_DEBUG_WORD16_INDICATION); - case CSR_DEBUG_GENERIC_REQUEST_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_DEBUG_GENERIC_REQUEST); - case CSR_DEBUG_GENERIC_CONFIRM_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_DEBUG_GENERIC_CONFIRM); - case CSR_DEBUG_GENERIC_INDICATION_ID: - return offsetof(struct CSR_SIGNAL_PRIMITIVE, u) + sizeof(CSR_DEBUG_GENERIC_INDICATION); - default: - return 0; - } -} - - -s32 SigGetDataRefs(CSR_SIGNAL *aSignal, CSR_DATAREF **aDataRef) -{ - s32 numRefs = 0; - - switch (aSignal->SignalPrimitiveHeader.SignalId) - { - case CSR_MA_PACKET_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MaPacketRequest.Data; - aDataRef[numRefs++] = &aSignal->u.MaPacketRequest.Dummydataref2; - break; - case CSR_MA_PACKET_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MaPacketConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MaPacketConfirm.Dummydataref2; - break; - case CSR_MA_PACKET_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MaPacketIndication.Data; - aDataRef[numRefs++] = &aSignal->u.MaPacketIndication.Dummydataref2; - break; - case CSR_MA_PACKET_CANCEL_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MaPacketCancelRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MaPacketCancelRequest.Dummydataref2; - break; - case CSR_MA_VIF_AVAILABILITY_RESPONSE_ID: - aDataRef[numRefs++] = &aSignal->u.MaVifAvailabilityResponse.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MaVifAvailabilityResponse.Dummydataref2; - break; - case CSR_MA_VIF_AVAILABILITY_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MaVifAvailabilityIndication.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MaVifAvailabilityIndication.Dummydataref2; - break; - case CSR_MA_PACKET_ERROR_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MaPacketErrorIndication.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MaPacketErrorIndication.Dummydataref2; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeResetRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeResetRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeResetConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeResetConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeGetRequest.MibAttribute; - aDataRef[numRefs++] = &aSignal->u.MlmeGetRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeGetConfirm.MibAttributeValue; - aDataRef[numRefs++] = &aSignal->u.MlmeGetConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetRequest.MibAttributeValue; - aDataRef[numRefs++] = &aSignal->u.MlmeSetRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetConfirm.MibAttributeValue; - aDataRef[numRefs++] = &aSignal->u.MlmeSetConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeGetNextRequest.MibAttribute; - aDataRef[numRefs++] = &aSignal->u.MlmeGetNextRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeGetNextConfirm.MibAttributeValue; - aDataRef[numRefs++] = &aSignal->u.MlmeGetNextConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmePowermgtRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmePowermgtRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmePowermgtConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmePowermgtConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeScanRequest.ChannelList; - aDataRef[numRefs++] = &aSignal->u.MlmeScanRequest.InformationElements; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeScanConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeScanConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeHlSyncRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeHlSyncRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeHlSyncConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeHlSyncConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeMeasureRequest.MeasurementRequestSet; - aDataRef[numRefs++] = &aSignal->u.MlmeMeasureRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeMeasureConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeMeasureConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeMeasureIndication.MeasurementReportSet; - aDataRef[numRefs++] = &aSignal->u.MlmeMeasureIndication.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetkeysRequest.Key; - aDataRef[numRefs++] = &aSignal->u.MlmeSetkeysRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetkeysConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeSetkeysConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDeletekeysRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDeletekeysRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDeletekeysConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDeletekeysConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAutonomousScanLossIndication.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAutonomousScanLossIndication.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECTED_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeConnectedIndication.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeConnectedIndication.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CANCEL_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeScanCancelRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeScanCancelRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeHlSyncCancelRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeHlSyncCancelRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeHlSyncCancelConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeHlSyncCancelConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddPeriodicRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddPeriodicRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddPeriodicConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddPeriodicConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelPeriodicRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelPeriodicRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelPeriodicConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelPeriodicConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddAutonomousScanRequest.ChannelList; - aDataRef[numRefs++] = &aSignal->u.MlmeAddAutonomousScanRequest.InformationElements; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddAutonomousScanConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddAutonomousScanConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelAutonomousScanRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelAutonomousScanRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelAutonomousScanConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelAutonomousScanConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetPacketFilterRequest.InformationElements; - aDataRef[numRefs++] = &aSignal->u.MlmeSetPacketFilterRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetPacketFilterConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeSetPacketFilterConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeStopMeasureRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeStopMeasureRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeStopMeasureConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeStopMeasureConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmePauseAutonomousScanRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmePauseAutonomousScanRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmePauseAutonomousScanConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmePauseAutonomousScanConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAutonomousScanDoneIndication.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAutonomousScanDoneIndication.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddTriggeredGetRequest.MibAttribute; - aDataRef[numRefs++] = &aSignal->u.MlmeAddTriggeredGetRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddTriggeredGetConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddTriggeredGetConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelTriggeredGetRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelTriggeredGetRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelTriggeredGetConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelTriggeredGetConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_TRIGGERED_GET_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeTriggeredGetIndication.MibAttributeValue; - aDataRef[numRefs++] = &aSignal->u.MlmeTriggeredGetIndication.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddBlackoutRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddBlackoutRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddBlackoutConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddBlackoutConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLACKOUT_ENDED_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeBlackoutEndedIndication.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeBlackoutEndedIndication.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelBlackoutRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelBlackoutRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelBlackoutConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelBlackoutConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddRxTriggerRequest.InformationElements; - aDataRef[numRefs++] = &aSignal->u.MlmeAddRxTriggerRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddRxTriggerConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddRxTriggerConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelRxTriggerRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelRxTriggerRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelRxTriggerConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelRxTriggerConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeConnectStatusRequest.InformationElements; - aDataRef[numRefs++] = &aSignal->u.MlmeConnectStatusRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeConnectStatusConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeConnectStatusConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeModifyBssParameterRequest.Data; - aDataRef[numRefs++] = &aSignal->u.MlmeModifyBssParameterRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeModifyBssParameterConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeModifyBssParameterConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddTemplateRequest.Data1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddTemplateRequest.Data2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddTemplateConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddTemplateConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeConfigQueueRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeConfigQueueRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeConfigQueueConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeConfigQueueConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddTspecRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddTspecRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddTspecConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddTspecConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelTspecRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelTspecRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeDelTspecConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeDelTspecConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeStartAggregationRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeStartAggregationRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeStartAggregationConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeStartAggregationConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLOCKACK_ERROR_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeBlockackErrorIndication.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeBlockackErrorIndication.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeStopAggregationRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeStopAggregationRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeStopAggregationConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeStopAggregationConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSmStartRequest.Beacon; - aDataRef[numRefs++] = &aSignal->u.MlmeSmStartRequest.BssParameters; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSmStartConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeSmStartConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeLeaveRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeLeaveRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeLeaveConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeLeaveConfirm.Dummydataref2; - break; -#endif - case CSR_MLME_SET_TIM_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetTimRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeSetTimRequest.Dummydataref2; - break; - case CSR_MLME_SET_TIM_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetTimConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeSetTimConfirm.Dummydataref2; - break; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeGetKeySequenceRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeGetKeySequenceRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeGetKeySequenceConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeGetKeySequenceConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetChannelRequest.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeSetChannelRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeSetChannelConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeSetChannelConfirm.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddMulticastAddressRequest.Data; - aDataRef[numRefs++] = &aSignal->u.MlmeAddMulticastAddressRequest.Dummydataref2; - break; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.MlmeAddMulticastAddressConfirm.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.MlmeAddMulticastAddressConfirm.Dummydataref2; - break; -#endif - case CSR_DEBUG_STRING_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.DebugStringIndication.DebugMessage; - aDataRef[numRefs++] = &aSignal->u.DebugStringIndication.Dummydataref2; - break; - case CSR_DEBUG_WORD16_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.DebugWord16Indication.Dummydataref1; - aDataRef[numRefs++] = &aSignal->u.DebugWord16Indication.Dummydataref2; - break; - case CSR_DEBUG_GENERIC_REQUEST_ID: - aDataRef[numRefs++] = &aSignal->u.DebugGenericRequest.DebugVariable; - aDataRef[numRefs++] = &aSignal->u.DebugGenericRequest.Dummydataref2; - break; - case CSR_DEBUG_GENERIC_CONFIRM_ID: - aDataRef[numRefs++] = &aSignal->u.DebugGenericConfirm.DebugVariable; - aDataRef[numRefs++] = &aSignal->u.DebugGenericConfirm.Dummydataref2; - break; - case CSR_DEBUG_GENERIC_INDICATION_ID: - aDataRef[numRefs++] = &aSignal->u.DebugGenericIndication.DebugVariable; - aDataRef[numRefs++] = &aSignal->u.DebugGenericIndication.Dummydataref2; - break; - default: - return 0; - } - return numRefs; -} - - -u32 SigGetFilterPos(u16 aSigID) -{ - switch (aSigID) - { - case CSR_MA_PACKET_REQUEST_ID: - return 0x00000001; - case CSR_MA_PACKET_CONFIRM_ID: - return 0x00000002; - case CSR_MA_PACKET_INDICATION_ID: - return 0x00000004; - case CSR_MA_PACKET_CANCEL_REQUEST_ID: - return 0x00000008; - case CSR_MA_VIF_AVAILABILITY_RESPONSE_ID: - return 0x00000010; - case CSR_MA_VIF_AVAILABILITY_INDICATION_ID: - return 0x00000020; - case CSR_MA_PACKET_ERROR_INDICATION_ID: - return 0x00000040; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_REQUEST_ID: - return 0x00000080; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_RESET_CONFIRM_ID: - return 0x00000100; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_REQUEST_ID: - return 0x00000200; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_CONFIRM_ID: - return 0x00000400; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_REQUEST_ID: - return 0x00000800; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CONFIRM_ID: - return 0x00001000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_REQUEST_ID: - return 0x00002000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_NEXT_CONFIRM_ID: - return 0x00004000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_REQUEST_ID: - return 0x00008000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_POWERMGT_CONFIRM_ID: - return 0x00010001; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_REQUEST_ID: - return 0x00010002; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CONFIRM_ID: - return 0x00010004; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_REQUEST_ID: - return 0x00010008; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CONFIRM_ID: - return 0x00010010; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_REQUEST_ID: - return 0x00010020; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_CONFIRM_ID: - return 0x00010040; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MEASURE_INDICATION_ID: - return 0x00010080; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_REQUEST_ID: - return 0x00010100; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SETKEYS_CONFIRM_ID: - return 0x00010200; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_REQUEST_ID: - return 0x00010400; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DELETEKEYS_CONFIRM_ID: - return 0x00010800; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION_ID: - return 0x00011000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECTED_INDICATION_ID: - return 0x00012000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SCAN_CANCEL_REQUEST_ID: - return 0x00014000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_REQUEST_ID: - return 0x00018000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_HL_SYNC_CANCEL_CONFIRM_ID: - return 0x00020001; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_REQUEST_ID: - return 0x00020002; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_PERIODIC_CONFIRM_ID: - return 0x00020004; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_REQUEST_ID: - return 0x00020008; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_PERIODIC_CONFIRM_ID: - return 0x00020010; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST_ID: - return 0x00020020; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM_ID: - return 0x00020040; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST_ID: - return 0x00020080; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM_ID: - return 0x00020100; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_REQUEST_ID: - return 0x00020200; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_PACKET_FILTER_CONFIRM_ID: - return 0x00020400; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_REQUEST_ID: - return 0x00020800; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_MEASURE_CONFIRM_ID: - return 0x00021000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST_ID: - return 0x00022000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM_ID: - return 0x00024000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION_ID: - return 0x00028000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_REQUEST_ID: - return 0x00030001; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TRIGGERED_GET_CONFIRM_ID: - return 0x00030002; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_REQUEST_ID: - return 0x00030004; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TRIGGERED_GET_CONFIRM_ID: - return 0x00030008; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_TRIGGERED_GET_INDICATION_ID: - return 0x00030010; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_REQUEST_ID: - return 0x00030020; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_BLACKOUT_CONFIRM_ID: - return 0x00030040; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLACKOUT_ENDED_INDICATION_ID: - return 0x00030080; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_REQUEST_ID: - return 0x00030100; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_BLACKOUT_CONFIRM_ID: - return 0x00030200; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_REQUEST_ID: - return 0x00030400; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_RX_TRIGGER_CONFIRM_ID: - return 0x00030800; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_REQUEST_ID: - return 0x00031000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_RX_TRIGGER_CONFIRM_ID: - return 0x00032000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_REQUEST_ID: - return 0x00034000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONNECT_STATUS_CONFIRM_ID: - return 0x00038000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST_ID: - return 0x00040001; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM_ID: - return 0x00040002; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_REQUEST_ID: - return 0x00040004; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TEMPLATE_CONFIRM_ID: - return 0x00040008; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_REQUEST_ID: - return 0x00040010; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_CONFIG_QUEUE_CONFIRM_ID: - return 0x00040020; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_REQUEST_ID: - return 0x00040040; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_TSPEC_CONFIRM_ID: - return 0x00040080; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_REQUEST_ID: - return 0x00040100; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_DEL_TSPEC_CONFIRM_ID: - return 0x00040200; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_REQUEST_ID: - return 0x00040400; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_START_AGGREGATION_CONFIRM_ID: - return 0x00040800; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_BLOCKACK_ERROR_INDICATION_ID: - return 0x00041000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_REQUEST_ID: - return 0x00042000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_STOP_AGGREGATION_CONFIRM_ID: - return 0x00044000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_REQUEST_ID: - return 0x00048000; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SM_START_CONFIRM_ID: - return 0x00050001; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_REQUEST_ID: - return 0x00050002; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_LEAVE_CONFIRM_ID: - return 0x00050004; -#endif - case CSR_MLME_SET_TIM_REQUEST_ID: - return 0x00050008; - case CSR_MLME_SET_TIM_CONFIRM_ID: - return 0x00050010; -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_REQUEST_ID: - return 0x00050020; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_GET_KEY_SEQUENCE_CONFIRM_ID: - return 0x00050040; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_REQUEST_ID: - return 0x00050080; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_SET_CHANNEL_CONFIRM_ID: - return 0x00050100; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST_ID: - return 0x00050200; -#endif -#ifdef CSR_WIFI_HIP_FULL_SIGNAL_SET - case CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM_ID: - return 0x00050400; -#endif - case CSR_DEBUG_STRING_INDICATION_ID: - return 0x00050800; - case CSR_DEBUG_WORD16_INDICATION_ID: - return 0x00051000; - case CSR_DEBUG_GENERIC_REQUEST_ID: - return 0x00052000; - case CSR_DEBUG_GENERIC_CONFIRM_ID: - return 0x00054000; - case CSR_DEBUG_GENERIC_INDICATION_ID: - return 0x00058000; - default: - break; - } - return 0xffffffff; -} - - diff --git a/drivers/staging/csr/csr_wifi_hip_signals.h b/drivers/staging/csr/csr_wifi_hip_signals.h deleted file mode 100644 index ca4d077..0000000 --- a/drivers/staging/csr/csr_wifi_hip_signals.h +++ /dev/null @@ -1,128 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - ***************************************************************************** - * - * FILE: csr_wifi_hip_signals.h - * - * PURPOSE: - * Header file wrapping the auto-generated code in csr_wifi_hip_sigs.h - * and csr_wifi_hip_signals.c - - * csr_wifi_hip_sigs.h provides structures defining UniFi signals and - * csr_wifi_hip_signals.c provides SigGetSize() and SigGetDataRefs(). - * - ***************************************************************************** - */ -#ifndef __CSR_WIFI_HIP_SIGNALS_H__ -#define __CSR_WIFI_HIP_SIGNALS_H__ - -#include <linux/types.h> -#include "csr_wifi_hip_sigs.h" - - -/****************************************************************************/ -/* INFORMATION ELEMENTS */ -/****************************************************************************/ - -/* Information Element ID's - shouldn't be in here, but nowhere better yet */ -#define IE_SSID_ID 0 -#define IE_SUPPORTED_RATES_ID 1 -#define IE_FH_PARAM_SET_ID 2 -#define IE_DS_PARAM_SET_ID 3 -#define IE_CF_PARAM_SET_ID 4 -#define IE_TIM_ID 5 -#define IE_IBSS_PARAM_SET_ID 6 -#define IE_COUNTRY_ID 7 -#define IE_HOPPING_PATTERN_PARAMS_ID 8 -#define IE_HOPPING_PATTERN_TABLE_ID 9 -#define IE_REQUEST_ID 10 -#define IE_QBSS_LOAD_ID 11 -#define IE_EDCA_PARAM_SET_ID 12 -#define IE_TRAFFIC_SPEC_ID 13 -#define IE_TRAFFIC_CLASS_ID 14 -#define IE_SCHEDULE_ID 15 -#define IE_CHALLENGE_TEXT_ID 16 -#define IE_POWER_CONSTRAINT_ID 32 -#define IE_POWER_CAPABILITY_ID 33 -#define IE_TPC_REQUEST_ID 34 -#define IE_TPC_REPORT_ID 35 -#define IE_SUPPORTED_CHANNELS_ID 36 -#define IE_CHANNEL_SWITCH_ANNOUNCE_ID 37 -#define IE_MEASUREMENT_REQUEST_ID 38 -#define IE_MEASUREMENT_REPORT_ID 39 -#define IE_QUIET_ID 40 -#define IE_IBSS_DFS_ID 41 -#define IE_ERP_INFO_ID 42 -#define IE_TS_DELAY_ID 43 -#define IE_TCLAS_PROCESSING_ID 44 -#define IE_QOS_CAPABILITY_ID 46 -#define IE_RSN_ID 48 -#define IE_EXTENDED_SUPPORTED_RATES_ID 50 -#define IE_AP_CHANNEL_REPORT_ID 52 -#define IE_RCPI_ID 53 -#define IE_WPA_ID 221 - - -/* The maximum number of data references in a signal structure */ -#define UNIFI_MAX_DATA_REFERENCES 2 - -/* The space to allow for a wire-format signal structure */ -#define UNIFI_PACKED_SIGBUF_SIZE 64 - - -/******************************************************************************/ -/* SIGNAL PARAMETER VALUES */ -/******************************************************************************/ - -/* ifIndex */ -#define UNIFI_IF_2G4 1 -#define UNIFI_IF_5G 2 - -/* SendProcessId */ -#define HOST_PROC_ID 0xc000 - -#define SIG_CAP_ESS 0x0001 -#define SIG_CAP_IBSS 0x0002 -#define SIG_CAP_CF_POLLABLE 0x0004 -#define SIG_CAP_CF_POLL_REQUEST 0x0008 -#define SIG_CAP_PRIVACY 0x0010 -#define SIG_CAP_SHORT_PREAMBLE 0x0020 -#define SIG_CAP_DSSSOFDM 0x2000 - -/******************************************************************************/ -/* FUNCTION DECLARATIONS */ -/******************************************************************************/ - -/****************************************************************************** - * SigGetNumDataRefs - Retrieve pointers to data-refs from a signal. - * - * PARAMETERS: - * aSignal - Pointer to signal to retrieve the data refs of. - * aDataRef - Address of a pointer to the structure that the data refs - * pointers will be stored. - * - * RETURNS: - * The number of data-refs in the signal. - */ -s32 SigGetDataRefs(CSR_SIGNAL *aSignal, CSR_DATAREF **aDataRef); - -/****************************************************************************** - * SigGetSize - Retrieve the size (in bytes) of a given signal. - * - * PARAMETERS: - * aSignal - Pointer to signal to retrieve size of. - * - * RETURNS: - * The size (in bytes) of the given signal. - */ -s32 SigGetSize(const CSR_SIGNAL *aSignal); - -#endif /* __CSR_WIFI_HIP_SIGNALS_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_sigs.h b/drivers/staging/csr/csr_wifi_hip_sigs.h deleted file mode 100644 index 6112cc3..0000000 --- a/drivers/staging/csr/csr_wifi_hip_sigs.h +++ /dev/null @@ -1,1417 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - - -/* Generated by hip_dd_l_h_gen.pl */ - -#ifndef CSR_WIFI_HIP_SIGS_H -#define CSR_WIFI_HIP_SIGS_H - -typedef s16 csr_place_holding_type; - -typedef u16 CSR_ASSOCIATION_ID; - -typedef u16 CSR_AUTONOMOUS_SCAN_ID; - -typedef u16 CSR_BEACON_PERIODS; - -typedef u16 CSR_BLACKOUT_ID; - -typedef enum CSR_BLACKOUT_SOURCE -{ - CSR_DOT11_LOCAL = 0x0000, - CSR_DOT11_REMOTE = 0x0001, - CSR_OTHER_RADIO = 0x0002, - CSR_NOT_LINKED = 0x0004 -} CSR_BLACKOUT_SOURCE; - -typedef enum CSR_BLACKOUT_TYPE -{ - CSR_LOCAL_DEVICE_ONLY = 0x0001, - CSR_SPECIFIED_PEER = 0x0002, - CSR_CURRENT_CHANNEL = 0x0004, - CSR_P2P = 0x0008 -} CSR_BLACKOUT_TYPE; - -typedef enum CSR_BOOT_LOADER_OPERATION -{ - CSR_BOOT_LOADER_IDLE = 0x00, - CSR_BOOT_LOADER_RESTART = 0x01, - CSR_BOOT_LOADER_PATCH = 0x02, - CSR_BOOT_LOADER_IMAGE_0 = 0x10, - CSR_BOOT_LOADER_IMAGE_1 = 0x11, - CSR_BOOT_LOADER_IMAGE_2 = 0x12, - CSR_BOOT_LOADER_IMAGE_3 = 0x13 -} CSR_BOOT_LOADER_OPERATION; - -typedef u16 CSR_CAPABILITY_INFORMATION; - -typedef u16 CSR_CHANNEL_STARTING_FACTOR; - -typedef u32 CSR_CIPHER_SUITE_SELECTOR; - -typedef u32 CSR_CLIENT_TAG; - -typedef enum CSR_CONNECTION_STATUS -{ - CSR_DISCONNECTED = 0x0000, - CSR_CONNECTED_AWAKE = 0x0001 -} CSR_CONNECTION_STATUS; - -typedef s16 CSR_DECIBELS; - -typedef enum CSR_DIRECTION -{ - CSR_TRANSMIT = 0x0000, - CSR_RECEIVE = 0x0001, - CSR_BIDIRECTIONAL = 0x0003 -} CSR_DIRECTION; - -typedef enum CSR_FRAME_TYPE -{ - CSR_RESERVED = 0x0000, - CSR_BEACON = 0x0001, - CSR_PROBE_RESPONSE = 0x0002, - CSR_BEACON_AND_PROBE_RESPONSE = 0x0003, - CSR_PROBE_REQUEST = 0x0004 -} CSR_FRAME_TYPE; - -typedef u32 CSR_IPV4_ADDRESS; - -typedef enum CSR_IFINTERFACE -{ - CSR_INDEX_2G4 = 0x0001, - CSR_INDEX_5G = 0x0002 -} CSR_IFINTERFACE; - -typedef enum CSR_KEY_TYPE -{ - CSR_GROUP = 0x0000, - CSR_PAIRWISE = 0x0001, - CSR_PEER_KEY = 0x0002, - CSR_IGTK = 0x0003 -} CSR_KEY_TYPE; - -typedef enum CSR_LOADER_OPERATION -{ - CSR_LOADER_IDLE = 0x0000, - CSR_LOADER_COPY = 0x0001 -} CSR_LOADER_OPERATION; - -typedef struct CSR_MAC_ADDRESS -{ - u8 x[6]; -} CSR_MACADDRESS; - -typedef enum CSR_MIB_STATUS -{ - CSR_MIB_SUCCESSFUL = 0x0000, - CSR_MIB_INVALID_PARAMETERS = 0x0001, - CSR_MIB_WRITE_ONLY = 0x0002, - CSR_MIB_READ_ONLY = 0x0003 -} CSR_MIB_STATUS; - -typedef enum CSR_MEMORY_SPACE -{ - CSR_NONE = 0x00, - CSR_SHARED_DATA_MEMORY = 0x01, - CSR_EXTERNAL_FLASH_MEMORY = 0x02, - CSR_EXTERNAL_SRAM = 0x03, - CSR_REGISTERS = 0x04, - CSR_PHY_PROCESSOR_DATA_MEMORY = 0x10, - CSR_PHY_PROCESSOR_PROGRAM_MEMORY = 0x11, - CSR_PHY_PROCESSOR_ROM = 0x12, - CSR_MAC_PROCESSOR_DATA_MEMORY = 0x20, - CSR_MAC_PROCESSOR_PROGRAM_MEMORY = 0x21, - CSR_MAC_PROCESSOR_ROM = 0x22, - CSR_BT_PROCESSOR_DATA_MEMORY = 0x30, - CSR_BT_PROCESSOR_PROGRAM_MEMORY = 0x31, - CSR_BT_PROCESSOR_ROM = 0x32 -} CSR_MEMORY_SPACE; - -typedef u16 CSR_MICROSECONDS16; - -typedef u32 CSR_MICROSECONDS32; - -typedef u16 CSR_NATURAL16; - -typedef enum CSR_PS_SCHEME -{ - CSR_LEGACY_PS = 0x0001, - CSR_U_APSD = 0x0002, - CSR_S_APSD = 0x0004 -} CSR_PS_SCHEME; - -typedef enum CSR_PACKET_FILTER_MODE -{ - CSR_PFM_OPT_OUT = 0x0000, - CSR_PFM_OPT_IN = 0x0003 -} CSR_PACKET_FILTER_MODE; - -typedef u16 CSR_PERIODIC_ID; - -typedef enum CSR_PERIODIC_SCHEDULING_MODE -{ - CSR_PSM_PERIODIC_SCHEDULE_PS_POLL = 0x0001, - CSR_PSM_PERIODIC_SCHEDULE_PM_BIT = 0x0002, - CSR_PSM_PERIODIC_SCHEDULE_UAPSD = 0x0004, - CSR_PSM_PERIODIC_SCHEDULE_SAPSD = 0x0008 -} CSR_PERIODIC_SCHEDULING_MODE; - -typedef enum CSR_POWER_MANAGEMENT_MODE -{ - CSR_PMM_ACTIVE_MODE = 0x0000, - CSR_PMM_POWER_SAVE = 0x0001, - CSR_PMM_FAST_POWER_SAVE = 0x0002 -} CSR_POWER_MANAGEMENT_MODE; - -typedef enum CSR_PRIORITY -{ - CSR_QOS_UP0 = 0x0000, - CSR_QOS_UP1 = 0x0001, - CSR_QOS_UP2 = 0x0002, - CSR_QOS_UP3 = 0x0003, - CSR_QOS_UP4 = 0x0004, - CSR_QOS_UP5 = 0x0005, - CSR_QOS_UP6 = 0x0006, - CSR_QOS_UP7 = 0x0007, - CSR_CONTENTION = 0x8000, - CSR_MANAGEMENT = 0x8010 -} CSR_PRIORITY; - -typedef enum CSR_REASON_CODE -{ - CSR_UNSPECIFIED_REASON = 0x0001, - CSR_INVALID_INFORMATION_ELEMENT = 0x000d, - CSR_QOS_UNSPECIFIED_REASON = 0x0020, - CSR_QOS_EXCESSIVE_NOT_ACK = 0x0022, - CSR_QOS_TXOP_LIMIT_EXCEEDED = 0x0023, - CSR_QSTA_LEAVING = 0x0024, - CSR_UNKNOWN_BA = 0x0026, - CSR_UNKNOWN_TS = 0x0026, - CSR_TIMEOUT = 0x0027 -} CSR_REASON_CODE; - -typedef enum CSR_RECEPTION_STATUS -{ - CSR_RX_SUCCESS = 0x0000, - CSR_RX_FAILURE_UNSPECIFIED = 0x0001, - CSR_MICHAEL_MIC_ERROR = 0x0002, - CSR_DECRYPTION_ERROR = 0x0003, - CSR_NO_TEMPORAL_KEY_AVAILABLE = 0x0004, - CSR_UNSUPPORTED_MODULATION = 0x0011, - CSR_BAD_FCS = 0x0012, - CSR_BAD_SIGNAL = 0x0013 -} CSR_RECEPTION_STATUS; - -typedef enum CSR_RESULT_CODE -{ - CSR_RC_SUCCESS = 0x0000, - CSR_RC_UNSPECIFIED_FAILURE = 0x0001, - CSR_RC_REFUSED = 0x0003, - CSR_RC_INVALID_PARAMETERS = 0x0026, - CSR_RC_REJECTED_INVALID_IE = 0x0028, - CSR_RC_REJECTED_INVALID_GROUP_CIPHER = 0x0029, - CSR_RC_REJECTED_INVALID_PAIRWISE_CIPHER = 0x002a, - CSR_RC_TIMEOUT = 0x8000, - CSR_RC_TOO_MANY_SIMULTANEOUS_REQUESTS = 0x8001, - CSR_RC_BSS_ALREADY_STARTED_OR_JOINED = 0x8002, - CSR_RC_NOT_SUPPORTED = 0x8003, - CSR_RC_TRANSMISSION_FAILURE = 0x8004, - CSR_RC_RESET_REQUIRED_BEFORE_START = 0x8006, - CSR_RC_INSUFFICIENT_RESOURCE = 0x8007, - CSR_RC_NO_BUFFERED_BROADCAST_MULTICAST_FRAMES = 0x8008, - CSR_RC_INVALID_UNICAST_CIPHER = 0xf02f, - CSR_RC_INVALID_MULTICAST_CIPHER = 0xf030 -} CSR_RESULT_CODE; - -typedef enum CSR_SCAN_TYPE -{ - CSR_SC_ACTIVE_SCAN = 0x0000, - CSR_SC_PASSIVE_SCAN = 0x0001 -} CSR_SCAN_TYPE; - -typedef enum CSR_SIGNAL_ID -{ - CSR_MA_PACKET_REQUEST_ID = 0x0110, - CSR_MA_PACKET_CONFIRM_ID = 0x0111, - CSR_MA_PACKET_INDICATION_ID = 0x0113, - CSR_MA_PACKET_CANCEL_REQUEST_ID = 0x0114, - CSR_MA_VIF_AVAILABILITY_RESPONSE_ID = 0x0116, - CSR_MA_VIF_AVAILABILITY_INDICATION_ID = 0x0117, - CSR_MA_PACKET_ERROR_INDICATION_ID = 0x011b, - CSR_MLME_RESET_REQUEST_ID = 0x0200, - CSR_MLME_RESET_CONFIRM_ID = 0x0201, - CSR_MLME_GET_REQUEST_ID = 0x0204, - CSR_MLME_GET_CONFIRM_ID = 0x0205, - CSR_MLME_SET_REQUEST_ID = 0x0208, - CSR_MLME_SET_CONFIRM_ID = 0x0209, - CSR_MLME_GET_NEXT_REQUEST_ID = 0x020c, - CSR_MLME_GET_NEXT_CONFIRM_ID = 0x020d, - CSR_MLME_POWERMGT_REQUEST_ID = 0x0210, - CSR_MLME_POWERMGT_CONFIRM_ID = 0x0211, - CSR_MLME_SCAN_REQUEST_ID = 0x0214, - CSR_MLME_SCAN_CONFIRM_ID = 0x0215, - CSR_MLME_HL_SYNC_REQUEST_ID = 0x0244, - CSR_MLME_HL_SYNC_CONFIRM_ID = 0x0245, - CSR_MLME_MEASURE_REQUEST_ID = 0x0258, - CSR_MLME_MEASURE_CONFIRM_ID = 0x0259, - CSR_MLME_MEASURE_INDICATION_ID = 0x025b, - CSR_MLME_SETKEYS_REQUEST_ID = 0x0268, - CSR_MLME_SETKEYS_CONFIRM_ID = 0x0269, - CSR_MLME_DELETEKEYS_REQUEST_ID = 0x026c, - CSR_MLME_DELETEKEYS_CONFIRM_ID = 0x026d, - CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION_ID = 0x0287, - CSR_MLME_CONNECTED_INDICATION_ID = 0x028b, - CSR_MLME_SCAN_CANCEL_REQUEST_ID = 0x028c, - CSR_MLME_HL_SYNC_CANCEL_REQUEST_ID = 0x0298, - CSR_MLME_HL_SYNC_CANCEL_CONFIRM_ID = 0x0299, - CSR_MLME_ADD_PERIODIC_REQUEST_ID = 0x02a0, - CSR_MLME_ADD_PERIODIC_CONFIRM_ID = 0x02a1, - CSR_MLME_DEL_PERIODIC_REQUEST_ID = 0x02a4, - CSR_MLME_DEL_PERIODIC_CONFIRM_ID = 0x02a5, - CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST_ID = 0x02a8, - CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM_ID = 0x02a9, - CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST_ID = 0x02ac, - CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM_ID = 0x02ad, - CSR_MLME_SET_PACKET_FILTER_REQUEST_ID = 0x02b8, - CSR_MLME_SET_PACKET_FILTER_CONFIRM_ID = 0x02b9, - CSR_MLME_STOP_MEASURE_REQUEST_ID = 0x02bc, - CSR_MLME_STOP_MEASURE_CONFIRM_ID = 0x02bd, - CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST_ID = 0x02cc, - CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM_ID = 0x02cd, - CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION_ID = 0x02db, - CSR_MLME_ADD_TRIGGERED_GET_REQUEST_ID = 0x02dc, - CSR_MLME_ADD_TRIGGERED_GET_CONFIRM_ID = 0x02dd, - CSR_MLME_DEL_TRIGGERED_GET_REQUEST_ID = 0x02e0, - CSR_MLME_DEL_TRIGGERED_GET_CONFIRM_ID = 0x02e1, - CSR_MLME_TRIGGERED_GET_INDICATION_ID = 0x02e7, - CSR_MLME_ADD_BLACKOUT_REQUEST_ID = 0x02f8, - CSR_MLME_ADD_BLACKOUT_CONFIRM_ID = 0x02f9, - CSR_MLME_BLACKOUT_ENDED_INDICATION_ID = 0x02fb, - CSR_MLME_DEL_BLACKOUT_REQUEST_ID = 0x02fc, - CSR_MLME_DEL_BLACKOUT_CONFIRM_ID = 0x02fd, - CSR_MLME_ADD_RX_TRIGGER_REQUEST_ID = 0x0304, - CSR_MLME_ADD_RX_TRIGGER_CONFIRM_ID = 0x0305, - CSR_MLME_DEL_RX_TRIGGER_REQUEST_ID = 0x0308, - CSR_MLME_DEL_RX_TRIGGER_CONFIRM_ID = 0x0309, - CSR_MLME_CONNECT_STATUS_REQUEST_ID = 0x0310, - CSR_MLME_CONNECT_STATUS_CONFIRM_ID = 0x0311, - CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST_ID = 0x0314, - CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM_ID = 0x0315, - CSR_MLME_ADD_TEMPLATE_REQUEST_ID = 0x0318, - CSR_MLME_ADD_TEMPLATE_CONFIRM_ID = 0x0319, - CSR_MLME_CONFIG_QUEUE_REQUEST_ID = 0x031c, - CSR_MLME_CONFIG_QUEUE_CONFIRM_ID = 0x031d, - CSR_MLME_ADD_TSPEC_REQUEST_ID = 0x0320, - CSR_MLME_ADD_TSPEC_CONFIRM_ID = 0x0321, - CSR_MLME_DEL_TSPEC_REQUEST_ID = 0x0324, - CSR_MLME_DEL_TSPEC_CONFIRM_ID = 0x0325, - CSR_MLME_START_AGGREGATION_REQUEST_ID = 0x0328, - CSR_MLME_START_AGGREGATION_CONFIRM_ID = 0x0329, - CSR_MLME_BLOCKACK_ERROR_INDICATION_ID = 0x032b, - CSR_MLME_STOP_AGGREGATION_REQUEST_ID = 0x032c, - CSR_MLME_STOP_AGGREGATION_CONFIRM_ID = 0x032d, - CSR_MLME_SM_START_REQUEST_ID = 0x0334, - CSR_MLME_SM_START_CONFIRM_ID = 0x0335, - CSR_MLME_LEAVE_REQUEST_ID = 0x0338, - CSR_MLME_LEAVE_CONFIRM_ID = 0x0339, - CSR_MLME_SET_TIM_REQUEST_ID = 0x033c, - CSR_MLME_SET_TIM_CONFIRM_ID = 0x033d, - CSR_MLME_GET_KEY_SEQUENCE_REQUEST_ID = 0x0340, - CSR_MLME_GET_KEY_SEQUENCE_CONFIRM_ID = 0x0341, - CSR_MLME_SET_CHANNEL_REQUEST_ID = 0x034c, - CSR_MLME_SET_CHANNEL_CONFIRM_ID = 0x034d, - CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST_ID = 0x040c, - CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM_ID = 0x040d, - CSR_DEBUG_STRING_INDICATION_ID = 0x0803, - CSR_DEBUG_WORD16_INDICATION_ID = 0x0807, - CSR_DEBUG_GENERIC_REQUEST_ID = 0x0808, - CSR_DEBUG_GENERIC_CONFIRM_ID = 0x0809, - CSR_DEBUG_GENERIC_INDICATION_ID = 0x080b -} CSR_SIGNAL_ID; - -typedef u16 CSR_SIMPLE_POINTER; - -typedef u16 CSR_STARTING_SEQUENCE_NUMBER; - -typedef enum CSR_SYMBOL_ID -{ - CSR_SLT_END = 0x0000, - CSR_SLT_PCI_SLOT_CONFIG = 0x0001, - CSR_SLT_SDIO_SLOT_CONFIG = 0x0002, - CSR_SLT_BUILD_ID_NUMBER = 0x0003, - CSR_SLT_BUILD_ID_STRING = 0x0004, - CSR_SLT_PERSISTENT_STORE_DB = 0x0005, - CSR_SLT_RESET_VECTOR_PHY = 0x0006, - CSR_SLT_RESET_VECTOR_MAC = 0x0007, - CSR_SLT_SDIO_LOADER_CONTROL = 0x0008, - CSR_SLT_TEST_CMD = 0x0009, - CSR_SLT_TEST_ALIVE_COUNTER = 0x000a, - CSR_SLT_TEST_PARAMETERS = 0x000b, - CSR_SLT_TEST_RESULTS = 0x000c, - CSR_SLT_TEST_VERSION = 0x000d, - CSR_SLT_MIB_PSID_RANGES = 0x000e, - CSR_SLT_KIP_TABLE = 0x000f, - CSR_SLT_PANIC_DATA_PHY = 0x0010, - CSR_SLT_PANIC_DATA_MAC = 0x0011, - CSR_SLT_BOOT_LOADER_CONTROL = 0x0012, - CSR_SLT_SOFT_MAC = 0x0013 -} CSR_SYMBOL_ID; - -typedef struct CSR_TSF_TIME -{ - u8 x[8]; -} CSR_TSF_TIME; - -typedef u16 CSR_TIME_UNITS; - -typedef enum CSR_TRANSMISSION_CONTROL -{ - CSR_TRIGGERED = 0x0001, - CSR_END_OF_SERVICE = 0x0002, - CSR_NO_CONFIRM_REQUIRED = 0x0004, - CSR_ALLOW_BA = 0x0008 -} CSR_TRANSMISSION_CONTROL; - -typedef enum CSR_TRANSMISSION_STATUS -{ - CSR_TX_SUCCESSFUL = 0x0000, - CSR_TX_RETRY_LIMIT = 0x0001, - CSR_TX_LIFETIME = 0x0002, - CSR_TX_NO_BSS = 0x0003, - CSR_TX_EXCESSIVE_DATA_LENGTH = 0x0004, - CSR_TX_UNSUPPORTED_PRIORITY = 0x0006, - CSR_TX_UNAVAILABLE_PRIORITY = 0x0007, - CSR_TX_UNAVAILABLE_KEY_MAPPING = 0x000a, - CSR_TX_EDCA_TIMEOUT = 0x000b, - CSR_TX_BLOCK_ACK_TIMEOUT = 0x000c, - CSR_TX_FAIL_TRANSMISSION_VIF_INTERRUPTED = 0x000d, - CSR_TX_REJECTED_PEER_STATION_SLEEPING = 0x000e, - CSR_TX_REJECTED_DTIM_ENDED = 0x000f, - CSR_TX_REJECTED_DTIM_STARTED = 0x0010 -} CSR_TRANSMISSION_STATUS; - -typedef u16 CSR_TRIGGER_ID; - -typedef u16 CSR_TRIGGERED_ID; - -typedef enum CSR_HIP_VERSIONS -{ - CSR_HIP_ENG_VERSION = 0x0001, - CSR_HIP_VERSION = 0x0900 -} CSR_HIP_VERSIONS; - -typedef u16 CSR_BUFFER_HANDLE; - -typedef u16 CSR_CHANNEL_NUMBER; - -typedef struct CSR_DATA_REFERENCE -{ - u16 SlotNumber; - u16 DataLength; -} CSR_DATAREF; - -typedef u16 CSR_DIALOG_TOKEN; - -typedef struct CSR_GENERIC_POINTER -{ - u32 MemoryOffset; - CSR_MEMORY_SPACE MemorySpace; -} CSR_GENERIC_POINTER; - -typedef struct CSR_MLME_CONFIG_QUEUE_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_CONFIG_QUEUE_CONFIRM; - -typedef struct CSR_MLME_CONFIG_QUEUE_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_NATURAL16 QueueIndex; - CSR_NATURAL16 Aifs; - CSR_NATURAL16 Cwmin; - CSR_NATURAL16 Cwmax; - CSR_NATURAL16 TxopLimit; -} CSR_MLME_CONFIG_QUEUE_REQUEST; - -typedef struct CSR_MLME_GET_CONFIRM -{ - CSR_DATAREF MibAttributeValue; - CSR_DATAREF Dummydataref2; - CSR_MIB_STATUS Status; - CSR_NATURAL16 ErrorIndex; -} CSR_MLME_GET_CONFIRM; - -typedef struct CSR_MLME_GET_REQUEST -{ - CSR_DATAREF MibAttribute; - CSR_DATAREF Dummydataref2; -} CSR_MLME_GET_REQUEST; - -typedef struct CSR_MLME_GET_NEXT_CONFIRM -{ - CSR_DATAREF MibAttributeValue; - CSR_DATAREF Dummydataref2; - CSR_MIB_STATUS Status; - CSR_NATURAL16 ErrorIndex; -} CSR_MLME_GET_NEXT_CONFIRM; - -typedef struct CSR_MLME_GET_NEXT_REQUEST -{ - CSR_DATAREF MibAttribute; - CSR_DATAREF Dummydataref2; -} CSR_MLME_GET_NEXT_REQUEST; - -typedef struct CSR_MLME_HL_SYNC_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_MACADDRESS GroupAddress; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_HL_SYNC_CONFIRM; - -typedef struct CSR_MLME_HL_SYNC_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_MACADDRESS GroupAddress; -} CSR_MLME_HL_SYNC_REQUEST; - -typedef struct CSR_MLME_HL_SYNC_CANCEL_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_HL_SYNC_CANCEL_CONFIRM; - -typedef struct CSR_MLME_HL_SYNC_CANCEL_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_MACADDRESS GroupAddress; -} CSR_MLME_HL_SYNC_CANCEL_REQUEST; - -typedef struct CSR_MLME_MEASURE_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_RESULT_CODE ResultCode; - CSR_DIALOG_TOKEN DialogToken; -} CSR_MLME_MEASURE_CONFIRM; - -typedef struct CSR_MLME_MEASURE_INDICATION -{ - CSR_DATAREF MeasurementReportSet; - CSR_DATAREF Dummydataref2; - CSR_DIALOG_TOKEN DialogToken; -} CSR_MLME_MEASURE_INDICATION; - -typedef struct CSR_MLME_MEASURE_REQUEST -{ - CSR_DATAREF MeasurementRequestSet; - CSR_DATAREF Dummydataref2; - CSR_DIALOG_TOKEN DialogToken; -} CSR_MLME_MEASURE_REQUEST; - -typedef struct CSR_MLME_RESET_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_RESET_CONFIRM; - -typedef struct CSR_MLME_RESET_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_MACADDRESS StaAddress; - s16 SetDefaultMib; -} CSR_MLME_RESET_REQUEST; - -typedef struct CSR_MLME_SET_CONFIRM -{ - CSR_DATAREF MibAttributeValue; - CSR_DATAREF Dummydataref2; - CSR_MIB_STATUS Status; - CSR_NATURAL16 ErrorIndex; -} CSR_MLME_SET_CONFIRM; - -typedef struct CSR_MLME_SET_REQUEST -{ - CSR_DATAREF MibAttributeValue; - CSR_DATAREF Dummydataref2; -} CSR_MLME_SET_REQUEST; - -typedef struct CSR_MLME_STOP_MEASURE_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_RESULT_CODE ResultCode; - CSR_DIALOG_TOKEN DialogToken; -} CSR_MLME_STOP_MEASURE_CONFIRM; - -typedef struct CSR_MLME_STOP_MEASURE_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_DIALOG_TOKEN DialogToken; -} CSR_MLME_STOP_MEASURE_REQUEST; - -typedef u16 CSR_PROCESS_ID; - -typedef u16 CSR_RATE; - -typedef u16 CSR_SEQUENCE_NUMBER; - -typedef struct CSR_SIGNAL_PRIMITIVE_HEADER -{ - s16 SignalId; - CSR_PROCESS_ID ReceiverProcessId; - CSR_PROCESS_ID SenderProcessId; -} CSR_SIGNAL_PRIMITIVE_HEADER; - -typedef u16 CSR_TRAFFIC_WINDOW; - -typedef u16 CSR_VIF_IDENTIFIER; - -typedef struct CSR_DEBUG_GENERIC_CONFIRM -{ - CSR_DATAREF DebugVariable; - CSR_DATAREF Dummydataref2; - CSR_NATURAL16 DebugWords[8]; -} CSR_DEBUG_GENERIC_CONFIRM; - -typedef struct CSR_DEBUG_GENERIC_INDICATION -{ - CSR_DATAREF DebugVariable; - CSR_DATAREF Dummydataref2; - CSR_NATURAL16 DebugWords[8]; -} CSR_DEBUG_GENERIC_INDICATION; - -typedef struct CSR_DEBUG_GENERIC_REQUEST -{ - CSR_DATAREF DebugVariable; - CSR_DATAREF Dummydataref2; - CSR_NATURAL16 DebugWords[8]; -} CSR_DEBUG_GENERIC_REQUEST; - -typedef struct CSR_DEBUG_STRING_INDICATION -{ - CSR_DATAREF DebugMessage; - CSR_DATAREF Dummydataref2; -} CSR_DEBUG_STRING_INDICATION; - -typedef struct CSR_DEBUG_WORD16_INDICATION -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_NATURAL16 DebugWords[16]; -} CSR_DEBUG_WORD16_INDICATION; - -typedef struct CSR_MA_PACKET_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TRANSMISSION_STATUS TransmissionStatus; - CSR_NATURAL16 RetryCount; - CSR_RATE Rate; - CSR_CLIENT_TAG HostTag; -} CSR_MA_PACKET_CONFIRM; - -typedef struct CSR_MA_PACKET_INDICATION -{ - CSR_DATAREF Data; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TSF_TIME LocalTime; - CSR_IFINTERFACE Ifindex; - CSR_CHANNEL_NUMBER Channel; - CSR_RECEPTION_STATUS ReceptionStatus; - CSR_DECIBELS Rssi; - CSR_DECIBELS Snr; - CSR_RATE ReceivedRate; -} CSR_MA_PACKET_INDICATION; - -typedef struct CSR_MA_PACKET_REQUEST -{ - CSR_DATAREF Data; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RATE TransmitRate; - CSR_CLIENT_TAG HostTag; - CSR_PRIORITY Priority; - CSR_MACADDRESS Ra; - CSR_TRANSMISSION_CONTROL TransmissionControl; -} CSR_MA_PACKET_REQUEST; - -typedef struct CSR_MA_PACKET_CANCEL_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_CLIENT_TAG HostTag; -} CSR_MA_PACKET_CANCEL_REQUEST; - -typedef struct CSR_MA_PACKET_ERROR_INDICATION -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_MACADDRESS PeerQstaAddress; - CSR_PRIORITY UserPriority; - CSR_SEQUENCE_NUMBER SequenceNumber; -} CSR_MA_PACKET_ERROR_INDICATION; - -typedef struct CSR_MA_VIF_AVAILABILITY_INDICATION -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - s16 Multicast; -} CSR_MA_VIF_AVAILABILITY_INDICATION; - -typedef struct CSR_MA_VIF_AVAILABILITY_RESPONSE -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MA_VIF_AVAILABILITY_RESPONSE; - -typedef struct CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; - CSR_AUTONOMOUS_SCAN_ID AutonomousScanId; -} CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM; - -typedef struct CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST -{ - CSR_DATAREF ChannelList; - CSR_DATAREF InformationElements; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_AUTONOMOUS_SCAN_ID AutonomousScanId; - CSR_IFINTERFACE Ifindex; - CSR_CHANNEL_STARTING_FACTOR ChannelStartingFactor; - CSR_SCAN_TYPE ScanType; - CSR_MICROSECONDS32 ProbeDelay; - CSR_TIME_UNITS MinChannelTime; - CSR_TIME_UNITS MaxChannelTime; -} CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST; - -typedef struct CSR_MLME_ADD_BLACKOUT_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_BLACKOUT_ID BlackoutId; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_ADD_BLACKOUT_CONFIRM; - -typedef struct CSR_MLME_ADD_BLACKOUT_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_BLACKOUT_ID BlackoutId; - CSR_BLACKOUT_TYPE BlackoutType; - CSR_BLACKOUT_SOURCE BlackoutSource; - CSR_MICROSECONDS32 BlackoutStartReference; - CSR_MICROSECONDS32 BlackoutPeriod; - CSR_MICROSECONDS32 BlackoutDuration; - CSR_MACADDRESS PeerStaAddress; - CSR_NATURAL16 BlackoutCount; -} CSR_MLME_ADD_BLACKOUT_REQUEST; - -typedef struct CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM; - -typedef struct CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST -{ - CSR_DATAREF Data; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_NATURAL16 NumberOfMulticastGroupAddresses; -} CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST; - -typedef struct CSR_MLME_ADD_PERIODIC_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PERIODIC_ID PeriodicId; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_ADD_PERIODIC_CONFIRM; - -typedef struct CSR_MLME_ADD_PERIODIC_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PERIODIC_ID PeriodicId; - CSR_MICROSECONDS32 MaximumLatency; - CSR_PERIODIC_SCHEDULING_MODE PeriodicSchedulingMode; - s16 WakeHost; - CSR_PRIORITY UserPriority; -} CSR_MLME_ADD_PERIODIC_REQUEST; - -typedef struct CSR_MLME_ADD_RX_TRIGGER_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TRIGGER_ID TriggerId; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_ADD_RX_TRIGGER_CONFIRM; - -typedef struct CSR_MLME_ADD_RX_TRIGGER_REQUEST -{ - CSR_DATAREF InformationElements; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TRIGGER_ID TriggerId; - CSR_PRIORITY Priority; -} CSR_MLME_ADD_RX_TRIGGER_REQUEST; - -typedef struct CSR_MLME_ADD_TEMPLATE_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_FRAME_TYPE FrameType; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_ADD_TEMPLATE_CONFIRM; - -typedef struct CSR_MLME_ADD_TEMPLATE_REQUEST -{ - CSR_DATAREF Data1; - CSR_DATAREF Data2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_FRAME_TYPE FrameType; - CSR_RATE MinTransmitRate; -} CSR_MLME_ADD_TEMPLATE_REQUEST; - -typedef struct CSR_MLME_ADD_TRIGGERED_GET_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; - CSR_TRIGGERED_ID TriggeredId; -} CSR_MLME_ADD_TRIGGERED_GET_CONFIRM; - -typedef struct CSR_MLME_ADD_TRIGGERED_GET_REQUEST -{ - CSR_DATAREF MibAttribute; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TRIGGERED_ID TriggeredId; -} CSR_MLME_ADD_TRIGGERED_GET_REQUEST; - -typedef struct CSR_MLME_ADD_TSPEC_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PRIORITY UserPriority; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_ADD_TSPEC_CONFIRM; - -typedef struct CSR_MLME_ADD_TSPEC_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PRIORITY UserPriority; - CSR_DIRECTION Direction; - CSR_PS_SCHEME PsScheme; - CSR_NATURAL16 MediumTime; - CSR_MICROSECONDS32 ServiceStartTime; - CSR_MICROSECONDS32 ServiceInterval; - CSR_RATE MinimumDataRate; -} CSR_MLME_ADD_TSPEC_REQUEST; - -typedef struct CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; - CSR_AUTONOMOUS_SCAN_ID AutonomousScanId; -} CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION; - -typedef struct CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_MACADDRESS Bssid; -} CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION; - -typedef struct CSR_MLME_BLACKOUT_ENDED_INDICATION -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_BLACKOUT_ID BlackoutId; -} CSR_MLME_BLACKOUT_ENDED_INDICATION; - -typedef struct CSR_MLME_BLOCKACK_ERROR_INDICATION -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_REASON_CODE ResultCode; - CSR_MACADDRESS PeerQstaAddress; -} CSR_MLME_BLOCKACK_ERROR_INDICATION; - -typedef struct CSR_MLME_CONNECTED_INDICATION -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_CONNECTION_STATUS ConnectionStatus; - CSR_MACADDRESS PeerMacAddress; -} CSR_MLME_CONNECTED_INDICATION; - -typedef struct CSR_MLME_CONNECT_STATUS_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_CONNECT_STATUS_CONFIRM; - -typedef struct CSR_MLME_CONNECT_STATUS_REQUEST -{ - CSR_DATAREF InformationElements; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_CONNECTION_STATUS ConnectionStatus; - CSR_MACADDRESS StaAddress; - CSR_ASSOCIATION_ID AssociationId; - CSR_CAPABILITY_INFORMATION AssociationCapabilityInformation; -} CSR_MLME_CONNECT_STATUS_REQUEST; - -typedef struct CSR_MLME_DELETEKEYS_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_DELETEKEYS_CONFIRM; - -typedef struct CSR_MLME_DELETEKEYS_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_NATURAL16 KeyId; - CSR_KEY_TYPE KeyType; - CSR_MACADDRESS Address; -} CSR_MLME_DELETEKEYS_REQUEST; - -typedef struct CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; - CSR_AUTONOMOUS_SCAN_ID AutonomousScanId; -} CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM; - -typedef struct CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_AUTONOMOUS_SCAN_ID AutonomousScanId; -} CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST; - -typedef struct CSR_MLME_DEL_BLACKOUT_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_BLACKOUT_ID BlackoutId; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_DEL_BLACKOUT_CONFIRM; - -typedef struct CSR_MLME_DEL_BLACKOUT_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_BLACKOUT_ID BlackoutId; -} CSR_MLME_DEL_BLACKOUT_REQUEST; - -typedef struct CSR_MLME_DEL_PERIODIC_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PERIODIC_ID PeriodicId; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_DEL_PERIODIC_CONFIRM; - -typedef struct CSR_MLME_DEL_PERIODIC_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PERIODIC_ID PeriodicId; -} CSR_MLME_DEL_PERIODIC_REQUEST; - -typedef struct CSR_MLME_DEL_RX_TRIGGER_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TRIGGER_ID TriggerId; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_DEL_RX_TRIGGER_CONFIRM; - -typedef struct CSR_MLME_DEL_RX_TRIGGER_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TRIGGER_ID TriggerId; -} CSR_MLME_DEL_RX_TRIGGER_REQUEST; - -typedef struct CSR_MLME_DEL_TRIGGERED_GET_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; - CSR_TRIGGERED_ID TriggeredId; -} CSR_MLME_DEL_TRIGGERED_GET_CONFIRM; - -typedef struct CSR_MLME_DEL_TRIGGERED_GET_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TRIGGERED_ID TriggeredId; -} CSR_MLME_DEL_TRIGGERED_GET_REQUEST; - -typedef struct CSR_MLME_DEL_TSPEC_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PRIORITY UserPriority; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_DEL_TSPEC_CONFIRM; - -typedef struct CSR_MLME_DEL_TSPEC_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PRIORITY UserPriority; - CSR_DIRECTION Direction; -} CSR_MLME_DEL_TSPEC_REQUEST; - -typedef struct CSR_MLME_GET_KEY_SEQUENCE_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; - CSR_NATURAL16 SequenceNumber[8]; -} CSR_MLME_GET_KEY_SEQUENCE_CONFIRM; - -typedef struct CSR_MLME_GET_KEY_SEQUENCE_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_NATURAL16 KeyId; - CSR_KEY_TYPE KeyType; - CSR_MACADDRESS Address; -} CSR_MLME_GET_KEY_SEQUENCE_REQUEST; - -typedef struct CSR_MLME_LEAVE_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_LEAVE_CONFIRM; - -typedef struct CSR_MLME_LEAVE_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; -} CSR_MLME_LEAVE_REQUEST; - -typedef struct CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM; - -typedef struct CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST -{ - CSR_DATAREF Data; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_TIME_UNITS BeaconPeriod; - CSR_BEACON_PERIODS DtimPeriod; - CSR_CAPABILITY_INFORMATION CapabilityInformation; - CSR_MACADDRESS Bssid; - CSR_NATURAL16 RtsThreshold; -} CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST; - -typedef struct CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; - CSR_AUTONOMOUS_SCAN_ID AutonomousScanId; -} CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM; - -typedef struct CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_AUTONOMOUS_SCAN_ID AutonomousScanId; - s16 Pause; -} CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST; - -typedef struct CSR_MLME_POWERMGT_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_POWERMGT_CONFIRM; - -typedef struct CSR_MLME_POWERMGT_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_POWER_MANAGEMENT_MODE PowerManagementMode; - s16 ReceiveDtims; - CSR_BEACON_PERIODS ListenInterval; - CSR_TRAFFIC_WINDOW TrafficWindow; -} CSR_MLME_POWERMGT_REQUEST; - -typedef struct CSR_MLME_SCAN_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_SCAN_CONFIRM; - -typedef struct CSR_MLME_SCAN_REQUEST -{ - CSR_DATAREF ChannelList; - CSR_DATAREF InformationElements; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_IFINTERFACE Ifindex; - CSR_SCAN_TYPE ScanType; - CSR_MICROSECONDS32 ProbeDelay; - CSR_TIME_UNITS MinChannelTime; - CSR_TIME_UNITS MaxChannelTime; -} CSR_MLME_SCAN_REQUEST; - -typedef struct CSR_MLME_SCAN_CANCEL_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; -} CSR_MLME_SCAN_CANCEL_REQUEST; - -typedef struct CSR_MLME_SETKEYS_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_SETKEYS_CONFIRM; - -typedef struct CSR_MLME_SETKEYS_REQUEST -{ - CSR_DATAREF Key; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_NATURAL16 Length; - CSR_NATURAL16 KeyId; - CSR_KEY_TYPE KeyType; - CSR_MACADDRESS Address; - CSR_NATURAL16 SequenceNumber[8]; - CSR_CIPHER_SUITE_SELECTOR CipherSuiteSelector; -} CSR_MLME_SETKEYS_REQUEST; - -typedef struct CSR_MLME_SET_CHANNEL_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_SET_CHANNEL_CONFIRM; - -typedef struct CSR_MLME_SET_CHANNEL_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_IFINTERFACE Ifindex; - CSR_CHANNEL_NUMBER Channel; - CSR_MACADDRESS Address; - CSR_TIME_UNITS AvailabilityDuration; - CSR_TIME_UNITS AvailabilityInterval; -} CSR_MLME_SET_CHANNEL_REQUEST; - -typedef struct CSR_MLME_SET_PACKET_FILTER_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_SET_PACKET_FILTER_CONFIRM; - -typedef struct CSR_MLME_SET_PACKET_FILTER_REQUEST -{ - CSR_DATAREF InformationElements; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_PACKET_FILTER_MODE PacketFilterMode; - CSR_IPV4_ADDRESS ArpFilterAddress; -} CSR_MLME_SET_PACKET_FILTER_REQUEST; - -typedef struct CSR_MLME_SET_TIM_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_SET_TIM_CONFIRM; - -typedef struct CSR_MLME_SET_TIM_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_ASSOCIATION_ID AssociationId; - s16 TimValue; -} CSR_MLME_SET_TIM_REQUEST; - -typedef struct CSR_MLME_SM_START_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_SM_START_CONFIRM; - -typedef struct CSR_MLME_SM_START_REQUEST -{ - CSR_DATAREF Beacon; - CSR_DATAREF BssParameters; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_IFINTERFACE Ifindex; - CSR_CHANNEL_NUMBER Channel; - CSR_MACADDRESS InterfaceAddress; - CSR_MACADDRESS Bssid; - CSR_TIME_UNITS BeaconPeriod; - CSR_BEACON_PERIODS DtimPeriod; - CSR_CAPABILITY_INFORMATION CapabilityInformation; -} CSR_MLME_SM_START_REQUEST; - -typedef struct CSR_MLME_START_AGGREGATION_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_MACADDRESS PeerQstaAddress; - CSR_PRIORITY UserPriority; - CSR_DIRECTION Direction; - CSR_RESULT_CODE ResultCode; - CSR_SEQUENCE_NUMBER SequenceNumber; -} CSR_MLME_START_AGGREGATION_CONFIRM; - -typedef struct CSR_MLME_START_AGGREGATION_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_MACADDRESS PeerQstaAddress; - CSR_PRIORITY UserPriority; - CSR_DIRECTION Direction; - CSR_STARTING_SEQUENCE_NUMBER StartingSequenceNumber; - CSR_NATURAL16 BufferSize; - CSR_TIME_UNITS BlockAckTimeout; -} CSR_MLME_START_AGGREGATION_REQUEST; - -typedef struct CSR_MLME_STOP_AGGREGATION_CONFIRM -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_MACADDRESS PeerQstaAddress; - CSR_PRIORITY UserPriority; - CSR_DIRECTION Direction; - CSR_RESULT_CODE ResultCode; -} CSR_MLME_STOP_AGGREGATION_CONFIRM; - -typedef struct CSR_MLME_STOP_AGGREGATION_REQUEST -{ - CSR_DATAREF Dummydataref1; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_MACADDRESS PeerQstaAddress; - CSR_PRIORITY UserPriority; - CSR_DIRECTION Direction; -} CSR_MLME_STOP_AGGREGATION_REQUEST; - -typedef struct CSR_MLME_TRIGGERED_GET_INDICATION -{ - CSR_DATAREF MibAttributeValue; - CSR_DATAREF Dummydataref2; - CSR_VIF_IDENTIFIER VirtualInterfaceIdentifier; - CSR_MIB_STATUS Status; - CSR_NATURAL16 ErrorIndex; - CSR_TRIGGERED_ID TriggeredId; -} CSR_MLME_TRIGGERED_GET_INDICATION; - -typedef struct CSR_SIGNAL_PRIMITIVE -{ - CSR_SIGNAL_PRIMITIVE_HEADER SignalPrimitiveHeader; - union - { - CSR_MA_PACKET_REQUEST MaPacketRequest; - CSR_MA_PACKET_CONFIRM MaPacketConfirm; - CSR_MA_PACKET_INDICATION MaPacketIndication; - CSR_MA_PACKET_CANCEL_REQUEST MaPacketCancelRequest; - CSR_MA_VIF_AVAILABILITY_RESPONSE MaVifAvailabilityResponse; - CSR_MA_VIF_AVAILABILITY_INDICATION MaVifAvailabilityIndication; - CSR_MA_PACKET_ERROR_INDICATION MaPacketErrorIndication; - CSR_MLME_RESET_REQUEST MlmeResetRequest; - CSR_MLME_RESET_CONFIRM MlmeResetConfirm; - CSR_MLME_GET_REQUEST MlmeGetRequest; - CSR_MLME_GET_CONFIRM MlmeGetConfirm; - CSR_MLME_SET_REQUEST MlmeSetRequest; - CSR_MLME_SET_CONFIRM MlmeSetConfirm; - CSR_MLME_GET_NEXT_REQUEST MlmeGetNextRequest; - CSR_MLME_GET_NEXT_CONFIRM MlmeGetNextConfirm; - CSR_MLME_POWERMGT_REQUEST MlmePowermgtRequest; - CSR_MLME_POWERMGT_CONFIRM MlmePowermgtConfirm; - CSR_MLME_SCAN_REQUEST MlmeScanRequest; - CSR_MLME_SCAN_CONFIRM MlmeScanConfirm; - CSR_MLME_HL_SYNC_REQUEST MlmeHlSyncRequest; - CSR_MLME_HL_SYNC_CONFIRM MlmeHlSyncConfirm; - CSR_MLME_MEASURE_REQUEST MlmeMeasureRequest; - CSR_MLME_MEASURE_CONFIRM MlmeMeasureConfirm; - CSR_MLME_MEASURE_INDICATION MlmeMeasureIndication; - CSR_MLME_SETKEYS_REQUEST MlmeSetkeysRequest; - CSR_MLME_SETKEYS_CONFIRM MlmeSetkeysConfirm; - CSR_MLME_DELETEKEYS_REQUEST MlmeDeletekeysRequest; - CSR_MLME_DELETEKEYS_CONFIRM MlmeDeletekeysConfirm; - CSR_MLME_AUTONOMOUS_SCAN_LOSS_INDICATION MlmeAutonomousScanLossIndication; - CSR_MLME_CONNECTED_INDICATION MlmeConnectedIndication; - CSR_MLME_SCAN_CANCEL_REQUEST MlmeScanCancelRequest; - CSR_MLME_HL_SYNC_CANCEL_REQUEST MlmeHlSyncCancelRequest; - CSR_MLME_HL_SYNC_CANCEL_CONFIRM MlmeHlSyncCancelConfirm; - CSR_MLME_ADD_PERIODIC_REQUEST MlmeAddPeriodicRequest; - CSR_MLME_ADD_PERIODIC_CONFIRM MlmeAddPeriodicConfirm; - CSR_MLME_DEL_PERIODIC_REQUEST MlmeDelPeriodicRequest; - CSR_MLME_DEL_PERIODIC_CONFIRM MlmeDelPeriodicConfirm; - CSR_MLME_ADD_AUTONOMOUS_SCAN_REQUEST MlmeAddAutonomousScanRequest; - CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM MlmeAddAutonomousScanConfirm; - CSR_MLME_DEL_AUTONOMOUS_SCAN_REQUEST MlmeDelAutonomousScanRequest; - CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM MlmeDelAutonomousScanConfirm; - CSR_MLME_SET_PACKET_FILTER_REQUEST MlmeSetPacketFilterRequest; - CSR_MLME_SET_PACKET_FILTER_CONFIRM MlmeSetPacketFilterConfirm; - CSR_MLME_STOP_MEASURE_REQUEST MlmeStopMeasureRequest; - CSR_MLME_STOP_MEASURE_CONFIRM MlmeStopMeasureConfirm; - CSR_MLME_PAUSE_AUTONOMOUS_SCAN_REQUEST MlmePauseAutonomousScanRequest; - CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM MlmePauseAutonomousScanConfirm; - CSR_MLME_AUTONOMOUS_SCAN_DONE_INDICATION MlmeAutonomousScanDoneIndication; - CSR_MLME_ADD_TRIGGERED_GET_REQUEST MlmeAddTriggeredGetRequest; - CSR_MLME_ADD_TRIGGERED_GET_CONFIRM MlmeAddTriggeredGetConfirm; - CSR_MLME_DEL_TRIGGERED_GET_REQUEST MlmeDelTriggeredGetRequest; - CSR_MLME_DEL_TRIGGERED_GET_CONFIRM MlmeDelTriggeredGetConfirm; - CSR_MLME_TRIGGERED_GET_INDICATION MlmeTriggeredGetIndication; - CSR_MLME_ADD_BLACKOUT_REQUEST MlmeAddBlackoutRequest; - CSR_MLME_ADD_BLACKOUT_CONFIRM MlmeAddBlackoutConfirm; - CSR_MLME_BLACKOUT_ENDED_INDICATION MlmeBlackoutEndedIndication; - CSR_MLME_DEL_BLACKOUT_REQUEST MlmeDelBlackoutRequest; - CSR_MLME_DEL_BLACKOUT_CONFIRM MlmeDelBlackoutConfirm; - CSR_MLME_ADD_RX_TRIGGER_REQUEST MlmeAddRxTriggerRequest; - CSR_MLME_ADD_RX_TRIGGER_CONFIRM MlmeAddRxTriggerConfirm; - CSR_MLME_DEL_RX_TRIGGER_REQUEST MlmeDelRxTriggerRequest; - CSR_MLME_DEL_RX_TRIGGER_CONFIRM MlmeDelRxTriggerConfirm; - CSR_MLME_CONNECT_STATUS_REQUEST MlmeConnectStatusRequest; - CSR_MLME_CONNECT_STATUS_CONFIRM MlmeConnectStatusConfirm; - CSR_MLME_MODIFY_BSS_PARAMETER_REQUEST MlmeModifyBssParameterRequest; - CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM MlmeModifyBssParameterConfirm; - CSR_MLME_ADD_TEMPLATE_REQUEST MlmeAddTemplateRequest; - CSR_MLME_ADD_TEMPLATE_CONFIRM MlmeAddTemplateConfirm; - CSR_MLME_CONFIG_QUEUE_REQUEST MlmeConfigQueueRequest; - CSR_MLME_CONFIG_QUEUE_CONFIRM MlmeConfigQueueConfirm; - CSR_MLME_ADD_TSPEC_REQUEST MlmeAddTspecRequest; - CSR_MLME_ADD_TSPEC_CONFIRM MlmeAddTspecConfirm; - CSR_MLME_DEL_TSPEC_REQUEST MlmeDelTspecRequest; - CSR_MLME_DEL_TSPEC_CONFIRM MlmeDelTspecConfirm; - CSR_MLME_START_AGGREGATION_REQUEST MlmeStartAggregationRequest; - CSR_MLME_START_AGGREGATION_CONFIRM MlmeStartAggregationConfirm; - CSR_MLME_BLOCKACK_ERROR_INDICATION MlmeBlockackErrorIndication; - CSR_MLME_STOP_AGGREGATION_REQUEST MlmeStopAggregationRequest; - CSR_MLME_STOP_AGGREGATION_CONFIRM MlmeStopAggregationConfirm; - CSR_MLME_SM_START_REQUEST MlmeSmStartRequest; - CSR_MLME_SM_START_CONFIRM MlmeSmStartConfirm; - CSR_MLME_LEAVE_REQUEST MlmeLeaveRequest; - CSR_MLME_LEAVE_CONFIRM MlmeLeaveConfirm; - CSR_MLME_SET_TIM_REQUEST MlmeSetTimRequest; - CSR_MLME_SET_TIM_CONFIRM MlmeSetTimConfirm; - CSR_MLME_GET_KEY_SEQUENCE_REQUEST MlmeGetKeySequenceRequest; - CSR_MLME_GET_KEY_SEQUENCE_CONFIRM MlmeGetKeySequenceConfirm; - CSR_MLME_SET_CHANNEL_REQUEST MlmeSetChannelRequest; - CSR_MLME_SET_CHANNEL_CONFIRM MlmeSetChannelConfirm; - CSR_MLME_ADD_MULTICAST_ADDRESS_REQUEST MlmeAddMulticastAddressRequest; - CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM MlmeAddMulticastAddressConfirm; - CSR_DEBUG_STRING_INDICATION DebugStringIndication; - CSR_DEBUG_WORD16_INDICATION DebugWord16Indication; - CSR_DEBUG_GENERIC_REQUEST DebugGenericRequest; - CSR_DEBUG_GENERIC_CONFIRM DebugGenericConfirm; - CSR_DEBUG_GENERIC_INDICATION DebugGenericIndication; - } u; -} CSR_SIGNAL; - -#define SIG_FILTER_SIZE 6 - -u32 SigGetFilterPos(u16 aSigID); - -#endif diff --git a/drivers/staging/csr/csr_wifi_hip_ta_sampling.c b/drivers/staging/csr/csr_wifi_hip_ta_sampling.c deleted file mode 100644 index f1df36a..0000000 --- a/drivers/staging/csr/csr_wifi_hip_ta_sampling.c +++ /dev/null @@ -1,541 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_ta_sampling.c - * - * PURPOSE: - * The traffic analysis sampling module. - * This gathers data which is sent to the SME and used to analyse - * the traffic behaviour. - * - * Provides: - * unifi_ta_sampling_init - Initialise the internal state - * unifi_ta_sample - Sampling function, call this for every data packet - * - * Calls these external functions which must be provided: - * unifi_ta_indicate_sampling - Pass sample data to the SME. - * unifi_ta_indicate_protocol - Report certain data packet types to the SME. - * --------------------------------------------------------------------------- - */ - -#include "csr_wifi_hip_card_sdio.h" - -/* Maximum number of Tx frames we store each CYCLE_1, for detecting period */ -#define TA_MAX_INTERVALS_IN_C1 100 - -/* Number of intervals in CYCLE_1 (one second), for detecting periodic */ -/* Must match size of unifi_TrafficStats.intervals - 1 */ -#define TA_INTERVALS_NUM 10 - -/* Step (in msecs) between intervals, for detecting periodic */ -/* We are only interested in periods up to 100ms, i.e. between beacons */ -/* This is correct for TA_INTERVALS_NUM=10 */ -#define TA_INTERVALS_STEP 10 - - -enum ta_frame_identity -{ - TA_FRAME_UNKNOWN, - TA_FRAME_ETHERNET_UNINTERESTING, - TA_FRAME_ETHERNET_INTERESTING -}; - - -#define TA_ETHERNET_TYPE_OFFSET 6 -#define TA_LLC_HEADER_SIZE 8 -#define TA_IP_TYPE_OFFSET 17 -#define TA_UDP_SOURCE_PORT_OFFSET 28 -#define TA_UDP_DEST_PORT_OFFSET (TA_UDP_SOURCE_PORT_OFFSET + 2) -#define TA_BOOTP_CLIENT_MAC_ADDR_OFFSET 64 -#define TA_DHCP_MESSAGE_TYPE_OFFSET 278 -#define TA_DHCP_MESSAGE_TYPE_ACK 0x05 -#define TA_PROTO_TYPE_IP 0x0800 -#define TA_PROTO_TYPE_EAP 0x888E -#define TA_PROTO_TYPE_WAI 0x8864 -#define TA_PROTO_TYPE_ARP 0x0806 -#define TA_IP_TYPE_TCP 0x06 -#define TA_IP_TYPE_UDP 0x11 -#define TA_UDP_PORT_BOOTPC 0x0044 -#define TA_UDP_PORT_BOOTPS 0x0043 -#define TA_EAPOL_TYPE_OFFSET 9 -#define TA_EAPOL_TYPE_START 0x01 - -#define snap_802_2 0xAAAA0300 -#define oui_rfc1042 0x00000000 -#define oui_8021h 0x0000f800 -static const u8 aironet_snap[5] = { 0x00, 0x40, 0x96, 0x00, 0x00 }; - - -/* - * --------------------------------------------------------------------------- - * ta_detect_protocol - * - * Internal only. - * Detects a specific protocol in a frame and indicates a TA event. - * - * Arguments: - * ta The pointer to the TA module. - * direction The direction of the frame (tx or rx). - * data Pointer to the structure that contains the data. - * - * Returns: - * None - * --------------------------------------------------------------------------- - */ -static enum ta_frame_identity ta_detect_protocol(card_t *card, CsrWifiRouterCtrlProtocolDirection direction, - const bulk_data_desc_t *data, - const u8 *saddr, - const u8 *sta_macaddr) -{ - ta_data_t *tad = &card->ta_sampling; - u16 proto; - u16 source_port, dest_port; - CsrWifiMacAddress srcAddress; - u32 snap_hdr, oui_hdr; - - if (data->data_length < TA_LLC_HEADER_SIZE) - { - return TA_FRAME_UNKNOWN; - } - - snap_hdr = (((u32)data->os_data_ptr[0]) << 24) | - (((u32)data->os_data_ptr[1]) << 16) | - (((u32)data->os_data_ptr[2]) << 8); - if (snap_hdr != snap_802_2) - { - return TA_FRAME_UNKNOWN; - } - - if (tad->packet_filter & CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_CUSTOM) - { - /* - * Here we would use the custom filter to detect interesting frames. - */ - } - - oui_hdr = (((u32)data->os_data_ptr[3]) << 24) | - (((u32)data->os_data_ptr[4]) << 16) | - (((u32)data->os_data_ptr[5]) << 8); - if ((oui_hdr == oui_rfc1042) || (oui_hdr == oui_8021h)) - { - proto = (data->os_data_ptr[TA_ETHERNET_TYPE_OFFSET] * 256) + - data->os_data_ptr[TA_ETHERNET_TYPE_OFFSET + 1]; - - /* The only interesting IP frames are the DHCP */ - if (proto == TA_PROTO_TYPE_IP) - { - if (data->data_length > TA_IP_TYPE_OFFSET) - { - if (tad->packet_filter & CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_CUSTOM) - { - ta_l4stats_t *ta_l4stats = &tad->ta_l4stats; - u8 l4proto = data->os_data_ptr[TA_IP_TYPE_OFFSET]; - - if (l4proto == TA_IP_TYPE_TCP) - { - if (direction == CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_TX) - { - ta_l4stats->txTcpBytesCount += data->data_length; - } - else - { - ta_l4stats->rxTcpBytesCount += data->data_length; - } - } - else if (l4proto == TA_IP_TYPE_UDP) - { - if (direction == CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_TX) - { - ta_l4stats->txUdpBytesCount += data->data_length; - } - else - { - ta_l4stats->rxUdpBytesCount += data->data_length; - } - } - } - - /* detect DHCP frames */ - if (tad->packet_filter & CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_DHCP) - { - /* DHCP frames are UDP frames with BOOTP ports */ - if (data->os_data_ptr[TA_IP_TYPE_OFFSET] == TA_IP_TYPE_UDP) - { - if (data->data_length > TA_UDP_DEST_PORT_OFFSET) - { - source_port = (data->os_data_ptr[TA_UDP_SOURCE_PORT_OFFSET] * 256) + - data->os_data_ptr[TA_UDP_SOURCE_PORT_OFFSET + 1]; - dest_port = (data->os_data_ptr[TA_UDP_DEST_PORT_OFFSET] * 256) + - data->os_data_ptr[TA_UDP_DEST_PORT_OFFSET + 1]; - - if (((source_port == TA_UDP_PORT_BOOTPC) && (dest_port == TA_UDP_PORT_BOOTPS)) || - ((source_port == TA_UDP_PORT_BOOTPS) && (dest_port == TA_UDP_PORT_BOOTPC))) - { - /* The DHCP should have at least a message type (request, ack, nack, etc) */ - if (data->data_length > TA_DHCP_MESSAGE_TYPE_OFFSET + 6) - { - UNIFI_MAC_ADDRESS_COPY(srcAddress.a, saddr); - - if (direction == CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_TX) - { - unifi_ta_indicate_protocol(card->ospriv, - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_DHCP, - direction, - &srcAddress); - return TA_FRAME_ETHERNET_UNINTERESTING; - } - - /* DHCPACK is a special indication */ - if (UNIFI_MAC_ADDRESS_CMP(data->os_data_ptr + TA_BOOTP_CLIENT_MAC_ADDR_OFFSET, sta_macaddr) == TRUE) - { - if (data->os_data_ptr[TA_DHCP_MESSAGE_TYPE_OFFSET] == TA_DHCP_MESSAGE_TYPE_ACK) - { - unifi_ta_indicate_protocol(card->ospriv, - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_DHCP_ACK, - direction, - &srcAddress); - } - else - { - unifi_ta_indicate_protocol(card->ospriv, - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_DHCP, - direction, - &srcAddress); - } - } - } - } - } - } - } - } - - return TA_FRAME_ETHERNET_INTERESTING; - } - - /* detect protocol type EAPOL or WAI (treated as equivalent here) */ - if (tad->packet_filter & CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_EAPOL) - { - if (TA_PROTO_TYPE_EAP == proto || TA_PROTO_TYPE_WAI == proto) - { - if ((TA_PROTO_TYPE_WAI == proto) || (direction != CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_TX) || - (data->os_data_ptr[TA_EAPOL_TYPE_OFFSET] == TA_EAPOL_TYPE_START)) - { - UNIFI_MAC_ADDRESS_COPY(srcAddress.a, saddr); - unifi_ta_indicate_protocol(card->ospriv, - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_EAPOL, - direction, &srcAddress); - } - return TA_FRAME_ETHERNET_UNINTERESTING; - } - } - - /* detect protocol type 0x0806 (ARP) */ - if (tad->packet_filter & CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_ARP) - { - if (proto == TA_PROTO_TYPE_ARP) - { - UNIFI_MAC_ADDRESS_COPY(srcAddress.a, saddr); - unifi_ta_indicate_protocol(card->ospriv, - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_ARP, - direction, &srcAddress); - return TA_FRAME_ETHERNET_UNINTERESTING; - } - } - - return TA_FRAME_ETHERNET_INTERESTING; - } - else if (tad->packet_filter & CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_AIRONET) - { - /* detect Aironet frames */ - if (!memcmp(data->os_data_ptr + 3, aironet_snap, 5)) - { - UNIFI_MAC_ADDRESS_COPY(srcAddress.a, saddr); - unifi_ta_indicate_protocol(card->ospriv, CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_AIRONET, - direction, &srcAddress); - } - } - - return TA_FRAME_ETHERNET_UNINTERESTING; -} /* ta_detect_protocol() */ - - -static void tas_reset_data(ta_data_t *tad) -{ - s16 i; - - for (i = 0; i < (TA_INTERVALS_NUM + 1); i++) - { - tad->stats.intervals[i] = 0; - } - - tad->stats.rxFramesNum = 0; - tad->stats.txFramesNum = 0; - tad->stats.rxBytesCount = 0; - tad->stats.txBytesCount = 0; - tad->stats.rxMeanRate = 0; - - tad->rx_sum_rate = 0; - - tad->ta_l4stats.rxTcpBytesCount = 0; - tad->ta_l4stats.txTcpBytesCount = 0; - tad->ta_l4stats.rxUdpBytesCount = 0; - tad->ta_l4stats.txUdpBytesCount = 0; -} /* tas_reset_data() */ - - -/* - * --------------------------------------------------------------------------- - * API. - * unifi_ta_sampling_init - * - * (Re)Initialise the Traffic Analysis sampling module. - * Resets the counters and timestamps. - * - * Arguments: - * tad Pointer to a ta_data_t structure containing the - * context for this device instance. - * drv_priv An opaque pointer that the TA sampling module will - * pass in call-outs. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void unifi_ta_sampling_init(card_t *card) -{ - (void)unifi_ta_configure(card, CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_RESET, NULL); - - card->ta_sampling.packet_filter = CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_NONE; - card->ta_sampling.traffic_type = CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_OCCASIONAL; -} /* unifi_ta_sampling_init() */ - - -/* - * --------------------------------------------------------------------------- - * API. - * unifi_ta_sample - * - * Sample a data frame for the TA module. - * This function stores all the useful information it can extract from - * the frame and detects any specific protocols. - * - * Arguments: - * tad The pointer to the TA sampling context struct. - * direction The direction of the frame (rx, tx) - * data Pointer to the frame data - * saddr Source MAC address of frame. - * timestamp Time (in msecs) that the frame was received. - * rate Reported data rate for the rx frame (0 for tx frames) - * - * Returns: - * None - * --------------------------------------------------------------------------- - */ -void unifi_ta_sample(card_t *card, - CsrWifiRouterCtrlProtocolDirection direction, - const bulk_data_desc_t *data, - const u8 *saddr, - const u8 *sta_macaddr, - u32 timestamp, - u16 rate) -{ - ta_data_t *tad = &card->ta_sampling; - enum ta_frame_identity identity; - u32 time_delta; - - - - /* Step1: Check for specific frames */ - if (tad->packet_filter != CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_NONE) - { - identity = ta_detect_protocol(card, direction, data, saddr, sta_macaddr); - } - else - { - identity = TA_FRAME_ETHERNET_INTERESTING; - } - - - /* Step2: Update the information in the current record */ - if (direction == CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_RX) - { - /* Update the Rx packet count and the throughput count */ - tad->stats.rxFramesNum++; - tad->stats.rxBytesCount += data->data_length; - - /* Accumulate packet Rx rates for later averaging */ - tad->rx_sum_rate += rate; - } - else - { - if (identity == TA_FRAME_ETHERNET_INTERESTING) - { - /* - * Store the period between the last and the current frame. - * There is not point storing more than TA_MAX_INTERVALS_IN_C1 periods, - * the traffic will be bursty or continuous. - */ - if (tad->stats.txFramesNum < TA_MAX_INTERVALS_IN_C1) - { - u32 interval; - u32 index_in_intervals; - - interval = timestamp - tad->tx_last_ts; - tad->tx_last_ts = timestamp; - index_in_intervals = (interval + TA_INTERVALS_STEP / 2 - 1) / TA_INTERVALS_STEP; - - /* If the interval is interesting, update the t1_intervals count */ - if (index_in_intervals <= TA_INTERVALS_NUM) - { - unifi_trace(card->ospriv, UDBG5, - "unifi_ta_sample: TX interval=%d index=%d\n", - interval, index_in_intervals); - tad->stats.intervals[index_in_intervals]++; - } - } - } - - /* Update the Tx packet count... */ - tad->stats.txFramesNum++; - /* ... and the number of bytes for throughput. */ - tad->stats.txBytesCount += data->data_length; - } - - /* - * If more than one second has elapsed since the last report, send - * another one. - */ - /* Unsigned subtraction handles wrap-around from 0xFFFFFFFF to 0 */ - time_delta = timestamp - tad->last_indication_time; - if (time_delta >= 1000) - { - /* - * rxFramesNum can be flashed in tas_reset_data() by another thread. - * Use a temp to avoid division by zero. - */ - u32 temp_rxFramesNum; - temp_rxFramesNum = tad->stats.rxFramesNum; - - /* Calculate this interval's mean frame Rx rate from the sum */ - if (temp_rxFramesNum) - { - tad->stats.rxMeanRate = tad->rx_sum_rate / temp_rxFramesNum; - } - unifi_trace(card->ospriv, UDBG5, - "unifi_ta_sample: RX fr=%lu, r=%u, sum=%lu, av=%lu\n", - tad->stats.rxFramesNum, rate, - tad->rx_sum_rate, tad->stats.rxMeanRate); - - /* - * Send the information collected in the stats struct - * to the SME and reset the counters. - */ - if (tad->packet_filter & CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_CUSTOM) - { - u32 rxTcpThroughput = tad->ta_l4stats.rxTcpBytesCount / time_delta; - u32 txTcpThroughput = tad->ta_l4stats.txTcpBytesCount / time_delta; - u32 rxUdpThroughput = tad->ta_l4stats.rxUdpBytesCount / time_delta; - u32 txUdpThroughput = tad->ta_l4stats.txUdpBytesCount / time_delta; - - unifi_ta_indicate_l4stats(card->ospriv, - rxTcpThroughput, - txTcpThroughput, - rxUdpThroughput, - txUdpThroughput - ); - } - unifi_ta_indicate_sampling(card->ospriv, &tad->stats); - tas_reset_data(tad); - tad->last_indication_time = timestamp; - } -} /* unifi_ta_sample() */ - - -/* - * --------------------------------------------------------------------------- - * External API. - * unifi_ta_configure - * - * Configures the TA module parameters. - * - * Arguments: - * ta The pointer to the TA module. - * config_type The type of the configuration request - * config Pointer to the configuration parameters. - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code otherwise - * --------------------------------------------------------------------------- - */ -CsrResult unifi_ta_configure(card_t *card, - CsrWifiRouterCtrlTrafficConfigType config_type, - const CsrWifiRouterCtrlTrafficConfig *config) -{ - ta_data_t *tad = &card->ta_sampling; - - /* Reinitialise our data when we are reset */ - if (config_type == CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_RESET) - { - /* Reset the stats to zero */ - tas_reset_data(tad); - - /* Reset the timer variables */ - tad->tx_last_ts = 0; - tad->last_indication_time = 0; - - return CSR_RESULT_SUCCESS; - } - - if (config_type == CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_FILTER) - { - tad->packet_filter = config->packetFilter; - - if (tad->packet_filter & CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_CUSTOM) - { - tad->custom_filter = config->customFilter; - } - - return CSR_RESULT_SUCCESS; - } - - return CSR_RESULT_SUCCESS; -} /* unifi_ta_configure() */ - - -/* - * --------------------------------------------------------------------------- - * External API. - * unifi_ta_classification - * - * Configures the current TA classification. - * - * Arguments: - * ta The pointer to the TA module. - * traffic_type The classification type - * period The traffic period if the type is periodic - * - * Returns: - * None - * --------------------------------------------------------------------------- - */ -void unifi_ta_classification(card_t *card, - CsrWifiRouterCtrlTrafficType traffic_type, - u16 period) -{ - unifi_trace(card->ospriv, UDBG3, - "Changed current ta classification to: %d\n", traffic_type); - - card->ta_sampling.traffic_type = traffic_type; -} - - diff --git a/drivers/staging/csr/csr_wifi_hip_ta_sampling.h b/drivers/staging/csr/csr_wifi_hip_ta_sampling.h deleted file mode 100644 index aa684c6..0000000 --- a/drivers/staging/csr/csr_wifi_hip_ta_sampling.h +++ /dev/null @@ -1,66 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_ta_sampling.h - * - * PURPOSE: - * This file contains Traffic Analysis definitions common to the - * sampling and analysis modules. - * - * --------------------------------------------------------------------------- - */ -#ifndef __TA_SAMPLING_H__ -#define __TA_SAMPLING_H__ - -#include "csr_wifi_hip_unifi.h" - -typedef struct ta_l4stats -{ - u32 rxTcpBytesCount; - u32 txTcpBytesCount; - u32 rxUdpBytesCount; - u32 txUdpBytesCount; -} ta_l4stats_t; - -/* - * Context structure to preserve state between calls. - */ - -typedef struct ta_data -{ - /* Current packet filter configuration */ - u16 packet_filter; - - /* Current packet custom filter configuration */ - CsrWifiRouterCtrlTrafficFilter custom_filter; - - /* The timestamp of the last tx packet processed. */ - u32 tx_last_ts; - - /* The timestamp of the last packet processed. */ - u32 last_indication_time; - - /* Statistics */ - CsrWifiRouterCtrlTrafficStats stats; - - /* Current traffic classification */ - CsrWifiRouterCtrlTrafficType traffic_type; - - /* Sum of packet rx rates for this interval used to calculate mean */ - u32 rx_sum_rate; - ta_l4stats_t ta_l4stats; -} ta_data_t; - - -void unifi_ta_sampling_init(card_t *card); - -#endif /* __TA_SAMPLING_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_udi.c b/drivers/staging/csr/csr_wifi_hip_udi.c deleted file mode 100644 index a6b006b..0000000 --- a/drivers/staging/csr/csr_wifi_hip_udi.c +++ /dev/null @@ -1,173 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_card_udi.c - * - * PURPOSE: - * Maintain a list of callbacks to log UniFi exchanges to one or more - * debug/monitoring client applications. - * - * NOTES: - * Just call the UDI driver log fn directly for now. - * When done properly, each open() on the UDI device will install - * a log function. We will call all log fns whenever a signal is written - * to or read form the UniFi. - * - * --------------------------------------------------------------------------- - */ -#include <linux/seq_file.h> -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_card.h" - - -static void unifi_print_unsafe_sdio_status(card_t *card, struct seq_file *m) -{ -#ifdef CSR_UNSAFE_SDIO_ACCESS - s32 iostate; - CsrResult r; - static const char *const states[] = { - "AWAKE", "DROWSY", "TORPID" - }; -#define SHARED_READ_RETRY_LIMIT 10 - u8 b; - - seq_printf(m, "Host State: %s\n", states[card->host_state]); - - r = unifi_check_io_status(card, &iostate); - if (iostate == 1) { - seq_puts(m, remaining, "I/O Check: F1 disabled\n"); - } else { - if (iostate == 1) { - seq_puts(m, "I/O Check: pending interrupt\n"); - - seq_printf(m, "BH reason interrupt = %d\n", card->bh_reason_unifi); - seq_printf(m, "BH reason host = %d\n", card->bh_reason_host); - - for (i = 0; i < SHARED_READ_RETRY_LIMIT; i++) { - r = unifi_read_8_or_16(card, card->sdio_ctrl_addr + 2, &b); - if (r == CSR_RESULT_SUCCESS && !(b & 0x80)) { - seq_printf(m, "fhsr: %u (driver thinks is %u)\n", - b, card->from_host_signals_r); - break; - } - } - - iostate = unifi_read_shared_count(card, card->sdio_ctrl_addr + 4); - seq_printf(m, "thsw: %u (driver thinks is %u)\n", - iostate, card->to_host_signals_w); - } -#endif -} - -/* - * --------------------------------------------------------------------------- - * unifi_print_status - * - * Print status info to given character buffer. - * - * Arguments: - * None. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -s32 unifi_print_status(card_t *card, struct seq_file *m) -{ - sdio_config_data_t *cfg; - u16 i, n; - - i = n = 0; - seq_printf(m, "Chip ID %u\n", card->chip_id); - seq_printf(m, "Chip Version %04X\n", card->chip_version); - seq_printf(m, "HIP v%u.%u\n", - (card->config_data.version >> 8) & 0xFF, - card->config_data.version & 0xFF); - seq_printf(m, "Build %u: %s\n", card->build_id, card->build_id_string); - - cfg = &card->config_data; - - seq_printf(m, "sdio ctrl offset %u\n", cfg->sdio_ctrl_offset); - seq_printf(m, "fromhost sigbuf handle %u\n", cfg->fromhost_sigbuf_handle); - seq_printf(m, "tohost_sigbuf_handle %u\n", cfg->tohost_sigbuf_handle); - seq_printf(m, "num_fromhost_sig_frags %u\n", cfg->num_fromhost_sig_frags); - seq_printf(m, "num_tohost_sig_frags %u\n", cfg->num_tohost_sig_frags); - seq_printf(m, "num_fromhost_data_slots %u\n", cfg->num_fromhost_data_slots); - seq_printf(m, "num_tohost_data_slots %u\n", cfg->num_tohost_data_slots); - seq_printf(m, "data_slot_size %u\n", cfg->data_slot_size); - - /* Added by protocol version 0x0001 */ - seq_printf(m, "overlay_size %u\n", cfg->overlay_size); - - /* Added by protocol version 0x0300 */ - seq_printf(m, "data_slot_round %u\n", cfg->data_slot_round); - seq_printf(m, "sig_frag_size %u\n", cfg->sig_frag_size); - - /* Added by protocol version 0x0300 */ - seq_printf(m, "tohost_sig_pad %u\n", cfg->tohost_signal_padding); - - seq_puts(m, "\nInternal state:\n"); - - seq_printf(m, "Last PHY PANIC: %04x:%04x\n", - card->last_phy_panic_code, card->last_phy_panic_arg); - seq_printf(m, "Last MAC PANIC: %04x:%04x\n", - card->last_mac_panic_code, card->last_mac_panic_arg); - - seq_printf(m, "fhsr: %hu\n", (u16)card->from_host_signals_r); - seq_printf(m, "fhsw: %hu\n", (u16)card->from_host_signals_w); - seq_printf(m, "thsr: %hu\n", (u16)card->to_host_signals_r); - seq_printf(m, "thsw: %hu\n", (u16)card->to_host_signals_w); - seq_printf(m, "fh buffer contains: %d signals, %td bytes\n", - card->fh_buffer.count, - card->fh_buffer.ptr - card->fh_buffer.buf); - - seq_puts(m, "paused: "); - for (i = 0; i < ARRAY_SIZE(card->tx_q_paused_flag); i++) - seq_printf(m, card->tx_q_paused_flag[i] ? "1" : "0"); - seq_putc(m, '\n'); - - seq_printf(m, "fh command q: %u waiting, %u free of %u:\n", - CSR_WIFI_HIP_Q_SLOTS_USED(&card->fh_command_queue), - CSR_WIFI_HIP_Q_SLOTS_FREE(&card->fh_command_queue), - UNIFI_SOFT_COMMAND_Q_LENGTH); - - for (i = 0; i < UNIFI_NO_OF_TX_QS; i++) - seq_printf(m, "fh traffic q[%u]: %u waiting, %u free of %u:\n", - i, - CSR_WIFI_HIP_Q_SLOTS_USED(&card->fh_traffic_queue[i]), - CSR_WIFI_HIP_Q_SLOTS_FREE(&card->fh_traffic_queue[i]), - UNIFI_SOFT_TRAFFIC_Q_LENGTH); - - seq_printf(m, "fh data slots free: %u\n", - card->from_host_data ? CardGetFreeFromHostDataSlots(card) : 0); - - seq_puts(m, "From host data slots:"); - n = card->config_data.num_fromhost_data_slots; - for (i = 0; i < n && card->from_host_data; i++) - seq_printf(m, " %hu", (u16)card->from_host_data[i].bd.data_length); - seq_putc(m, '\n'); - - seq_puts(m, "To host data slots:"); - n = card->config_data.num_tohost_data_slots; - for (i = 0; i < n && card->to_host_data; i++) - seq_printf(m, " %hu", (u16)card->to_host_data[i].data_length); - seq_putc(m, '\n'); - - unifi_print_unsafe_sdio_status(card, m); - - seq_puts(m, "\nStats:\n"); - seq_printf(m, "Total SDIO bytes: R=%u W=%u\n", - card->sdio_bytes_read, card->sdio_bytes_written); - - seq_printf(m, "Interrupts generated on card: %u\n", card->unifi_interrupt_seq); - return 0; -} diff --git a/drivers/staging/csr/csr_wifi_hip_unifi.h b/drivers/staging/csr/csr_wifi_hip_unifi.h deleted file mode 100644 index 1160a0e..0000000 --- a/drivers/staging/csr/csr_wifi_hip_unifi.h +++ /dev/null @@ -1,871 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * - * FILE : csr_wifi_hip_unifi.h - * - * PURPOSE : Public API for the UniFi HIP core library. - * - * --------------------------------------------------------------------------- - */ -#ifndef __CSR_WIFI_HIP_UNIFI_H__ -#define __CSR_WIFI_HIP_UNIFI_H__ 1 - -#ifndef CSR_WIFI_HIP_TA_DISABLE -#include "csr_wifi_router_ctrl_prim.h" -#include "csr_wifi_router_prim.h" -#else -#include "csr_time.h" -#endif - -/* SDIO chip ID numbers */ - -/* Manufacturer id */ -#define SDIO_MANF_ID_CSR 0x032a - -/* Device id */ -#define SDIO_CARD_ID_UNIFI_1 0x0001 -#define SDIO_CARD_ID_UNIFI_2 0x0002 -#define SDIO_CARD_ID_UNIFI_3 0x0007 -#define SDIO_CARD_ID_UNIFI_4 0x0008 - -/* Function number for WLAN */ -#define SDIO_WLAN_FUNC_ID_UNIFI_1 0x0001 -#define SDIO_WLAN_FUNC_ID_UNIFI_2 0x0001 -#define SDIO_WLAN_FUNC_ID_UNIFI_3 0x0001 -#define SDIO_WLAN_FUNC_ID_UNIFI_4 0x0002 - -/* Maximum SDIO bus clock supported. */ -#define UNIFI_SDIO_CLOCK_MAX_HZ 50000000 /* Hz */ - -/* - * Initialisation SDIO bus clock. - * - * The initialisation clock speed should be used from when the chip has been - * reset until the first MLME-reset has been received (i.e. during firmware - * initialisation), unless UNIFI_SDIO_CLOCK_SAFE_HZ applies. - */ -#define UNIFI_SDIO_CLOCK_INIT_HZ 12500000 /* Hz */ - -/* - * Safe SDIO bus clock. - * - * The safe speed should be used when the chip is in deep sleep or - * it's state is unknown (just after reset / power on). - */ -#define UNIFI_SDIO_CLOCK_SAFE_HZ 1000000 /* Hz */ - -/* I/O default block size to use for UniFi. */ -#define UNIFI_IO_BLOCK_SIZE 64 - -#define UNIFI_WOL_OFF 0 -#define UNIFI_WOL_SDIO 1 -#define UNIFI_WOL_PIO 2 - -/* The number of Tx traffic queues */ -#define UNIFI_NO_OF_TX_QS 4 - -#define CSR_WIFI_HIP_RESERVED_HOST_TAG 0xFFFFFFFF - -/* - * The number of slots in the from-host queues. - * - * UNIFI_SOFT_TRAFFIC_Q_LENGTH is the number of slots in the traffic queues - * and there will be UNIFI_NO_OF_TX_QS of them. - * Traffic queues are used for data packets. - * - * UNIFI_SOFT_COMMAND_Q_LENGTH is the number of slots in the command queue. - * The command queue is used for MLME management requests. - * - * Queues are ring buffers and so must always have 1 unused slot. - */ -#define UNIFI_SOFT_TRAFFIC_Q_LENGTH (20 + 1) -#define UNIFI_SOFT_COMMAND_Q_LENGTH (16 + 1) - -#include "csr_framework_ext.h" /* from the synergy porting folder */ -#include "csr_sdio.h" /* from the synergy porting folder */ -#include "csr_macro.h" /* from the synergy porting folder */ -#include "csr_wifi_result.h" - -/* Utility MACROS. Note that UNIFI_MAC_ADDRESS_CMP returns TRUE on success */ -#define UNIFI_MAC_ADDRESS_COPY(dst, src) \ - do { (dst)[0] = (src)[0]; (dst)[1] = (src)[1]; \ - (dst)[2] = (src)[2]; (dst)[3] = (src)[3]; \ - (dst)[4] = (src)[4]; (dst)[5] = (src)[5]; \ - } while (0) - -#define UNIFI_MAC_ADDRESS_CMP(addr1, addr2) \ - (((addr1)[0] == (addr2)[0]) && ((addr1)[1] == (addr2)[1]) && \ - ((addr1)[2] == (addr2)[2]) && ((addr1)[3] == (addr2)[3]) && \ - ((addr1)[4] == (addr2)[4]) && ((addr1)[5] == (addr2)[5])) - -/* Traffic queue ordered according to priority - * EAPOL/Uncontrolled port Queue should be the last - */ -typedef enum -{ - UNIFI_TRAFFIC_Q_BK = 0, - UNIFI_TRAFFIC_Q_BE, - UNIFI_TRAFFIC_Q_VI, - UNIFI_TRAFFIC_Q_VO, - UNIFI_TRAFFIC_Q_EAPOL, /* Non existent in HIP */ - UNIFI_TRAFFIC_Q_MAX, /* Non existent */ - UNIFI_TRAFFIC_Q_MLME /* Non existent */ -} unifi_TrafficQueue; - -/* - * Structure describing a bulk data slot. - * This structure is shared between the HIP core library and the OS - * layer. See the definition of unifi_net_data_malloc() for more details. - * - * The data_length field is used to indicate empty/occupied state. - * Needs to be defined before #include "unifi_os.h". - */ -typedef struct _bulk_data_desc -{ - const u8 *os_data_ptr; - u32 data_length; - const void *os_net_buf_ptr; - u32 net_buf_length; -} bulk_data_desc_t; - -/* Structure of an entry in the Symbol Look Up Table (SLUT). */ -typedef struct _symbol -{ - u16 id; - u32 obj; -} symbol_t; - -/* - * Header files need to be included from the current directory, - * the SME library, the synergy framework and the OS layer. - * A thin OS layer needs to be implemented in the porting exercise. - * - * Note that unifi_os.h should be included only in unifi.h - */ - -#include "unifi_os.h" - -/* - * Contains the HIP core definitions selected in the porting exercise, such as - * UNIFI_PAD_BULK_DATA_TO_BLOCK_SIZE and UNIFI_PAD_SIGNALS_TO_BLOCK_SIZE. - * Implemented in the OS layer, as part of the porting exersice. - */ -#include "unifi_config.h" - -#include "csr_wifi_hip_signals.h" /* from this dir */ - -/* - * The card structure is an opaque pointer that is used to pass context - * to the upper-edge API functions. - */ -typedef struct card card_t; - - -/* - * This structure describes all of the bulk data that 'might' be - * associated with a signal. - */ -typedef struct _bulk_data_param -{ - bulk_data_desc_t d[UNIFI_MAX_DATA_REFERENCES]; -} bulk_data_param_t; - - -/* - * This structure describes the chip and HIP core lib - * information that exposed to the OS layer. - */ -typedef struct _card_info -{ - u16 chip_id; - u16 chip_version; - u32 fw_build; - u16 fw_hip_version; - u32 sdio_block_size; -} card_info_t; - - -/* - * Mini-coredump definitions - */ -/* Definition of XAP memory ranges used by the mini-coredump system. - * Note that, these values are NOT the same as UNIFI_REGISTERS, etc - * in unifihw.h which don't allow selection of register areas for each XAP. - */ -typedef enum unifi_coredump_space -{ - UNIFI_COREDUMP_MAC_REG, - UNIFI_COREDUMP_PHY_REG, - UNIFI_COREDUMP_SH_DMEM, - UNIFI_COREDUMP_MAC_DMEM, - UNIFI_COREDUMP_PHY_DMEM, - UNIFI_COREDUMP_TRIGGER_MAGIC = 0xFEED -} unifi_coredump_space_t; - -/* Structure used to request a register value from a mini-coredump buffer */ -typedef struct unifi_coredump_req -{ - /* From user */ - s32 index; /* 0=newest, -1=oldest */ - unifi_coredump_space_t space; /* memory space */ - u32 offset; /* register offset in space */ - /* From driver */ - u32 drv_build; /* Driver build id */ - u32 chip_ver; /* Chip version */ - u32 fw_ver; /* Firmware version */ - s32 requestor; /* Requestor: 0=auto dump, 1=manual */ - u32 timestamp; /* time of capture by driver */ - u32 serial; /* capture serial number */ - s32 value; /* register value */ -} unifi_coredump_req_t; /* mini-coredumped reg value request */ - - -/** - * @defgroup upperedge Upper edge API - * - * The following functions are implemented in the HIP core lib. - */ - -/** - * - * Initialise the HIP core lib. - * Note that the OS layer must initialise the SDIO glue layer and obtain - * an SDIO function context, prior to this call. - * - * @param sdiopriv the SDIO function context. - * - * @param ospriv the OS layer context. - * - * @return \p card_t the HIP core lib API context. - * - * @ingroup upperedge - */ -card_t* unifi_alloc_card(CsrSdioFunction *sdiopriv, void *ospriv); - - -/** - * - * Initialise the UniFi chip. - * - * @param card the HIP core lib API context. - * - * @param led_mask the led mask to apply to UniFi. - * - * @return \b 0 if UniFi is initialized. - * - * @return \b -CSR_EIO if an I/O error occurred while initializing UniFi - * - * @return \b -CSR_ENODEV if the card is no longer present. - * - * @ingroup upperedge - */ -CsrResult unifi_init_card(card_t *card, s32 led_mask); - -/** - * - * De-Initialise the HIP core lib. - * - * @param card the HIP core lib API context. - * - * @ingroup upperedge - */ -void unifi_free_card(card_t *card); - -/** - * - * Cancel all the signals pending in the HIP core lib. - * Normally used during a system suspend when the power is retained on UniFi. - * - * @param card the HIP core lib API context. - * - * @ingroup upperedge - */ -void unifi_cancel_pending_signals(card_t *card); - -/** - * - * Send a signal to UniFi. - * Normally it is called from unifi_sys_hip_req() and the OS layer - * Tx data plane. - * - * Note that the bulkdata buffers ownership is passed to the HIP core lib. - * These buffers must be allocated using unifi_net_data_malloc(). - * - * @param card the HIP core lib API context. - * - * @param sigptr pointer to the signal. - * - * @param siglen size of the signal. - * - * @param bulkdata pointer to the bulk data associated with the signal. - * - * @return \b 0 signal is sent. - * - * @return \b -CSR_EIO if an error occurred while sending the signal - * - * @return \b -CSR_ENODEV if the card is no longer present. - * - * @ingroup upperedge - */ -CsrResult unifi_send_signal(card_t *card, const u8 *sigptr, - u32 siglen, - const bulk_data_param_t *bulkdata); - -/** - * - * Check if the HIP core lib has resources to send a signal. - * Normally there no need to use this function. - * - * @param card the HIP core lib API context. - * - * @param sigptr pointer to the signal. - * - * @return \b 0 if there are resources for the signal. - * - * @return \b -CSR_ENOSPC if there are not enough resources - * - * @ingroup upperedge - */ -CsrResult unifi_send_resources_available(card_t *card, const u8 *sigptr); - -/** - * - * Read the UniFi chip and the HIP core lib information. - * - * @param card the HIP core lib API context. - * - * @param card_info pointer to save the information. - * - * @ingroup upperedge - */ -void unifi_card_info(card_t *card, card_info_t *card_info); - -/** - * - * Print the UniFi I/O and Interrupt status. - * Normally it is used for debug purposes only. - * - * @param card the HIP core lib API context. - - * @param status buffer for the chip status - * - * @return \b 0 if the check was performed. - * - * @return \b -CSR_EIO if an error occurred while checking the status. - * - * @return \b -CSR_ENODEV if the card is no longer present. - * - * @ingroup upperedge - */ -CsrResult unifi_check_io_status(card_t *card, s32 *status); - - -/** - * - * Run the HIP core lib Botton-Half. - * Whenever the HIP core lib want this function to be called - * by the OS layer, it calls unifi_run_bh(). - * - * @param card the HIP core lib API context. - * - * @param remaining pointer to return the time (in msecs) that this function - * should be re-scheduled. A return value of 0 means that no re-scheduling - * is required. If unifi_bh() is called before the timeout expires, - * the caller must pass in the remaining time. - * - * @return \b 0 if no error occurred. - * - * @return \b -CSR_ENODEV if the card is no longer present. - * - * @return \b -CSR_E* if an error occurred while running the bottom half. - * - * @ingroup upperedge - */ -CsrResult unifi_bh(card_t *card, u32 *remaining); - - -/** - * UniFi Low Power Mode (Deep Sleep Signaling) - * - * unifi_low_power_mode defines the UniFi Deep Sleep Signaling status. - * Use with unifi_configure_low_power_mode() to enable/disable - * the Deep Sleep Signaling. - */ -enum unifi_low_power_mode -{ - UNIFI_LOW_POWER_DISABLED, - UNIFI_LOW_POWER_ENABLED -}; - -/** - * Periodic Wake Host Mode - * - * unifi_periodic_wake_mode defines the Periodic Wake Host Mode. - * It can only be set to UNIFI_PERIODIC_WAKE_HOST_ENABLED if - * low_power_mode == UNIFI_LOW_POWER_ENABLED. - */ -enum unifi_periodic_wake_mode -{ - UNIFI_PERIODIC_WAKE_HOST_DISABLED, - UNIFI_PERIODIC_WAKE_HOST_ENABLED -}; - -/** - * - * Run the HIP core lib Botton-Half. - * Whenever the HIP core lib want this function to be called - * by the OS layer, it calls unifi_run_bh(). - * - * Typically, the SME is responsible for configuring these parameters, - * so unifi_sys_configure_power_mode_req() is usually implemented - * as a direct call to unifi_configure_low_power_mode(). - * - * Note: When polling mode is used instead of interrupts, - * low_power_mode must never be set to UNIFI_LOW_POWER_ENABLED. - * - * @param card the HIP core lib API context. - * - * @param low_power_mode the Low Power Mode. - * - * @param periodic_wake_mode the Periodic Wake Mode. - * - * @return \b 0 if no error occurred. - * - * @return \b -CSR_E* if the request failed. - * - * @ingroup upperedge - */ -CsrResult unifi_configure_low_power_mode(card_t *card, - enum unifi_low_power_mode low_power_mode, - enum unifi_periodic_wake_mode periodic_wake_mode); - -/** - * - * Forces the UniFi chip to enter a Deep Sleep state. - * This is normally called by the OS layer when the platform suspends. - * - * Note that if the UniFi Low Power Mode is disabled this call fails. - * - * @param card the HIP core lib API context. - * - * @return \b 0 if no error occurred. - * - * @return \b -CSR_ENODEV if the card is no longer present. - * - * @return \b -CSR_E* if the request failed. - * - * @ingroup upperedge - */ -CsrResult unifi_force_low_power_mode(card_t *card); - -#ifndef CSR_WIFI_HIP_TA_DISABLE -/** - * Configure the Traffic Analysis sampling - * - * Enable or disable statistics gathering. - * Enable or disable particular packet detection. - * - * @param card the HIP core context - * @param config_type the item to configure - * @param config pointer to struct containing config info - * - * @return \b 0 if configuration was successful - * - * @return \b -CSR_EINVAL if a parameter had an invalid value - * - * @ingroup upperedge - */ -CsrResult unifi_ta_configure(card_t *card, - CsrWifiRouterCtrlTrafficConfigType config_type, - const CsrWifiRouterCtrlTrafficConfig *config); - -/** - * Pass a packet for Traffic Analysis sampling - * - * @param card the HIP core context - * @param direction the direction (Rx or Tx) of the frame. - * @param data pointer to bulkdata struct containing the packet - * @param saddr the source address of the packet - * @param sta_macaddr the MAC address of the UniFi chip - * @param timestamp the current time in msecs - * - * @ingroup upperedge - */ -void unifi_ta_sample(card_t *card, - CsrWifiRouterCtrlProtocolDirection direction, - const bulk_data_desc_t *data, - const u8 *saddr, - const u8 *sta_macaddr, - u32 timestamp, - u16 rate); - -/** - * Notify the HIP core lib for a detected Traffic Classification. - * Typically, the SME is responsible for configuring these parameters, - * so unifi_sys_traffic_classification_req() is usually implemented - * as a direct call to unifi_ta_classification(). - * - * @param card the HIP core context. - * @param traffic_type the detected traffic type. - * @param period The detected period of the traffic. - * - * @ingroup upperedge - */ -void unifi_ta_classification(card_t *card, - CsrWifiRouterCtrlTrafficType traffic_type, - u16 period); - -#endif -/** - * Use software to hard reset the chip. - * This is a subset of the unifi_init_card() functionality and should - * only be used only to reset a paniced chip before a coredump is taken. - * - * @param card the HIP core context. - * - * @ingroup upperedge - */ -CsrResult unifi_card_hard_reset(card_t *card); - - -CsrResult unifi_card_readn(card_t *card, u32 unifi_addr, void *pdata, u16 len); -CsrResult unifi_card_read16(card_t *card, u32 unifi_addr, u16 *pdata); -CsrResult unifi_card_write16(card_t *card, u32 unifi_addr, u16 data); - - -enum unifi_dbg_processors_select -{ - UNIFI_PROC_MAC, - UNIFI_PROC_PHY, - UNIFI_PROC_BT, - UNIFI_PROC_BOTH, - UNIFI_PROC_INVALID -}; - -CsrResult unifi_card_stop_processor(card_t *card, enum unifi_dbg_processors_select which); - -/** - * Call-outs from the HIP core lib to the OS layer. - * The following functions need to be implemented during the porting exercise. - */ - -/** - * Selects appropriate queue according to priority - * Helps maintain uniformity in queue selection between the HIP - * and the OS layers. - * - * @param priority priority of the packet - * - * @return \b Traffic queue to which a packet of this priority belongs - * - * @ingroup upperedge - */ -unifi_TrafficQueue -unifi_frame_priority_to_queue(CSR_PRIORITY priority); - -/** - * Returns the priority corresponding to a particular Queue when that is used - * when downgrading a packet to a lower AC. - * Helps maintain uniformity in queue - priority mapping between the HIP - * and the OS layers. - * - * @param queue - * - * @return \b Highest priority corresponding to this queue - * - * @ingroup upperedge - */ -CSR_PRIORITY unifi_get_default_downgrade_priority(unifi_TrafficQueue queue); - -/** - * - * Flow control callbacks. - * unifi_pause_xmit() is called when the HIP core lib does not have any - * resources to store data packets. The OS layer needs to pause - * the Tx data plane until unifi_restart_xmit() is called. - * - * @param ospriv the OS layer context. - * - * @ingroup upperedge - */ -void unifi_pause_xmit(void *ospriv, unifi_TrafficQueue queue); -void unifi_restart_xmit(void *ospriv, unifi_TrafficQueue queue); - -/** - * - * Request to run the Bottom-Half. - * The HIP core lib calls this function to request that unifi_bh() - * needs to be run by the OS layer. It can be called anytime, i.e. - * when the unifi_bh() is running. - * Since unifi_bh() is not re-entrant, usually unifi_run_bh() sets - * an event to a thread that schedules a call to unifi_bh(). - * - * @param ospriv the OS layer context. - * - * @ingroup upperedge - */ -CsrResult unifi_run_bh(void *ospriv); - -/** - * - * Delivers a signal received from UniFi to the OS layer. - * Normally, the data signals should be delivered to the data plane - * and all the rest to the SME (unifi_sys_hip_ind()). - * - * Note that the OS layer is responsible for freeing the bulkdata - * buffers, using unifi_net_data_free(). - * - * @param ospriv the OS layer context. - * - * @param sigptr pointer to the signal. - * - * @param siglen size of the signal. - * - * @param bulkdata pointer to the bulk data associated with the signal. - * - * @ingroup upperedge - */ -void unifi_receive_event(void *ospriv, - u8 *sigdata, u32 siglen, - const bulk_data_param_t *bulkdata); - -#ifdef CSR_WIFI_REQUEUE_PACKET_TO_HAL -/** - * - * Used to reque the failed ma packet request back to hal queues - * - * @param ospriv the OS layer context. - * - * @param host_tag host tag for the packet to requeue. - * - * @param bulkDataDesc pointer to the bulk data. - * - * @ingroup upperedge - */ -CsrResult unifi_reque_ma_packet_request(void *ospriv, u32 host_tag, - u16 status, - bulk_data_desc_t *bulkDataDesc); - -#endif -typedef struct -{ - u16 free_fh_sig_queue_slots[UNIFI_NO_OF_TX_QS]; - u16 free_fh_bulkdata_slots; - u16 free_fh_fw_slots; -} unifi_HipQosInfo; - -void unifi_get_hip_qos_info(card_t *card, unifi_HipQosInfo *hipqosinfo); - - -/** - * Functions that read a portion of a firmware file. - * - * Note: If the UniFi chip runs the f/w from ROM, the HIP core may never - * call these functions. Also, the HIP core may call these functions even if - * a f/w file is not available. In this case, it is safe to fail the request. - */ -#define UNIFI_FW_STA 1 /* Identify STA firmware file */ - -/** - * - * Ask the OS layer to initialise a read from a f/w file. - * - * @param ospriv the OS layer context. - * - * @param is_fw if 0 the request if for the loader file, if 1 the request - * is for a f/w file. - * - * @param info a card_info_t structure containing versions information. - * Note that some members of the structure may not be initialised. - * - * @return \p NULL if the file is not available, or a pointer which contains - * OS specific information for the file (typically the contents of the file) - * that the HIP core uses when calling unifi_fw_read() and unifi_fw_read_stop() - * - * @ingroup upperedge - */ -void* unifi_fw_read_start(void *ospriv, s8 is_fw, const card_info_t *info); - -/** - * - * Ask the OS layer to return a portion from a f/w file. - * - * @param ospriv the OS layer context. - * - * @param arg the OS pointer returned by unifi_fw_read_start(). - * - * @param offset the offset in the f/w file to read the read from. - * - * @param buf the buffer to store the returned data. - * - * @param len the size in bytes of the requested read. - * - * @ingroup upperedge - */ -s32 unifi_fw_read(void *ospriv, void *arg, u32 offset, void *buf, u32 len); - -/** - * - * Ask the OS layer to finish reading from a f/w file. - * - * @param ospriv the OS layer context. - * - * @param dlpriv the OS pointer returned by unifi_fw_read_start(). - * - * @ingroup upperedge - */ -void unifi_fw_read_stop(void *ospriv, void *dlpriv); - -/** - * - * Ask OS layer for a handle to a dynamically allocated firmware buffer - * (primarily intended for production test images which may need conversion) - * - * @param ospriv the OS layer context. - * - * @param fwbuf pointer to dynamically allocated buffer - * - * @param len length of provided buffer in bytes - * - * @ingroup upperedge - */ -void* unifi_fw_open_buffer(void *ospriv, void *fwbuf, u32 len); - -/** - * - * Release a handle to a dynamically allocated firmware buffer - * (primarily intended for production test images which may need conversion) - * - * @param ospriv the OS layer context. - * - * @param fwbuf pointer to dynamically allocated buffer - * - * @ingroup upperedge - */ -void unifi_fw_close_buffer(void *ospriv, void *fwbuf); - -#ifndef CSR_WIFI_HIP_TA_DISABLE -/* - * Driver must provide these. - * - * A simple implementation will just call - * unifi_sys_traffic_protocol_ind() or unifi_sys_traffic_classification_ind() - * respectively. See sme_csr_userspace/sme_userspace.c. - */ -/** - * - * Indicates a detected packet of type packet_type. - * Typically, this information is processed by the SME so - * unifi_ta_indicate_protocol() needs to schedule a call to - * unifi_sys_traffic_protocol_ind(). - * - * @param ospriv the OS layer context. - * - * @param packet_type the detected packet type. - * - * @param direction the direction of the packet (Rx, Tx). - * - * @param src_addr the source address of the packet. - * - * @ingroup upperedge - */ -void unifi_ta_indicate_protocol(void *ospriv, - CsrWifiRouterCtrlTrafficPacketType packet_type, - CsrWifiRouterCtrlProtocolDirection direction, - const CsrWifiMacAddress *src_addr); - -/** - * - * Indicates statistics for the sample data over a period. - * Typically, this information is processed by the SME so - * unifi_ta_indicate_sampling() needs to schedule a call to - * unifi_sys_traffic_sample_ind(). - * - * @param ospriv the OS layer context. - * - * @param stats the pointer to the structure that contains the statistics. - * - * @ingroup upperedge - */ -void unifi_ta_indicate_sampling(void *ospriv, CsrWifiRouterCtrlTrafficStats *stats); -void unifi_ta_indicate_l4stats(void *ospriv, - u32 rxTcpThroughput, - u32 txTcpThroughput, - u32 rxUdpThroughput, - u32 txUdpThroughput); -#endif - -void unifi_rx_queue_flush(void *ospriv); - -/** - * Call-out from the SDIO glue layer. - * - * The glue layer needs to call unifi_sdio_interrupt_handler() every time - * an interrupts occurs. - * - * @param card the HIP core context. - * - * @ingroup bottomedge - */ -void unifi_sdio_interrupt_handler(card_t *card); - - -/* HELPER FUNCTIONS */ - -/* - * unifi_init() and unifi_download() implement a subset of unifi_init_card functionality - * that excludes HIP initialization. - */ -CsrResult unifi_init(card_t *card); -CsrResult unifi_download(card_t *card, s32 led_mask); - -/* - * unifi_start_processors() ensures both on-chip processors are running - */ -CsrResult unifi_start_processors(card_t *card); - -CsrResult unifi_capture_panic(card_t *card); - -/* - * Configure HIP interrupt processing mode - */ -#define CSR_WIFI_INTMODE_DEFAULT 0 -#define CSR_WIFI_INTMODE_RUN_BH_ONCE 1 /* Run BH once per interrupt */ - -void unifi_set_interrupt_mode(card_t *card, u32 mode); - -/* - * unifi_request_max_clock() requests that max SDIO clock speed is set at the - * next suitable opportunity. - */ -void unifi_request_max_sdio_clock(card_t *card); - - -/* Functions to lookup bulk data command names. */ -const char* lookup_bulkcmd_name(u16 id); - -/* Function to log HIP's global debug buffer */ -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -void unifi_debug_buf_dump(void); -void unifi_debug_log_to_buf(const char *fmt, ...); -void unifi_debug_hex_to_buf(const char *buff, u16 length); -#endif - -/* Mini-coredump utility functions */ -CsrResult unifi_coredump_get_value(card_t *card, struct unifi_coredump_req *req); -CsrResult unifi_coredump_capture(card_t *card, struct unifi_coredump_req *req); -CsrResult unifi_coredump_request_at_next_reset(card_t *card, s8 enable); -CsrResult unifi_coredump_init(card_t *card, u16 num_dump_buffers); -void unifi_coredump_free(card_t *card); - -#endif /* __CSR_WIFI_HIP_UNIFI_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_unifi_signal_names.c b/drivers/staging/csr/csr_wifi_hip_unifi_signal_names.c deleted file mode 100644 index 9a35285..0000000 --- a/drivers/staging/csr/csr_wifi_hip_unifi_signal_names.c +++ /dev/null @@ -1,41 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include "csr_wifi_hip_unifi.h" - -struct sig_name { - s16 id; - const char *name; -}; - -static const struct sig_name Unifi_bulkcmd_names[] = { - { 0, "SignalCmd" }, - { 1, "CopyToHost" }, - { 2, "CopyToHostAck" }, - { 3, "CopyFromHost" }, - { 4, "CopyFromHostAck" }, - { 5, "ClearSlot" }, - { 6, "CopyOverlay" }, - { 7, "CopyOverlayAck" }, - { 8, "CopyFromHostAndClearSlot" }, - { 15, "Padding" } -}; - -const char *lookup_bulkcmd_name(u16 id) -{ - if (id < 9) - return Unifi_bulkcmd_names[id].name; - if (id == 15) - return "Padding"; - - return "UNKNOWN"; -} - - diff --git a/drivers/staging/csr/csr_wifi_hip_unifi_udi.h b/drivers/staging/csr/csr_wifi_hip_unifi_udi.h deleted file mode 100644 index 4126e85..0000000 --- a/drivers/staging/csr/csr_wifi_hip_unifi_udi.h +++ /dev/null @@ -1,52 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_unifi_udi.h - * - * PURPOSE: - * Declarations and definitions for the UniFi Debug Interface. - * - * --------------------------------------------------------------------------- - */ -#ifndef __CSR_WIFI_HIP_UNIFI_UDI_H__ -#define __CSR_WIFI_HIP_UNIFI_UDI_H__ - -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_signals.h" - - -/* - * Support for tracing the wire protocol. - */ -enum udi_log_direction -{ - UDI_LOG_FROM_HOST = 0x0000, - UDI_LOG_TO_HOST = 0x0001 -}; - -typedef void (*udi_func_t)(void *ospriv, u8 *sigdata, - u32 signal_len, - const bulk_data_param_t *bulkdata, - enum udi_log_direction dir); - -CsrResult unifi_set_udi_hook(card_t *card, udi_func_t udi_fn); -CsrResult unifi_remove_udi_hook(card_t *card, udi_func_t udi_fn); - - -/* - * Function to print current status info to a string. - * This is used in the linux /proc interface and might be useful - * in other systems. - */ -s32 unifi_print_status(card_t *card, struct seq_file *m); - -#endif /* __CSR_WIFI_HIP_UNIFI_UDI_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_unifihw.h b/drivers/staging/csr/csr_wifi_hip_unifihw.h deleted file mode 100644 index 3f9fcbd..0000000 --- a/drivers/staging/csr/csr_wifi_hip_unifihw.h +++ /dev/null @@ -1,59 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * - * File: csr_wifi_hip_unifihw.h - * - * Definitions of various chip registers, addresses, values etc. - * - * --------------------------------------------------------------------------- - */ -#ifndef __UNIFIHW_H__ -#define __UNIFIHW_H__ 1 - -/* Symbol Look Up Table fingerprint. IDs are in sigs.h */ -#define SLUT_FINGERPRINT 0xD397 - - -/* Values of LoaderOperation */ -#define UNIFI_LOADER_IDLE 0x00 -#define UNIFI_LOADER_COPY 0x01 -#define UNIFI_LOADER_ERROR_MASK 0xF0 - -/* Values of BootLoaderOperation */ -#define UNIFI_BOOT_LOADER_IDLE 0x00 -#define UNIFI_BOOT_LOADER_RESTART 0x01 -#define UNIFI_BOOT_LOADER_PATCH 0x02 -#define UNIFI_BOOT_LOADER_LOAD_STA 0x10 -#define UNIFI_BOOT_LOADER_LOAD_PTEST 0x11 - - -/* Memory spaces encoded in top byte of Generic Pointer type */ -#define UNIFI_SH_DMEM 0x01 /* Shared Data Memory */ -#define UNIFI_EXT_FLASH 0x02 /* External FLASH */ -#define UNIFI_EXT_SRAM 0x03 /* External SRAM */ -#define UNIFI_REGISTERS 0x04 /* Registers */ -#define UNIFI_PHY_DMEM 0x10 /* PHY Data Memory */ -#define UNIFI_PHY_PMEM 0x11 /* PHY Program Memory */ -#define UNIFI_PHY_ROM 0x12 /* PHY ROM */ -#define UNIFI_MAC_DMEM 0x20 /* MAC Data Memory */ -#define UNIFI_MAC_PMEM 0x21 /* MAC Program Memory */ -#define UNIFI_MAC_ROM 0x22 /* MAC ROM */ -#define UNIFI_BT_DMEM 0x30 /* BT Data Memory */ -#define UNIFI_BT_PMEM 0x31 /* BT Program Memory */ -#define UNIFI_BT_ROM 0x32 /* BT ROM */ - -#define UNIFI_MAKE_GP(R, O) (((UNIFI_ ## R) << 24) | (O)) -#define UNIFI_GP_OFFSET(GP) ((GP) & 0xFFFFFF) -#define UNIFI_GP_SPACE(GP) (((GP) >> 24) & 0xFF) - -#endif /* __UNIFIHW_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_unifiversion.h b/drivers/staging/csr/csr_wifi_hip_unifiversion.h deleted file mode 100644 index d1c6678..0000000 --- a/drivers/staging/csr/csr_wifi_hip_unifiversion.h +++ /dev/null @@ -1,30 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: unifiversion.h - * - * PURPOSE: - * Version information for the portable UniFi driver. - * - * --------------------------------------------------------------------------- - */ - -#ifndef __UNIFIVERSION_H__ -#define __UNIFIVERSION_H__ - -/* - * The minimum version of Host Interface Protocol required by the driver. - */ -#define UNIFI_HIP_MAJOR_VERSION 9 -#define UNIFI_HIP_MINOR_VERSION 1 - -#endif /* __UNIFIVERSION_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hip_xbv.c b/drivers/staging/csr/csr_wifi_hip_xbv.c deleted file mode 100644 index 050a15f..0000000 --- a/drivers/staging/csr/csr_wifi_hip_xbv.c +++ /dev/null @@ -1,1076 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_xbv.c - * - * PURPOSE: - * Routines for downloading firmware to UniFi. - * - * UniFi firmware files use a nested TLV (Tag-Length-Value) format. - * - * --------------------------------------------------------------------------- - */ -#include <linux/slab.h> - -#ifdef CSR_WIFI_XBV_TEST -/* Standalone test harness */ -#include "unifi_xbv.h" -#include "csr_wifi_hip_unifihw.h" -#else -/* Normal driver build */ -#include "csr_wifi_hip_unifiversion.h" -#include "csr_wifi_hip_card.h" -#define DBG_TAG(t) -#endif - -#include "csr_wifi_hip_xbv.h" - -#define STREAM_CHECKSUM 0x6d34 /* Sum of uint16s in each patch stream */ - -/* XBV sizes used in patch conversion - */ -#define PTDL_MAX_SIZE 2048 /* Max bytes allowed per PTDL */ -#define PTDL_HDR_SIZE (4 + 2 + 6 + 2) /* sizeof(fw_id, sec_len, patch_cmd, csum) */ - -/* Struct to represent a buffer for reading firmware file */ - -typedef struct -{ - void *dlpriv; - s32 ioffset; - fwreadfn_t iread; -} ct_t; - -/* Struct to represent a TLV field */ -typedef struct -{ - char t_name[4]; - u32 t_len; -} tag_t; - - -#define TAG_EQ(i, v) (((i)[0] == (v)[0]) && \ - ((i)[1] == (v)[1]) && \ - ((i)[2] == (v)[2]) && \ - ((i)[3] == (v)[3])) - -/* We create a small stack on the stack that contains an enum - * indicating the containing list segments, and the offset at which - * those lists end. This enables a lot more error checking. */ -typedef enum -{ - xbv_xbv1, - /*xbv_info,*/ - xbv_fw, - xbv_vers, - xbv_vand, - xbv_ptch, - xbv_other -} xbv_container; - -#define XBV_STACK_SIZE 6 -#define XBV_MAX_OFFS 0x7fffffff - -typedef struct -{ - struct - { - xbv_container container; - s32 ioffset_end; - } s[XBV_STACK_SIZE]; - u32 ptr; -} xbv_stack_t; - -static s32 read_tag(card_t *card, ct_t *ct, tag_t *tag); -static s32 read_bytes(card_t *card, ct_t *ct, void *buf, u32 len); -static s32 read_uint(card_t *card, ct_t *ct, u32 *u, u32 len); -static s32 xbv_check(xbv1_t *fwinfo, const xbv_stack_t *stack, - xbv_mode new_mode, xbv_container old_cont); -static s32 xbv_push(xbv1_t *fwinfo, xbv_stack_t *stack, - xbv_mode new_mode, xbv_container old_cont, - xbv_container new_cont, u32 ioff); - -static u32 write_uint16(void *buf, const u32 offset, - const u16 val); -static u32 write_uint32(void *buf, const u32 offset, - const u32 val); -static u32 write_bytes(void *buf, const u32 offset, - const u8 *data, const u32 len); -static u32 write_tag(void *buf, const u32 offset, - const char *tag_str); -static u32 write_chunk(void *buf, const u32 offset, - const char *tag_str, - const u32 payload_len); -static u16 calc_checksum(void *buf, const u32 offset, - const u32 bytes_len); -static u32 calc_patch_size(const xbv1_t *fwinfo); - -static u32 write_xbv_header(void *buf, const u32 offset, - const u32 file_payload_length); -static u32 write_ptch_header(void *buf, const u32 offset, - const u32 fw_id); -static u32 write_patchcmd(void *buf, const u32 offset, - const u32 dst_genaddr, const u16 len); -static u32 write_reset_ptdl(void *buf, const u32 offset, - const xbv1_t *fwinfo, u32 fw_id); -static u32 write_fwdl_to_ptdl(void *buf, const u32 offset, - fwreadfn_t readfn, const struct FWDL *fwdl, - const void *fw_buf, const u32 fw_id, - void *rdbuf); - -/* - * --------------------------------------------------------------------------- - * parse_xbv1 - * - * Scan the firmware file to find the TLVs we are interested in. - * Actions performed: - * - check we support the file format version in VERF - * Store these TLVs if we have a firmware image: - * - SLTP Symbol Lookup Table Pointer - * - FWDL firmware download segments - * - FWOL firmware overlay segment - * - VMEQ Register probe tests to verify matching h/w - * Store these TLVs if we have a patch file: - * - FWID the firmware build ID that this file patches - * - PTDL The actual patches - * - * The structure pointed to by fwinfo is cleared and - * 'fwinfo->mode' is set to 'unknown'. The 'fwinfo->mode' - * variable is set to 'firmware' or 'patch' once we know which - * sort of XBV file we have. - * - * Arguments: - * readfn Pointer to function to call to read from the file. - * dlpriv Opaque pointer arg to pass to readfn. - * fwinfo Pointer to fwinfo struct to fill in. - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR error code on failure - * --------------------------------------------------------------------------- - */ -CsrResult xbv1_parse(card_t *card, fwreadfn_t readfn, void *dlpriv, xbv1_t *fwinfo) -{ - ct_t ct; - tag_t tag; - xbv_stack_t stack; - - ct.dlpriv = dlpriv; - ct.ioffset = 0; - ct.iread = readfn; - - memset(fwinfo, 0, sizeof(xbv1_t)); - fwinfo->mode = xbv_unknown; - - /* File must start with XBV1 triplet */ - if (read_tag(card, &ct, &tag) <= 0) - { - unifi_error(NULL, "File is not UniFi firmware\n"); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - DBG_TAG(tag.t_name); - - if (!TAG_EQ(tag.t_name, "XBV1")) - { - unifi_error(NULL, "File is not UniFi firmware (%s)\n", tag.t_name); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - stack.ptr = 0; - stack.s[stack.ptr].container = xbv_xbv1; - stack.s[stack.ptr].ioffset_end = XBV_MAX_OFFS; - - /* Now scan the file */ - while (1) - { - s32 n; - - n = read_tag(card, &ct, &tag); - if (n < 0) - { - unifi_error(NULL, "No tag\n"); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - if (n == 0) - { - /* End of file */ - break; - } - - DBG_TAG(tag.t_name); - - /* File format version */ - if (TAG_EQ(tag.t_name, "VERF")) - { - u32 version; - - if (xbv_check(fwinfo, &stack, xbv_unknown, xbv_xbv1) || - (tag.t_len != 2) || - read_uint(card, &ct, &version, 2)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - if (version != 0) - { - unifi_error(NULL, "Unsupported firmware file version: %d.%d\n", - version >> 8, version & 0xFF); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - } - else if (TAG_EQ(tag.t_name, "LIST")) - { - char name[4]; - u32 list_end; - - list_end = ct.ioffset + tag.t_len; - - if (read_bytes(card, &ct, name, 4)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - DBG_TAG(name); - if (TAG_EQ(name, "FW ")) - { - if (xbv_push(fwinfo, &stack, xbv_firmware, xbv_xbv1, xbv_fw, list_end)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - } - else if (TAG_EQ(name, "VERS")) - { - if (xbv_push(fwinfo, &stack, xbv_firmware, xbv_fw, xbv_vers, list_end) || - (fwinfo->vers.num_vand != 0)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - } - else if (TAG_EQ(name, "VAND")) - { - struct VAND *vand; - - if (xbv_push(fwinfo, &stack, xbv_firmware, xbv_vers, xbv_vand, list_end) || - (fwinfo->vers.num_vand >= MAX_VAND)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* Get a new VAND */ - vand = fwinfo->vand + fwinfo->vers.num_vand++; - - /* Fill it in */ - vand->first = fwinfo->num_vmeq; - vand->count = 0; - } - else if (TAG_EQ(name, "PTCH")) - { - if (xbv_push(fwinfo, &stack, xbv_patch, xbv_xbv1, xbv_ptch, list_end)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - } - else - { - /* Skip over any other lists. We dont bother to push - * the new list type now as we would only pop it at - * the end of the outer loop. */ - ct.ioffset += tag.t_len - 4; - } - } - else if (TAG_EQ(tag.t_name, "SLTP")) - { - u32 addr; - - if (xbv_check(fwinfo, &stack, xbv_firmware, xbv_fw) || - (tag.t_len != 4) || - (fwinfo->slut_addr != 0) || - read_uint(card, &ct, &addr, 4)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - fwinfo->slut_addr = addr; - } - else if (TAG_EQ(tag.t_name, "FWDL")) - { - u32 addr; - struct FWDL *fwdl; - - if (xbv_check(fwinfo, &stack, xbv_firmware, xbv_fw) || - (fwinfo->num_fwdl >= MAX_FWDL) || - (read_uint(card, &ct, &addr, 4))) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - fwdl = fwinfo->fwdl + fwinfo->num_fwdl++; - - fwdl->dl_size = tag.t_len - 4; - fwdl->dl_addr = addr; - fwdl->dl_offset = ct.ioffset; - - ct.ioffset += tag.t_len - 4; - } - else if (TAG_EQ(tag.t_name, "FWOV")) - { - if (xbv_check(fwinfo, &stack, xbv_firmware, xbv_fw) || - (fwinfo->fwov.dl_size != 0) || - (fwinfo->fwov.dl_offset != 0)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - fwinfo->fwov.dl_size = tag.t_len; - fwinfo->fwov.dl_offset = ct.ioffset; - - ct.ioffset += tag.t_len; - } - else if (TAG_EQ(tag.t_name, "VMEQ")) - { - u32 temp[3]; - struct VAND *vand; - struct VMEQ *vmeq; - - if (xbv_check(fwinfo, &stack, xbv_firmware, xbv_vand) || - (fwinfo->num_vmeq >= MAX_VMEQ) || - (fwinfo->vers.num_vand == 0) || - (tag.t_len != 8) || - read_uint(card, &ct, &temp[0], 4) || - read_uint(card, &ct, &temp[1], 2) || - read_uint(card, &ct, &temp[2], 2)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* Get the last VAND */ - vand = fwinfo->vand + (fwinfo->vers.num_vand - 1); - - /* Get a new VMEQ */ - vmeq = fwinfo->vmeq + fwinfo->num_vmeq++; - - /* Note that this VAND contains another VMEQ */ - vand->count++; - - /* Fill in the VMEQ */ - vmeq->addr = temp[0]; - vmeq->mask = (u16)temp[1]; - vmeq->value = (u16)temp[2]; - } - else if (TAG_EQ(tag.t_name, "FWID")) - { - u32 build_id; - - if (xbv_check(fwinfo, &stack, xbv_patch, xbv_ptch) || - (tag.t_len != 4) || - (fwinfo->build_id != 0) || - read_uint(card, &ct, &build_id, 4)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - fwinfo->build_id = build_id; - } - else if (TAG_EQ(tag.t_name, "PTDL")) - { - struct PTDL *ptdl; - - if (xbv_check(fwinfo, &stack, xbv_patch, xbv_ptch) || - (fwinfo->num_ptdl >= MAX_PTDL)) - { - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - /* Allocate a new PTDL */ - ptdl = fwinfo->ptdl + fwinfo->num_ptdl++; - - ptdl->dl_size = tag.t_len; - ptdl->dl_offset = ct.ioffset; - - ct.ioffset += tag.t_len; - } - else - { - /* - * If we get here it is a tag we are not interested in, - * just skip over it. - */ - ct.ioffset += tag.t_len; - } - - /* Check to see if we are at the end of the currently stacked - * segment. We could finish more than one list at a time. */ - while (ct.ioffset >= stack.s[stack.ptr].ioffset_end) - { - if (ct.ioffset > stack.s[stack.ptr].ioffset_end) - { - unifi_error(NULL, - "XBV file has overrun stack'd segment %d (%d > %d)\n", - stack.ptr, ct.ioffset, stack.s[stack.ptr].ioffset_end); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - if (stack.ptr <= 0) - { - unifi_error(NULL, "XBV file has underrun stack pointer\n"); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - stack.ptr--; - } - } - - if (stack.ptr != 0) - { - unifi_error(NULL, "Last list of XBV is not complete.\n"); - return CSR_WIFI_HIP_RESULT_INVALID_VALUE; - } - - return CSR_RESULT_SUCCESS; -} /* xbv1_parse() */ - - -/* Check the the XBV file is of a consistant sort (either firmware or - * patch) and that we are in the correct containing list type. */ -static s32 xbv_check(xbv1_t *fwinfo, const xbv_stack_t *stack, - xbv_mode new_mode, xbv_container old_cont) -{ - /* If the new file mode is unknown the current packet could be in - * either (any) type of XBV file, and we cant make a decission at - * this time. */ - if (new_mode != xbv_unknown) - { - if (fwinfo->mode == xbv_unknown) - { - fwinfo->mode = new_mode; - } - else if (fwinfo->mode != new_mode) - { - return -1; - } - } - /* If the current stack top doesn't match what we expect then the - * file is corrupt. */ - if (stack->s[stack->ptr].container != old_cont) - { - return -1; - } - return 0; -} - - -/* Make checks as above and then enter a new list */ -static s32 xbv_push(xbv1_t *fwinfo, xbv_stack_t *stack, - xbv_mode new_mode, xbv_container old_cont, - xbv_container new_cont, u32 new_ioff) -{ - if (xbv_check(fwinfo, stack, new_mode, old_cont)) - { - return -1; - } - - /* Check that our stack won't overflow. */ - if (stack->ptr >= (XBV_STACK_SIZE - 1)) - { - return -1; - } - - /* Add the new list element to the top of the stack. */ - stack->ptr++; - stack->s[stack->ptr].container = new_cont; - stack->s[stack->ptr].ioffset_end = new_ioff; - - return 0; -} - - -static u32 xbv2uint(u8 *ptr, s32 len) -{ - u32 u = 0; - s16 i; - - for (i = 0; i < len; i++) - { - u32 b; - b = ptr[i]; - u += b << (i * 8); - } - return u; -} - - -static s32 read_tag(card_t *card, ct_t *ct, tag_t *tag) -{ - u8 buf[8]; - s32 n; - - n = (*ct->iread)(card->ospriv, ct->dlpriv, ct->ioffset, buf, 8); - if (n <= 0) - { - return n; - } - - /* read the tag and length */ - if (n != 8) - { - return -1; - } - - /* get section tag */ - memcpy(tag->t_name, buf, 4); - - /* get section length */ - tag->t_len = xbv2uint(buf + 4, 4); - - ct->ioffset += 8; - - return 8; -} /* read_tag() */ - - -static s32 read_bytes(card_t *card, ct_t *ct, void *buf, u32 len) -{ - /* read the tag value */ - if ((*ct->iread)(card->ospriv, ct->dlpriv, ct->ioffset, buf, len) != (s32)len) - { - return -1; - } - - ct->ioffset += len; - - return 0; -} /* read_bytes() */ - - -static s32 read_uint(card_t *card, ct_t *ct, u32 *u, u32 len) -{ - u8 buf[4]; - - /* Integer cannot be more than 4 bytes */ - if (len > 4) - { - return -1; - } - - if (read_bytes(card, ct, buf, len)) - { - return -1; - } - - *u = xbv2uint(buf, len); - - return 0; -} /* read_uint() */ - - -static u32 write_uint16(void *buf, const u32 offset, const u16 val) -{ - u8 *dst = (u8 *)buf + offset; - *dst++ = (u8)(val & 0xff); /* LSB first */ - *dst = (u8)(val >> 8); - return sizeof(u16); -} - - -static u32 write_uint32(void *buf, const u32 offset, const u32 val) -{ - (void)write_uint16(buf, offset + 0, (u16)(val & 0xffff)); - (void)write_uint16(buf, offset + 2, (u16)(val >> 16)); - return sizeof(u32); -} - - -static u32 write_bytes(void *buf, const u32 offset, const u8 *data, const u32 len) -{ - u32 i; - u8 *dst = (u8 *)buf + offset; - - for (i = 0; i < len; i++) - { - *dst++ = *((u8 *)data + i); - } - return len; -} - - -static u32 write_tag(void *buf, const u32 offset, const char *tag_str) -{ - u8 *dst = (u8 *)buf + offset; - memcpy(dst, tag_str, 4); - return 4; -} - - -static u32 write_chunk(void *buf, const u32 offset, const char *tag_str, const u32 payload_len) -{ - u32 written = 0; - written += write_tag(buf, offset, tag_str); - written += write_uint32(buf, written + offset, (u32)payload_len); - - return written; -} - - -static u16 calc_checksum(void *buf, const u32 offset, const u32 bytes_len) -{ - u32 i; - u8 *src = (u8 *)buf + offset; - u16 sum = 0; - u16 val; - - for (i = 0; i < bytes_len / 2; i++) - { - /* Contents copied to file is LE, host might not be */ - val = (u16) * src++; /* LSB */ - val += (u16)(*src++) << 8; /* MSB */ - sum += val; - } - - /* Total of uint16s in the stream plus the stored check value - * should equal STREAM_CHECKSUM when decoded. - */ - return (STREAM_CHECKSUM - sum); -} - - -#define PTDL_RESET_DATA_SIZE 20 /* Size of reset vectors PTDL */ - -static u32 calc_patch_size(const xbv1_t *fwinfo) -{ - s16 i; - u32 size = 0; - - /* - * Work out how big an equivalent patch format file must be for this image. - * This only needs to be approximate, so long as it's large enough. - */ - if (fwinfo->mode != xbv_firmware) - { - return 0; - } - - /* Payload (which will get put into a series of PTDLs) */ - for (i = 0; i < fwinfo->num_fwdl; i++) - { - size += fwinfo->fwdl[i].dl_size; - } - - /* Another PTDL at the end containing reset vectors */ - size += PTDL_RESET_DATA_SIZE; - - /* PTDL headers. Add one for remainder, one for reset vectors */ - size += ((fwinfo->num_fwdl / PTDL_MAX_SIZE) + 2) * PTDL_HDR_SIZE; - - /* Another 1K sufficient to cover miscellaneous headers */ - size += 1024; - - return size; -} - - -static u32 write_xbv_header(void *buf, const u32 offset, const u32 file_payload_length) -{ - u32 written = 0; - - /* The length value given to the XBV chunk is the length of all subsequent - * contents of the file, excluding the 8 byte size of the XBV1 header itself - * (The added 6 bytes thus accounts for the size of the VERF) - */ - written += write_chunk(buf, offset + written, (char *)"XBV1", file_payload_length + 6); - - written += write_chunk(buf, offset + written, (char *)"VERF", 2); - written += write_uint16(buf, offset + written, 0); /* File version */ - - return written; -} - - -static u32 write_ptch_header(void *buf, const u32 offset, const u32 fw_id) -{ - u32 written = 0; - - /* LIST is written with a zero length, to be updated later */ - written += write_chunk(buf, offset + written, (char *)"LIST", 0); - written += write_tag(buf, offset + written, (char *)"PTCH"); /* List type */ - - written += write_chunk(buf, offset + written, (char *)"FWID", 4); - written += write_uint32(buf, offset + written, fw_id); - - - return written; -} - - -#define UF_REGION_PHY 1 -#define UF_REGION_MAC 2 -#define UF_MEMPUT_MAC 0x0000 -#define UF_MEMPUT_PHY 0x1000 - -static u32 write_patchcmd(void *buf, const u32 offset, const u32 dst_genaddr, const u16 len) -{ - u32 written = 0; - u32 region = (dst_genaddr >> 28); - u16 cmd_and_len = UF_MEMPUT_MAC; - - if (region == UF_REGION_PHY) - { - cmd_and_len = UF_MEMPUT_PHY; - } - else if (region != UF_REGION_MAC) - { - return 0; /* invalid */ - } - - /* Write the command and data length */ - cmd_and_len |= len; - written += write_uint16(buf, offset + written, cmd_and_len); - - /* Write the destination generic address */ - written += write_uint16(buf, offset + written, (u16)(dst_genaddr >> 16)); - written += write_uint16(buf, offset + written, (u16)(dst_genaddr & 0xffff)); - - /* The data payload should be appended to the command */ - return written; -} - - -static u32 write_fwdl_to_ptdl(void *buf, const u32 offset, fwreadfn_t readfn, - const struct FWDL *fwdl, const void *dlpriv, - const u32 fw_id, void *fw_buf) -{ - u32 written = 0; - s16 chunks = 0; - u32 left = fwdl->dl_size; /* Bytes left in this fwdl */ - u32 dl_addr = fwdl->dl_addr; /* Target address of fwdl image on XAP */ - u32 dl_offs = fwdl->dl_offset; /* Offset of fwdl image data in source */ - u16 csum; - u32 csum_start_offs; /* first offset to include in checksum */ - u32 sec_data_len; /* section data byte count */ - u32 sec_len; /* section data + header byte count */ - - /* FWDL maps to one or more PTDLs, as max size for a PTDL is 1K words */ - while (left) - { - /* Calculate amount to be transferred */ - sec_data_len = min_t(u32, left, PTDL_MAX_SIZE - PTDL_HDR_SIZE); - sec_len = sec_data_len + PTDL_HDR_SIZE; - - /* Write PTDL header + entire PTDL size */ - written += write_chunk(buf, offset + written, (char *)"PTDL", sec_len); - /* bug digest implies 4 bytes of padding here, but that seems wrong */ - - /* Checksum starts here */ - csum_start_offs = offset + written; - - /* Patch-chunk header: fw_id. Note that this is in XAP word order */ - written += write_uint16(buf, offset + written, (u16)(fw_id >> 16)); - written += write_uint16(buf, offset + written, (u16)(fw_id & 0xffff)); - - /* Patch-chunk header: section length in uint16s */ - written += write_uint16(buf, offset + written, (u16)(sec_len / 2)); - - - /* Write the appropriate patch command for the data's destination ptr */ - written += write_patchcmd(buf, offset + written, dl_addr, (u16)(sec_data_len / 2)); - - /* Write the data itself (limited to the max chunk length) */ - if (readfn(NULL, (void *)dlpriv, dl_offs, fw_buf, sec_data_len) < 0) - { - return 0; - } - - written += write_bytes(buf, - offset + written, - fw_buf, - sec_data_len); - - /* u16 checksum calculated over data written */ - csum = calc_checksum(buf, csum_start_offs, written - (csum_start_offs - offset)); - written += write_uint16(buf, offset + written, csum); - - left -= sec_data_len; - dl_addr += sec_data_len; - dl_offs += sec_data_len; - chunks++; - } - - return written; -} - - -#define SEC_CMD_LEN ((4 + 2) * 2) /* sizeof(cmd, vector) per XAP */ -#define PTDL_VEC_HDR_SIZE (4 + 2 + 2) /* sizeof(fw_id, sec_len, csum) */ -#define UF_MAC_START_VEC 0x00c00000 /* Start address of image on MAC */ -#define UF_PHY_START_VEC 0x00c00000 /* Start address of image on PHY */ -#define UF_MAC_START_CMD 0x6000 /* MAC "Set start address" command */ -#define UF_PHY_START_CMD 0x7000 /* PHY "Set start address" command */ - -static u32 write_reset_ptdl(void *buf, const u32 offset, const xbv1_t *fwinfo, u32 fw_id) -{ - u32 written = 0; - u16 csum; - u32 csum_start_offs; /* first offset to include in checksum */ - u32 sec_len; /* section data + header byte count */ - - sec_len = SEC_CMD_LEN + PTDL_VEC_HDR_SIZE; /* Total section byte length */ - - /* Write PTDL header + entire PTDL size */ - written += write_chunk(buf, offset + written, (char *)"PTDL", sec_len); - - /* Checksum starts here */ - csum_start_offs = offset + written; - - /* Patch-chunk header: fw_id. Note that this is in XAP word order */ - written += write_uint16(buf, offset + written, (u16)(fw_id >> 16)); - written += write_uint16(buf, offset + written, (u16)(fw_id & 0xffff)); - - /* Patch-chunk header: section length in uint16s */ - written += write_uint16(buf, offset + written, (u16)(sec_len / 2)); - - /* - * Restart addresses to be executed on subsequent loader restart command. - */ - - /* Setup the MAC start address, note word ordering */ - written += write_uint16(buf, offset + written, UF_MAC_START_CMD); - written += write_uint16(buf, offset + written, (UF_MAC_START_VEC >> 16)); - written += write_uint16(buf, offset + written, (UF_MAC_START_VEC & 0xffff)); - - /* Setup the PHY start address, note word ordering */ - written += write_uint16(buf, offset + written, UF_PHY_START_CMD); - written += write_uint16(buf, offset + written, (UF_PHY_START_VEC >> 16)); - written += write_uint16(buf, offset + written, (UF_PHY_START_VEC & 0xffff)); - - /* u16 checksum calculated over data written */ - csum = calc_checksum(buf, csum_start_offs, written - (csum_start_offs - offset)); - written += write_uint16(buf, offset + written, csum); - - return written; -} - - -/* - * --------------------------------------------------------------------------- - * read_slut - * - * desc - * - * Arguments: - * readfn Pointer to function to call to read from the file. - * dlpriv Opaque pointer arg to pass to readfn. - * addr Offset into firmware image of SLUT. - * fwinfo Pointer to fwinfo struct to fill in. - * - * Returns: - * Number of SLUT entries in the f/w, or -1 if the image was corrupt. - * --------------------------------------------------------------------------- - */ -s32 xbv1_read_slut(card_t *card, fwreadfn_t readfn, void *dlpriv, xbv1_t *fwinfo, - symbol_t *slut, u32 slut_len) -{ - s16 i; - s32 offset; - u32 magic; - u32 count = 0; - ct_t ct; - - if (fwinfo->mode != xbv_firmware) - { - return -1; - } - - /* Find the d/l segment containing the SLUT */ - /* This relies on the SLUT being entirely contained in one segment */ - offset = -1; - for (i = 0; i < fwinfo->num_fwdl; i++) - { - if ((fwinfo->slut_addr >= fwinfo->fwdl[i].dl_addr) && - (fwinfo->slut_addr < (fwinfo->fwdl[i].dl_addr + fwinfo->fwdl[i].dl_size))) - { - offset = fwinfo->fwdl[i].dl_offset + - (fwinfo->slut_addr - fwinfo->fwdl[i].dl_addr); - } - } - if (offset < 0) - { - return -1; - } - - ct.dlpriv = dlpriv; - ct.ioffset = offset; - ct.iread = readfn; - - if (read_uint(card, &ct, &magic, 2)) - { - return -1; - } - if (magic != SLUT_FINGERPRINT) - { - return -1; - } - - while (count < slut_len) - { - u32 id, obj; - - /* Read Symbol Id */ - if (read_uint(card, &ct, &id, 2)) - { - return -1; - } - - /* Check for end of table marker */ - if (id == CSR_SLT_END) - { - break; - } - - /* Read Symbol Value */ - if (read_uint(card, &ct, &obj, 4)) - { - return -1; - } - - slut[count].id = (u16)id; - slut[count].obj = obj; - count++; - } - - return count; -} /* read_slut() */ - - -/* - * --------------------------------------------------------------------------- - * xbv_to_patch - * - * Convert (the relevant parts of) a firmware xbv file into a patch xbv - * - * Arguments: - * card - * fw_buf - pointer to xbv firmware image - * fwinfo - structure describing the firmware image - * size - pointer to location into which size of f/w is written. - * - * Returns: - * Pointer to firmware image, or NULL on error. Caller must free this - * buffer via kfree() once it's finished with. - * - * Notes: - * The input fw_buf should have been checked via xbv1_parse prior to - * calling this function, so the input image is assumed valid. - * --------------------------------------------------------------------------- - */ -#define PTCH_LIST_SIZE 16 /* sizeof PTCH+FWID chunk in LIST header */ - -void* xbv_to_patch(card_t *card, fwreadfn_t readfn, - const void *fw_buf, const xbv1_t *fwinfo, u32 *size) -{ - void *patch_buf = NULL; - u32 patch_buf_size; - u32 payload_offs = 0; /* Start of XBV payload */ - s16 i; - u32 patch_offs = 0; - u32 list_len_offs = 0; /* Offset of PTDL LIST length parameter */ - u32 ptdl_start_offs = 0; /* Offset of first PTDL chunk */ - u32 fw_id; - void *rdbuf; - - if (!fw_buf || !fwinfo || !card) - { - return NULL; - } - - if (fwinfo->mode != xbv_firmware) - { - unifi_error(NULL, "Not a firmware file\n"); - return NULL; - } - - /* Pre-allocate read buffer for chunk conversion */ - rdbuf = kmalloc(PTDL_MAX_SIZE, GFP_KERNEL); - if (!rdbuf) - { - unifi_error(card, "Couldn't alloc conversion buffer\n"); - return NULL; - } - - /* Loader requires patch file's build ID to match the running firmware's */ - fw_id = card->build_id; - - /* Firmware XBV1 contains VERF, optional INFO, SLUT(s), FWDL(s) */ - /* Other chunks should get skipped. */ - /* VERF should be sanity-checked against chip version */ - - /* Patch XBV1 contains VERF, optional INFO, PTCH */ - /* PTCH contains FWID, optional INFO, PTDL(s), PTDL(start_vec) */ - /* Each FWDL is split into PTDLs (each is 1024 XAP words max) */ - /* Each PTDL contains running ROM f/w version, and checksum */ - /* MAC/PHY reset addresses (known) are added into a final PTDL */ - - /* The input image has already been parsed, and loaded into fwinfo, so we - * can use that to build the output image - */ - patch_buf_size = calc_patch_size(fwinfo); - - patch_buf = kmalloc(patch_buf_size, GFP_KERNEL); - if (!patch_buf) - { - kfree(rdbuf); - unifi_error(NULL, "Can't malloc buffer for patch conversion\n"); - return NULL; - } - - memset(patch_buf, 0xdd, patch_buf_size); - - /* Write XBV + VERF headers */ - patch_offs += write_xbv_header(patch_buf, patch_offs, 0); - payload_offs = patch_offs; - - /* Write patch (LIST) header */ - list_len_offs = patch_offs + 4; /* Save LIST.length offset for later update */ - patch_offs += write_ptch_header(patch_buf, patch_offs, fw_id); - - /* Save start offset of the PTDL chunks */ - ptdl_start_offs = patch_offs; - - /* Write LIST of firmware PTDL blocks */ - for (i = 0; i < fwinfo->num_fwdl; i++) - { - patch_offs += write_fwdl_to_ptdl(patch_buf, - patch_offs, - readfn, - &fwinfo->fwdl[i], - fw_buf, - fw_id, - rdbuf); - } - - /* Write restart-vector PTDL last */ - patch_offs += write_reset_ptdl(patch_buf, patch_offs, fwinfo, fw_id); - - /* Now the length is known, update the LIST.length */ - (void)write_uint32(patch_buf, list_len_offs, - (patch_offs - ptdl_start_offs) + PTCH_LIST_SIZE); - - /* Re write XBV headers just to fill in the correct file size */ - (void)write_xbv_header(patch_buf, 0, (patch_offs - payload_offs)); - - unifi_trace(card->ospriv, UDBG1, "XBV:PTCH size %u, fw_id %u\n", - patch_offs, fw_id); - if (size) - { - *size = patch_offs; - } - kfree(rdbuf); - - return patch_buf; -} - - diff --git a/drivers/staging/csr/csr_wifi_hip_xbv.h b/drivers/staging/csr/csr_wifi_hip_xbv.h deleted file mode 100644 index 3c50723..0000000 --- a/drivers/staging/csr/csr_wifi_hip_xbv.h +++ /dev/null @@ -1,119 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* - * --------------------------------------------------------------------------- - * FILE: csr_wifi_hip_xbv.h - * - * PURPOSE: - * Definitions and declarations for code to read XBV files - the UniFi - * firmware download file format. - * - * --------------------------------------------------------------------------- - */ -#ifndef __XBV_H__ -#define __XBV_H__ - -#ifndef CSR_WIFI_XBV_TEST -/* Driver includes */ -#include "csr_wifi_hip_unifi.h" -#endif - - -struct VMEQ -{ - u32 addr; - u16 mask; - u16 value; -}; - -struct VAND -{ - u32 first; - u32 count; -}; - -struct VERS -{ - u32 num_vand; -}; - -struct FWDL -{ - u32 dl_addr; - u32 dl_size; - u32 dl_offset; -}; - -struct FWOV -{ - u32 dl_size; - u32 dl_offset; -}; - -struct PTDL -{ - u32 dl_size; - u32 dl_offset; -}; - -#define MAX_VMEQ 64 -#define MAX_VAND 64 -#define MAX_FWDL 256 -#define MAX_PTDL 256 - -/* An XBV1 file can either contain firmware or patches (at the - * moment). The 'mode' member of the xbv1_t structure tells us which - * one is the case. */ -typedef enum -{ - xbv_unknown, - xbv_firmware, - xbv_patch -} xbv_mode; - -typedef struct -{ - xbv_mode mode; - - /* Parts of a Firmware XBV1 */ - - struct VMEQ vmeq[MAX_VMEQ]; - u32 num_vmeq; - struct VAND vand[MAX_VAND]; - struct VERS vers; - - u32 slut_addr; - - /* F/W download image, possibly more than one part */ - struct FWDL fwdl[MAX_FWDL]; - s16 num_fwdl; - - /* F/W overlay image, add r not used */ - struct FWOV fwov; - - /* Parts of a Patch XBV1 */ - - u32 build_id; - - struct PTDL ptdl[MAX_PTDL]; - s16 num_ptdl; -} xbv1_t; - - -typedef s32 (*fwreadfn_t)(void *ospriv, void *dlpriv, u32 offset, void *buf, u32 len); - -CsrResult xbv1_parse(card_t *card, fwreadfn_t readfn, void *dlpriv, xbv1_t *fwinfo); -s32 xbv1_read_slut(card_t *card, fwreadfn_t readfn, void *dlpriv, xbv1_t *fwinfo, - symbol_t *slut, u32 slut_len); -void* xbv_to_patch(card_t *card, fwreadfn_t readfn, const void *fw_buf, const xbv1_t *fwinfo, - u32 *size); - -#endif /* __XBV_H__ */ diff --git a/drivers/staging/csr/csr_wifi_hostio_prim.h b/drivers/staging/csr/csr_wifi_hostio_prim.h deleted file mode 100644 index cfb3e27..0000000 --- a/drivers/staging/csr/csr_wifi_hostio_prim.h +++ /dev/null @@ -1,18 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - - -#ifndef CSR_WIFI_HOSTIO_H -#define CSR_WIFI_HOSTIO_H - -#define CSR_WIFI_HOSTIO_PRIM 0x0453 - -#endif /* CSR_WIFI_HOSTIO_H */ - diff --git a/drivers/staging/csr/csr_wifi_lib.h b/drivers/staging/csr/csr_wifi_lib.h deleted file mode 100644 index 5fde0ef..0000000 --- a/drivers/staging/csr/csr_wifi_lib.h +++ /dev/null @@ -1,103 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ -#ifndef CSR_WIFI_LIB_H__ -#define CSR_WIFI_LIB_H__ - -#include "csr_wifi_fsm_event.h" - -/*----------------------------------------------------------------------------* - * CsrWifiFsmEventInit - * - * DESCRIPTION - * Macro to initialise the members of a CsrWifiFsmEvent. - *----------------------------------------------------------------------------*/ -#define CsrWifiFsmEventInit(evt, p_primtype, p_msgtype, p_dst, p_src) \ - (evt)->primtype = p_primtype; \ - (evt)->type = p_msgtype; \ - (evt)->destination = p_dst; \ - (evt)->source = p_src - - -/*----------------------------------------------------------------------------* - * CsrWifiEvent_struct - * - * DESCRIPTION - * Generic message creator. - * Allocates and fills in a message with the signature CsrWifiEvent - * - *----------------------------------------------------------------------------*/ -CsrWifiFsmEvent* CsrWifiEvent_struct(u16 primtype, u16 msgtype, CsrSchedQid dst, CsrSchedQid src); - -typedef struct -{ - CsrWifiFsmEvent common; - u8 value; -} CsrWifiEventCsrUint8; - -/*----------------------------------------------------------------------------* - * CsrWifiEventCsrUint8_struct - * - * DESCRIPTION - * Generic message creator. - * Allocates and fills in a message with the signature CsrWifiEventCsrUint8 - * - *----------------------------------------------------------------------------*/ -CsrWifiEventCsrUint8* CsrWifiEventCsrUint8_struct(u16 primtype, u16 msgtype, CsrSchedQid dst, CsrSchedQid src, u8 value); - -typedef struct -{ - CsrWifiFsmEvent common; - u16 value; -} CsrWifiEventCsrUint16; - -/*----------------------------------------------------------------------------* - * CsrWifiEventCsrUint16_struct - * - * DESCRIPTION - * Generic message creator. - * Allocates and fills in a message with the signature CsrWifiEventCsrUint16 - * - *----------------------------------------------------------------------------*/ -CsrWifiEventCsrUint16* CsrWifiEventCsrUint16_struct(u16 primtype, u16 msgtype, CsrSchedQid dst, CsrSchedQid src, u16 value); - -typedef struct -{ - CsrWifiFsmEvent common; - u32 value; -} CsrWifiEventCsrUint32; - -/*----------------------------------------------------------------------------* - * CsrWifiEventCsrUint32_struct - * - * DESCRIPTION - * Generic message creator. - * Allocates and fills in a message with the signature CsrWifiEventCsrUint32 - * - *----------------------------------------------------------------------------*/ -CsrWifiEventCsrUint32* CsrWifiEventCsrUint32_struct(u16 primtype, u16 msgtype, CsrSchedQid dst, CsrSchedQid src, u32 value); - -typedef struct -{ - CsrWifiFsmEvent common; - u16 value16; - u8 value8; -} CsrWifiEventCsrUint16CsrUint8; - -/*----------------------------------------------------------------------------* - * CsrWifiEventCsrUint16CsrUint8_struct - * - * DESCRIPTION - * Generic message creator. - * Allocates and fills in a message with the signature CsrWifiEventCsrUint16CsrUint8 - * - *----------------------------------------------------------------------------*/ -CsrWifiEventCsrUint16CsrUint8* CsrWifiEventCsrUint16CsrUint8_struct(u16 primtype, u16 msgtype, CsrSchedQid dst, CsrSchedQid src, u16 value16, u8 value8); - -#endif /* CSR_WIFI_LIB_H__ */ diff --git a/drivers/staging/csr/csr_wifi_msgconv.h b/drivers/staging/csr/csr_wifi_msgconv.h deleted file mode 100644 index f8b4029..0000000 --- a/drivers/staging/csr/csr_wifi_msgconv.h +++ /dev/null @@ -1,49 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_MSGCONV_H__ -#define CSR_WIFI_MSGCONV_H__ - -#include "csr_prim_defs.h" -#include "csr_sched.h" - -void CsrUint16SerBigEndian(u8 *ptr, size_t *len, u16 v); -void CsrUint24SerBigEndian(u8 *ptr, size_t *len, u32 v); -void CsrUint32SerBigEndian(u8 *ptr, size_t *len, u32 v); - -void CsrUint16DesBigEndian(u16 *v, u8 *buffer, size_t *offset); -void CsrUint24DesBigEndian(u32 *v, u8 *buffer, size_t *offset); -void CsrUint32DesBigEndian(u32 *v, u8 *buffer, size_t *offset); - -void CsrUint24Ser(u8 *ptr, size_t *len, u32 v); -void CsrUint24Des(u32 *v, u8 *buffer, size_t *offset); - - -size_t CsrWifiEventSizeof(void *msg); -u8* CsrWifiEventSer(u8 *ptr, size_t *len, void *msg); -void* CsrWifiEventDes(u8 *buffer, size_t length); - -size_t CsrWifiEventCsrUint8Sizeof(void *msg); -u8* CsrWifiEventCsrUint8Ser(u8 *ptr, size_t *len, void *msg); -void* CsrWifiEventCsrUint8Des(u8 *buffer, size_t length); - -size_t CsrWifiEventCsrUint16Sizeof(void *msg); -u8* CsrWifiEventCsrUint16Ser(u8 *ptr, size_t *len, void *msg); -void* CsrWifiEventCsrUint16Des(u8 *buffer, size_t length); - -size_t CsrWifiEventCsrUint32Sizeof(void *msg); -u8* CsrWifiEventCsrUint32Ser(u8 *ptr, size_t *len, void *msg); -void* CsrWifiEventCsrUint32Des(u8 *buffer, size_t length); - -size_t CsrWifiEventCsrUint16CsrUint8Sizeof(void *msg); -u8* CsrWifiEventCsrUint16CsrUint8Ser(u8 *ptr, size_t *len, void *msg); -void* CsrWifiEventCsrUint16CsrUint8Des(u8 *buffer, size_t length); - -#endif /* CSR_WIFI_MSGCONV_H__ */ diff --git a/drivers/staging/csr/csr_wifi_nme_ap_converter_init.c b/drivers/staging/csr/csr_wifi_nme_ap_converter_init.c deleted file mode 100644 index 0689d6f..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_converter_init.c +++ /dev/null @@ -1,90 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#include "csr_msgconv.h" -#include "csr_macro.h" - -#ifdef CSR_WIFI_NME_ENABLE -#ifdef CSR_WIFI_AP_ENABLE - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" -#endif - -#ifndef EXCLUDE_CSR_WIFI_NME_AP_MODULE -#include "csr_wifi_nme_ap_serialize.h" -#include "csr_wifi_nme_ap_prim.h" - -static CsrMsgConvMsgEntry csrwifinmeap_conv_lut[] = { - { CSR_WIFI_NME_AP_CONFIG_SET_REQ, CsrWifiNmeApConfigSetReqSizeof, CsrWifiNmeApConfigSetReqSer, CsrWifiNmeApConfigSetReqDes, CsrWifiNmeApConfigSetReqSerFree }, - { CSR_WIFI_NME_AP_WPS_REGISTER_REQ, CsrWifiNmeApWpsRegisterReqSizeof, CsrWifiNmeApWpsRegisterReqSer, CsrWifiNmeApWpsRegisterReqDes, CsrWifiNmeApWpsRegisterReqSerFree }, - { CSR_WIFI_NME_AP_START_REQ, CsrWifiNmeApStartReqSizeof, CsrWifiNmeApStartReqSer, CsrWifiNmeApStartReqDes, CsrWifiNmeApStartReqSerFree }, - { CSR_WIFI_NME_AP_STOP_REQ, CsrWifiNmeApStopReqSizeof, CsrWifiNmeApStopReqSer, CsrWifiNmeApStopReqDes, CsrWifiNmeApStopReqSerFree }, - { CSR_WIFI_NME_AP_WMM_PARAM_UPDATE_REQ, CsrWifiNmeApWmmParamUpdateReqSizeof, CsrWifiNmeApWmmParamUpdateReqSer, CsrWifiNmeApWmmParamUpdateReqDes, CsrWifiNmeApWmmParamUpdateReqSerFree }, - { CSR_WIFI_NME_AP_STA_REMOVE_REQ, CsrWifiNmeApStaRemoveReqSizeof, CsrWifiNmeApStaRemoveReqSer, CsrWifiNmeApStaRemoveReqDes, CsrWifiNmeApStaRemoveReqSerFree }, - { CSR_WIFI_NME_AP_CONFIG_SET_CFM, CsrWifiNmeApConfigSetCfmSizeof, CsrWifiNmeApConfigSetCfmSer, CsrWifiNmeApConfigSetCfmDes, CsrWifiNmeApConfigSetCfmSerFree }, - { CSR_WIFI_NME_AP_WPS_REGISTER_CFM, CsrWifiNmeApWpsRegisterCfmSizeof, CsrWifiNmeApWpsRegisterCfmSer, CsrWifiNmeApWpsRegisterCfmDes, CsrWifiNmeApWpsRegisterCfmSerFree }, - { CSR_WIFI_NME_AP_START_CFM, CsrWifiNmeApStartCfmSizeof, CsrWifiNmeApStartCfmSer, CsrWifiNmeApStartCfmDes, CsrWifiNmeApStartCfmSerFree }, - { CSR_WIFI_NME_AP_STOP_CFM, CsrWifiNmeApStopCfmSizeof, CsrWifiNmeApStopCfmSer, CsrWifiNmeApStopCfmDes, CsrWifiNmeApStopCfmSerFree }, - { CSR_WIFI_NME_AP_STOP_IND, CsrWifiNmeApStopIndSizeof, CsrWifiNmeApStopIndSer, CsrWifiNmeApStopIndDes, CsrWifiNmeApStopIndSerFree }, - { CSR_WIFI_NME_AP_WMM_PARAM_UPDATE_CFM, CsrWifiNmeApWmmParamUpdateCfmSizeof, CsrWifiNmeApWmmParamUpdateCfmSer, CsrWifiNmeApWmmParamUpdateCfmDes, CsrWifiNmeApWmmParamUpdateCfmSerFree }, - { CSR_WIFI_NME_AP_STATION_IND, CsrWifiNmeApStationIndSizeof, CsrWifiNmeApStationIndSer, CsrWifiNmeApStationIndDes, CsrWifiNmeApStationIndSerFree }, - - { 0, NULL, NULL, NULL, NULL }, -}; - -CsrMsgConvMsgEntry* CsrWifiNmeApConverterLookup(CsrMsgConvMsgEntry *ce, u16 msgType) -{ - if (msgType & CSR_PRIM_UPSTREAM) - { - u16 idx = (msgType & ~CSR_PRIM_UPSTREAM) + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_COUNT; - if (idx < (CSR_WIFI_NME_AP_PRIM_UPSTREAM_COUNT + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_COUNT) && - csrwifinmeap_conv_lut[idx].msgType == msgType) - { - return &csrwifinmeap_conv_lut[idx]; - } - } - else - { - if (msgType < CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_COUNT && - csrwifinmeap_conv_lut[msgType].msgType == msgType) - { - return &csrwifinmeap_conv_lut[msgType]; - } - } - return NULL; -} - - -void CsrWifiNmeApConverterInit(void) -{ - CsrMsgConvInsert(CSR_WIFI_NME_AP_PRIM, csrwifinmeap_conv_lut); - CsrMsgConvCustomLookupRegister(CSR_WIFI_NME_AP_PRIM, CsrWifiNmeApConverterLookup); -} - - -#ifdef CSR_LOG_ENABLE -static const CsrLogPrimitiveInformation csrwifinmeap_conv_info = { - CSR_WIFI_NME_AP_PRIM, - (char *)"CSR_WIFI_NME_AP_PRIM", - csrwifinmeap_conv_lut -}; -const CsrLogPrimitiveInformation* CsrWifiNmeApTechInfoGet(void) -{ - return &csrwifinmeap_conv_info; -} - - -#endif /* CSR_LOG_ENABLE */ -#endif /* EXCLUDE_CSR_WIFI_NME_AP_MODULE */ -#endif /* CSR_WIFI_NME_ENABLE */ -#endif /* CSR_WIFI_AP_ENABLE */ diff --git a/drivers/staging/csr/csr_wifi_nme_ap_converter_init.h b/drivers/staging/csr/csr_wifi_nme_ap_converter_init.h deleted file mode 100644 index b89d7c7..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_converter_init.h +++ /dev/null @@ -1,41 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_AP_CONVERTER_INIT_H__ -#define CSR_WIFI_NME_AP_CONVERTER_INIT_H__ - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_ap_converter_init.h -#endif -#ifndef CSR_WIFI_AP_ENABLE -#error CSR_WIFI_AP_ENABLE MUST be defined inorder to use csr_wifi_nme_ap_converter_init.h -#endif - -#ifndef EXCLUDE_CSR_WIFI_NME_AP_MODULE - -#include "csr_msgconv.h" - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" - -extern const CsrLogPrimitiveInformation* CsrWifiNmeApTechInfoGet(void); -#endif /* CSR_LOG_ENABLE */ - -extern void CsrWifiNmeApConverterInit(void); - -#else /* EXCLUDE_CSR_WIFI_NME_AP_MODULE */ - -#define CsrWifiNmeApConverterInit() - -#endif /* EXCLUDE_CSR_WIFI_NME_AP_MODULE */ - -#endif /* CSR_WIFI_NME_AP_CONVERTER_INIT_H__ */ diff --git a/drivers/staging/csr/csr_wifi_nme_ap_free_downstream_contents.c b/drivers/staging/csr/csr_wifi_nme_ap_free_downstream_contents.c deleted file mode 100644 index ab93588..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_free_downstream_contents.c +++ /dev/null @@ -1,84 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/slab.h> -#include "csr_wifi_nme_ap_prim.h" -#include "csr_wifi_nme_ap_lib.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrWifiNmeApFreeDownstreamMessageContents - * - * DESCRIPTION - * - * - * PARAMETERS - * eventClass: only the value CSR_WIFI_NME_AP_PRIM will be handled - * message: the message to free - *----------------------------------------------------------------------------*/ -void CsrWifiNmeApFreeDownstreamMessageContents(u16 eventClass, void *message) -{ - if (eventClass != CSR_WIFI_NME_AP_PRIM) - { - return; - } - if (NULL == message) - { - return; - } - - switch (*((CsrWifiNmeApPrim *) message)) - { - case CSR_WIFI_NME_AP_CONFIG_SET_REQ: - { - CsrWifiNmeApConfigSetReq *p = (CsrWifiNmeApConfigSetReq *)message; - kfree(p->apMacConfig.macAddressList); - p->apMacConfig.macAddressList = NULL; - break; - } - case CSR_WIFI_NME_AP_START_REQ: - { - CsrWifiNmeApStartReq *p = (CsrWifiNmeApStartReq *)message; - switch (p->apCredentials.authType) - { - case CSR_WIFI_SME_AP_AUTH_TYPE_PERSONAL: - switch (p->apCredentials.nmeAuthType.authTypePersonal.pskOrPassphrase) - { - case CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PASSPHRASE: - kfree(p->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.passphrase); - p->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.passphrase = NULL; - break; - default: - break; - } - break; - default: - break; - } - { - u16 i3; - for (i3 = 0; i3 < p->p2pGoParam.operatingChanList.channelEntryListCount; i3++) - { - kfree(p->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannel); - p->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannel = NULL; - } - } - kfree(p->p2pGoParam.operatingChanList.channelEntryList); - p->p2pGoParam.operatingChanList.channelEntryList = NULL; - break; - } - - default: - break; - } -} - - diff --git a/drivers/staging/csr/csr_wifi_nme_ap_free_upstream_contents.c b/drivers/staging/csr/csr_wifi_nme_ap_free_upstream_contents.c deleted file mode 100644 index 2786a6b..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_free_upstream_contents.c +++ /dev/null @@ -1,39 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#include "csr_wifi_nme_ap_prim.h" -#include "csr_wifi_nme_ap_lib.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrWifiNmeApFreeUpstreamMessageContents - * - * DESCRIPTION - * - * - * PARAMETERS - * eventClass: only the value CSR_WIFI_NME_AP_PRIM will be handled - * message: the message to free - *----------------------------------------------------------------------------*/ -void CsrWifiNmeApFreeUpstreamMessageContents(u16 eventClass, void *message) -{ - if (eventClass != CSR_WIFI_NME_AP_PRIM) - { - return; - } - if (NULL == message) - { - return; - } -} - - diff --git a/drivers/staging/csr/csr_wifi_nme_ap_lib.h b/drivers/staging/csr/csr_wifi_nme_ap_lib.h deleted file mode 100644 index 6d8df83..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_lib.h +++ /dev/null @@ -1,495 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_AP_LIB_H__ -#define CSR_WIFI_NME_AP_LIB_H__ - -#include "csr_sched.h" -#include "csr_macro.h" -#include "csr_msg_transport.h" - -#include "csr_wifi_lib.h" - -#include "csr_wifi_nme_ap_prim.h" -#include "csr_wifi_nme_task.h" - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_ap_lib.h -#endif -#ifndef CSR_WIFI_AP_ENABLE -#error CSR_WIFI_AP_ENABLE MUST be defined inorder to use csr_wifi_nme_ap_lib.h -#endif - -/*----------------------------------------------------------------------------* - * CsrWifiNmeApFreeUpstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_NME_AP upstream message. Does not - * free the message itself, and can only be used for upstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_NME_AP upstream message - *----------------------------------------------------------------------------*/ -void CsrWifiNmeApFreeUpstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * CsrWifiNmeApFreeDownstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_NME_AP downstream message. Does not - * free the message itself, and can only be used for downstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_NME_AP downstream message - *----------------------------------------------------------------------------*/ -void CsrWifiNmeApFreeDownstreamMessageContents(u16 eventClass, void *message); - -/******************************************************************************* - - NAME - CsrWifiNmeApConfigSetReqSend - - DESCRIPTION - This primitive passes AP configuration info for NME. This can be sent at - any time but will be acted upon when the AP is started again. This - information is common to both P2P GO and AP - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - apConfig - AP configuration for the NME. - apMacConfig - MAC configuration to be acted on when - CSR_WIFI_NME_AP_START.request is sent. - -*******************************************************************************/ -#define CsrWifiNmeApConfigSetReqCreate(msg__, dst__, src__, apConfig__, apMacConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_CONFIG_SET_REQ, dst__, src__); \ - msg__->apConfig = (apConfig__); \ - msg__->apMacConfig = (apMacConfig__); - -#define CsrWifiNmeApConfigSetReqSendTo(dst__, src__, apConfig__, apMacConfig__) \ - { \ - CsrWifiNmeApConfigSetReq *msg__; \ - CsrWifiNmeApConfigSetReqCreate(msg__, dst__, src__, apConfig__, apMacConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApConfigSetReqSend(src__, apConfig__, apMacConfig__) \ - CsrWifiNmeApConfigSetReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, apConfig__, apMacConfig__) - -/******************************************************************************* - - NAME - CsrWifiNmeApConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Status of the request. - -*******************************************************************************/ -#define CsrWifiNmeApConfigSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_CONFIG_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiNmeApConfigSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiNmeApConfigSetCfm *msg__; \ - CsrWifiNmeApConfigSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApConfigSetCfmSend(dst__, status__) \ - CsrWifiNmeApConfigSetCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeApStaRemoveReqSend - - DESCRIPTION - This primitive disconnects a connected station. If keepBlocking is set to - TRUE, the station with the specified MAC address is not allowed to - connect. If the requested station is not already connected,it may be - blocked based on keepBlocking parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - staMacAddress - Mac Address of the station to be disconnected or blocked - keepBlocking - If TRUE, the station is blocked. If FALSE and the station is - connected, disconnect the station. If FALSE and the station - is not connected, no action is taken. - -*******************************************************************************/ -#define CsrWifiNmeApStaRemoveReqCreate(msg__, dst__, src__, interfaceTag__, staMacAddress__, keepBlocking__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApStaRemoveReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_STA_REMOVE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->staMacAddress = (staMacAddress__); \ - msg__->keepBlocking = (keepBlocking__); - -#define CsrWifiNmeApStaRemoveReqSendTo(dst__, src__, interfaceTag__, staMacAddress__, keepBlocking__) \ - { \ - CsrWifiNmeApStaRemoveReq *msg__; \ - CsrWifiNmeApStaRemoveReqCreate(msg__, dst__, src__, interfaceTag__, staMacAddress__, keepBlocking__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApStaRemoveReqSend(src__, interfaceTag__, staMacAddress__, keepBlocking__) \ - CsrWifiNmeApStaRemoveReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__, staMacAddress__, keepBlocking__) - -/******************************************************************************* - - NAME - CsrWifiNmeApStartReqSend - - DESCRIPTION - This primitive requests NME to started the AP operation. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface identifier; unique identifier of an interface - apType - AP Type specifies the Legacy AP or P2P GO operation - cloakSsid - Indicates whether the SSID should be cloaked (hidden and - not broadcast in beacon) or not - ssid - Service Set Identifier - ifIndex - Radio interface - channel - Channel number of the channel to use - apCredentials - Security credential configuration. - maxConnections - Maximum number of stations/P2P clients allowed - p2pGoParam - P2P specific GO parameters. - wpsEnabled - Indicates whether WPS should be enabled or not - -*******************************************************************************/ -#define CsrWifiNmeApStartReqCreate(msg__, dst__, src__, interfaceTag__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, apCredentials__, maxConnections__, p2pGoParam__, wpsEnabled__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApStartReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_START_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->apType = (apType__); \ - msg__->cloakSsid = (cloakSsid__); \ - msg__->ssid = (ssid__); \ - msg__->ifIndex = (ifIndex__); \ - msg__->channel = (channel__); \ - msg__->apCredentials = (apCredentials__); \ - msg__->maxConnections = (maxConnections__); \ - msg__->p2pGoParam = (p2pGoParam__); \ - msg__->wpsEnabled = (wpsEnabled__); - -#define CsrWifiNmeApStartReqSendTo(dst__, src__, interfaceTag__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, apCredentials__, maxConnections__, p2pGoParam__, wpsEnabled__) \ - { \ - CsrWifiNmeApStartReq *msg__; \ - CsrWifiNmeApStartReqCreate(msg__, dst__, src__, interfaceTag__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, apCredentials__, maxConnections__, p2pGoParam__, wpsEnabled__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApStartReqSend(src__, interfaceTag__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, apCredentials__, maxConnections__, p2pGoParam__, wpsEnabled__) \ - CsrWifiNmeApStartReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, apCredentials__, maxConnections__, p2pGoParam__, wpsEnabled__) - -/******************************************************************************* - - NAME - CsrWifiNmeApStartCfmSend - - DESCRIPTION - This primitive reports the result of CSR_WIFI_NME_AP_START.request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface identifier; unique identifier of an interface - status - Status of the request. - ssid - Service Set Identifier - -*******************************************************************************/ -#define CsrWifiNmeApStartCfmCreate(msg__, dst__, src__, interfaceTag__, status__, ssid__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApStartCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_START_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->ssid = (ssid__); - -#define CsrWifiNmeApStartCfmSendTo(dst__, src__, interfaceTag__, status__, ssid__) \ - { \ - CsrWifiNmeApStartCfm *msg__; \ - CsrWifiNmeApStartCfmCreate(msg__, dst__, src__, interfaceTag__, status__, ssid__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApStartCfmSend(dst__, interfaceTag__, status__, ssid__) \ - CsrWifiNmeApStartCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, status__, ssid__) - -/******************************************************************************* - - NAME - CsrWifiNmeApStationIndSend - - DESCRIPTION - This primitive indicates that a station has joined or a previously joined - station has left the BSS/group - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - mediaStatus - Indicates whether the station is connected or - disconnected - peerMacAddress - MAC address of the station - peerDeviceAddress - P2P Device Address - -*******************************************************************************/ -#define CsrWifiNmeApStationIndCreate(msg__, dst__, src__, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApStationInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_STATION_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->mediaStatus = (mediaStatus__); \ - msg__->peerMacAddress = (peerMacAddress__); \ - msg__->peerDeviceAddress = (peerDeviceAddress__); - -#define CsrWifiNmeApStationIndSendTo(dst__, src__, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__) \ - { \ - CsrWifiNmeApStationInd *msg__; \ - CsrWifiNmeApStationIndCreate(msg__, dst__, src__, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApStationIndSend(dst__, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__) \ - CsrWifiNmeApStationIndSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__) - -/******************************************************************************* - - NAME - CsrWifiNmeApStopReqSend - - DESCRIPTION - This primitive requests NME to stop the AP operation. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiNmeApStopReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApStopReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_STOP_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiNmeApStopReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiNmeApStopReq *msg__; \ - CsrWifiNmeApStopReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApStopReqSend(src__, interfaceTag__) \ - CsrWifiNmeApStopReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiNmeApStopIndSend - - DESCRIPTION - Indicates that AP operation had stopped because of some unrecoverable - error after AP operation was started successfully. NME sends this signal - after failing to restart the AP operation internally following an error - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - apType - Reports AP Type (P2PGO or AP) - status - Error Status - -*******************************************************************************/ -#define CsrWifiNmeApStopIndCreate(msg__, dst__, src__, interfaceTag__, apType__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApStopInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_STOP_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->apType = (apType__); \ - msg__->status = (status__); - -#define CsrWifiNmeApStopIndSendTo(dst__, src__, interfaceTag__, apType__, status__) \ - { \ - CsrWifiNmeApStopInd *msg__; \ - CsrWifiNmeApStopIndCreate(msg__, dst__, src__, interfaceTag__, apType__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApStopIndSend(dst__, interfaceTag__, apType__, status__) \ - CsrWifiNmeApStopIndSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, apType__, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeApStopCfmSend - - DESCRIPTION - This primitive confirms that the AP operation is stopped. NME shall send - this primitive in response to the request even if AP operation has - already been stopped - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface identifier; unique identifier of an interface - status - Status of the request. - -*******************************************************************************/ -#define CsrWifiNmeApStopCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApStopCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_STOP_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiNmeApStopCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiNmeApStopCfm *msg__; \ - CsrWifiNmeApStopCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApStopCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiNmeApStopCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeApWmmParamUpdateReqSend - - DESCRIPTION - Application uses this primitive to update the WMM parameters - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - wmmApParams - WMM Access point parameters per access category. The array - index corresponds to the ACI - wmmApBcParams - WMM station parameters per access category to be advertised - in the beacons and probe response The array index - corresponds to the ACI - -*******************************************************************************/ -#define CsrWifiNmeApWmmParamUpdateReqCreate(msg__, dst__, src__, wmmApParams__, wmmApBcParams__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApWmmParamUpdateReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_WMM_PARAM_UPDATE_REQ, dst__, src__); \ - memcpy(msg__->wmmApParams, (wmmApParams__), sizeof(CsrWifiSmeWmmAcParams) * 4); \ - memcpy(msg__->wmmApBcParams, (wmmApBcParams__), sizeof(CsrWifiSmeWmmAcParams) * 4); - -#define CsrWifiNmeApWmmParamUpdateReqSendTo(dst__, src__, wmmApParams__, wmmApBcParams__) \ - { \ - CsrWifiNmeApWmmParamUpdateReq *msg__; \ - CsrWifiNmeApWmmParamUpdateReqCreate(msg__, dst__, src__, wmmApParams__, wmmApBcParams__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApWmmParamUpdateReqSend(src__, wmmApParams__, wmmApBcParams__) \ - CsrWifiNmeApWmmParamUpdateReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, wmmApParams__, wmmApBcParams__) - -/******************************************************************************* - - NAME - CsrWifiNmeApWmmParamUpdateCfmSend - - DESCRIPTION - A confirm for for the WMM parameters update - - PARAMETERS - queue - Destination Task Queue - status - Status of the request. - -*******************************************************************************/ -#define CsrWifiNmeApWmmParamUpdateCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApWmmParamUpdateCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_WMM_PARAM_UPDATE_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiNmeApWmmParamUpdateCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiNmeApWmmParamUpdateCfm *msg__; \ - CsrWifiNmeApWmmParamUpdateCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApWmmParamUpdateCfmSend(dst__, status__) \ - CsrWifiNmeApWmmParamUpdateCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeApWpsRegisterReqSend - - DESCRIPTION - This primitive allows the NME to accept the WPS registration from an - enrollee. Such registration procedure can be cancelled by sending - CSR_WIFI_NME_WPS_CANCEL.request. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an - interface - selectedDevicePasswordId - Selected password type - selectedConfigMethod - Selected WPS configuration method type - pin - PIN value. - Relevant if selected device password ID is PIN.4 - digit pin is passed by sending the pin digits in - pin[0]..pin[3] and rest of the contents filled - with '-'. - -*******************************************************************************/ -#define CsrWifiNmeApWpsRegisterReqCreate(msg__, dst__, src__, interfaceTag__, selectedDevicePasswordId__, selectedConfigMethod__, pin__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApWpsRegisterReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_WPS_REGISTER_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->selectedDevicePasswordId = (selectedDevicePasswordId__); \ - msg__->selectedConfigMethod = (selectedConfigMethod__); \ - memcpy(msg__->pin, (pin__), sizeof(u8) * 8); - -#define CsrWifiNmeApWpsRegisterReqSendTo(dst__, src__, interfaceTag__, selectedDevicePasswordId__, selectedConfigMethod__, pin__) \ - { \ - CsrWifiNmeApWpsRegisterReq *msg__; \ - CsrWifiNmeApWpsRegisterReqCreate(msg__, dst__, src__, interfaceTag__, selectedDevicePasswordId__, selectedConfigMethod__, pin__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApWpsRegisterReqSend(src__, interfaceTag__, selectedDevicePasswordId__, selectedConfigMethod__, pin__) \ - CsrWifiNmeApWpsRegisterReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__, selectedDevicePasswordId__, selectedConfigMethod__, pin__) - -/******************************************************************************* - - NAME - CsrWifiNmeApWpsRegisterCfmSend - - DESCRIPTION - This primitive reports the result of WPS procedure. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface identifier; unique identifier of an interface - status - Status of the request. - -*******************************************************************************/ -#define CsrWifiNmeApWpsRegisterCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeApWpsRegisterCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_AP_PRIM, CSR_WIFI_NME_AP_WPS_REGISTER_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiNmeApWpsRegisterCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiNmeApWpsRegisterCfm *msg__; \ - CsrWifiNmeApWpsRegisterCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_AP_PRIM, msg__); \ - } - -#define CsrWifiNmeApWpsRegisterCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiNmeApWpsRegisterCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, status__) - -#endif /* CSR_WIFI_NME_AP_LIB_H__ */ diff --git a/drivers/staging/csr/csr_wifi_nme_ap_prim.h b/drivers/staging/csr/csr_wifi_nme_ap_prim.h deleted file mode 100644 index b32bdbc..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_prim.h +++ /dev/null @@ -1,494 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_AP_PRIM_H__ -#define CSR_WIFI_NME_AP_PRIM_H__ - -#include <linux/types.h> -#include "csr_prim_defs.h" -#include "csr_sched.h" -#include "csr_wifi_common.h" -#include "csr_result.h" -#include "csr_wifi_fsm_event.h" -#include "csr_wifi_sme_ap_prim.h" -#include "csr_wifi_nme_prim.h" - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_ap_prim.h -#endif -#ifndef CSR_WIFI_AP_ENABLE -#error CSR_WIFI_AP_ENABLE MUST be defined inorder to use csr_wifi_nme_ap_prim.h -#endif - -#define CSR_WIFI_NME_AP_PRIM (0x0426) - -typedef CsrPrim CsrWifiNmeApPrim; - - -/******************************************************************************* - - NAME - CsrWifiNmeApPersCredentialType - - DESCRIPTION - NME Credential Types - - VALUES - CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PSK - - Use PSK as credential. - CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PASSPHRASE - - Use the specified passphrase as credential - -*******************************************************************************/ -typedef u8 CsrWifiNmeApPersCredentialType; -#define CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PSK ((CsrWifiNmeApPersCredentialType) 0x00) -#define CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PASSPHRASE ((CsrWifiNmeApPersCredentialType) 0x01) - - -/******************************************************************************* - - NAME - CsrWifiNmeApConfig - - DESCRIPTION - Structure holding AP config data. - - MEMBERS - apGroupkeyTimeout - Access point group key timeout. - apStrictGtkRekey - Access point strict GTK rekey flag. If set TRUE, the AP - shall rekey GTK every time a connected STA leaves BSS. - apGmkTimeout - Access point GMK timeout - apResponseTimeout - Response timeout - apRetransLimit - Max allowed retransmissions - -*******************************************************************************/ -typedef struct -{ - u16 apGroupkeyTimeout; - u8 apStrictGtkRekey; - u16 apGmkTimeout; - u16 apResponseTimeout; - u8 apRetransLimit; -} CsrWifiNmeApConfig; - -/******************************************************************************* - - NAME - CsrWifiNmeApAuthPers - - DESCRIPTION - - MEMBERS - authSupport - Credential type value (as defined in the - enumeration type). - rsnCapabilities - RSN capabilities mask - wapiCapabilities - WAPI capabilities mask - pskOrPassphrase - Credential type value (as defined in the - enumeration type). - authPers_credentials - Union containing credentials which depends - on credentialType parameter. - authPers_credentialspsk - - authPers_credentialspassphrase - - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeApAuthSupportMask authSupport; - CsrWifiSmeApRsnCapabilitiesMask rsnCapabilities; - CsrWifiSmeApWapiCapabilitiesMask wapiCapabilities; - CsrWifiNmeApPersCredentialType pskOrPassphrase; - union { - CsrWifiNmePsk psk; - CsrWifiNmePassphrase passphrase; - } authPers_credentials; -} CsrWifiNmeApAuthPers; - -/******************************************************************************* - - NAME - CsrWifiNmeApCredentials - - DESCRIPTION - Structure containing the Credentials data. - - MEMBERS - authType - Authentication type - nmeAuthType - Authentication parameters - nmeAuthTypeopenSystemEmpty - - nmeAuthTypeauthwep - - nmeAuthTypeauthTypePersonal - - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeApAuthType authType; - union { - CsrWifiSmeEmpty openSystemEmpty; - CsrWifiSmeWepAuth authwep; - CsrWifiNmeApAuthPers authTypePersonal; - } nmeAuthType; -} CsrWifiNmeApCredentials; - - -/* Downstream */ -#define CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST (0x0000) - -#define CSR_WIFI_NME_AP_CONFIG_SET_REQ ((CsrWifiNmeApPrim) (0x0000 + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_WPS_REGISTER_REQ ((CsrWifiNmeApPrim) (0x0001 + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_START_REQ ((CsrWifiNmeApPrim) (0x0002 + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_STOP_REQ ((CsrWifiNmeApPrim) (0x0003 + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_WMM_PARAM_UPDATE_REQ ((CsrWifiNmeApPrim) (0x0004 + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_STA_REMOVE_REQ ((CsrWifiNmeApPrim) (0x0005 + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST)) - - -#define CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_HIGHEST (0x0005 + CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST) - -/* Upstream */ -#define CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST (0x0000 + CSR_PRIM_UPSTREAM) - -#define CSR_WIFI_NME_AP_CONFIG_SET_CFM ((CsrWifiNmeApPrim)(0x0000 + CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_WPS_REGISTER_CFM ((CsrWifiNmeApPrim)(0x0001 + CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_START_CFM ((CsrWifiNmeApPrim)(0x0002 + CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_STOP_CFM ((CsrWifiNmeApPrim)(0x0003 + CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_STOP_IND ((CsrWifiNmeApPrim)(0x0004 + CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_WMM_PARAM_UPDATE_CFM ((CsrWifiNmeApPrim)(0x0005 + CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_AP_STATION_IND ((CsrWifiNmeApPrim)(0x0006 + CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST)) - -#define CSR_WIFI_NME_AP_PRIM_UPSTREAM_HIGHEST (0x0006 + CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST) - -#define CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_COUNT (CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_HIGHEST + 1 - CSR_WIFI_NME_AP_PRIM_DOWNSTREAM_LOWEST) -#define CSR_WIFI_NME_AP_PRIM_UPSTREAM_COUNT (CSR_WIFI_NME_AP_PRIM_UPSTREAM_HIGHEST + 1 - CSR_WIFI_NME_AP_PRIM_UPSTREAM_LOWEST) - -/******************************************************************************* - - NAME - CsrWifiNmeApConfigSetReq - - DESCRIPTION - This primitive passes AP configuration info for NME. This can be sent at - any time but will be acted upon when the AP is started again. This - information is common to both P2P GO and AP - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - apConfig - AP configuration for the NME. - apMacConfig - MAC configuration to be acted on when - CSR_WIFI_NME_AP_START.request is sent. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiNmeApConfig apConfig; - CsrWifiSmeApMacConfig apMacConfig; -} CsrWifiNmeApConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiNmeApWpsRegisterReq - - DESCRIPTION - This primitive allows the NME to accept the WPS registration from an - enrollee. Such registration procedure can be cancelled by sending - CSR_WIFI_NME_WPS_CANCEL.request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an - interface - selectedDevicePasswordId - Selected password type - selectedConfigMethod - Selected WPS configuration method type - pin - PIN value. - Relevant if selected device password ID is PIN.4 - digit pin is passed by sending the pin digits in - pin[0]..pin[3] and rest of the contents filled - with '-'. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeWpsDpid selectedDevicePasswordId; - CsrWifiSmeWpsConfigType selectedConfigMethod; - u8 pin[8]; -} CsrWifiNmeApWpsRegisterReq; - -/******************************************************************************* - - NAME - CsrWifiNmeApStartReq - - DESCRIPTION - This primitive requests NME to started the AP operation. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface identifier; unique identifier of an interface - apType - AP Type specifies the Legacy AP or P2P GO operation - cloakSsid - Indicates whether the SSID should be cloaked (hidden and - not broadcast in beacon) or not - ssid - Service Set Identifier - ifIndex - Radio interface - channel - Channel number of the channel to use - apCredentials - Security credential configuration. - maxConnections - Maximum number of stations/P2P clients allowed - p2pGoParam - P2P specific GO parameters. - wpsEnabled - Indicates whether WPS should be enabled or not - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeApType apType; - u8 cloakSsid; - CsrWifiSsid ssid; - CsrWifiSmeRadioIF ifIndex; - u8 channel; - CsrWifiNmeApCredentials apCredentials; - u8 maxConnections; - CsrWifiSmeApP2pGoConfig p2pGoParam; - u8 wpsEnabled; -} CsrWifiNmeApStartReq; - -/******************************************************************************* - - NAME - CsrWifiNmeApStopReq - - DESCRIPTION - This primitive requests NME to stop the AP operation. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiNmeApStopReq; - -/******************************************************************************* - - NAME - CsrWifiNmeApWmmParamUpdateReq - - DESCRIPTION - Application uses this primitive to update the WMM parameters - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - wmmApParams - WMM Access point parameters per access category. The array - index corresponds to the ACI - wmmApBcParams - WMM station parameters per access category to be advertised - in the beacons and probe response The array index - corresponds to the ACI - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeWmmAcParams wmmApParams[4]; - CsrWifiSmeWmmAcParams wmmApBcParams[4]; -} CsrWifiNmeApWmmParamUpdateReq; - -/******************************************************************************* - - NAME - CsrWifiNmeApStaRemoveReq - - DESCRIPTION - This primitive disconnects a connected station. If keepBlocking is set to - TRUE, the station with the specified MAC address is not allowed to - connect. If the requested station is not already connected,it may be - blocked based on keepBlocking parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - staMacAddress - Mac Address of the station to be disconnected or blocked - keepBlocking - If TRUE, the station is blocked. If FALSE and the station is - connected, disconnect the station. If FALSE and the station - is not connected, no action is taken. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiMacAddress staMacAddress; - u8 keepBlocking; -} CsrWifiNmeApStaRemoveReq; - -/******************************************************************************* - - NAME - CsrWifiNmeApConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Status of the request. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiNmeApConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeApWpsRegisterCfm - - DESCRIPTION - This primitive reports the result of WPS procedure. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface identifier; unique identifier of an interface - status - Status of the request. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiNmeApWpsRegisterCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeApStartCfm - - DESCRIPTION - This primitive reports the result of CSR_WIFI_NME_AP_START.request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface identifier; unique identifier of an interface - status - Status of the request. - ssid - Service Set Identifier - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSsid ssid; -} CsrWifiNmeApStartCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeApStopCfm - - DESCRIPTION - This primitive confirms that the AP operation is stopped. NME shall send - this primitive in response to the request even if AP operation has - already been stopped - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface identifier; unique identifier of an interface - status - Status of the request. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiNmeApStopCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeApStopInd - - DESCRIPTION - Indicates that AP operation had stopped because of some unrecoverable - error after AP operation was started successfully. NME sends this signal - after failing to restart the AP operation internally following an error - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - apType - Reports AP Type (P2PGO or AP) - status - Error Status - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeApType apType; - CsrResult status; -} CsrWifiNmeApStopInd; - -/******************************************************************************* - - NAME - CsrWifiNmeApWmmParamUpdateCfm - - DESCRIPTION - A confirm for for the WMM parameters update - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Status of the request. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiNmeApWmmParamUpdateCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeApStationInd - - DESCRIPTION - This primitive indicates that a station has joined or a previously joined - station has left the BSS/group - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - mediaStatus - Indicates whether the station is connected or - disconnected - peerMacAddress - MAC address of the station - peerDeviceAddress - P2P Device Address - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeMediaStatus mediaStatus; - CsrWifiMacAddress peerMacAddress; - CsrWifiMacAddress peerDeviceAddress; -} CsrWifiNmeApStationInd; - -#endif /* CSR_WIFI_NME_AP_PRIM_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_nme_ap_sef.c b/drivers/staging/csr/csr_wifi_nme_ap_sef.c deleted file mode 100644 index bfebb15..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_sef.c +++ /dev/null @@ -1,30 +0,0 @@ -/***************************************************************************** - - FILE: csr_wifi_nme_sef.c - - (c) Cambridge Silicon Radio Limited 2010 - - Refer to LICENSE.txt included with this source for details - on the license terms. - - *****************************************************************************/ -#include "csr_wifi_nme_ap_sef.h" -#include "unifi_priv.h" - -void CsrWifiNmeApUpstreamStateHandlers(void* drvpriv, CsrWifiFsmEvent* msg) -{ - switch(msg->type) { - case CSR_WIFI_NME_AP_START_CFM: - CsrWifiNmeApStartCfmHandler(drvpriv, msg); - break; - case CSR_WIFI_NME_AP_STOP_CFM: - CsrWifiNmeApStopCfmHandler(drvpriv, msg); - break; - case CSR_WIFI_NME_AP_CONFIG_SET_CFM: - CsrWifiNmeApConfigSetCfmHandler(drvpriv, msg); - break; - default: - unifi_error(drvpriv, "CsrWifiNmeApUpstreamStateHandlers: unhandled NME_AP message type 0x%.4X\n", msg->type); - break; - } -} diff --git a/drivers/staging/csr/csr_wifi_nme_ap_sef.h b/drivers/staging/csr/csr_wifi_nme_ap_sef.h deleted file mode 100644 index 3daaa09..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_sef.h +++ /dev/null @@ -1,21 +0,0 @@ -/***************************************************************************** - FILE: csr_wifi_nme_sef.h - (c) Cambridge Silicon Radio Limited 2010 - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ -#ifndef CSR_WIFI_ROUTER_SEF_CSR_WIFI_NME_H__ -#define CSR_WIFI_ROUTER_SEF_CSR_WIFI_NME_H__ - -#include "csr_wifi_nme_prim.h" - -void CsrWifiNmeApUpstreamStateHandlers(void* drvpriv, CsrWifiFsmEvent* msg); - - -extern void CsrWifiNmeApConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg); -extern void CsrWifiNmeApStartCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg); -extern void CsrWifiNmeApStopCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg); - -#endif /* CSR_WIFI_ROUTER_SEF_CSR_WIFI_NME_H__ */ diff --git a/drivers/staging/csr/csr_wifi_nme_ap_serialize.c b/drivers/staging/csr/csr_wifi_nme_ap_serialize.c deleted file mode 100644 index 1a901a7..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_serialize.c +++ /dev/null @@ -1,909 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/string.h> -#include <linux/slab.h> -#include "csr_msgconv.h" - -#ifdef CSR_WIFI_NME_ENABLE -#ifdef CSR_WIFI_AP_ENABLE - -#include "csr_wifi_nme_ap_prim.h" -#include "csr_wifi_nme_ap_serialize.h" - -void CsrWifiNmeApPfree(void *ptr) -{ - kfree(ptr); -} - - -size_t CsrWifiNmeApConfigSetReqSizeof(void *msg) -{ - CsrWifiNmeApConfigSetReq *primitive = (CsrWifiNmeApConfigSetReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 104) */ - bufferSize += 2; /* u16 primitive->apConfig.apGroupkeyTimeout */ - bufferSize += 1; /* u8 primitive->apConfig.apStrictGtkRekey */ - bufferSize += 2; /* u16 primitive->apConfig.apGmkTimeout */ - bufferSize += 2; /* u16 primitive->apConfig.apResponseTimeout */ - bufferSize += 1; /* u8 primitive->apConfig.apRetransLimit */ - bufferSize += 1; /* CsrWifiSmeApPhySupportMask primitive->apMacConfig.phySupportedBitmap */ - bufferSize += 2; /* u16 primitive->apMacConfig.beaconInterval */ - bufferSize += 1; /* u8 primitive->apMacConfig.dtimPeriod */ - bufferSize += 2; /* u16 primitive->apMacConfig.maxListenInterval */ - bufferSize += 1; /* u8 primitive->apMacConfig.supportedRatesCount */ - bufferSize += 20; /* u8 primitive->apMacConfig.supportedRates[20] */ - bufferSize += 1; /* CsrWifiSmePreambleType primitive->apMacConfig.preamble */ - bufferSize += 1; /* u8 primitive->apMacConfig.shortSlotTimeEnabled */ - bufferSize += 1; /* CsrWifiSmeCtsProtectionType primitive->apMacConfig.ctsProtectionType */ - bufferSize += 1; /* u8 primitive->apMacConfig.wmmEnabled */ - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - bufferSize += 1; /* u8 primitive->apMacConfig.wmmApParams[i2].cwMin */ - bufferSize += 1; /* u8 primitive->apMacConfig.wmmApParams[i2].cwMax */ - bufferSize += 1; /* u8 primitive->apMacConfig.wmmApParams[i2].aifs */ - bufferSize += 2; /* u16 primitive->apMacConfig.wmmApParams[i2].txopLimit */ - bufferSize += 1; /* u8 primitive->apMacConfig.wmmApParams[i2].admissionControlMandatory */ - } - } - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - bufferSize += 1; /* u8 primitive->apMacConfig.wmmApBcParams[i2].cwMin */ - bufferSize += 1; /* u8 primitive->apMacConfig.wmmApBcParams[i2].cwMax */ - bufferSize += 1; /* u8 primitive->apMacConfig.wmmApBcParams[i2].aifs */ - bufferSize += 2; /* u16 primitive->apMacConfig.wmmApBcParams[i2].txopLimit */ - bufferSize += 1; /* u8 primitive->apMacConfig.wmmApBcParams[i2].admissionControlMandatory */ - } - } - bufferSize += 1; /* CsrWifiSmeApAccessType primitive->apMacConfig.accessType */ - bufferSize += 1; /* u8 primitive->apMacConfig.macAddressListCount */ - { - u16 i2; - for (i2 = 0; i2 < primitive->apMacConfig.macAddressListCount; i2++) - { - bufferSize += 6; /* u8 primitive->apMacConfig.macAddressList[i2].a[6] */ - } - } - bufferSize += 1; /* u8 primitive->apMacConfig.apHtParams.greenfieldSupported */ - bufferSize += 1; /* u8 primitive->apMacConfig.apHtParams.shortGi20MHz */ - bufferSize += 1; /* u8 primitive->apMacConfig.apHtParams.rxStbc */ - bufferSize += 1; /* u8 primitive->apMacConfig.apHtParams.rifsModeAllowed */ - bufferSize += 1; /* u8 primitive->apMacConfig.apHtParams.htProtection */ - bufferSize += 1; /* u8 primitive->apMacConfig.apHtParams.dualCtsProtection */ - return bufferSize; -} - - -u8* CsrWifiNmeApConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApConfigSetReq *primitive = (CsrWifiNmeApConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->apConfig.apGroupkeyTimeout); - CsrUint8Ser(ptr, len, (u8) primitive->apConfig.apStrictGtkRekey); - CsrUint16Ser(ptr, len, (u16) primitive->apConfig.apGmkTimeout); - CsrUint16Ser(ptr, len, (u16) primitive->apConfig.apResponseTimeout); - CsrUint8Ser(ptr, len, (u8) primitive->apConfig.apRetransLimit); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.phySupportedBitmap); - CsrUint16Ser(ptr, len, (u16) primitive->apMacConfig.beaconInterval); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.dtimPeriod); - CsrUint16Ser(ptr, len, (u16) primitive->apMacConfig.maxListenInterval); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.supportedRatesCount); - CsrMemCpySer(ptr, len, (const void *) primitive->apMacConfig.supportedRates, ((u16) (20))); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.preamble); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.shortSlotTimeEnabled); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.ctsProtectionType); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmEnabled); - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmApParams[i2].cwMin); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmApParams[i2].cwMax); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmApParams[i2].aifs); - CsrUint16Ser(ptr, len, (u16) primitive->apMacConfig.wmmApParams[i2].txopLimit); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmApParams[i2].admissionControlMandatory); - } - } - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmApBcParams[i2].cwMin); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmApBcParams[i2].cwMax); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmApBcParams[i2].aifs); - CsrUint16Ser(ptr, len, (u16) primitive->apMacConfig.wmmApBcParams[i2].txopLimit); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.wmmApBcParams[i2].admissionControlMandatory); - } - } - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.accessType); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.macAddressListCount); - { - u16 i2; - for (i2 = 0; i2 < primitive->apMacConfig.macAddressListCount; i2++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->apMacConfig.macAddressList[i2].a, ((u16) (6))); - } - } - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.apHtParams.greenfieldSupported); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.apHtParams.shortGi20MHz); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.apHtParams.rxStbc); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.apHtParams.rifsModeAllowed); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.apHtParams.htProtection); - CsrUint8Ser(ptr, len, (u8) primitive->apMacConfig.apHtParams.dualCtsProtection); - return(ptr); -} - - -void* CsrWifiNmeApConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApConfigSetReq *primitive = kmalloc(sizeof(CsrWifiNmeApConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apConfig.apGroupkeyTimeout, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apConfig.apStrictGtkRekey, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apConfig.apGmkTimeout, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apConfig.apResponseTimeout, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apConfig.apRetransLimit, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.phySupportedBitmap, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apMacConfig.beaconInterval, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.dtimPeriod, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apMacConfig.maxListenInterval, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.supportedRatesCount, buffer, &offset); - CsrMemCpyDes(primitive->apMacConfig.supportedRates, buffer, &offset, ((u16) (20))); - CsrUint8Des((u8 *) &primitive->apMacConfig.preamble, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.shortSlotTimeEnabled, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.ctsProtectionType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmEnabled, buffer, &offset); - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmApParams[i2].cwMin, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmApParams[i2].cwMax, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmApParams[i2].aifs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apMacConfig.wmmApParams[i2].txopLimit, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmApParams[i2].admissionControlMandatory, buffer, &offset); - } - } - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmApBcParams[i2].cwMin, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmApBcParams[i2].cwMax, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmApBcParams[i2].aifs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apMacConfig.wmmApBcParams[i2].txopLimit, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.wmmApBcParams[i2].admissionControlMandatory, buffer, &offset); - } - } - CsrUint8Des((u8 *) &primitive->apMacConfig.accessType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.macAddressListCount, buffer, &offset); - primitive->apMacConfig.macAddressList = NULL; - if (primitive->apMacConfig.macAddressListCount) - { - primitive->apMacConfig.macAddressList = kmalloc(sizeof(CsrWifiMacAddress) * primitive->apMacConfig.macAddressListCount, GFP_KERNEL); - } - { - u16 i2; - for (i2 = 0; i2 < primitive->apMacConfig.macAddressListCount; i2++) - { - CsrMemCpyDes(primitive->apMacConfig.macAddressList[i2].a, buffer, &offset, ((u16) (6))); - } - } - CsrUint8Des((u8 *) &primitive->apMacConfig.apHtParams.greenfieldSupported, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.apHtParams.shortGi20MHz, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.apHtParams.rxStbc, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.apHtParams.rifsModeAllowed, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.apHtParams.htProtection, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apMacConfig.apHtParams.dualCtsProtection, buffer, &offset); - - return primitive; -} - - -void CsrWifiNmeApConfigSetReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiNmeApConfigSetReq *primitive = (CsrWifiNmeApConfigSetReq *) voidPrimitivePointer; - kfree(primitive->apMacConfig.macAddressList); - kfree(primitive); -} - - -size_t CsrWifiNmeApWpsRegisterReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 17) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiSmeWpsDpid primitive->selectedDevicePasswordId */ - bufferSize += 2; /* CsrWifiSmeWpsConfigType primitive->selectedConfigMethod */ - bufferSize += 8; /* u8 primitive->pin[8] */ - return bufferSize; -} - - -u8* CsrWifiNmeApWpsRegisterReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApWpsRegisterReq *primitive = (CsrWifiNmeApWpsRegisterReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->selectedDevicePasswordId); - CsrUint16Ser(ptr, len, (u16) primitive->selectedConfigMethod); - CsrMemCpySer(ptr, len, (const void *) primitive->pin, ((u16) (8))); - return(ptr); -} - - -void* CsrWifiNmeApWpsRegisterReqDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApWpsRegisterReq *primitive = kmalloc(sizeof(CsrWifiNmeApWpsRegisterReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->selectedDevicePasswordId, buffer, &offset); - CsrUint16Des((u16 *) &primitive->selectedConfigMethod, buffer, &offset); - CsrMemCpyDes(primitive->pin, buffer, &offset, ((u16) (8))); - - return primitive; -} - - -size_t CsrWifiNmeApStartReqSizeof(void *msg) -{ - CsrWifiNmeApStartReq *primitive = (CsrWifiNmeApStartReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 112) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeApType primitive->apType */ - bufferSize += 1; /* u8 primitive->cloakSsid */ - bufferSize += 32; /* u8 primitive->ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->ssid.length */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->ifIndex */ - bufferSize += 1; /* u8 primitive->channel */ - bufferSize += 1; /* CsrWifiSmeApAuthType primitive->apCredentials.authType */ - switch (primitive->apCredentials.authType) - { - case CSR_WIFI_SME_AP_AUTH_TYPE_OPEN_SYSTEM: - bufferSize += 1; /* u8 primitive->apCredentials.nmeAuthType.openSystemEmpty.empty */ - break; - case CSR_WIFI_SME_AP_AUTH_TYPE_WEP: - bufferSize += 1; /* CsrWifiSmeWepCredentialType primitive->apCredentials.nmeAuthType.authwep.wepKeyType */ - switch (primitive->apCredentials.nmeAuthType.authwep.wepKeyType) - { - case CSR_WIFI_SME_CREDENTIAL_TYPE_WEP128: - bufferSize += 1; /* CsrWifiSmeWepAuthMode primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.wepAuthType */ - bufferSize += 1; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.selectedWepKey */ - bufferSize += 13; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key1[13] */ - bufferSize += 13; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key2[13] */ - bufferSize += 13; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key3[13] */ - bufferSize += 13; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key4[13] */ - break; - case CSR_WIFI_SME_CREDENTIAL_TYPE_WEP64: - bufferSize += 1; /* CsrWifiSmeWepAuthMode primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.wepAuthType */ - bufferSize += 1; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.selectedWepKey */ - bufferSize += 5; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key1[5] */ - bufferSize += 5; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key2[5] */ - bufferSize += 5; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key3[5] */ - bufferSize += 5; /* u8 primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key4[5] */ - break; - default: - break; - } - break; - case CSR_WIFI_SME_AP_AUTH_TYPE_PERSONAL: - bufferSize += 1; /* CsrWifiSmeApAuthSupportMask primitive->apCredentials.nmeAuthType.authTypePersonal.authSupport */ - bufferSize += 2; /* CsrWifiSmeApRsnCapabilitiesMask primitive->apCredentials.nmeAuthType.authTypePersonal.rsnCapabilities */ - bufferSize += 2; /* CsrWifiSmeApWapiCapabilitiesMask primitive->apCredentials.nmeAuthType.authTypePersonal.wapiCapabilities */ - bufferSize += 1; /* CsrWifiNmeApPersCredentialType primitive->apCredentials.nmeAuthType.authTypePersonal.pskOrPassphrase */ - switch (primitive->apCredentials.nmeAuthType.authTypePersonal.pskOrPassphrase) - { - case CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PSK: - bufferSize += 2; /* u16 primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.psk.encryptionMode */ - bufferSize += 32; /* u8 primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.psk.psk[32] */ - break; - case CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PASSPHRASE: - bufferSize += 2; /* u16 primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.encryptionMode */ - bufferSize += (primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.passphrase ? strlen(primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.passphrase) : 0) + 1; /* char* primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.passphrase (0 byte len + 1 for NULL Term) */ - break; - default: - break; - } - break; - default: - break; - } - bufferSize += 1; /* u8 primitive->maxConnections */ - bufferSize += 1; /* CsrWifiSmeP2pGroupCapabilityMask primitive->p2pGoParam.groupCapability */ - bufferSize += 3; /* u8 primitive->p2pGoParam.operatingChanList.country[3] */ - bufferSize += 1; /* u8 primitive->p2pGoParam.operatingChanList.channelEntryListCount */ - { - u16 i3; - for (i3 = 0; i3 < primitive->p2pGoParam.operatingChanList.channelEntryListCount; i3++) - { - bufferSize += 1; /* u8 primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingClass */ - bufferSize += 1; /* u8 primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount */ - bufferSize += primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount; /* u8 primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannel */ - } - } - bufferSize += 1; /* u8 primitive->p2pGoParam.opPsEnabled */ - bufferSize += 1; /* u8 primitive->p2pGoParam.ctWindow */ - bufferSize += 1; /* CsrWifiSmeP2pNoaConfigMethod primitive->p2pGoParam.noaConfigMethod */ - bufferSize += 1; /* u8 primitive->p2pGoParam.allowNoaWithNonP2pDevices */ - bufferSize += 1; /* u8 primitive->wpsEnabled */ - return bufferSize; -} - - -u8* CsrWifiNmeApStartReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApStartReq *primitive = (CsrWifiNmeApStartReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->apType); - CsrUint8Ser(ptr, len, (u8) primitive->cloakSsid); - CsrMemCpySer(ptr, len, (const void *) primitive->ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->ssid.length); - CsrUint8Ser(ptr, len, (u8) primitive->ifIndex); - CsrUint8Ser(ptr, len, (u8) primitive->channel); - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.authType); - switch (primitive->apCredentials.authType) - { - case CSR_WIFI_SME_AP_AUTH_TYPE_OPEN_SYSTEM: - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.nmeAuthType.openSystemEmpty.empty); - break; - case CSR_WIFI_SME_AP_AUTH_TYPE_WEP: - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.nmeAuthType.authwep.wepKeyType); - switch (primitive->apCredentials.nmeAuthType.authwep.wepKeyType) - { - case CSR_WIFI_SME_CREDENTIAL_TYPE_WEP128: - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.wepAuthType); - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.selectedWepKey); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key1, ((u16) (13))); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key2, ((u16) (13))); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key3, ((u16) (13))); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key4, ((u16) (13))); - break; - case CSR_WIFI_SME_CREDENTIAL_TYPE_WEP64: - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.wepAuthType); - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.selectedWepKey); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key1, ((u16) (5))); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key2, ((u16) (5))); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key3, ((u16) (5))); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key4, ((u16) (5))); - break; - default: - break; - } - break; - case CSR_WIFI_SME_AP_AUTH_TYPE_PERSONAL: - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.nmeAuthType.authTypePersonal.authSupport); - CsrUint16Ser(ptr, len, (u16) primitive->apCredentials.nmeAuthType.authTypePersonal.rsnCapabilities); - CsrUint16Ser(ptr, len, (u16) primitive->apCredentials.nmeAuthType.authTypePersonal.wapiCapabilities); - CsrUint8Ser(ptr, len, (u8) primitive->apCredentials.nmeAuthType.authTypePersonal.pskOrPassphrase); - switch (primitive->apCredentials.nmeAuthType.authTypePersonal.pskOrPassphrase) - { - case CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PSK: - CsrUint16Ser(ptr, len, (u16) primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.psk.encryptionMode); - CsrMemCpySer(ptr, len, (const void *) primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.psk.psk, ((u16) (32))); - break; - case CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PASSPHRASE: - CsrUint16Ser(ptr, len, (u16) primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.encryptionMode); - CsrCharStringSer(ptr, len, primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.passphrase); - break; - default: - break; - } - break; - default: - break; - } - CsrUint8Ser(ptr, len, (u8) primitive->maxConnections); - CsrUint8Ser(ptr, len, (u8) primitive->p2pGoParam.groupCapability); - CsrMemCpySer(ptr, len, (const void *) primitive->p2pGoParam.operatingChanList.country, ((u16) (3))); - CsrUint8Ser(ptr, len, (u8) primitive->p2pGoParam.operatingChanList.channelEntryListCount); - { - u16 i3; - for (i3 = 0; i3 < primitive->p2pGoParam.operatingChanList.channelEntryListCount; i3++) - { - CsrUint8Ser(ptr, len, (u8) primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingClass); - CsrUint8Ser(ptr, len, (u8) primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount); - if (primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount) - { - CsrMemCpySer(ptr, len, (const void *) primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannel, ((u16) (primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount))); - } - } - } - CsrUint8Ser(ptr, len, (u8) primitive->p2pGoParam.opPsEnabled); - CsrUint8Ser(ptr, len, (u8) primitive->p2pGoParam.ctWindow); - CsrUint8Ser(ptr, len, (u8) primitive->p2pGoParam.noaConfigMethod); - CsrUint8Ser(ptr, len, (u8) primitive->p2pGoParam.allowNoaWithNonP2pDevices); - CsrUint8Ser(ptr, len, (u8) primitive->wpsEnabled); - return(ptr); -} - - -void* CsrWifiNmeApStartReqDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApStartReq *primitive = kmalloc(sizeof(CsrWifiNmeApStartReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->cloakSsid, buffer, &offset); - CsrMemCpyDes(primitive->ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->ssid.length, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ifIndex, buffer, &offset); - CsrUint8Des((u8 *) &primitive->channel, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apCredentials.authType, buffer, &offset); - switch (primitive->apCredentials.authType) - { - case CSR_WIFI_SME_AP_AUTH_TYPE_OPEN_SYSTEM: - CsrUint8Des((u8 *) &primitive->apCredentials.nmeAuthType.openSystemEmpty.empty, buffer, &offset); - break; - case CSR_WIFI_SME_AP_AUTH_TYPE_WEP: - CsrUint8Des((u8 *) &primitive->apCredentials.nmeAuthType.authwep.wepKeyType, buffer, &offset); - switch (primitive->apCredentials.nmeAuthType.authwep.wepKeyType) - { - case CSR_WIFI_SME_CREDENTIAL_TYPE_WEP128: - CsrUint8Des((u8 *) &primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.wepAuthType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.selectedWepKey, buffer, &offset); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key1, buffer, &offset, ((u16) (13))); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key2, buffer, &offset, ((u16) (13))); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key3, buffer, &offset, ((u16) (13))); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep128Key.key4, buffer, &offset, ((u16) (13))); - break; - case CSR_WIFI_SME_CREDENTIAL_TYPE_WEP64: - CsrUint8Des((u8 *) &primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.wepAuthType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.selectedWepKey, buffer, &offset); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key1, buffer, &offset, ((u16) (5))); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key2, buffer, &offset, ((u16) (5))); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key3, buffer, &offset, ((u16) (5))); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authwep.wepCredentials.wep64Key.key4, buffer, &offset, ((u16) (5))); - break; - default: - break; - } - break; - case CSR_WIFI_SME_AP_AUTH_TYPE_PERSONAL: - CsrUint8Des((u8 *) &primitive->apCredentials.nmeAuthType.authTypePersonal.authSupport, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apCredentials.nmeAuthType.authTypePersonal.rsnCapabilities, buffer, &offset); - CsrUint16Des((u16 *) &primitive->apCredentials.nmeAuthType.authTypePersonal.wapiCapabilities, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apCredentials.nmeAuthType.authTypePersonal.pskOrPassphrase, buffer, &offset); - switch (primitive->apCredentials.nmeAuthType.authTypePersonal.pskOrPassphrase) - { - case CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PSK: - CsrUint16Des((u16 *) &primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.psk.encryptionMode, buffer, &offset); - CsrMemCpyDes(primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.psk.psk, buffer, &offset, ((u16) (32))); - break; - case CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PASSPHRASE: - CsrUint16Des((u16 *) &primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.encryptionMode, buffer, &offset); - CsrCharStringDes(&primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.passphrase, buffer, &offset); - break; - default: - break; - } - break; - default: - break; - } - CsrUint8Des((u8 *) &primitive->maxConnections, buffer, &offset); - CsrUint8Des((u8 *) &primitive->p2pGoParam.groupCapability, buffer, &offset); - CsrMemCpyDes(primitive->p2pGoParam.operatingChanList.country, buffer, &offset, ((u16) (3))); - CsrUint8Des((u8 *) &primitive->p2pGoParam.operatingChanList.channelEntryListCount, buffer, &offset); - primitive->p2pGoParam.operatingChanList.channelEntryList = NULL; - if (primitive->p2pGoParam.operatingChanList.channelEntryListCount) - { - primitive->p2pGoParam.operatingChanList.channelEntryList = kmalloc(sizeof(CsrWifiSmeApP2pOperatingChanEntry) * primitive->p2pGoParam.operatingChanList.channelEntryListCount, GFP_KERNEL); - } - { - u16 i3; - for (i3 = 0; i3 < primitive->p2pGoParam.operatingChanList.channelEntryListCount; i3++) - { - CsrUint8Des((u8 *) &primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingClass, buffer, &offset); - CsrUint8Des((u8 *) &primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount, buffer, &offset); - if (primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount) - { - primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannel = kmalloc(primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount, GFP_KERNEL); - CsrMemCpyDes(primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannel, buffer, &offset, ((u16) (primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannelCount))); - } - else - { - primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannel = NULL; - } - } - } - CsrUint8Des((u8 *) &primitive->p2pGoParam.opPsEnabled, buffer, &offset); - CsrUint8Des((u8 *) &primitive->p2pGoParam.ctWindow, buffer, &offset); - CsrUint8Des((u8 *) &primitive->p2pGoParam.noaConfigMethod, buffer, &offset); - CsrUint8Des((u8 *) &primitive->p2pGoParam.allowNoaWithNonP2pDevices, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wpsEnabled, buffer, &offset); - - return primitive; -} - - -void CsrWifiNmeApStartReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiNmeApStartReq *primitive = (CsrWifiNmeApStartReq *) voidPrimitivePointer; - switch (primitive->apCredentials.authType) - { - case CSR_WIFI_SME_AP_AUTH_TYPE_PERSONAL: - switch (primitive->apCredentials.nmeAuthType.authTypePersonal.pskOrPassphrase) - { - case CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PASSPHRASE: - kfree(primitive->apCredentials.nmeAuthType.authTypePersonal.authPers_credentials.passphrase.passphrase); - break; - default: - break; - } - break; - default: - break; - } - { - u16 i3; - for (i3 = 0; i3 < primitive->p2pGoParam.operatingChanList.channelEntryListCount; i3++) - { - kfree(primitive->p2pGoParam.operatingChanList.channelEntryList[i3].operatingChannel); - } - } - kfree(primitive->p2pGoParam.operatingChanList.channelEntryList); - kfree(primitive); -} - - -size_t CsrWifiNmeApWmmParamUpdateReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 51) */ - { - u16 i1; - for (i1 = 0; i1 < 4; i1++) - { - bufferSize += 1; /* u8 primitive->wmmApParams[i1].cwMin */ - bufferSize += 1; /* u8 primitive->wmmApParams[i1].cwMax */ - bufferSize += 1; /* u8 primitive->wmmApParams[i1].aifs */ - bufferSize += 2; /* u16 primitive->wmmApParams[i1].txopLimit */ - bufferSize += 1; /* u8 primitive->wmmApParams[i1].admissionControlMandatory */ - } - } - { - u16 i1; - for (i1 = 0; i1 < 4; i1++) - { - bufferSize += 1; /* u8 primitive->wmmApBcParams[i1].cwMin */ - bufferSize += 1; /* u8 primitive->wmmApBcParams[i1].cwMax */ - bufferSize += 1; /* u8 primitive->wmmApBcParams[i1].aifs */ - bufferSize += 2; /* u16 primitive->wmmApBcParams[i1].txopLimit */ - bufferSize += 1; /* u8 primitive->wmmApBcParams[i1].admissionControlMandatory */ - } - } - return bufferSize; -} - - -u8* CsrWifiNmeApWmmParamUpdateReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApWmmParamUpdateReq *primitive = (CsrWifiNmeApWmmParamUpdateReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - { - u16 i1; - for (i1 = 0; i1 < 4; i1++) - { - CsrUint8Ser(ptr, len, (u8) primitive->wmmApParams[i1].cwMin); - CsrUint8Ser(ptr, len, (u8) primitive->wmmApParams[i1].cwMax); - CsrUint8Ser(ptr, len, (u8) primitive->wmmApParams[i1].aifs); - CsrUint16Ser(ptr, len, (u16) primitive->wmmApParams[i1].txopLimit); - CsrUint8Ser(ptr, len, (u8) primitive->wmmApParams[i1].admissionControlMandatory); - } - } - { - u16 i1; - for (i1 = 0; i1 < 4; i1++) - { - CsrUint8Ser(ptr, len, (u8) primitive->wmmApBcParams[i1].cwMin); - CsrUint8Ser(ptr, len, (u8) primitive->wmmApBcParams[i1].cwMax); - CsrUint8Ser(ptr, len, (u8) primitive->wmmApBcParams[i1].aifs); - CsrUint16Ser(ptr, len, (u16) primitive->wmmApBcParams[i1].txopLimit); - CsrUint8Ser(ptr, len, (u8) primitive->wmmApBcParams[i1].admissionControlMandatory); - } - } - return(ptr); -} - - -void* CsrWifiNmeApWmmParamUpdateReqDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApWmmParamUpdateReq *primitive = kmalloc(sizeof(CsrWifiNmeApWmmParamUpdateReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - { - u16 i1; - for (i1 = 0; i1 < 4; i1++) - { - CsrUint8Des((u8 *) &primitive->wmmApParams[i1].cwMin, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wmmApParams[i1].cwMax, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wmmApParams[i1].aifs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->wmmApParams[i1].txopLimit, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wmmApParams[i1].admissionControlMandatory, buffer, &offset); - } - } - { - u16 i1; - for (i1 = 0; i1 < 4; i1++) - { - CsrUint8Des((u8 *) &primitive->wmmApBcParams[i1].cwMin, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wmmApBcParams[i1].cwMax, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wmmApBcParams[i1].aifs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->wmmApBcParams[i1].txopLimit, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wmmApBcParams[i1].admissionControlMandatory, buffer, &offset); - } - } - - return primitive; -} - - -size_t CsrWifiNmeApStaRemoveReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 12) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->staMacAddress.a[6] */ - bufferSize += 1; /* u8 primitive->keepBlocking */ - return bufferSize; -} - - -u8* CsrWifiNmeApStaRemoveReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApStaRemoveReq *primitive = (CsrWifiNmeApStaRemoveReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->staMacAddress.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->keepBlocking); - return(ptr); -} - - -void* CsrWifiNmeApStaRemoveReqDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApStaRemoveReq *primitive = kmalloc(sizeof(CsrWifiNmeApStaRemoveReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->staMacAddress.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->keepBlocking, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiNmeApWpsRegisterCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiNmeApWpsRegisterCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApWpsRegisterCfm *primitive = (CsrWifiNmeApWpsRegisterCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiNmeApWpsRegisterCfmDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApWpsRegisterCfm *primitive = kmalloc(sizeof(CsrWifiNmeApWpsRegisterCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiNmeApStartCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 40) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 32; /* u8 primitive->ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->ssid.length */ - return bufferSize; -} - - -u8* CsrWifiNmeApStartCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApStartCfm *primitive = (CsrWifiNmeApStartCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrMemCpySer(ptr, len, (const void *) primitive->ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->ssid.length); - return(ptr); -} - - -void* CsrWifiNmeApStartCfmDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApStartCfm *primitive = kmalloc(sizeof(CsrWifiNmeApStartCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrMemCpyDes(primitive->ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->ssid.length, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiNmeApStopCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiNmeApStopCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApStopCfm *primitive = (CsrWifiNmeApStopCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiNmeApStopCfmDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApStopCfm *primitive = kmalloc(sizeof(CsrWifiNmeApStopCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiNmeApStopIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeApType primitive->apType */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiNmeApStopIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApStopInd *primitive = (CsrWifiNmeApStopInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->apType); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiNmeApStopIndDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApStopInd *primitive = kmalloc(sizeof(CsrWifiNmeApStopInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->apType, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiNmeApStationIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 18) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeMediaStatus primitive->mediaStatus */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - bufferSize += 6; /* u8 primitive->peerDeviceAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiNmeApStationIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiNmeApStationInd *primitive = (CsrWifiNmeApStationInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->mediaStatus); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - CsrMemCpySer(ptr, len, (const void *) primitive->peerDeviceAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiNmeApStationIndDes(u8 *buffer, size_t length) -{ - CsrWifiNmeApStationInd *primitive = kmalloc(sizeof(CsrWifiNmeApStationInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mediaStatus, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - CsrMemCpyDes(primitive->peerDeviceAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -#endif /* CSR_WIFI_NME_ENABLE */ -#endif /* CSR_WIFI_AP_ENABLE */ diff --git a/drivers/staging/csr/csr_wifi_nme_ap_serialize.h b/drivers/staging/csr/csr_wifi_nme_ap_serialize.h deleted file mode 100644 index c04585e..0000000 --- a/drivers/staging/csr/csr_wifi_nme_ap_serialize.h +++ /dev/null @@ -1,94 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_AP_SERIALIZE_H__ -#define CSR_WIFI_NME_AP_SERIALIZE_H__ - -#include "csr_wifi_msgconv.h" - -#include "csr_wifi_nme_ap_prim.h" - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_ap_serialize.h -#endif -#ifndef CSR_WIFI_AP_ENABLE -#error CSR_WIFI_AP_ENABLE MUST be defined inorder to use csr_wifi_nme_ap_serialize.h -#endif - -extern void CsrWifiNmeApPfree(void *ptr); - -extern u8* CsrWifiNmeApConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApConfigSetReqSizeof(void *msg); -extern void CsrWifiNmeApConfigSetReqSerFree(void *msg); - -extern u8* CsrWifiNmeApWpsRegisterReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApWpsRegisterReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApWpsRegisterReqSizeof(void *msg); -#define CsrWifiNmeApWpsRegisterReqSerFree CsrWifiNmeApPfree - -extern u8* CsrWifiNmeApStartReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApStartReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApStartReqSizeof(void *msg); -extern void CsrWifiNmeApStartReqSerFree(void *msg); - -#define CsrWifiNmeApStopReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeApStopReqDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeApStopReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeApStopReqSerFree CsrWifiNmeApPfree - -extern u8* CsrWifiNmeApWmmParamUpdateReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApWmmParamUpdateReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApWmmParamUpdateReqSizeof(void *msg); -#define CsrWifiNmeApWmmParamUpdateReqSerFree CsrWifiNmeApPfree - -extern u8* CsrWifiNmeApStaRemoveReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApStaRemoveReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApStaRemoveReqSizeof(void *msg); -#define CsrWifiNmeApStaRemoveReqSerFree CsrWifiNmeApPfree - -#define CsrWifiNmeApConfigSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeApConfigSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeApConfigSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeApConfigSetCfmSerFree CsrWifiNmeApPfree - -extern u8* CsrWifiNmeApWpsRegisterCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApWpsRegisterCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApWpsRegisterCfmSizeof(void *msg); -#define CsrWifiNmeApWpsRegisterCfmSerFree CsrWifiNmeApPfree - -extern u8* CsrWifiNmeApStartCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApStartCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApStartCfmSizeof(void *msg); -#define CsrWifiNmeApStartCfmSerFree CsrWifiNmeApPfree - -extern u8* CsrWifiNmeApStopCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApStopCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApStopCfmSizeof(void *msg); -#define CsrWifiNmeApStopCfmSerFree CsrWifiNmeApPfree - -extern u8* CsrWifiNmeApStopIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApStopIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApStopIndSizeof(void *msg); -#define CsrWifiNmeApStopIndSerFree CsrWifiNmeApPfree - -#define CsrWifiNmeApWmmParamUpdateCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeApWmmParamUpdateCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeApWmmParamUpdateCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeApWmmParamUpdateCfmSerFree CsrWifiNmeApPfree - -extern u8* CsrWifiNmeApStationIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeApStationIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeApStationIndSizeof(void *msg); -#define CsrWifiNmeApStationIndSerFree CsrWifiNmeApPfree - -#endif /* CSR_WIFI_NME_AP_SERIALIZE_H__ */ diff --git a/drivers/staging/csr/csr_wifi_nme_converter_init.h b/drivers/staging/csr/csr_wifi_nme_converter_init.h deleted file mode 100644 index 85e6f5f..0000000 --- a/drivers/staging/csr/csr_wifi_nme_converter_init.h +++ /dev/null @@ -1,38 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_CONVERTER_INIT_H__ -#define CSR_WIFI_NME_CONVERTER_INIT_H__ - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_converter_init.h -#endif - -#ifndef EXCLUDE_CSR_WIFI_NME_MODULE - -#include "csr_msgconv.h" - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" - -extern const CsrLogPrimitiveInformation* CsrWifiNmeTechInfoGet(void); -#endif /* CSR_LOG_ENABLE */ - -extern void CsrWifiNmeConverterInit(void); - -#else /* EXCLUDE_CSR_WIFI_NME_MODULE */ - -#define CsrWifiNmeConverterInit() - -#endif /* EXCLUDE_CSR_WIFI_NME_MODULE */ - -#endif /* CSR_WIFI_NME_CONVERTER_INIT_H__ */ diff --git a/drivers/staging/csr/csr_wifi_nme_lib.h b/drivers/staging/csr/csr_wifi_nme_lib.h deleted file mode 100644 index 5a1f132..0000000 --- a/drivers/staging/csr/csr_wifi_nme_lib.h +++ /dev/null @@ -1,991 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_LIB_H__ -#define CSR_WIFI_NME_LIB_H__ - -#include "csr_sched.h" -#include "csr_macro.h" -#include "csr_msg_transport.h" - -#include "csr_wifi_lib.h" - -#include "csr_wifi_nme_prim.h" -#include "csr_wifi_nme_task.h" - - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_lib.h -#endif - -/******************************************************************************* - - NAME - CsrWifiNmeConnectionStatusGetReqSend - - DESCRIPTION - Requests the current connection status of the NME. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiNmeConnectionStatusGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeConnectionStatusGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_CONNECTION_STATUS_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiNmeConnectionStatusGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiNmeConnectionStatusGetReq *msg__; \ - CsrWifiNmeConnectionStatusGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeConnectionStatusGetReqSend(src__, interfaceTag__) \ - CsrWifiNmeConnectionStatusGetReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiNmeConnectionStatusGetCfmSend - - DESCRIPTION - Reports the connection status of the NME. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Indicates the success or otherwise of the requested - operation. - connectionStatus - NME current connection status - -*******************************************************************************/ -#define CsrWifiNmeConnectionStatusGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectionStatus__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeConnectionStatusGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_CONNECTION_STATUS_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->connectionStatus = (connectionStatus__); - -#define CsrWifiNmeConnectionStatusGetCfmSendTo(dst__, src__, interfaceTag__, status__, connectionStatus__) \ - { \ - CsrWifiNmeConnectionStatusGetCfm *msg__; \ - CsrWifiNmeConnectionStatusGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectionStatus__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeConnectionStatusGetCfmSend(dst__, interfaceTag__, status__, connectionStatus__) \ - CsrWifiNmeConnectionStatusGetCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, status__, connectionStatus__) - -/******************************************************************************* - - NAME - CsrWifiNmeEventMaskSetReqSend - - DESCRIPTION - The wireless manager application may register with the NME to receive - notification of interesting events. Indications will be sent only if the - wireless manager explicitly registers to be notified of that event. - indMask is a bit mask of values defined in CsrWifiNmeIndicationsMask. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - indMask - Set mask with values from CsrWifiNmeIndications - -*******************************************************************************/ -#define CsrWifiNmeEventMaskSetReqCreate(msg__, dst__, src__, indMask__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeEventMaskSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_EVENT_MASK_SET_REQ, dst__, src__); \ - msg__->indMask = (indMask__); - -#define CsrWifiNmeEventMaskSetReqSendTo(dst__, src__, indMask__) \ - { \ - CsrWifiNmeEventMaskSetReq *msg__; \ - CsrWifiNmeEventMaskSetReqCreate(msg__, dst__, src__, indMask__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeEventMaskSetReqSend(src__, indMask__) \ - CsrWifiNmeEventMaskSetReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, indMask__) - -/******************************************************************************* - - NAME - CsrWifiNmeEventMaskSetCfmSend - - DESCRIPTION - The NME calls the primitive to report the result of the request - primitive. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiNmeEventMaskSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeEventMaskSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_EVENT_MASK_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiNmeEventMaskSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiNmeEventMaskSetCfm *msg__; \ - CsrWifiNmeEventMaskSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeEventMaskSetCfmSend(dst__, status__) \ - CsrWifiNmeEventMaskSetCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileConnectReqSend - - DESCRIPTION - Requests the NME to attempt to connect to the specified profile. - Overrides any current connection attempt. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - profileIdentity - Identity (BSSID, SSID) of profile to be connected to. - It must match an existing profile in the NME. - -*******************************************************************************/ -#define CsrWifiNmeProfileConnectReqCreate(msg__, dst__, src__, interfaceTag__, profileIdentity__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileConnectReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_CONNECT_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->profileIdentity = (profileIdentity__); - -#define CsrWifiNmeProfileConnectReqSendTo(dst__, src__, interfaceTag__, profileIdentity__) \ - { \ - CsrWifiNmeProfileConnectReq *msg__; \ - CsrWifiNmeProfileConnectReqCreate(msg__, dst__, src__, interfaceTag__, profileIdentity__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileConnectReqSend(src__, interfaceTag__, profileIdentity__) \ - CsrWifiNmeProfileConnectReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__, profileIdentity__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileConnectCfmSend - - DESCRIPTION - Reports the status of the NME PROFILE CONNECT REQ. If unsuccessful the - connectAttempt parameters contain details of the APs that the NME - attempted to connect to before reporting the failure of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an - interface - status - Indicates the success or otherwise of the requested - operation. - connectAttemptsCount - This parameter is relevant only if - status!=CSR_WIFI_NME_STATUS_SUCCESS. - Number of connection attempt elements provided with - this primitive - connectAttempts - This parameter is relevant only if - status!=CSR_WIFI_NME_STATUS_SUCCESS. - Points to the list of connection attempt elements - provided with this primitive - Each element of the list provides information about - an AP on which the connection attempt was made and - the error that occurred during the attempt. - -*******************************************************************************/ -#define CsrWifiNmeProfileConnectCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectAttemptsCount__, connectAttempts__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileConnectCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_CONNECT_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->connectAttemptsCount = (connectAttemptsCount__); \ - msg__->connectAttempts = (connectAttempts__); - -#define CsrWifiNmeProfileConnectCfmSendTo(dst__, src__, interfaceTag__, status__, connectAttemptsCount__, connectAttempts__) \ - { \ - CsrWifiNmeProfileConnectCfm *msg__; \ - CsrWifiNmeProfileConnectCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectAttemptsCount__, connectAttempts__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileConnectCfmSend(dst__, interfaceTag__, status__, connectAttemptsCount__, connectAttempts__) \ - CsrWifiNmeProfileConnectCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, status__, connectAttemptsCount__, connectAttempts__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDeleteAllReqSend - - DESCRIPTION - Deletes all profiles present in the NME, but does NOT modify the - preferred profile list. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiNmeProfileDeleteAllReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileDeleteAllReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_DELETE_ALL_REQ, dst__, src__); - -#define CsrWifiNmeProfileDeleteAllReqSendTo(dst__, src__) \ - { \ - CsrWifiNmeProfileDeleteAllReq *msg__; \ - CsrWifiNmeProfileDeleteAllReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileDeleteAllReqSend(src__) \ - CsrWifiNmeProfileDeleteAllReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDeleteAllCfmSend - - DESCRIPTION - Reports the status of the CSR_WIFI_NME_PROFILE_DELETE_ALL_REQ. - Returns always CSR_WIFI_NME_STATUS_SUCCESS. - - PARAMETERS - queue - Destination Task Queue - status - Indicates the success or otherwise of the requested operation, but - in this case it always set to success. - -*******************************************************************************/ -#define CsrWifiNmeProfileDeleteAllCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileDeleteAllCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_DELETE_ALL_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiNmeProfileDeleteAllCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiNmeProfileDeleteAllCfm *msg__; \ - CsrWifiNmeProfileDeleteAllCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileDeleteAllCfmSend(dst__, status__) \ - CsrWifiNmeProfileDeleteAllCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDeleteReqSend - - DESCRIPTION - Will delete the profile with a matching identity, but does NOT modify the - preferred profile list. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - profileIdentity - Identity (BSSID, SSID) of profile to be deleted. - -*******************************************************************************/ -#define CsrWifiNmeProfileDeleteReqCreate(msg__, dst__, src__, profileIdentity__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileDeleteReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_DELETE_REQ, dst__, src__); \ - msg__->profileIdentity = (profileIdentity__); - -#define CsrWifiNmeProfileDeleteReqSendTo(dst__, src__, profileIdentity__) \ - { \ - CsrWifiNmeProfileDeleteReq *msg__; \ - CsrWifiNmeProfileDeleteReqCreate(msg__, dst__, src__, profileIdentity__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileDeleteReqSend(src__, profileIdentity__) \ - CsrWifiNmeProfileDeleteReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, profileIdentity__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDeleteCfmSend - - DESCRIPTION - Reports the status of the CSR_WIFI_NME_PROFILE_DELETE_REQ. - Returns CSR_WIFI_NME_STATUS_NOT_FOUND if there is no matching profile. - - PARAMETERS - queue - Destination Task Queue - status - Indicates the success or otherwise of the requested operation. - -*******************************************************************************/ -#define CsrWifiNmeProfileDeleteCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileDeleteCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_DELETE_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiNmeProfileDeleteCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiNmeProfileDeleteCfm *msg__; \ - CsrWifiNmeProfileDeleteCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileDeleteCfmSend(dst__, status__) \ - CsrWifiNmeProfileDeleteCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDisconnectIndSend - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that informs that application that the current profile - connection has disconnected. The indication will contain information - about APs that it attempted to maintain the connection via i.e. in the - case of failed roaming. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an - interface - connectAttemptsCount - Number of connection attempt elements provided with - this primitive - connectAttempts - Points to the list of connection attempt elements - provided with this primitive - Each element of the list provides information about - an AP on which the connection attempt was made and - the error occurred during the attempt. - -*******************************************************************************/ -#define CsrWifiNmeProfileDisconnectIndCreate(msg__, dst__, src__, interfaceTag__, connectAttemptsCount__, connectAttempts__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileDisconnectInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_DISCONNECT_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->connectAttemptsCount = (connectAttemptsCount__); \ - msg__->connectAttempts = (connectAttempts__); - -#define CsrWifiNmeProfileDisconnectIndSendTo(dst__, src__, interfaceTag__, connectAttemptsCount__, connectAttempts__) \ - { \ - CsrWifiNmeProfileDisconnectInd *msg__; \ - CsrWifiNmeProfileDisconnectIndCreate(msg__, dst__, src__, interfaceTag__, connectAttemptsCount__, connectAttempts__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileDisconnectIndSend(dst__, interfaceTag__, connectAttemptsCount__, connectAttempts__) \ - CsrWifiNmeProfileDisconnectIndSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, connectAttemptsCount__, connectAttempts__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileOrderSetReqSend - - DESCRIPTION - Defines the preferred order that profiles present in the NME should be - used during the NME auto-connect behaviour. - If profileIdentitysCount == 0, it removes any existing preferred profile - list already present in the NME, effectively disabling the auto-connect - behaviour. - NOTE: Profile identities that do not match any profile stored in the NME - are ignored during the auto-connect procedure. - NOTE: during auto-connect the NME will only attempt to join an existing - adhoc network and it will never attempt to host an adhoc network; for - hosting and adhoc network, use CSR_WIFI_NME_PROFILE_CONNECT_REQ - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an - interface - profileIdentitysCount - The number of profiles identities in the list. - profileIdentitys - Points to the list of profile identities. - -*******************************************************************************/ -#define CsrWifiNmeProfileOrderSetReqCreate(msg__, dst__, src__, interfaceTag__, profileIdentitysCount__, profileIdentitys__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileOrderSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_ORDER_SET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->profileIdentitysCount = (profileIdentitysCount__); \ - msg__->profileIdentitys = (profileIdentitys__); - -#define CsrWifiNmeProfileOrderSetReqSendTo(dst__, src__, interfaceTag__, profileIdentitysCount__, profileIdentitys__) \ - { \ - CsrWifiNmeProfileOrderSetReq *msg__; \ - CsrWifiNmeProfileOrderSetReqCreate(msg__, dst__, src__, interfaceTag__, profileIdentitysCount__, profileIdentitys__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileOrderSetReqSend(src__, interfaceTag__, profileIdentitysCount__, profileIdentitys__) \ - CsrWifiNmeProfileOrderSetReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__, profileIdentitysCount__, profileIdentitys__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileOrderSetCfmSend - - DESCRIPTION - Confirmation to UNIFI_NME_PROFILE_ORDER_SET.request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Indicates the success or otherwise of the requested - operation. - -*******************************************************************************/ -#define CsrWifiNmeProfileOrderSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileOrderSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_ORDER_SET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiNmeProfileOrderSetCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiNmeProfileOrderSetCfm *msg__; \ - CsrWifiNmeProfileOrderSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileOrderSetCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiNmeProfileOrderSetCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileSetReqSend - - DESCRIPTION - Creates or updates an existing profile in the NME that matches the unique - identity of the profile. Each profile is identified by the combination of - BSSID and SSID. The profile contains all the required credentials for - attempting to connect to the network. Creating or updating a profile via - the NME PROFILE SET REQ does NOT add the profile to the preferred profile - list within the NME used for the NME auto-connect behaviour. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - profile - Specifies the identity and credentials of the network. - -*******************************************************************************/ -#define CsrWifiNmeProfileSetReqCreate(msg__, dst__, src__, profile__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_SET_REQ, dst__, src__); \ - msg__->profile = (profile__); - -#define CsrWifiNmeProfileSetReqSendTo(dst__, src__, profile__) \ - { \ - CsrWifiNmeProfileSetReq *msg__; \ - CsrWifiNmeProfileSetReqCreate(msg__, dst__, src__, profile__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileSetReqSend(src__, profile__) \ - CsrWifiNmeProfileSetReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, profile__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileSetCfmSend - - DESCRIPTION - Reports the status of the NME PROFILE SET REQ; the request will only fail - if the details specified in the profile contains an invalid combination - of parameters for example specifying the profile as cloaked but not - specifying the SSID. The NME doesn't limit the number of profiles that - may be created. The NME assumes that the entity configuring it is aware - of the appropriate limits. - - PARAMETERS - queue - Destination Task Queue - status - Indicates the success or otherwise of the requested operation. - -*******************************************************************************/ -#define CsrWifiNmeProfileSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiNmeProfileSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiNmeProfileSetCfm *msg__; \ - CsrWifiNmeProfileSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileSetCfmSend(dst__, status__) \ - CsrWifiNmeProfileSetCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileUpdateIndSend - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that informs that application that the contained profile has - changed. - For example, either the credentials EAP-FAST PAC file or the session data - within the profile has changed. - It is up to the application whether it stores this updated profile or - not. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - profile - The identity and credentials of the network. - -*******************************************************************************/ -#define CsrWifiNmeProfileUpdateIndCreate(msg__, dst__, src__, interfaceTag__, profile__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeProfileUpdateInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_PROFILE_UPDATE_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->profile = (profile__); - -#define CsrWifiNmeProfileUpdateIndSendTo(dst__, src__, interfaceTag__, profile__) \ - { \ - CsrWifiNmeProfileUpdateInd *msg__; \ - CsrWifiNmeProfileUpdateIndCreate(msg__, dst__, src__, interfaceTag__, profile__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeProfileUpdateIndSend(dst__, interfaceTag__, profile__) \ - CsrWifiNmeProfileUpdateIndSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, profile__) - -/******************************************************************************* - - NAME - CsrWifiNmeSimGsmAuthIndSend - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that requests the UICC Manager to perform a GSM - authentication on behalf of the NME. This indication is generated when - the NME is attempting to connect to a profile configured for EAP-SIM. An - application MUST register to receive this indication for the NME to - support the EAP-SIM credential types. Otherwise the NME has no route to - obtain the information from the UICC. EAP-SIM authentication requires 2 - or 3 GSM authentication rounds and therefore 2 or 3 RANDS (GSM Random - Challenges) are included. - - PARAMETERS - queue - Destination Task Queue - randsLength - GSM RAND is 16 bytes long hence valid values are 32 (2 RANDS) - or 48 (3 RANDs). - rands - 2 or 3 RANDs values. - -*******************************************************************************/ -#define CsrWifiNmeSimGsmAuthIndCreate(msg__, dst__, src__, randsLength__, rands__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeSimGsmAuthInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_SIM_GSM_AUTH_IND, dst__, src__); \ - msg__->randsLength = (randsLength__); \ - msg__->rands = (rands__); - -#define CsrWifiNmeSimGsmAuthIndSendTo(dst__, src__, randsLength__, rands__) \ - { \ - CsrWifiNmeSimGsmAuthInd *msg__; \ - CsrWifiNmeSimGsmAuthIndCreate(msg__, dst__, src__, randsLength__, rands__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeSimGsmAuthIndSend(dst__, randsLength__, rands__) \ - CsrWifiNmeSimGsmAuthIndSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, randsLength__, rands__) - -/******************************************************************************* - - NAME - CsrWifiNmeSimGsmAuthResSend - - DESCRIPTION - Response from the application that received the NME SIM GSM AUTH IND. For - each GSM authentication round a GSM Ciphering key (Kc) and a signed - response (SRES) are produced. Since 2 or 3 GSM authentication rounds are - used the 2 or 3 Kc's obtained respectively are combined into one buffer - and similarly the 2 or 3 SRES's obtained are combined into another - buffer. The order of Kc values (SRES values respectively) in their buffer - is the same as that of their corresponding RAND values in the incoming - indication. - - PARAMETERS - status - Indicates the outcome of the requested operation: - STATUS_SUCCESS or STATUS_ERROR - kcsLength - Length in Bytes of Kc buffer. Legal values are: 16 or 24. - kcs - Kc buffer holding 2 or 3 Kc values. - sresLength - Length in Bytes of SRES buffer. Legal values are: 8 or 12. - sres - SRES buffer holding 2 or 3 SRES values. - -*******************************************************************************/ -#define CsrWifiNmeSimGsmAuthResCreate(msg__, dst__, src__, status__, kcsLength__, kcs__, sresLength__, sres__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeSimGsmAuthRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_SIM_GSM_AUTH_RES, dst__, src__); \ - msg__->status = (status__); \ - msg__->kcsLength = (kcsLength__); \ - msg__->kcs = (kcs__); \ - msg__->sresLength = (sresLength__); \ - msg__->sres = (sres__); - -#define CsrWifiNmeSimGsmAuthResSendTo(dst__, src__, status__, kcsLength__, kcs__, sresLength__, sres__) \ - { \ - CsrWifiNmeSimGsmAuthRes *msg__; \ - CsrWifiNmeSimGsmAuthResCreate(msg__, dst__, src__, status__, kcsLength__, kcs__, sresLength__, sres__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeSimGsmAuthResSend(src__, status__, kcsLength__, kcs__, sresLength__, sres__) \ - CsrWifiNmeSimGsmAuthResSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, status__, kcsLength__, kcs__, sresLength__, sres__) - -/******************************************************************************* - - NAME - CsrWifiNmeSimImsiGetIndSend - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that requests the IMSI and UICC type from the UICC Manager. - This indication is generated when the NME is attempting to connect to a - profile configured for EAP-SIM/AKA. An application MUST register to - receive this indication for the NME to support the EAP-SIM/AKA credential - types. Otherwise the NME has no route to obtain the information from the - UICC. - - PARAMETERS - queue - Destination Task Queue - -*******************************************************************************/ -#define CsrWifiNmeSimImsiGetIndCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeSimImsiGetInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_SIM_IMSI_GET_IND, dst__, src__); - -#define CsrWifiNmeSimImsiGetIndSendTo(dst__, src__) \ - { \ - CsrWifiNmeSimImsiGetInd *msg__; \ - CsrWifiNmeSimImsiGetIndCreate(msg__, dst__, src__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeSimImsiGetIndSend(dst__) \ - CsrWifiNmeSimImsiGetIndSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE) - -/******************************************************************************* - - NAME - CsrWifiNmeSimImsiGetResSend - - DESCRIPTION - Response from the application that received the NME SIM IMSI GET IND. - - PARAMETERS - status - Indicates the outcome of the requested operation: STATUS_SUCCESS - or STATUS_ERROR. - imsi - The value of the IMSI obtained from the UICC. - cardType - The UICC type (GSM only (SIM), UMTS only (USIM), Both). - -*******************************************************************************/ -#define CsrWifiNmeSimImsiGetResCreate(msg__, dst__, src__, status__, imsi__, cardType__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeSimImsiGetRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_SIM_IMSI_GET_RES, dst__, src__); \ - msg__->status = (status__); \ - msg__->imsi = (imsi__); \ - msg__->cardType = (cardType__); - -#define CsrWifiNmeSimImsiGetResSendTo(dst__, src__, status__, imsi__, cardType__) \ - { \ - CsrWifiNmeSimImsiGetRes *msg__; \ - CsrWifiNmeSimImsiGetResCreate(msg__, dst__, src__, status__, imsi__, cardType__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeSimImsiGetResSend(src__, status__, imsi__, cardType__) \ - CsrWifiNmeSimImsiGetResSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, status__, imsi__, cardType__) - -/******************************************************************************* - - NAME - CsrWifiNmeSimUmtsAuthIndSend - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that requests the UICC Manager to perform a UMTS - authentication on behalf of the NME. This indication is generated when - the NME is attempting to connect to a profile configured for EAP-AKA. An - application MUST register to receive this indication for the NME to - support the EAP-AKA credential types. Otherwise the NME has no route to - obtain the information from the USIM. EAP-AKA requires one UMTS - authentication round and therefore only one RAND and one AUTN values are - included. - - PARAMETERS - queue - Destination Task Queue - rand - UMTS RAND value. - autn - UMTS AUTN value. - -*******************************************************************************/ -#define CsrWifiNmeSimUmtsAuthIndCreate(msg__, dst__, src__, rand__, autn__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeSimUmtsAuthInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_SIM_UMTS_AUTH_IND, dst__, src__); \ - memcpy(msg__->rand, (rand__), sizeof(u8) * 16); \ - memcpy(msg__->autn, (autn__), sizeof(u8) * 16); - -#define CsrWifiNmeSimUmtsAuthIndSendTo(dst__, src__, rand__, autn__) \ - { \ - CsrWifiNmeSimUmtsAuthInd *msg__; \ - CsrWifiNmeSimUmtsAuthIndCreate(msg__, dst__, src__, rand__, autn__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeSimUmtsAuthIndSend(dst__, rand__, autn__) \ - CsrWifiNmeSimUmtsAuthIndSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, rand__, autn__) - -/******************************************************************************* - - NAME - CsrWifiNmeSimUmtsAuthResSend - - DESCRIPTION - Response from the application that received the NME SIM UMTS AUTH IND. - The values of umtsCipherKey, umtsIntegrityKey, resParameterLength and - resParameter are only meanigful when result = UMTS_AUTH_RESULT_SUCCESS. - The value of auts is only meaningful when - result=UMTS_AUTH_RESULT_SYNC_FAIL. - - PARAMETERS - status - Indicates the outcome of the requested operation: - STATUS_SUCCESS or STATUS_ERROR. - result - The result of UMTS authentication as performed by the - UICC which could be: Success, Authentication Reject or - Synchronisation Failure. For all these 3 outcomes the - value of status is success. - umtsCipherKey - The UMTS Cipher Key as calculated and returned by the - UICC. - umtsIntegrityKey - The UMTS Integrity Key as calculated and returned by - the UICC. - resParameterLength - The length (in bytes) of the RES parameter (min=4; max - = 16). - resParameter - The RES parameter as calculated and returned by the - UICC. - auts - The AUTS parameter as calculated and returned by the - UICC. - -*******************************************************************************/ -#define CsrWifiNmeSimUmtsAuthResCreate(msg__, dst__, src__, status__, result__, umtsCipherKey__, umtsIntegrityKey__, resParameterLength__, resParameter__, auts__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeSimUmtsAuthRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_SIM_UMTS_AUTH_RES, dst__, src__); \ - msg__->status = (status__); \ - msg__->result = (result__); \ - memcpy(msg__->umtsCipherKey, (umtsCipherKey__), sizeof(u8) * 16); \ - memcpy(msg__->umtsIntegrityKey, (umtsIntegrityKey__), sizeof(u8) * 16); \ - msg__->resParameterLength = (resParameterLength__); \ - msg__->resParameter = (resParameter__); \ - memcpy(msg__->auts, (auts__), sizeof(u8) * 14); - -#define CsrWifiNmeSimUmtsAuthResSendTo(dst__, src__, status__, result__, umtsCipherKey__, umtsIntegrityKey__, resParameterLength__, resParameter__, auts__) \ - { \ - CsrWifiNmeSimUmtsAuthRes *msg__; \ - CsrWifiNmeSimUmtsAuthResCreate(msg__, dst__, src__, status__, result__, umtsCipherKey__, umtsIntegrityKey__, resParameterLength__, resParameter__, auts__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeSimUmtsAuthResSend(src__, status__, result__, umtsCipherKey__, umtsIntegrityKey__, resParameterLength__, resParameter__, auts__) \ - CsrWifiNmeSimUmtsAuthResSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, status__, result__, umtsCipherKey__, umtsIntegrityKey__, resParameterLength__, resParameter__, auts__) - -/******************************************************************************* - - NAME - CsrWifiNmeWpsCancelReqSend - - DESCRIPTION - Requests the NME to cancel any WPS procedure that it is currently - performing. This includes WPS registrar activities started because of - CSR_WIFI_NME_AP_REGISTER.request - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiNmeWpsCancelReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeWpsCancelReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_WPS_CANCEL_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiNmeWpsCancelReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiNmeWpsCancelReq *msg__; \ - CsrWifiNmeWpsCancelReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeWpsCancelReqSend(src__, interfaceTag__) \ - CsrWifiNmeWpsCancelReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiNmeWpsCancelCfmSend - - DESCRIPTION - Reports the status of the NME WPS REQ, the request is always SUCCESSFUL. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Only returns CSR_WIFI_NME_STATUS_SUCCESS - -*******************************************************************************/ -#define CsrWifiNmeWpsCancelCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeWpsCancelCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_WPS_CANCEL_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiNmeWpsCancelCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiNmeWpsCancelCfm *msg__; \ - CsrWifiNmeWpsCancelCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeWpsCancelCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiNmeWpsCancelCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeWpsCfmSend - - DESCRIPTION - Reports the status of the NME WPS REQ. - If CSR_WIFI_NME_STATUS_SUCCESS, the profile parameter contains the - identity and credentials of the AP. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Indicates the success or otherwise of the requested - operation. - profile - This parameter is relevant only if - status==CSR_WIFI_NME_STATUS_SUCCESS. - The identity and credentials of the network. - -*******************************************************************************/ -#define CsrWifiNmeWpsCfmCreate(msg__, dst__, src__, interfaceTag__, status__, profile__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeWpsCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_WPS_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->profile = (profile__); - -#define CsrWifiNmeWpsCfmSendTo(dst__, src__, interfaceTag__, status__, profile__) \ - { \ - CsrWifiNmeWpsCfm *msg__; \ - CsrWifiNmeWpsCfmCreate(msg__, dst__, src__, interfaceTag__, status__, profile__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeWpsCfmSend(dst__, interfaceTag__, status__, profile__) \ - CsrWifiNmeWpsCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, interfaceTag__, status__, profile__) - -/******************************************************************************* - - NAME - CsrWifiNmeWpsConfigSetReqSend - - DESCRIPTION - This primitive passes the WPS information for the device to NME. This may - be accepted only if no interface is active. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - wpsConfig - WPS config. - -*******************************************************************************/ -#define CsrWifiNmeWpsConfigSetReqCreate(msg__, dst__, src__, wpsConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeWpsConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_WPS_CONFIG_SET_REQ, dst__, src__); \ - msg__->wpsConfig = (wpsConfig__); - -#define CsrWifiNmeWpsConfigSetReqSendTo(dst__, src__, wpsConfig__) \ - { \ - CsrWifiNmeWpsConfigSetReq *msg__; \ - CsrWifiNmeWpsConfigSetReqCreate(msg__, dst__, src__, wpsConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeWpsConfigSetReqSend(src__, wpsConfig__) \ - CsrWifiNmeWpsConfigSetReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, wpsConfig__) - -/******************************************************************************* - - NAME - CsrWifiNmeWpsConfigSetCfmSend - - DESCRIPTION - Confirm. - - PARAMETERS - queue - Destination Task Queue - status - Status of the request. - -*******************************************************************************/ -#define CsrWifiNmeWpsConfigSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeWpsConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_WPS_CONFIG_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiNmeWpsConfigSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiNmeWpsConfigSetCfm *msg__; \ - CsrWifiNmeWpsConfigSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeWpsConfigSetCfmSend(dst__, status__) \ - CsrWifiNmeWpsConfigSetCfmSendTo(dst__, CSR_WIFI_NME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiNmeWpsReqSend - - DESCRIPTION - Requests the NME to look for WPS enabled APs and attempt to perform WPS - to determine the appropriate security credentials to connect to the AP. - If the PIN == '00000000' then 'push button mode' is indicated, otherwise - the PIN has to match that of the AP. 4 digit pin is passed by sending the - pin digits in pin[0]..pin[3] and rest of the contents filled with '-'. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - pin - PIN value. - ssid - Service Set identifier - bssid - ID of Basic Service Set for which a WPS connection attempt is - being made. - -*******************************************************************************/ -#define CsrWifiNmeWpsReqCreate(msg__, dst__, src__, interfaceTag__, pin__, ssid__, bssid__) \ - msg__ = kmalloc(sizeof(CsrWifiNmeWpsReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_NME_PRIM, CSR_WIFI_NME_WPS_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - memcpy(msg__->pin, (pin__), sizeof(u8) * 8); \ - msg__->ssid = (ssid__); \ - msg__->bssid = (bssid__); - -#define CsrWifiNmeWpsReqSendTo(dst__, src__, interfaceTag__, pin__, ssid__, bssid__) \ - { \ - CsrWifiNmeWpsReq *msg__; \ - CsrWifiNmeWpsReqCreate(msg__, dst__, src__, interfaceTag__, pin__, ssid__, bssid__); \ - CsrMsgTransport(dst__, CSR_WIFI_NME_PRIM, msg__); \ - } - -#define CsrWifiNmeWpsReqSend(src__, interfaceTag__, pin__, ssid__, bssid__) \ - CsrWifiNmeWpsReqSendTo(CSR_WIFI_NME_IFACEQUEUE, src__, interfaceTag__, pin__, ssid__, bssid__) - -#endif /* CSR_WIFI_NME_LIB_H__ */ diff --git a/drivers/staging/csr/csr_wifi_nme_prim.h b/drivers/staging/csr/csr_wifi_nme_prim.h deleted file mode 100644 index 9a7927a..0000000 --- a/drivers/staging/csr/csr_wifi_nme_prim.h +++ /dev/null @@ -1,1657 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_PRIM_H__ -#define CSR_WIFI_NME_PRIM_H__ - -#include <linux/types.h> -#include "csr_prim_defs.h" -#include "csr_sched.h" -#include "csr_wifi_common.h" -#include "csr_result.h" -#include "csr_wifi_fsm_event.h" -#include "csr_wifi_sme_prim.h" - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_prim.h -#endif - -#define CSR_WIFI_NME_PRIM (0x0424) - -typedef CsrPrim CsrWifiNmePrim; - -typedef void (*CsrWifiNmeFrameFreeFunction)(void *frame); - -/******************************************************************************* - - NAME - CsrWifiNmeAuthMode - - DESCRIPTION - WiFi Authentication Mode - - VALUES - CSR_WIFI_NME_AUTH_MODE_80211_OPEN - - Connects to an open system network (i.e. no authentication, - no encryption) or to a WEP enabled network. - CSR_WIFI_NME_AUTH_MODE_80211_SHARED - - Connect to a WEP enabled network. - CSR_WIFI_NME_AUTH_MODE_8021X_WPA - - Connects to a WPA Enterprise enabled network. - CSR_WIFI_NME_AUTH_MODE_8021X_WPAPSK - - Connects to a WPA with Pre-Shared Key enabled network. - CSR_WIFI_NME_AUTH_MODE_8021X_WPA2 - - Connects to a WPA2 Enterprise enabled network. - CSR_WIFI_NME_AUTH_MODE_8021X_WPA2PSK - - Connects to a WPA2 with Pre-Shared Key enabled network. - CSR_WIFI_NME_AUTH_MODE_8021X_CCKM - - Connects to a CCKM enabled network. - CSR_WIFI_NME_AUTH_MODE_WAPI_WAI - - Connects to a WAPI Enterprise enabled network. - CSR_WIFI_NME_AUTH_MODE_WAPI_WAIPSK - - Connects to a WAPI with Pre-Shared Key enabled network. - CSR_WIFI_NME_AUTH_MODE_8021X_OTHER1X - - For future use. - -*******************************************************************************/ -typedef u16 CsrWifiNmeAuthMode; -#define CSR_WIFI_NME_AUTH_MODE_80211_OPEN ((CsrWifiNmeAuthMode) 0x0001) -#define CSR_WIFI_NME_AUTH_MODE_80211_SHARED ((CsrWifiNmeAuthMode) 0x0002) -#define CSR_WIFI_NME_AUTH_MODE_8021X_WPA ((CsrWifiNmeAuthMode) 0x0004) -#define CSR_WIFI_NME_AUTH_MODE_8021X_WPAPSK ((CsrWifiNmeAuthMode) 0x0008) -#define CSR_WIFI_NME_AUTH_MODE_8021X_WPA2 ((CsrWifiNmeAuthMode) 0x0010) -#define CSR_WIFI_NME_AUTH_MODE_8021X_WPA2PSK ((CsrWifiNmeAuthMode) 0x0020) -#define CSR_WIFI_NME_AUTH_MODE_8021X_CCKM ((CsrWifiNmeAuthMode) 0x0040) -#define CSR_WIFI_NME_AUTH_MODE_WAPI_WAI ((CsrWifiNmeAuthMode) 0x0080) -#define CSR_WIFI_NME_AUTH_MODE_WAPI_WAIPSK ((CsrWifiNmeAuthMode) 0x0100) -#define CSR_WIFI_NME_AUTH_MODE_8021X_OTHER1X ((CsrWifiNmeAuthMode) 0x0200) - -/******************************************************************************* - - NAME - CsrWifiNmeBssType - - DESCRIPTION - Type of BSS - - VALUES - CSR_WIFI_NME_BSS_TYPE_INFRASTRUCTURE - - Infrastructure BSS type where access to the network is via - one or several Access Points. - CSR_WIFI_NME_BSS_TYPE_ADHOC - - Adhoc or Independent BSS Type where one Station acts as a - host and future stations can join the adhoc network without - needing an access point. - CSR_WIFI_NME_BSS_TYPE_RESERVED - - To be in sync with SME.This is not used. - CSR_WIFI_NME_BSS_TYPE_P2P - - P2P mode of operation. - -*******************************************************************************/ -typedef u8 CsrWifiNmeBssType; -#define CSR_WIFI_NME_BSS_TYPE_INFRASTRUCTURE ((CsrWifiNmeBssType) 0x00) -#define CSR_WIFI_NME_BSS_TYPE_ADHOC ((CsrWifiNmeBssType) 0x01) -#define CSR_WIFI_NME_BSS_TYPE_RESERVED ((CsrWifiNmeBssType) 0x02) -#define CSR_WIFI_NME_BSS_TYPE_P2P ((CsrWifiNmeBssType) 0x03) - -/******************************************************************************* - - NAME - CsrWifiNmeCcxOptionsMask - - DESCRIPTION - Enumeration type defining possible mask values for setting CCX options. - - VALUES - CSR_WIFI_NME_CCX_OPTION_NONE - No CCX option is set. - CSR_WIFI_NME_CCX_OPTION_CCKM - CCX option cckm is set. - -*******************************************************************************/ -typedef u8 CsrWifiNmeCcxOptionsMask; -#define CSR_WIFI_NME_CCX_OPTION_NONE ((CsrWifiNmeCcxOptionsMask) 0x00) -#define CSR_WIFI_NME_CCX_OPTION_CCKM ((CsrWifiNmeCcxOptionsMask) 0x01) - -/******************************************************************************* - - NAME - CsrWifiNmeConfigAction - - DESCRIPTION - - VALUES - CSR_WIFI_PIN_ENTRY_PUSH_BUTTON - - CSR_WIFI_PIN_ENTRY_DISPLAY_PIN - - CSR_WIFI_PIN_ENTRY_ENTER_PIN - - -*******************************************************************************/ -typedef u8 CsrWifiNmeConfigAction; -#define CSR_WIFI_PIN_ENTRY_PUSH_BUTTON ((CsrWifiNmeConfigAction) 0x00) -#define CSR_WIFI_PIN_ENTRY_DISPLAY_PIN ((CsrWifiNmeConfigAction) 0x01) -#define CSR_WIFI_PIN_ENTRY_ENTER_PIN ((CsrWifiNmeConfigAction) 0x02) - -/******************************************************************************* - - NAME - CsrWifiNmeConnectionStatus - - DESCRIPTION - Indicate the NME Connection Status when connecting or when disconnecting - - VALUES - CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_DISCONNECTED - - NME is disconnected. - CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_CONNECTING - - NME is in the process of connecting. - CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_AUTHENTICATING - - NME is in the authentication stage of a connection attempt. - CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_CONNECTED - - NME is connected. - CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_DISCONNECTING - - NME is in the process of disconnecting. - -*******************************************************************************/ -typedef u8 CsrWifiNmeConnectionStatus; -#define CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_DISCONNECTED ((CsrWifiNmeConnectionStatus) 0x00) -#define CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_CONNECTING ((CsrWifiNmeConnectionStatus) 0x01) -#define CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_AUTHENTICATING ((CsrWifiNmeConnectionStatus) 0x02) -#define CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_CONNECTED ((CsrWifiNmeConnectionStatus) 0x03) -#define CSR_WIFI_NME_CONNECTION_STATUS_CONNECTION_STATUS_DISCONNECTING ((CsrWifiNmeConnectionStatus) 0x04) - -/******************************************************************************* - - NAME - CsrWifiNmeCredentialType - - DESCRIPTION - NME Credential Types - - VALUES - CSR_WIFI_NME_CREDENTIAL_TYPE_OPEN_SYSTEM - - Credential Type Open System. - CSR_WIFI_NME_CREDENTIAL_TYPE_WEP64 - - Credential Type WEP-64 - CSR_WIFI_NME_CREDENTIAL_TYPE_WEP128 - - Credential Type WEP-128 - CSR_WIFI_NME_CREDENTIAL_TYPE_WPA_PSK - - Credential Type WPA Pre-Shared Key - CSR_WIFI_NME_CREDENTIAL_TYPE_WPA_PASSPHRASE - - Credential Type WPA pass phrase - CSR_WIFI_NME_CREDENTIAL_TYPE_WPA2_PSK - - Credential Type WPA2 Pre-Shared Key. - CSR_WIFI_NME_CREDENTIAL_TYPE_WPA2_PASSPHRASE - - Credential Type WPA2 pass phrase - CSR_WIFI_NME_CREDENTIAL_TYPE_WAPI_PSK - - Credential Type WAPI Pre-Shared Key. - CSR_WIFI_NME_CREDENTIAL_TYPE_WAPI_PASSPHRASE - - Credential Type WAPI pass phrase - CSR_WIFI_NME_CREDENTIAL_TYPE_WAPI - - Credential Type WAPI certificates - CSR_WIFI_NME_CREDENTIAL_TYPE_8021X - - Credential Type 802.1X: the associated type supports - FAST/LEAP/TLS/TTLS/PEAP/etc. - -*******************************************************************************/ -typedef u16 CsrWifiNmeCredentialType; -#define CSR_WIFI_NME_CREDENTIAL_TYPE_OPEN_SYSTEM ((CsrWifiNmeCredentialType) 0x0000) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WEP64 ((CsrWifiNmeCredentialType) 0x0001) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WEP128 ((CsrWifiNmeCredentialType) 0x0002) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WPA_PSK ((CsrWifiNmeCredentialType) 0x0003) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WPA_PASSPHRASE ((CsrWifiNmeCredentialType) 0x0004) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WPA2_PSK ((CsrWifiNmeCredentialType) 0x0005) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WPA2_PASSPHRASE ((CsrWifiNmeCredentialType) 0x0006) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WAPI_PSK ((CsrWifiNmeCredentialType) 0x0007) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WAPI_PASSPHRASE ((CsrWifiNmeCredentialType) 0x0008) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_WAPI ((CsrWifiNmeCredentialType) 0x0009) -#define CSR_WIFI_NME_CREDENTIAL_TYPE_8021X ((CsrWifiNmeCredentialType) 0x000A) - -/******************************************************************************* - - NAME - CsrWifiNmeEapMethod - - DESCRIPTION - Outer EAP method with possibly inner method. - - VALUES - CSR_WIFI_NME_EAP_METHOD_TLS - - EAP-TLS Method. - CSR_WIFI_NME_EAP_METHOD_TTLS_MSCHAPV2 - - EAP-TTLS Method with MSCHAPV2. - CSR_WIFI_NME_EAP_METHOD_PEAP_GTC - - EAP-PEAP Method with GTC. - CSR_WIFI_NME_EAP_METHOD_PEAP_MSCHAPV2 - - EAP-PEAP Method with MSCHAPV2. - CSR_WIFI_NME_EAP_METHOD_SIM - - EAP-SIM Method. - CSR_WIFI_NME_EAP_METHOD_AKA - - EAP-AKA Method. - CSR_WIFI_NME_EAP_METHOD_FAST_GTC - - EAP-FAST Method with GTC. - CSR_WIFI_NME_EAP_METHOD_FAST_MSCHAPV2 - - EAP-FAST Method with MSCHAPV2. - CSR_WIFI_NME_EAP_METHOD_LEAP - - EAP-LEAP Method. - -*******************************************************************************/ -typedef u16 CsrWifiNmeEapMethod; -#define CSR_WIFI_NME_EAP_METHOD_TLS ((CsrWifiNmeEapMethod) 0x0001) -#define CSR_WIFI_NME_EAP_METHOD_TTLS_MSCHAPV2 ((CsrWifiNmeEapMethod) 0x0002) -#define CSR_WIFI_NME_EAP_METHOD_PEAP_GTC ((CsrWifiNmeEapMethod) 0x0004) -#define CSR_WIFI_NME_EAP_METHOD_PEAP_MSCHAPV2 ((CsrWifiNmeEapMethod) 0x0008) -#define CSR_WIFI_NME_EAP_METHOD_SIM ((CsrWifiNmeEapMethod) 0x0010) -#define CSR_WIFI_NME_EAP_METHOD_AKA ((CsrWifiNmeEapMethod) 0x0020) -#define CSR_WIFI_NME_EAP_METHOD_FAST_GTC ((CsrWifiNmeEapMethod) 0x0040) -#define CSR_WIFI_NME_EAP_METHOD_FAST_MSCHAPV2 ((CsrWifiNmeEapMethod) 0x0080) -#define CSR_WIFI_NME_EAP_METHOD_LEAP ((CsrWifiNmeEapMethod) 0x0100) - -/******************************************************************************* - - NAME - CsrWifiNmeEncryption - - DESCRIPTION - WiFi Encryption method - - VALUES - CSR_WIFI_NME_ENCRYPTION_CIPHER_NONE - - No encryprion set. - CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_WEP40 - - 40 bytes WEP key for peer to peer communication. - CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_WEP104 - - 104 bytes WEP key for peer to peer communication. - CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_TKIP - - TKIP key for peer to peer communication. - CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_CCMP - - CCMP key for peer to peer communication. - CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_SMS4 - - SMS4 key for peer to peer communication. - CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_WEP40 - - 40 bytes WEP key for broadcast messages. - CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_WEP104 - - 104 bytes WEP key for broadcast messages. - CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_TKIP - - TKIP key for broadcast messages. - CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_CCMP - - CCMP key for broadcast messages - CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_SMS4 - - SMS4 key for broadcast messages. - -*******************************************************************************/ -typedef u16 CsrWifiNmeEncryption; -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_NONE ((CsrWifiNmeEncryption) 0x0000) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_WEP40 ((CsrWifiNmeEncryption) 0x0001) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_WEP104 ((CsrWifiNmeEncryption) 0x0002) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_TKIP ((CsrWifiNmeEncryption) 0x0004) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_CCMP ((CsrWifiNmeEncryption) 0x0008) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_SMS4 ((CsrWifiNmeEncryption) 0x0010) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_WEP40 ((CsrWifiNmeEncryption) 0x0020) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_WEP104 ((CsrWifiNmeEncryption) 0x0040) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_TKIP ((CsrWifiNmeEncryption) 0x0080) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_CCMP ((CsrWifiNmeEncryption) 0x0100) -#define CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_SMS4 ((CsrWifiNmeEncryption) 0x0200) - -/******************************************************************************* - - NAME - CsrWifiNmeIndications - - DESCRIPTION - NME indications - - VALUES - CSR_WIFI_NME_INDICATIONS_IND_AP_STATION - - NME AP Station Indication. - CSR_WIFI_NME_INDICATIONS_IND_AP_STOP - - NME AP Stop Indication. - CSR_WIFI_NME_INDICATIONS_IND_SIM_UMTS_AUTH - - NME UMTS Authentication Indication. - CSR_WIFI_NME_INDICATIONS_IND_P2P_GROUP_START - - NME P2P Group Start Indication. - CSR_WIFI_NME_INDICATIONS_IND_P2P_GROUP_STATUS - - NME P2P Group Status Indication. - CSR_WIFI_NME_INDICATIONS_IND_P2P_GROUP_ROLE - - NME P2P Group Role Indication. - CSR_WIFI_NME_INDICATIONS_IND_PROFILE_DISCONNECT - - NME Profile Disconnect Indication. - CSR_WIFI_NME_INDICATIONS_IND_PROFILE_UPDATE - - NME Profile Update Indication. - CSR_WIFI_NME_INDICATIONS_IND_SIM_IMSI_GET - - NME GET IMSI Indication. - CSR_WIFI_NME_INDICATIONS_IND_SIM_GSM_AUTH - - NME GSM Authentication Indication. - CSR_WIFI_NME_INDICATIONS_ALL - - Used to register for all available indications - -*******************************************************************************/ -typedef u32 CsrWifiNmeIndications; -#define CSR_WIFI_NME_INDICATIONS_IND_AP_STATION ((CsrWifiNmeIndications) 0x00100000) -#define CSR_WIFI_NME_INDICATIONS_IND_AP_STOP ((CsrWifiNmeIndications) 0x00200000) -#define CSR_WIFI_NME_INDICATIONS_IND_SIM_UMTS_AUTH ((CsrWifiNmeIndications) 0x01000000) -#define CSR_WIFI_NME_INDICATIONS_IND_P2P_GROUP_START ((CsrWifiNmeIndications) 0x02000000) -#define CSR_WIFI_NME_INDICATIONS_IND_P2P_GROUP_STATUS ((CsrWifiNmeIndications) 0x04000000) -#define CSR_WIFI_NME_INDICATIONS_IND_P2P_GROUP_ROLE ((CsrWifiNmeIndications) 0x08000000) -#define CSR_WIFI_NME_INDICATIONS_IND_PROFILE_DISCONNECT ((CsrWifiNmeIndications) 0x10000000) -#define CSR_WIFI_NME_INDICATIONS_IND_PROFILE_UPDATE ((CsrWifiNmeIndications) 0x20000000) -#define CSR_WIFI_NME_INDICATIONS_IND_SIM_IMSI_GET ((CsrWifiNmeIndications) 0x40000000) -#define CSR_WIFI_NME_INDICATIONS_IND_SIM_GSM_AUTH ((CsrWifiNmeIndications) 0x80000000) -#define CSR_WIFI_NME_INDICATIONS_ALL ((CsrWifiNmeIndications) 0xFFFFFFFF) - -/******************************************************************************* - - NAME - CsrWifiNmeSecError - - DESCRIPTION - NME Security Errors - place holder for the security library abort reason - - VALUES - CSR_WIFI_NME_SEC_ERROR_SEC_ERROR_UNKNOWN - - Unknown Security Error. - -*******************************************************************************/ -typedef u8 CsrWifiNmeSecError; -#define CSR_WIFI_NME_SEC_ERROR_SEC_ERROR_UNKNOWN ((CsrWifiNmeSecError) 0x00) - -/******************************************************************************* - - NAME - CsrWifiNmeSimCardType - - DESCRIPTION - (U)SIM Card (or UICC) types - - VALUES - CSR_WIFI_NME_SIM_CARD_TYPE_2G - 2G SIM card, capable of performing GSM - authentication only. - CSR_WIFI_NME_SIM_CARD_TYPE_3G - UICC supporting USIM application, capable - of performing UMTS authentication only. - CSR_WIFI_NME_SIM_CARD_TYPE_2G3G - UICC supporting both USIM and SIM - applications, capable of performing both - UMTS and GSM authentications. - -*******************************************************************************/ -typedef u8 CsrWifiNmeSimCardType; -#define CSR_WIFI_NME_SIM_CARD_TYPE_2G ((CsrWifiNmeSimCardType) 0x01) -#define CSR_WIFI_NME_SIM_CARD_TYPE_3G ((CsrWifiNmeSimCardType) 0x02) -#define CSR_WIFI_NME_SIM_CARD_TYPE_2G3G ((CsrWifiNmeSimCardType) 0x03) - -/******************************************************************************* - - NAME - CsrWifiNmeUmtsAuthResult - - DESCRIPTION - Only relevant for UMTS Authentication. It indicates if the UICC has - successfully authenticated the network or otherwise. - - VALUES - CSR_WIFI_NME_UMTS_AUTH_RESULT_SUCCESS - - Successful outcome from USIM indicating that the card has - successfully authenticated the network. - CSR_WIFI_NME_UMTS_AUTH_RESULT_SYNC_FAIL - - Unsuccessful outcome from USIM indicating that the card is - requesting the network to synchronise and re-try again. If - no further request is received an NME timer will expire and - the authentication is aborted. - CSR_WIFI_NME_UMTS_AUTH_RESULT_REJECT - - Unsuccessful outcome from USIM indicating that the card has - rejected the network and that the authentication is - aborted. - -*******************************************************************************/ -typedef u8 CsrWifiNmeUmtsAuthResult; -#define CSR_WIFI_NME_UMTS_AUTH_RESULT_SUCCESS ((CsrWifiNmeUmtsAuthResult) 0x00) -#define CSR_WIFI_NME_UMTS_AUTH_RESULT_SYNC_FAIL ((CsrWifiNmeUmtsAuthResult) 0x01) -#define CSR_WIFI_NME_UMTS_AUTH_RESULT_REJECT ((CsrWifiNmeUmtsAuthResult) 0x02) - -/******************************************************************************* - - NAME - CsrWifiNmeWmmQosInfo - - DESCRIPTION - Defines bits for the QoS Info octect as defined in the WMM specification. - The values of this type are used across the NME/SME/Router API's and they - must be kept consistent with the corresponding types in the .xml of the - other interfaces - - VALUES - CSR_WIFI_NME_WMM_QOS_INFO_AC_MAX_SP_ALL - - WMM AP may deliver all buffered frames. - CSR_WIFI_NME_WMM_QOS_INFO_AC_VO - - To enable the triggering and delivery of QoS Voice. - CSR_WIFI_NME_WMM_QOS_INFO_AC_VI - - To enable the triggering and delivery of QoS Video. - CSR_WIFI_NME_WMM_QOS_INFO_AC_BK - - To enable the triggering and delivery of QoS Background. - CSR_WIFI_NME_WMM_QOS_INFO_AC_BE - - To enable the triggering and delivery of QoS Best Effort. - CSR_WIFI_NME_WMM_QOS_INFO_AC_MAX_SP_TWO - - WMM AP may deliver a maximum of 2 buffered frames per - Unscheduled Service Period (USP). - CSR_WIFI_NME_WMM_QOS_INFO_AC_MAX_SP_FOUR - - WMM AP may deliver a maximum of 4 buffered frames per USP. - CSR_WIFI_NME_WMM_QOS_INFO_AC_MAX_SP_SIX - - WMM AP may deliver a maximum of 6 buffered frames per USP. - -*******************************************************************************/ -typedef u8 CsrWifiNmeWmmQosInfo; -#define CSR_WIFI_NME_WMM_QOS_INFO_AC_MAX_SP_ALL ((CsrWifiNmeWmmQosInfo) 0x00) -#define CSR_WIFI_NME_WMM_QOS_INFO_AC_VO ((CsrWifiNmeWmmQosInfo) 0x01) -#define CSR_WIFI_NME_WMM_QOS_INFO_AC_VI ((CsrWifiNmeWmmQosInfo) 0x02) -#define CSR_WIFI_NME_WMM_QOS_INFO_AC_BK ((CsrWifiNmeWmmQosInfo) 0x04) -#define CSR_WIFI_NME_WMM_QOS_INFO_AC_BE ((CsrWifiNmeWmmQosInfo) 0x08) -#define CSR_WIFI_NME_WMM_QOS_INFO_AC_MAX_SP_TWO ((CsrWifiNmeWmmQosInfo) 0x20) -#define CSR_WIFI_NME_WMM_QOS_INFO_AC_MAX_SP_FOUR ((CsrWifiNmeWmmQosInfo) 0x40) -#define CSR_WIFI_NME_WMM_QOS_INFO_AC_MAX_SP_SIX ((CsrWifiNmeWmmQosInfo) 0x60) - - -/******************************************************************************* - - NAME - CsrWifiNmeEapMethodMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiNmeEapMethod. - -*******************************************************************************/ -typedef u16 CsrWifiNmeEapMethodMask; -/******************************************************************************* - - NAME - CsrWifiNmeEncryptionMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiNmeEncryption - -*******************************************************************************/ -typedef u16 CsrWifiNmeEncryptionMask; -/******************************************************************************* - - NAME - CsrWifiNmeIndicationsMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiNmeIndications - -*******************************************************************************/ -typedef u32 CsrWifiNmeIndicationsMask; -/******************************************************************************* - - NAME - CsrWifiNmeNmeIndicationsMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiNmeNmeIndications. - Used to overlap the unused portion of the unifi_IndicationsMask For NME - specific indications - -*******************************************************************************/ -typedef u32 CsrWifiNmeNmeIndicationsMask; -/******************************************************************************* - - NAME - CsrWifiNmeWmmQosInfoMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiNmeWmmQosInfo - -*******************************************************************************/ -typedef u8 CsrWifiNmeWmmQosInfoMask; - - -/******************************************************************************* - - NAME - CsrWifiNmeEmpty - - DESCRIPTION - Empty Structure to indicate that no credentials are available. - - MEMBERS - empty - Only element of the empty structure (always set to 0). - -*******************************************************************************/ -typedef struct -{ - u8 empty; -} CsrWifiNmeEmpty; - -/******************************************************************************* - - NAME - CsrWifiNmePassphrase - - DESCRIPTION - Structure holding the ASCII Pass Phrase data. - - MEMBERS - encryptionMode - Encryption type as defined in CsrWifiSmeEncryption. - passphrase - Pass phrase ASCII value. - -*******************************************************************************/ -typedef struct -{ - u16 encryptionMode; - char *passphrase; -} CsrWifiNmePassphrase; - -/******************************************************************************* - - NAME - CsrWifiNmePsk - - DESCRIPTION - Structure holding the Pre-Shared Key data. - - MEMBERS - encryptionMode - Encryption type as defined in CsrWifiSmeEncryption. - psk - Pre-Shared Key value. - -*******************************************************************************/ -typedef struct -{ - u16 encryptionMode; - u8 psk[32]; -} CsrWifiNmePsk; - -/******************************************************************************* - - NAME - CsrWifiNmeWapiCredentials - - DESCRIPTION - Structure holding WAPI credentials data. - - MEMBERS - certificateLength - Length in bytes of the following client certificate. - certificate - The actual client certificate data (if present). - DER/PEM format supported. - privateKeyLength - Length in bytes of the following private key. - privateKey - The actual private key. DER/PEM format. - caCertificateLength - Length in bytes of the following certificate authority - certificate. - caCertificate - The actual certificate authority certificate data. If - not supplied the received certificate authority - certificate is assumed to be validate, if present the - received certificate is validated against it. DER/PEM - format supported. - -*******************************************************************************/ -typedef struct -{ - u32 certificateLength; - u8 *certificate; - u16 privateKeyLength; - u8 *privateKey; - u32 caCertificateLength; - u8 *caCertificate; -} CsrWifiNmeWapiCredentials; - -/******************************************************************************* - - NAME - CsrWifiNmeConnectAttempt - - DESCRIPTION - Structure holding Connection attempt data. - - MEMBERS - bssid - Id of Basic Service Set connections attempt have been made - to. - status - Status returned to indicate the success or otherwise of the - connection attempt. - securityError - Security error status indicating the nature of the failure - to connect. - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress bssid; - CsrResult status; - CsrWifiNmeSecError securityError; -} CsrWifiNmeConnectAttempt; - -/******************************************************************************* - - NAME - CsrWifiNmeEapCredentials - - DESCRIPTION - Supports the use of multiple EAP methods via a single structure. The - methods required are indicated by the value set in the eapMethodMask - - MEMBERS - eapMethodMask - - Bit mask of supported EAP methods - Currently only supports the setting of one bit. - Required for all the EAP methods. - authMode - - Bit mask representing the authentication types that may be - supported by a suitable AP. An AP must support at least one - of the authentication types specified to be considered for - connection. Required for all EAP methods. - encryptionMode - - Bit mask representing the encryption types that may be - supported by a suitable AP. An AP must support a suitable - mix of the pairwise and group encryption types requested to - be considered for connection. Required for all EAP methods. - userName - - User name. Required for all EAP methods except: SIM or AKA. - userPassword - - User Password. Required for all EAP methods except: TLS, - SIM or AKA. - authServerUserIdentity - - Authentication server user Identity. Required for all EAP - methods except: TLS, SIM, AKA or FAST. - clientCertificateLength - - Length in bytes of the following client certificate (if - present). Only required for TLS. - clientCertificate - - The actual client certificate data (if present). Only - required for TLS. DER/PEM format supported. - certificateAuthorityCertificateLength - - Length in bytes of the following certificate authority - certificate (if present). Optional for TLS, TTLS, PEAP. - certificateAuthorityCertificate - - The actual certificate authority certificate data (if - present). If not supplied the received certificate - authority certificate is assumed to be valid, if present - the received certificate is validated against it. Optional - for TLS, TTLS, PEAP. DER/PEM format supported. - privateKeyLength - - Length in bytes of the following private key (if present). - Only required for TLS. - privateKey - - The actual private key (if present). Only required for TLS. - DER/PEM format, maybe password protected. - privateKeyPassword - - Optional password to protect the private key. - sessionLength - - Length in bytes of the following session field Supported - for all EAP methods except: SIM or AKA. - session - - Session information to support faster re-authentication. - Supported for all EAP methods except: SIM or AKA. - allowPacProvisioning - - If TRUE: PAC provisioning is allowed 'over-the_air'; - If FALSE: a PAC must be supplied. - Only required for FAST. - pacLength - - Length the following PAC field. If allowPacProvisioning is - FALSE then the PAC MUST be supplied (i.e. non-zero). Only - required for FAST. - pac - - The actual PAC data. If allowPacProvisioning is FALSE then - the PAC MUST be supplied. Only required for FAST. - pacPassword - - Optional password to protect the PAC. Only required for - FAST. - -*******************************************************************************/ -typedef struct -{ - CsrWifiNmeEapMethodMask eapMethodMask; - CsrWifiSmeAuthModeMask authMode; - CsrWifiNmeEncryptionMask encryptionMode; - char *userName; - char *userPassword; - char *authServerUserIdentity; - u32 clientCertificateLength; - u8 *clientCertificate; - u32 certificateAuthorityCertificateLength; - u8 *certificateAuthorityCertificate; - u16 privateKeyLength; - u8 *privateKey; - char *privateKeyPassword; - u32 sessionLength; - u8 *session; - u8 allowPacProvisioning; - u32 pacLength; - u8 *pac; - char *pacPassword; -} CsrWifiNmeEapCredentials; - -/******************************************************************************* - - NAME - CsrWifiNmePeerConfig - - DESCRIPTION - Structure holding Peer Config data. - - MEMBERS - p2pDeviceId - - groupCapabilityMask - - groupOwnerIntent - - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress p2pDeviceId; - CsrWifiSmeP2pGroupCapabilityMask groupCapabilityMask; - u8 groupOwnerIntent; -} CsrWifiNmePeerConfig; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileIdentity - - DESCRIPTION - The identity of a profile is defined as the unique combination the BSSID - and SSID. - - MEMBERS - bssid - ID of Basic Service Set for or the P2pDevice address of the GO for - which a connection attempt was made. - ssid - Service Set Id. - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress bssid; - CsrWifiSsid ssid; -} CsrWifiNmeProfileIdentity; - -/******************************************************************************* - - NAME - CsrWifiNmeWep128Keys - - DESCRIPTION - Structure holding WEP Authentication Type and WEP keys that can be used - when using WEP128. - - MEMBERS - wepAuthType - Mask to select the WEP authentication type (Open or Shared) - selectedWepKey - Index to one of the four keys below indicating the - currently used WEP key. - key1 - Value for key number 1. - key2 - Value for key number 2. - key3 - Value for key number 3. - key4 - Value for key number 4. - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeAuthModeMask wepAuthType; - u8 selectedWepKey; - u8 key1[13]; - u8 key2[13]; - u8 key3[13]; - u8 key4[13]; -} CsrWifiNmeWep128Keys; - -/******************************************************************************* - - NAME - CsrWifiNmeWep64Keys - - DESCRIPTION - Structure for holding WEP Authentication Type and WEP keys that can be - used when using WEP64. - - MEMBERS - wepAuthType - Mask to select the WEP authentication type (Open or Shared) - selectedWepKey - Index to one of the four keys below indicating the - currently used WEP key. - key1 - Value for key number 1. - key2 - Value for key number 2. - key3 - Value for key number 3. - key4 - Value for key number 4. - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeAuthModeMask wepAuthType; - u8 selectedWepKey; - u8 key1[5]; - u8 key2[5]; - u8 key3[5]; - u8 key4[5]; -} CsrWifiNmeWep64Keys; - -/******************************************************************************* - - NAME - CsrWifiNmeCredentials - - DESCRIPTION - Structure containing the Credentials data. - - MEMBERS - credentialType - Credential type value (as defined in the - enumeration type). - credential - Union containing credentials which depends on - credentialType parameter. - credentialeap - - credentialwapiPassphrase - - credentialwpa2Passphrase - - credentialwpa2Psk - - credentialwapiPsk - - credentialwpaPassphrase - - credentialwapi - - credentialwep128Key - - credentialwpaPsk - - credentialopenSystem - - credentialwep64Key - - -*******************************************************************************/ -typedef struct -{ - CsrWifiNmeCredentialType credentialType; - union { - CsrWifiNmeEapCredentials eap; - CsrWifiNmePassphrase wapiPassphrase; - CsrWifiNmePassphrase wpa2Passphrase; - CsrWifiNmePsk wpa2Psk; - CsrWifiNmePsk wapiPsk; - CsrWifiNmePassphrase wpaPassphrase; - CsrWifiNmeWapiCredentials wapi; - CsrWifiNmeWep128Keys wep128Key; - CsrWifiNmePsk wpaPsk; - CsrWifiNmeEmpty openSystem; - CsrWifiNmeWep64Keys wep64Key; - } credential; -} CsrWifiNmeCredentials; - -/******************************************************************************* - - NAME - CsrWifiNmeProfile - - DESCRIPTION - Structure containing the Profile data. - - MEMBERS - profileIdentity - Profile Identity. - wmmQosInfoMask - Mask for WMM QoS information. - bssType - Type of BSS (Infrastructure or Adhoc). - channelNo - Channel Number. - ccxOptionsMask - Options mask for Cisco Compatible Extentions. - cloakedSsid - Flag to decide whether the SSID is cloaked (not - transmitted) or not. - credentials - Credentials data. - -*******************************************************************************/ -typedef struct -{ - CsrWifiNmeProfileIdentity profileIdentity; - CsrWifiNmeWmmQosInfoMask wmmQosInfoMask; - CsrWifiNmeBssType bssType; - u8 channelNo; - u8 ccxOptionsMask; - u8 cloakedSsid; - CsrWifiNmeCredentials credentials; -} CsrWifiNmeProfile; - - -/* Downstream */ -#define CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST (0x0000) - -#define CSR_WIFI_NME_PROFILE_SET_REQ ((CsrWifiNmePrim) (0x0000 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_DELETE_REQ ((CsrWifiNmePrim) (0x0001 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_DELETE_ALL_REQ ((CsrWifiNmePrim) (0x0002 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_ORDER_SET_REQ ((CsrWifiNmePrim) (0x0003 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_CONNECT_REQ ((CsrWifiNmePrim) (0x0004 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_WPS_REQ ((CsrWifiNmePrim) (0x0005 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_WPS_CANCEL_REQ ((CsrWifiNmePrim) (0x0006 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_CONNECTION_STATUS_GET_REQ ((CsrWifiNmePrim) (0x0007 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_SIM_IMSI_GET_RES ((CsrWifiNmePrim) (0x0008 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_SIM_GSM_AUTH_RES ((CsrWifiNmePrim) (0x0009 + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_SIM_UMTS_AUTH_RES ((CsrWifiNmePrim) (0x000A + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_WPS_CONFIG_SET_REQ ((CsrWifiNmePrim) (0x000B + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_NME_EVENT_MASK_SET_REQ ((CsrWifiNmePrim) (0x000C + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST)) - - -#define CSR_WIFI_NME_PRIM_DOWNSTREAM_HIGHEST (0x000C + CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST) - -/* Upstream */ -#define CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST (0x0000 + CSR_PRIM_UPSTREAM) - -#define CSR_WIFI_NME_PROFILE_SET_CFM ((CsrWifiNmePrim)(0x0000 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_DELETE_CFM ((CsrWifiNmePrim)(0x0001 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_DELETE_ALL_CFM ((CsrWifiNmePrim)(0x0002 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_ORDER_SET_CFM ((CsrWifiNmePrim)(0x0003 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_CONNECT_CFM ((CsrWifiNmePrim)(0x0004 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_WPS_CFM ((CsrWifiNmePrim)(0x0005 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_WPS_CANCEL_CFM ((CsrWifiNmePrim)(0x0006 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_CONNECTION_STATUS_GET_CFM ((CsrWifiNmePrim)(0x0007 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_UPDATE_IND ((CsrWifiNmePrim)(0x0008 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_PROFILE_DISCONNECT_IND ((CsrWifiNmePrim)(0x0009 + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_SIM_IMSI_GET_IND ((CsrWifiNmePrim)(0x000A + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_SIM_GSM_AUTH_IND ((CsrWifiNmePrim)(0x000B + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_SIM_UMTS_AUTH_IND ((CsrWifiNmePrim)(0x000C + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_WPS_CONFIG_SET_CFM ((CsrWifiNmePrim)(0x000D + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_NME_EVENT_MASK_SET_CFM ((CsrWifiNmePrim)(0x000E + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST)) - -#define CSR_WIFI_NME_PRIM_UPSTREAM_HIGHEST (0x000E + CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST) - -#define CSR_WIFI_NME_PRIM_DOWNSTREAM_COUNT (CSR_WIFI_NME_PRIM_DOWNSTREAM_HIGHEST + 1 - CSR_WIFI_NME_PRIM_DOWNSTREAM_LOWEST) -#define CSR_WIFI_NME_PRIM_UPSTREAM_COUNT (CSR_WIFI_NME_PRIM_UPSTREAM_HIGHEST + 1 - CSR_WIFI_NME_PRIM_UPSTREAM_LOWEST) - -/******************************************************************************* - - NAME - CsrWifiNmeProfileSetReq - - DESCRIPTION - Creates or updates an existing profile in the NME that matches the unique - identity of the profile. Each profile is identified by the combination of - BSSID and SSID. The profile contains all the required credentials for - attempting to connect to the network. Creating or updating a profile via - the NME PROFILE SET REQ does NOT add the profile to the preferred profile - list within the NME used for the NME auto-connect behaviour. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - profile - Specifies the identity and credentials of the network. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiNmeProfile profile; -} CsrWifiNmeProfileSetReq; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDeleteReq - - DESCRIPTION - Will delete the profile with a matching identity, but does NOT modify the - preferred profile list. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - profileIdentity - Identity (BSSID, SSID) of profile to be deleted. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiNmeProfileIdentity profileIdentity; -} CsrWifiNmeProfileDeleteReq; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDeleteAllReq - - DESCRIPTION - Deletes all profiles present in the NME, but does NOT modify the - preferred profile list. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiNmeProfileDeleteAllReq; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileOrderSetReq - - DESCRIPTION - Defines the preferred order that profiles present in the NME should be - used during the NME auto-connect behaviour. - If profileIdentitysCount == 0, it removes any existing preferred profile - list already present in the NME, effectively disabling the auto-connect - behaviour. - NOTE: Profile identities that do not match any profile stored in the NME - are ignored during the auto-connect procedure. - NOTE: during auto-connect the NME will only attempt to join an existing - adhoc network and it will never attempt to host an adhoc network; for - hosting and adhoc network, use CSR_WIFI_NME_PROFILE_CONNECT_REQ - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an - interface - profileIdentitysCount - The number of profiles identities in the list. - profileIdentitys - Points to the list of profile identities. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 profileIdentitysCount; - CsrWifiNmeProfileIdentity *profileIdentitys; -} CsrWifiNmeProfileOrderSetReq; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileConnectReq - - DESCRIPTION - Requests the NME to attempt to connect to the specified profile. - Overrides any current connection attempt. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - profileIdentity - Identity (BSSID, SSID) of profile to be connected to. - It must match an existing profile in the NME. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiNmeProfileIdentity profileIdentity; -} CsrWifiNmeProfileConnectReq; - -/******************************************************************************* - - NAME - CsrWifiNmeWpsReq - - DESCRIPTION - Requests the NME to look for WPS enabled APs and attempt to perform WPS - to determine the appropriate security credentials to connect to the AP. - If the PIN == '00000000' then 'push button mode' is indicated, otherwise - the PIN has to match that of the AP. 4 digit pin is passed by sending the - pin digits in pin[0]..pin[3] and rest of the contents filled with '-'. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - pin - PIN value. - ssid - Service Set identifier - bssid - ID of Basic Service Set for which a WPS connection attempt is - being made. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 pin[8]; - CsrWifiSsid ssid; - CsrWifiMacAddress bssid; -} CsrWifiNmeWpsReq; - -/******************************************************************************* - - NAME - CsrWifiNmeWpsCancelReq - - DESCRIPTION - Requests the NME to cancel any WPS procedure that it is currently - performing. This includes WPS registrar activities started because of - CSR_WIFI_NME_AP_REGISTER.request - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiNmeWpsCancelReq; - -/******************************************************************************* - - NAME - CsrWifiNmeConnectionStatusGetReq - - DESCRIPTION - Requests the current connection status of the NME. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiNmeConnectionStatusGetReq; - -/******************************************************************************* - - NAME - CsrWifiNmeSimImsiGetRes - - DESCRIPTION - Response from the application that received the NME SIM IMSI GET IND. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Indicates the outcome of the requested operation: STATUS_SUCCESS - or STATUS_ERROR. - imsi - The value of the IMSI obtained from the UICC. - cardType - The UICC type (GSM only (SIM), UMTS only (USIM), Both). - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - char *imsi; - CsrWifiNmeSimCardType cardType; -} CsrWifiNmeSimImsiGetRes; - -/******************************************************************************* - - NAME - CsrWifiNmeSimGsmAuthRes - - DESCRIPTION - Response from the application that received the NME SIM GSM AUTH IND. For - each GSM authentication round a GSM Ciphering key (Kc) and a signed - response (SRES) are produced. Since 2 or 3 GSM authentication rounds are - used the 2 or 3 Kc's obtained respectively are combined into one buffer - and similarly the 2 or 3 SRES's obtained are combined into another - buffer. The order of Kc values (SRES values respectively) in their buffer - is the same as that of their corresponding RAND values in the incoming - indication. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Indicates the outcome of the requested operation: - STATUS_SUCCESS or STATUS_ERROR - kcsLength - Length in Bytes of Kc buffer. Legal values are: 16 or 24. - kcs - Kc buffer holding 2 or 3 Kc values. - sresLength - Length in Bytes of SRES buffer. Legal values are: 8 or 12. - sres - SRES buffer holding 2 or 3 SRES values. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - u8 kcsLength; - u8 *kcs; - u8 sresLength; - u8 *sres; -} CsrWifiNmeSimGsmAuthRes; - -/******************************************************************************* - - NAME - CsrWifiNmeSimUmtsAuthRes - - DESCRIPTION - Response from the application that received the NME SIM UMTS AUTH IND. - The values of umtsCipherKey, umtsIntegrityKey, resParameterLength and - resParameter are only meanigful when result = UMTS_AUTH_RESULT_SUCCESS. - The value of auts is only meaningful when - result=UMTS_AUTH_RESULT_SYNC_FAIL. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Indicates the outcome of the requested operation: - STATUS_SUCCESS or STATUS_ERROR. - result - The result of UMTS authentication as performed by the - UICC which could be: Success, Authentication Reject or - Synchronisation Failure. For all these 3 outcomes the - value of status is success. - umtsCipherKey - The UMTS Cipher Key as calculated and returned by the - UICC. - umtsIntegrityKey - The UMTS Integrity Key as calculated and returned by - the UICC. - resParameterLength - The length (in bytes) of the RES parameter (min=4; max - = 16). - resParameter - The RES parameter as calculated and returned by the - UICC. - auts - The AUTS parameter as calculated and returned by the - UICC. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiNmeUmtsAuthResult result; - u8 umtsCipherKey[16]; - u8 umtsIntegrityKey[16]; - u8 resParameterLength; - u8 *resParameter; - u8 auts[14]; -} CsrWifiNmeSimUmtsAuthRes; - -/******************************************************************************* - - NAME - CsrWifiNmeWpsConfigSetReq - - DESCRIPTION - This primitive passes the WPS information for the device to NME. This may - be accepted only if no interface is active. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - wpsConfig - WPS config. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeWpsConfig wpsConfig; -} CsrWifiNmeWpsConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiNmeEventMaskSetReq - - DESCRIPTION - The wireless manager application may register with the NME to receive - notification of interesting events. Indications will be sent only if the - wireless manager explicitly registers to be notified of that event. - indMask is a bit mask of values defined in CsrWifiNmeIndicationsMask. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - indMask - Set mask with values from CsrWifiNmeIndications - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiNmeIndicationsMask indMask; -} CsrWifiNmeEventMaskSetReq; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileSetCfm - - DESCRIPTION - Reports the status of the NME PROFILE SET REQ; the request will only fail - if the details specified in the profile contains an invalid combination - of parameters for example specifying the profile as cloaked but not - specifying the SSID. The NME doesn't limit the number of profiles that - may be created. The NME assumes that the entity configuring it is aware - of the appropriate limits. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Indicates the success or otherwise of the requested operation. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiNmeProfileSetCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDeleteCfm - - DESCRIPTION - Reports the status of the CSR_WIFI_NME_PROFILE_DELETE_REQ. - Returns CSR_WIFI_NME_STATUS_NOT_FOUND if there is no matching profile. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Indicates the success or otherwise of the requested operation. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiNmeProfileDeleteCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDeleteAllCfm - - DESCRIPTION - Reports the status of the CSR_WIFI_NME_PROFILE_DELETE_ALL_REQ. - Returns always CSR_WIFI_NME_STATUS_SUCCESS. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Indicates the success or otherwise of the requested operation, but - in this case it always set to success. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiNmeProfileDeleteAllCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileOrderSetCfm - - DESCRIPTION - Confirmation to UNIFI_NME_PROFILE_ORDER_SET.request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Indicates the success or otherwise of the requested - operation. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiNmeProfileOrderSetCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileConnectCfm - - DESCRIPTION - Reports the status of the NME PROFILE CONNECT REQ. If unsuccessful the - connectAttempt parameters contain details of the APs that the NME - attempted to connect to before reporting the failure of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an - interface - status - Indicates the success or otherwise of the requested - operation. - connectAttemptsCount - This parameter is relevant only if - status!=CSR_WIFI_NME_STATUS_SUCCESS. - Number of connection attempt elements provided with - this primitive - connectAttempts - This parameter is relevant only if - status!=CSR_WIFI_NME_STATUS_SUCCESS. - Points to the list of connection attempt elements - provided with this primitive - Each element of the list provides information about - an AP on which the connection attempt was made and - the error that occurred during the attempt. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - u8 connectAttemptsCount; - CsrWifiNmeConnectAttempt *connectAttempts; -} CsrWifiNmeProfileConnectCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeWpsCfm - - DESCRIPTION - Reports the status of the NME WPS REQ. - If CSR_WIFI_NME_STATUS_SUCCESS, the profile parameter contains the - identity and credentials of the AP. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Indicates the success or otherwise of the requested - operation. - profile - This parameter is relevant only if - status==CSR_WIFI_NME_STATUS_SUCCESS. - The identity and credentials of the network. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiNmeProfile profile; -} CsrWifiNmeWpsCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeWpsCancelCfm - - DESCRIPTION - Reports the status of the NME WPS REQ, the request is always SUCCESSFUL. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Only returns CSR_WIFI_NME_STATUS_SUCCESS - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiNmeWpsCancelCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeConnectionStatusGetCfm - - DESCRIPTION - Reports the connection status of the NME. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Indicates the success or otherwise of the requested - operation. - connectionStatus - NME current connection status - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiNmeConnectionStatus connectionStatus; -} CsrWifiNmeConnectionStatusGetCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileUpdateInd - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that informs that application that the contained profile has - changed. - For example, either the credentials EAP-FAST PAC file or the session data - within the profile has changed. - It is up to the application whether it stores this updated profile or - not. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - profile - The identity and credentials of the network. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiNmeProfile profile; -} CsrWifiNmeProfileUpdateInd; - -/******************************************************************************* - - NAME - CsrWifiNmeProfileDisconnectInd - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that informs that application that the current profile - connection has disconnected. The indication will contain information - about APs that it attempted to maintain the connection via i.e. in the - case of failed roaming. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an - interface - connectAttemptsCount - Number of connection attempt elements provided with - this primitive - connectAttempts - Points to the list of connection attempt elements - provided with this primitive - Each element of the list provides information about - an AP on which the connection attempt was made and - the error occurred during the attempt. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 connectAttemptsCount; - CsrWifiNmeConnectAttempt *connectAttempts; -} CsrWifiNmeProfileDisconnectInd; - -/******************************************************************************* - - NAME - CsrWifiNmeSimImsiGetInd - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that requests the IMSI and UICC type from the UICC Manager. - This indication is generated when the NME is attempting to connect to a - profile configured for EAP-SIM/AKA. An application MUST register to - receive this indication for the NME to support the EAP-SIM/AKA credential - types. Otherwise the NME has no route to obtain the information from the - UICC. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiNmeSimImsiGetInd; - -/******************************************************************************* - - NAME - CsrWifiNmeSimGsmAuthInd - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that requests the UICC Manager to perform a GSM - authentication on behalf of the NME. This indication is generated when - the NME is attempting to connect to a profile configured for EAP-SIM. An - application MUST register to receive this indication for the NME to - support the EAP-SIM credential types. Otherwise the NME has no route to - obtain the information from the UICC. EAP-SIM authentication requires 2 - or 3 GSM authentication rounds and therefore 2 or 3 RANDS (GSM Random - Challenges) are included. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - randsLength - GSM RAND is 16 bytes long hence valid values are 32 (2 RANDS) - or 48 (3 RANDs). - rands - 2 or 3 RANDs values. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u8 randsLength; - u8 *rands; -} CsrWifiNmeSimGsmAuthInd; - -/******************************************************************************* - - NAME - CsrWifiNmeSimUmtsAuthInd - - DESCRIPTION - Indication generated from the NME (if an application subscribes to - receive it) that requests the UICC Manager to perform a UMTS - authentication on behalf of the NME. This indication is generated when - the NME is attempting to connect to a profile configured for EAP-AKA. An - application MUST register to receive this indication for the NME to - support the EAP-AKA credential types. Otherwise the NME has no route to - obtain the information from the USIM. EAP-AKA requires one UMTS - authentication round and therefore only one RAND and one AUTN values are - included. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - rand - UMTS RAND value. - autn - UMTS AUTN value. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u8 rand[16]; - u8 autn[16]; -} CsrWifiNmeSimUmtsAuthInd; - -/******************************************************************************* - - NAME - CsrWifiNmeWpsConfigSetCfm - - DESCRIPTION - Confirm. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Status of the request. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiNmeWpsConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiNmeEventMaskSetCfm - - DESCRIPTION - The NME calls the primitive to report the result of the request - primitive. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiNmeEventMaskSetCfm; - -#endif /* CSR_WIFI_NME_PRIM_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_nme_serialize.h b/drivers/staging/csr/csr_wifi_nme_serialize.h deleted file mode 100644 index ebac484..0000000 --- a/drivers/staging/csr/csr_wifi_nme_serialize.h +++ /dev/null @@ -1,166 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_SERIALIZE_H__ -#define CSR_WIFI_NME_SERIALIZE_H__ - -#include "csr_wifi_msgconv.h" -#include "csr_wifi_nme_prim.h" - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_serialize.h -#endif - -extern void CsrWifiNmePfree(void *ptr); - -extern u8* CsrWifiNmeProfileSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeProfileSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeProfileSetReqSizeof(void *msg); -extern void CsrWifiNmeProfileSetReqSerFree(void *msg); - -extern u8* CsrWifiNmeProfileDeleteReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeProfileDeleteReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeProfileDeleteReqSizeof(void *msg); -#define CsrWifiNmeProfileDeleteReqSerFree CsrWifiNmePfree - -#define CsrWifiNmeProfileDeleteAllReqSer CsrWifiEventSer -#define CsrWifiNmeProfileDeleteAllReqDes CsrWifiEventDes -#define CsrWifiNmeProfileDeleteAllReqSizeof CsrWifiEventSizeof -#define CsrWifiNmeProfileDeleteAllReqSerFree CsrWifiNmePfree - -extern u8* CsrWifiNmeProfileOrderSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeProfileOrderSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeProfileOrderSetReqSizeof(void *msg); -extern void CsrWifiNmeProfileOrderSetReqSerFree(void *msg); - -extern u8* CsrWifiNmeProfileConnectReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeProfileConnectReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeProfileConnectReqSizeof(void *msg); -#define CsrWifiNmeProfileConnectReqSerFree CsrWifiNmePfree - -extern u8* CsrWifiNmeWpsReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeWpsReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeWpsReqSizeof(void *msg); -#define CsrWifiNmeWpsReqSerFree CsrWifiNmePfree - -#define CsrWifiNmeWpsCancelReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeWpsCancelReqDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeWpsCancelReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeWpsCancelReqSerFree CsrWifiNmePfree - -#define CsrWifiNmeConnectionStatusGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeConnectionStatusGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeConnectionStatusGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeConnectionStatusGetReqSerFree CsrWifiNmePfree - -extern u8* CsrWifiNmeSimImsiGetResSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeSimImsiGetResDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeSimImsiGetResSizeof(void *msg); -extern void CsrWifiNmeSimImsiGetResSerFree(void *msg); - -extern u8* CsrWifiNmeSimGsmAuthResSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeSimGsmAuthResDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeSimGsmAuthResSizeof(void *msg); -extern void CsrWifiNmeSimGsmAuthResSerFree(void *msg); - -extern u8* CsrWifiNmeSimUmtsAuthResSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeSimUmtsAuthResDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeSimUmtsAuthResSizeof(void *msg); -extern void CsrWifiNmeSimUmtsAuthResSerFree(void *msg); - -extern u8* CsrWifiNmeWpsConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeWpsConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeWpsConfigSetReqSizeof(void *msg); -extern void CsrWifiNmeWpsConfigSetReqSerFree(void *msg); - -#define CsrWifiNmeEventMaskSetReqSer CsrWifiEventCsrUint32Ser -#define CsrWifiNmeEventMaskSetReqDes CsrWifiEventCsrUint32Des -#define CsrWifiNmeEventMaskSetReqSizeof CsrWifiEventCsrUint32Sizeof -#define CsrWifiNmeEventMaskSetReqSerFree CsrWifiNmePfree - -#define CsrWifiNmeProfileSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeProfileSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeProfileSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeProfileSetCfmSerFree CsrWifiNmePfree - -#define CsrWifiNmeProfileDeleteCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeProfileDeleteCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeProfileDeleteCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeProfileDeleteCfmSerFree CsrWifiNmePfree - -#define CsrWifiNmeProfileDeleteAllCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeProfileDeleteAllCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeProfileDeleteAllCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeProfileDeleteAllCfmSerFree CsrWifiNmePfree - -extern u8* CsrWifiNmeProfileOrderSetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeProfileOrderSetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeProfileOrderSetCfmSizeof(void *msg); -#define CsrWifiNmeProfileOrderSetCfmSerFree CsrWifiNmePfree - -extern u8* CsrWifiNmeProfileConnectCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeProfileConnectCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeProfileConnectCfmSizeof(void *msg); -extern void CsrWifiNmeProfileConnectCfmSerFree(void *msg); - -extern u8* CsrWifiNmeWpsCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeWpsCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeWpsCfmSizeof(void *msg); -extern void CsrWifiNmeWpsCfmSerFree(void *msg); - -extern u8* CsrWifiNmeWpsCancelCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeWpsCancelCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeWpsCancelCfmSizeof(void *msg); -#define CsrWifiNmeWpsCancelCfmSerFree CsrWifiNmePfree - -extern u8* CsrWifiNmeConnectionStatusGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeConnectionStatusGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeConnectionStatusGetCfmSizeof(void *msg); -#define CsrWifiNmeConnectionStatusGetCfmSerFree CsrWifiNmePfree - -extern u8* CsrWifiNmeProfileUpdateIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeProfileUpdateIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeProfileUpdateIndSizeof(void *msg); -extern void CsrWifiNmeProfileUpdateIndSerFree(void *msg); - -extern u8* CsrWifiNmeProfileDisconnectIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeProfileDisconnectIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeProfileDisconnectIndSizeof(void *msg); -extern void CsrWifiNmeProfileDisconnectIndSerFree(void *msg); - -#define CsrWifiNmeSimImsiGetIndSer CsrWifiEventSer -#define CsrWifiNmeSimImsiGetIndDes CsrWifiEventDes -#define CsrWifiNmeSimImsiGetIndSizeof CsrWifiEventSizeof -#define CsrWifiNmeSimImsiGetIndSerFree CsrWifiNmePfree - -extern u8* CsrWifiNmeSimGsmAuthIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeSimGsmAuthIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeSimGsmAuthIndSizeof(void *msg); -extern void CsrWifiNmeSimGsmAuthIndSerFree(void *msg); - -extern u8* CsrWifiNmeSimUmtsAuthIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiNmeSimUmtsAuthIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiNmeSimUmtsAuthIndSizeof(void *msg); -#define CsrWifiNmeSimUmtsAuthIndSerFree CsrWifiNmePfree - -#define CsrWifiNmeWpsConfigSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeWpsConfigSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeWpsConfigSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeWpsConfigSetCfmSerFree CsrWifiNmePfree - -#define CsrWifiNmeEventMaskSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiNmeEventMaskSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiNmeEventMaskSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiNmeEventMaskSetCfmSerFree CsrWifiNmePfree - -#endif /* CSR_WIFI_NME_SERIALIZE_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_nme_task.h b/drivers/staging/csr/csr_wifi_nme_task.h deleted file mode 100644 index 84e973a..0000000 --- a/drivers/staging/csr/csr_wifi_nme_task.h +++ /dev/null @@ -1,27 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_NME_TASK_H__ -#define CSR_WIFI_NME_TASK_H__ - -#include <linux/types.h> -#include "csr_sched.h" - -#ifndef CSR_WIFI_NME_ENABLE -#error CSR_WIFI_NME_ENABLE MUST be defined inorder to use csr_wifi_nme_task.h -#endif - -#define CSR_WIFI_NME_LOG_ID 0x1203FFFF -extern CsrSchedQid CSR_WIFI_NME_IFACEQUEUE; - -#endif /* CSR_WIFI_NME_TASK_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_private_common.h b/drivers/staging/csr/csr_wifi_private_common.h deleted file mode 100644 index ee3bd51..0000000 --- a/drivers/staging/csr/csr_wifi_private_common.h +++ /dev/null @@ -1,81 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_PRIVATE_COMMON_H__ -#define CSR_WIFI_PRIVATE_COMMON_H__ - -/** - * @brief maximum number of STAs allowed to be connected - * - * @par Description - * min & max Beacon Interval - */ -#define CSR_WIFI_AP_MAX_ASSOC_STA 8 - -/** Number of only b rates */ -#define CSR_WIFI_SME_AP_MAX_ONLY_B_RATES 4 - - -/** Number of mandatory b rates */ -#define CSR_WIFI_SME_AP_MAX_MANDATORY_B_RATES 2 - - -/** Number of mandatory bg rates */ -#define CSR_WIFI_SME_AP_MAX_MANDATORY_BG_RATES 4 - - -/** Number of bg rates */ -#define CSR_WIFI_SME_AP_MAX_BG_RATES 12 - - -/** Number of no b only g rates */ -#define CSR_WIFI_SME_AP_MAX_NO_B_ONLY_G_RATES 8 - - -/** Number of mandatory g rates */ -#define CSR_WIFI_SME_AP_MAX_MANDATORY_G_RATES 7 - - -/* Number of g mandatory rates */ -#define CSR_WIFI_SME_AP_G_MANDATORY_RATES_NUM 7 - - -/* Number of b mandatory rates */ -#define CSR_WIFI_SME_AP_B_MANDATORY_RATES_NUM 2 - - -/* Number of b/g mandatory rates */ -#define CSR_WIFI_SME_AP_BG_MANDATORY_RATES_NUM 4 - - -/* The maximum allowed length of SSID */ -#define CSR_WIFI_SME_AP_SSID_MAX_LENGTH 32 - -/* Refer 8.4.2.27 RSN element - we support TKIP, WPA2, WAPI and PSK only, no pmkid, group cipher suite */ -#define CSR_WIFI_SME_RSN_PACKED_SIZE (1 + 1 + 2 + 4 + 2 + 4 * 2 + 2 + 4 * 1 + 2 + 24) - -/* Refer 7.3.2.9 (ISO/IEC 8802-11:2006) WAPI element - we support WAPI PSK only, no bkid, group cipher suite */ -#define CSR_WIFI_SME_WAPI_PACKED_SIZE (1 + 1 + 2 + 2 + 4 * 1 + 2 + 4 * 1 + 4 + 2 + 24) - - -/* Common structure for NME and SME to maintain Interface mode*/ -typedef u8 CsrWifiInterfaceMode; -#define CSR_WIFI_MODE_NONE ((CsrWifiInterfaceMode) 0xFF) -#define CSR_WIFI_MODE_STA ((CsrWifiInterfaceMode) 0x00) -#define CSR_WIFI_MODE_AP ((CsrWifiInterfaceMode) 0x01) -#define CSR_WIFI_MODE_P2P_DEVICE ((CsrWifiInterfaceMode) 0x02) -#define CSR_WIFI_MODE_P2P_CLI ((CsrWifiInterfaceMode) 0x03) -#define CSR_WIFI_MODE_P2P_GO ((CsrWifiInterfaceMode) 0x04) -#define CSR_WIFI_MODE_AMP ((CsrWifiInterfaceMode) 0x05) -#define CSR_WIFI_MODE_WPS_ENROLLEE ((CsrWifiInterfaceMode) 0x06) -#define CSR_WIFI_MODE_IBSS ((CsrWifiInterfaceMode) 0x07) - -#endif - diff --git a/drivers/staging/csr/csr_wifi_result.h b/drivers/staging/csr/csr_wifi_result.h deleted file mode 100644 index 3c394c7..0000000 --- a/drivers/staging/csr/csr_wifi_result.h +++ /dev/null @@ -1,27 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_RESULT_H__ -#define CSR_WIFI_RESULT_H__ - -#include "csr_result.h" - -/* THIS FILE SHOULD CONTAIN ONLY RESULT CODES */ - -/* Result Codes */ -#define CSR_WIFI_HIP_RESULT_INVALID_VALUE ((CsrResult) 1) /* Invalid argument value */ -#define CSR_WIFI_HIP_RESULT_NO_DEVICE ((CsrResult) 2) /* The specified device is no longer present */ -#define CSR_WIFI_HIP_RESULT_NO_SPACE ((CsrResult) 3) /* A queue or buffer is full */ -#define CSR_WIFI_HIP_RESULT_NO_MEMORY ((CsrResult) 4) /* Fatal error, no memory */ -#define CSR_WIFI_HIP_RESULT_RANGE ((CsrResult) 5) /* Request exceeds the range of a file or a buffer */ -#define CSR_WIFI_HIP_RESULT_NOT_FOUND ((CsrResult) 6) /* A file (typically a f/w patch) is not found */ - -#endif /* CSR_WIFI_RESULT_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_router_converter_init.c b/drivers/staging/csr/csr_wifi_router_converter_init.c deleted file mode 100644 index 775c013..0000000 --- a/drivers/staging/csr/csr_wifi_router_converter_init.c +++ /dev/null @@ -1,82 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#include "csr_msgconv.h" -#include "csr_macro.h" - - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" -#endif - -#ifndef EXCLUDE_CSR_WIFI_ROUTER_MODULE -#include "csr_wifi_router_serialize.h" -#include "csr_wifi_router_prim.h" - -static CsrMsgConvMsgEntry csrwifirouter_conv_lut[] = { - { CSR_WIFI_ROUTER_MA_PACKET_SUBSCRIBE_REQ, CsrWifiRouterMaPacketSubscribeReqSizeof, CsrWifiRouterMaPacketSubscribeReqSer, CsrWifiRouterMaPacketSubscribeReqDes, CsrWifiRouterMaPacketSubscribeReqSerFree }, - { CSR_WIFI_ROUTER_MA_PACKET_UNSUBSCRIBE_REQ, CsrWifiRouterMaPacketUnsubscribeReqSizeof, CsrWifiRouterMaPacketUnsubscribeReqSer, CsrWifiRouterMaPacketUnsubscribeReqDes, CsrWifiRouterMaPacketUnsubscribeReqSerFree }, - { CSR_WIFI_ROUTER_MA_PACKET_REQ, CsrWifiRouterMaPacketReqSizeof, CsrWifiRouterMaPacketReqSer, CsrWifiRouterMaPacketReqDes, CsrWifiRouterMaPacketReqSerFree }, - { CSR_WIFI_ROUTER_MA_PACKET_RES, CsrWifiRouterMaPacketResSizeof, CsrWifiRouterMaPacketResSer, CsrWifiRouterMaPacketResDes, CsrWifiRouterMaPacketResSerFree }, - { CSR_WIFI_ROUTER_MA_PACKET_CANCEL_REQ, CsrWifiRouterMaPacketCancelReqSizeof, CsrWifiRouterMaPacketCancelReqSer, CsrWifiRouterMaPacketCancelReqDes, CsrWifiRouterMaPacketCancelReqSerFree }, - { CSR_WIFI_ROUTER_MA_PACKET_SUBSCRIBE_CFM, CsrWifiRouterMaPacketSubscribeCfmSizeof, CsrWifiRouterMaPacketSubscribeCfmSer, CsrWifiRouterMaPacketSubscribeCfmDes, CsrWifiRouterMaPacketSubscribeCfmSerFree }, - { CSR_WIFI_ROUTER_MA_PACKET_UNSUBSCRIBE_CFM, CsrWifiRouterMaPacketUnsubscribeCfmSizeof, CsrWifiRouterMaPacketUnsubscribeCfmSer, CsrWifiRouterMaPacketUnsubscribeCfmDes, CsrWifiRouterMaPacketUnsubscribeCfmSerFree }, - { CSR_WIFI_ROUTER_MA_PACKET_CFM, CsrWifiRouterMaPacketCfmSizeof, CsrWifiRouterMaPacketCfmSer, CsrWifiRouterMaPacketCfmDes, CsrWifiRouterMaPacketCfmSerFree }, - { CSR_WIFI_ROUTER_MA_PACKET_IND, CsrWifiRouterMaPacketIndSizeof, CsrWifiRouterMaPacketIndSer, CsrWifiRouterMaPacketIndDes, CsrWifiRouterMaPacketIndSerFree }, - - { 0, NULL, NULL, NULL, NULL }, -}; - -CsrMsgConvMsgEntry* CsrWifiRouterConverterLookup(CsrMsgConvMsgEntry *ce, u16 msgType) -{ - if (msgType & CSR_PRIM_UPSTREAM) - { - u16 idx = (msgType & ~CSR_PRIM_UPSTREAM) + CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_COUNT; - if (idx < (CSR_WIFI_ROUTER_PRIM_UPSTREAM_COUNT + CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_COUNT) && - csrwifirouter_conv_lut[idx].msgType == msgType) - { - return &csrwifirouter_conv_lut[idx]; - } - } - else - { - if (msgType < CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_COUNT && - csrwifirouter_conv_lut[msgType].msgType == msgType) - { - return &csrwifirouter_conv_lut[msgType]; - } - } - return NULL; -} - - -void CsrWifiRouterConverterInit(void) -{ - CsrMsgConvInsert(CSR_WIFI_ROUTER_PRIM, csrwifirouter_conv_lut); - CsrMsgConvCustomLookupRegister(CSR_WIFI_ROUTER_PRIM, CsrWifiRouterConverterLookup); -} - - -#ifdef CSR_LOG_ENABLE -static const CsrLogPrimitiveInformation csrwifirouter_conv_info = { - CSR_WIFI_ROUTER_PRIM, - (char *)"CSR_WIFI_ROUTER_PRIM", - csrwifirouter_conv_lut -}; -const CsrLogPrimitiveInformation* CsrWifiRouterTechInfoGet(void) -{ - return &csrwifirouter_conv_info; -} - - -#endif /* CSR_LOG_ENABLE */ -#endif /* EXCLUDE_CSR_WIFI_ROUTER_MODULE */ diff --git a/drivers/staging/csr/csr_wifi_router_converter_init.h b/drivers/staging/csr/csr_wifi_router_converter_init.h deleted file mode 100644 index 478327b..0000000 --- a/drivers/staging/csr/csr_wifi_router_converter_init.h +++ /dev/null @@ -1,34 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_CONVERTER_INIT_H__ -#define CSR_WIFI_ROUTER_CONVERTER_INIT_H__ - -#ifndef EXCLUDE_CSR_WIFI_ROUTER_MODULE - -#include "csr_msgconv.h" - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" - -extern const CsrLogPrimitiveInformation* CsrWifiRouterTechInfoGet(void); -#endif /* CSR_LOG_ENABLE */ - -extern void CsrWifiRouterConverterInit(void); - -#else /* EXCLUDE_CSR_WIFI_ROUTER_MODULE */ - -#define CsrWifiRouterConverterInit() - -#endif /* EXCLUDE_CSR_WIFI_ROUTER_MODULE */ - -#endif /* CSR_WIFI_ROUTER_CONVERTER_INIT_H__ */ diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_converter_init.c b/drivers/staging/csr/csr_wifi_router_ctrl_converter_init.c deleted file mode 100644 index a02e307..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_converter_init.c +++ /dev/null @@ -1,134 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#include "csr_msgconv.h" -#include "csr_macro.h" - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" -#endif - -#ifndef EXCLUDE_CSR_WIFI_ROUTER_CTRL_MODULE -#include "csr_wifi_router_ctrl_serialize.h" -#include "csr_wifi_router_ctrl_prim.h" - -static CsrMsgConvMsgEntry csrwifirouterctrl_conv_lut[] = { - { CSR_WIFI_ROUTER_CTRL_CONFIGURE_POWER_MODE_REQ, CsrWifiRouterCtrlConfigurePowerModeReqSizeof, CsrWifiRouterCtrlConfigurePowerModeReqSer, CsrWifiRouterCtrlConfigurePowerModeReqDes, CsrWifiRouterCtrlConfigurePowerModeReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_HIP_REQ, CsrWifiRouterCtrlHipReqSizeof, CsrWifiRouterCtrlHipReqSer, CsrWifiRouterCtrlHipReqDes, CsrWifiRouterCtrlHipReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_MEDIA_STATUS_REQ, CsrWifiRouterCtrlMediaStatusReqSizeof, CsrWifiRouterCtrlMediaStatusReqSer, CsrWifiRouterCtrlMediaStatusReqDes, CsrWifiRouterCtrlMediaStatusReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_MULTICAST_ADDRESS_RES, CsrWifiRouterCtrlMulticastAddressResSizeof, CsrWifiRouterCtrlMulticastAddressResSer, CsrWifiRouterCtrlMulticastAddressResDes, CsrWifiRouterCtrlMulticastAddressResSerFree }, - { CSR_WIFI_ROUTER_CTRL_PORT_CONFIGURE_REQ, CsrWifiRouterCtrlPortConfigureReqSizeof, CsrWifiRouterCtrlPortConfigureReqSer, CsrWifiRouterCtrlPortConfigureReqDes, CsrWifiRouterCtrlPortConfigureReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_REQ, CsrWifiRouterCtrlQosControlReqSizeof, CsrWifiRouterCtrlQosControlReqSer, CsrWifiRouterCtrlQosControlReqDes, CsrWifiRouterCtrlQosControlReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_SUSPEND_RES, CsrWifiRouterCtrlSuspendResSizeof, CsrWifiRouterCtrlSuspendResSer, CsrWifiRouterCtrlSuspendResDes, CsrWifiRouterCtrlSuspendResSerFree }, - { CSR_WIFI_ROUTER_CTRL_TCLAS_ADD_REQ, CsrWifiRouterCtrlTclasAddReqSizeof, CsrWifiRouterCtrlTclasAddReqSer, CsrWifiRouterCtrlTclasAddReqDes, CsrWifiRouterCtrlTclasAddReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_RESUME_RES, CsrWifiRouterCtrlResumeResSizeof, CsrWifiRouterCtrlResumeResSer, CsrWifiRouterCtrlResumeResDes, CsrWifiRouterCtrlResumeResSerFree }, - { CSR_WIFI_ROUTER_CTRL_RAW_SDIO_DEINITIALISE_REQ, CsrWifiRouterCtrlRawSdioDeinitialiseReqSizeof, CsrWifiRouterCtrlRawSdioDeinitialiseReqSer, CsrWifiRouterCtrlRawSdioDeinitialiseReqDes, CsrWifiRouterCtrlRawSdioDeinitialiseReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_RAW_SDIO_INITIALISE_REQ, CsrWifiRouterCtrlRawSdioInitialiseReqSizeof, CsrWifiRouterCtrlRawSdioInitialiseReqSer, CsrWifiRouterCtrlRawSdioInitialiseReqDes, CsrWifiRouterCtrlRawSdioInitialiseReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_TCLAS_DEL_REQ, CsrWifiRouterCtrlTclasDelReqSizeof, CsrWifiRouterCtrlTclasDelReqSer, CsrWifiRouterCtrlTclasDelReqDes, CsrWifiRouterCtrlTclasDelReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_TRAFFIC_CLASSIFICATION_REQ, CsrWifiRouterCtrlTrafficClassificationReqSizeof, CsrWifiRouterCtrlTrafficClassificationReqSer, CsrWifiRouterCtrlTrafficClassificationReqDes, CsrWifiRouterCtrlTrafficClassificationReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_REQ, CsrWifiRouterCtrlTrafficConfigReqSizeof, CsrWifiRouterCtrlTrafficConfigReqSer, CsrWifiRouterCtrlTrafficConfigReqDes, CsrWifiRouterCtrlTrafficConfigReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_WIFI_OFF_REQ, CsrWifiRouterCtrlWifiOffReqSizeof, CsrWifiRouterCtrlWifiOffReqSer, CsrWifiRouterCtrlWifiOffReqDes, CsrWifiRouterCtrlWifiOffReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_WIFI_OFF_RES, CsrWifiRouterCtrlWifiOffResSizeof, CsrWifiRouterCtrlWifiOffResSer, CsrWifiRouterCtrlWifiOffResDes, CsrWifiRouterCtrlWifiOffResSerFree }, - { CSR_WIFI_ROUTER_CTRL_WIFI_ON_REQ, CsrWifiRouterCtrlWifiOnReqSizeof, CsrWifiRouterCtrlWifiOnReqSer, CsrWifiRouterCtrlWifiOnReqDes, CsrWifiRouterCtrlWifiOnReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_WIFI_ON_RES, CsrWifiRouterCtrlWifiOnResSizeof, CsrWifiRouterCtrlWifiOnResSer, CsrWifiRouterCtrlWifiOnResDes, CsrWifiRouterCtrlWifiOnResSerFree }, - { CSR_WIFI_ROUTER_CTRL_M4_TRANSMIT_REQ, CsrWifiRouterCtrlM4TransmitReqSizeof, CsrWifiRouterCtrlM4TransmitReqSer, CsrWifiRouterCtrlM4TransmitReqDes, CsrWifiRouterCtrlM4TransmitReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_MODE_SET_REQ, CsrWifiRouterCtrlModeSetReqSizeof, CsrWifiRouterCtrlModeSetReqSer, CsrWifiRouterCtrlModeSetReqDes, CsrWifiRouterCtrlModeSetReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_PEER_ADD_REQ, CsrWifiRouterCtrlPeerAddReqSizeof, CsrWifiRouterCtrlPeerAddReqSer, CsrWifiRouterCtrlPeerAddReqDes, CsrWifiRouterCtrlPeerAddReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_PEER_DEL_REQ, CsrWifiRouterCtrlPeerDelReqSizeof, CsrWifiRouterCtrlPeerDelReqSer, CsrWifiRouterCtrlPeerDelReqDes, CsrWifiRouterCtrlPeerDelReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_PEER_UPDATE_REQ, CsrWifiRouterCtrlPeerUpdateReqSizeof, CsrWifiRouterCtrlPeerUpdateReqSer, CsrWifiRouterCtrlPeerUpdateReqDes, CsrWifiRouterCtrlPeerUpdateReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_CAPABILITIES_REQ, CsrWifiRouterCtrlCapabilitiesReqSizeof, CsrWifiRouterCtrlCapabilitiesReqSer, CsrWifiRouterCtrlCapabilitiesReqDes, CsrWifiRouterCtrlCapabilitiesReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ENABLE_REQ, CsrWifiRouterCtrlBlockAckEnableReqSizeof, CsrWifiRouterCtrlBlockAckEnableReqSer, CsrWifiRouterCtrlBlockAckEnableReqDes, CsrWifiRouterCtrlBlockAckEnableReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_DISABLE_REQ, CsrWifiRouterCtrlBlockAckDisableReqSizeof, CsrWifiRouterCtrlBlockAckDisableReqSer, CsrWifiRouterCtrlBlockAckDisableReqDes, CsrWifiRouterCtrlBlockAckDisableReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_WAPI_RX_PKT_REQ, CsrWifiRouterCtrlWapiRxPktReqSizeof, CsrWifiRouterCtrlWapiRxPktReqSer, CsrWifiRouterCtrlWapiRxPktReqDes, CsrWifiRouterCtrlWapiRxPktReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_WAPI_MULTICAST_FILTER_REQ, CsrWifiRouterCtrlWapiMulticastFilterReqSizeof, CsrWifiRouterCtrlWapiMulticastFilterReqSer, CsrWifiRouterCtrlWapiMulticastFilterReqDes, CsrWifiRouterCtrlWapiMulticastFilterReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_FILTER_REQ, CsrWifiRouterCtrlWapiUnicastFilterReqSizeof, CsrWifiRouterCtrlWapiUnicastFilterReqSer, CsrWifiRouterCtrlWapiUnicastFilterReqDes, CsrWifiRouterCtrlWapiUnicastFilterReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_TX_PKT_REQ, CsrWifiRouterCtrlWapiUnicastTxPktReqSizeof, CsrWifiRouterCtrlWapiUnicastTxPktReqSer, CsrWifiRouterCtrlWapiUnicastTxPktReqDes, CsrWifiRouterCtrlWapiUnicastTxPktReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_WAPI_FILTER_REQ, CsrWifiRouterCtrlWapiFilterReqSizeof, CsrWifiRouterCtrlWapiFilterReqSer, CsrWifiRouterCtrlWapiFilterReqDes, CsrWifiRouterCtrlWapiFilterReqSerFree }, - { CSR_WIFI_ROUTER_CTRL_HIP_IND, CsrWifiRouterCtrlHipIndSizeof, CsrWifiRouterCtrlHipIndSer, CsrWifiRouterCtrlHipIndDes, CsrWifiRouterCtrlHipIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_MULTICAST_ADDRESS_IND, CsrWifiRouterCtrlMulticastAddressIndSizeof, CsrWifiRouterCtrlMulticastAddressIndSer, CsrWifiRouterCtrlMulticastAddressIndDes, CsrWifiRouterCtrlMulticastAddressIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_PORT_CONFIGURE_CFM, CsrWifiRouterCtrlPortConfigureCfmSizeof, CsrWifiRouterCtrlPortConfigureCfmSer, CsrWifiRouterCtrlPortConfigureCfmDes, CsrWifiRouterCtrlPortConfigureCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_RESUME_IND, CsrWifiRouterCtrlResumeIndSizeof, CsrWifiRouterCtrlResumeIndSer, CsrWifiRouterCtrlResumeIndDes, CsrWifiRouterCtrlResumeIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_SUSPEND_IND, CsrWifiRouterCtrlSuspendIndSizeof, CsrWifiRouterCtrlSuspendIndSer, CsrWifiRouterCtrlSuspendIndDes, CsrWifiRouterCtrlSuspendIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_TCLAS_ADD_CFM, CsrWifiRouterCtrlTclasAddCfmSizeof, CsrWifiRouterCtrlTclasAddCfmSer, CsrWifiRouterCtrlTclasAddCfmDes, CsrWifiRouterCtrlTclasAddCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_RAW_SDIO_DEINITIALISE_CFM, CsrWifiRouterCtrlRawSdioDeinitialiseCfmSizeof, CsrWifiRouterCtrlRawSdioDeinitialiseCfmSer, CsrWifiRouterCtrlRawSdioDeinitialiseCfmDes, CsrWifiRouterCtrlRawSdioDeinitialiseCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_RAW_SDIO_INITIALISE_CFM, CsrWifiRouterCtrlRawSdioInitialiseCfmSizeof, CsrWifiRouterCtrlRawSdioInitialiseCfmSer, CsrWifiRouterCtrlRawSdioInitialiseCfmDes, CsrWifiRouterCtrlRawSdioInitialiseCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_TCLAS_DEL_CFM, CsrWifiRouterCtrlTclasDelCfmSizeof, CsrWifiRouterCtrlTclasDelCfmSer, CsrWifiRouterCtrlTclasDelCfmDes, CsrWifiRouterCtrlTclasDelCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_TRAFFIC_PROTOCOL_IND, CsrWifiRouterCtrlTrafficProtocolIndSizeof, CsrWifiRouterCtrlTrafficProtocolIndSer, CsrWifiRouterCtrlTrafficProtocolIndDes, CsrWifiRouterCtrlTrafficProtocolIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_TRAFFIC_SAMPLE_IND, CsrWifiRouterCtrlTrafficSampleIndSizeof, CsrWifiRouterCtrlTrafficSampleIndSer, CsrWifiRouterCtrlTrafficSampleIndDes, CsrWifiRouterCtrlTrafficSampleIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_WIFI_OFF_IND, CsrWifiRouterCtrlWifiOffIndSizeof, CsrWifiRouterCtrlWifiOffIndSer, CsrWifiRouterCtrlWifiOffIndDes, CsrWifiRouterCtrlWifiOffIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_WIFI_OFF_CFM, CsrWifiRouterCtrlWifiOffCfmSizeof, CsrWifiRouterCtrlWifiOffCfmSer, CsrWifiRouterCtrlWifiOffCfmDes, CsrWifiRouterCtrlWifiOffCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_WIFI_ON_IND, CsrWifiRouterCtrlWifiOnIndSizeof, CsrWifiRouterCtrlWifiOnIndSer, CsrWifiRouterCtrlWifiOnIndDes, CsrWifiRouterCtrlWifiOnIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_WIFI_ON_CFM, CsrWifiRouterCtrlWifiOnCfmSizeof, CsrWifiRouterCtrlWifiOnCfmSer, CsrWifiRouterCtrlWifiOnCfmDes, CsrWifiRouterCtrlWifiOnCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_M4_READY_TO_SEND_IND, CsrWifiRouterCtrlM4ReadyToSendIndSizeof, CsrWifiRouterCtrlM4ReadyToSendIndSer, CsrWifiRouterCtrlM4ReadyToSendIndDes, CsrWifiRouterCtrlM4ReadyToSendIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_M4_TRANSMITTED_IND, CsrWifiRouterCtrlM4TransmittedIndSizeof, CsrWifiRouterCtrlM4TransmittedIndSer, CsrWifiRouterCtrlM4TransmittedIndDes, CsrWifiRouterCtrlM4TransmittedIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_MIC_FAILURE_IND, CsrWifiRouterCtrlMicFailureIndSizeof, CsrWifiRouterCtrlMicFailureIndSer, CsrWifiRouterCtrlMicFailureIndDes, CsrWifiRouterCtrlMicFailureIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_CONNECTED_IND, CsrWifiRouterCtrlConnectedIndSizeof, CsrWifiRouterCtrlConnectedIndSer, CsrWifiRouterCtrlConnectedIndDes, CsrWifiRouterCtrlConnectedIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_PEER_ADD_CFM, CsrWifiRouterCtrlPeerAddCfmSizeof, CsrWifiRouterCtrlPeerAddCfmSer, CsrWifiRouterCtrlPeerAddCfmDes, CsrWifiRouterCtrlPeerAddCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_PEER_DEL_CFM, CsrWifiRouterCtrlPeerDelCfmSizeof, CsrWifiRouterCtrlPeerDelCfmSer, CsrWifiRouterCtrlPeerDelCfmDes, CsrWifiRouterCtrlPeerDelCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_UNEXPECTED_FRAME_IND, CsrWifiRouterCtrlUnexpectedFrameIndSizeof, CsrWifiRouterCtrlUnexpectedFrameIndSer, CsrWifiRouterCtrlUnexpectedFrameIndDes, CsrWifiRouterCtrlUnexpectedFrameIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_PEER_UPDATE_CFM, CsrWifiRouterCtrlPeerUpdateCfmSizeof, CsrWifiRouterCtrlPeerUpdateCfmSer, CsrWifiRouterCtrlPeerUpdateCfmDes, CsrWifiRouterCtrlPeerUpdateCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_CAPABILITIES_CFM, CsrWifiRouterCtrlCapabilitiesCfmSizeof, CsrWifiRouterCtrlCapabilitiesCfmSer, CsrWifiRouterCtrlCapabilitiesCfmDes, CsrWifiRouterCtrlCapabilitiesCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ENABLE_CFM, CsrWifiRouterCtrlBlockAckEnableCfmSizeof, CsrWifiRouterCtrlBlockAckEnableCfmSer, CsrWifiRouterCtrlBlockAckEnableCfmDes, CsrWifiRouterCtrlBlockAckEnableCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_DISABLE_CFM, CsrWifiRouterCtrlBlockAckDisableCfmSizeof, CsrWifiRouterCtrlBlockAckDisableCfmSer, CsrWifiRouterCtrlBlockAckDisableCfmDes, CsrWifiRouterCtrlBlockAckDisableCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ERROR_IND, CsrWifiRouterCtrlBlockAckErrorIndSizeof, CsrWifiRouterCtrlBlockAckErrorIndSer, CsrWifiRouterCtrlBlockAckErrorIndDes, CsrWifiRouterCtrlBlockAckErrorIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_STA_INACTIVE_IND, CsrWifiRouterCtrlStaInactiveIndSizeof, CsrWifiRouterCtrlStaInactiveIndSer, CsrWifiRouterCtrlStaInactiveIndDes, CsrWifiRouterCtrlStaInactiveIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_WAPI_RX_MIC_CHECK_IND, CsrWifiRouterCtrlWapiRxMicCheckIndSizeof, CsrWifiRouterCtrlWapiRxMicCheckIndSer, CsrWifiRouterCtrlWapiRxMicCheckIndDes, CsrWifiRouterCtrlWapiRxMicCheckIndSerFree }, - { CSR_WIFI_ROUTER_CTRL_MODE_SET_CFM, CsrWifiRouterCtrlModeSetCfmSizeof, CsrWifiRouterCtrlModeSetCfmSer, CsrWifiRouterCtrlModeSetCfmDes, CsrWifiRouterCtrlModeSetCfmSerFree }, - { CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_TX_ENCRYPT_IND, CsrWifiRouterCtrlWapiUnicastTxEncryptIndSizeof, CsrWifiRouterCtrlWapiUnicastTxEncryptIndSer, CsrWifiRouterCtrlWapiUnicastTxEncryptIndDes, CsrWifiRouterCtrlWapiUnicastTxEncryptIndSerFree }, - - { 0, NULL, NULL, NULL, NULL }, -}; - -CsrMsgConvMsgEntry* CsrWifiRouterCtrlConverterLookup(CsrMsgConvMsgEntry *ce, u16 msgType) -{ - if (msgType & CSR_PRIM_UPSTREAM) - { - u16 idx = (msgType & ~CSR_PRIM_UPSTREAM) + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_COUNT; - if (idx < (CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_COUNT + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_COUNT) && - csrwifirouterctrl_conv_lut[idx].msgType == msgType) - { - return &csrwifirouterctrl_conv_lut[idx]; - } - } - else - { - if (msgType < CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_COUNT && - csrwifirouterctrl_conv_lut[msgType].msgType == msgType) - { - return &csrwifirouterctrl_conv_lut[msgType]; - } - } - return NULL; -} - - -void CsrWifiRouterCtrlConverterInit(void) -{ - CsrMsgConvInsert(CSR_WIFI_ROUTER_CTRL_PRIM, csrwifirouterctrl_conv_lut); - CsrMsgConvCustomLookupRegister(CSR_WIFI_ROUTER_CTRL_PRIM, CsrWifiRouterCtrlConverterLookup); -} - - -#ifdef CSR_LOG_ENABLE -static const CsrLogPrimitiveInformation csrwifirouterctrl_conv_info = { - CSR_WIFI_ROUTER_CTRL_PRIM, - (char *)"CSR_WIFI_ROUTER_CTRL_PRIM", - csrwifirouterctrl_conv_lut -}; -const CsrLogPrimitiveInformation* CsrWifiRouterCtrlTechInfoGet(void) -{ - return &csrwifirouterctrl_conv_info; -} - - -#endif /* CSR_LOG_ENABLE */ -#endif /* EXCLUDE_CSR_WIFI_ROUTER_CTRL_MODULE */ diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_converter_init.h b/drivers/staging/csr/csr_wifi_router_ctrl_converter_init.h deleted file mode 100644 index c984589..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_converter_init.h +++ /dev/null @@ -1,34 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_CTRL_CONVERTER_INIT_H__ -#define CSR_WIFI_ROUTER_CTRL_CONVERTER_INIT_H__ - -#ifndef EXCLUDE_CSR_WIFI_ROUTER_CTRL_MODULE - -#include "csr_msgconv.h" - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" - -extern const CsrLogPrimitiveInformation* CsrWifiRouterCtrlTechInfoGet(void); -#endif /* CSR_LOG_ENABLE */ - -extern void CsrWifiRouterCtrlConverterInit(void); - -#else /* EXCLUDE_CSR_WIFI_ROUTER_CTRL_MODULE */ - -#define CsrWifiRouterCtrlConverterInit() - -#endif /* EXCLUDE_CSR_WIFI_ROUTER_CTRL_MODULE */ - -#endif /* CSR_WIFI_ROUTER_CTRL_CONVERTER_INIT_H__ */ diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_free_downstream_contents.c b/drivers/staging/csr/csr_wifi_router_ctrl_free_downstream_contents.c deleted file mode 100644 index 7fa85fb..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_free_downstream_contents.c +++ /dev/null @@ -1,108 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/slab.h> -#include "csr_wifi_router_ctrl_prim.h" -#include "csr_wifi_router_ctrl_lib.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrWifiRouterCtrlFreeDownstreamMessageContents - * - * DESCRIPTION - * - * - * PARAMETERS - * eventClass: only the value CSR_WIFI_ROUTER_CTRL_PRIM will be handled - * message: the message to free - *----------------------------------------------------------------------------*/ -void CsrWifiRouterCtrlFreeDownstreamMessageContents(u16 eventClass, void *message) -{ - if (eventClass != CSR_WIFI_ROUTER_CTRL_PRIM) - { - return; - } - if (NULL == message) - { - return; - } - - switch (*((CsrWifiRouterCtrlPrim *) message)) - { - case CSR_WIFI_ROUTER_CTRL_HIP_REQ: - { - CsrWifiRouterCtrlHipReq *p = (CsrWifiRouterCtrlHipReq *)message; - kfree(p->mlmeCommand); - p->mlmeCommand = NULL; - kfree(p->dataRef1); - p->dataRef1 = NULL; - kfree(p->dataRef2); - p->dataRef2 = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_MULTICAST_ADDRESS_RES: - { - CsrWifiRouterCtrlMulticastAddressRes *p = (CsrWifiRouterCtrlMulticastAddressRes *)message; - kfree(p->getAddresses); - p->getAddresses = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_TCLAS_ADD_REQ: - { - CsrWifiRouterCtrlTclasAddReq *p = (CsrWifiRouterCtrlTclasAddReq *)message; - kfree(p->tclas); - p->tclas = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_TCLAS_DEL_REQ: - { - CsrWifiRouterCtrlTclasDelReq *p = (CsrWifiRouterCtrlTclasDelReq *)message; - kfree(p->tclas); - p->tclas = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_WIFI_ON_REQ: - { - CsrWifiRouterCtrlWifiOnReq *p = (CsrWifiRouterCtrlWifiOnReq *)message; - kfree(p->data); - p->data = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_WIFI_ON_RES: - { - CsrWifiRouterCtrlWifiOnRes *p = (CsrWifiRouterCtrlWifiOnRes *)message; - kfree(p->smeVersions.smeBuild); - p->smeVersions.smeBuild = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_WAPI_RX_PKT_REQ: - { - CsrWifiRouterCtrlWapiRxPktReq *p = (CsrWifiRouterCtrlWapiRxPktReq *)message; - kfree(p->signal); - p->signal = NULL; - kfree(p->data); - p->data = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_TX_PKT_REQ: - { - CsrWifiRouterCtrlWapiUnicastTxPktReq *p = (CsrWifiRouterCtrlWapiUnicastTxPktReq *)message; - kfree(p->data); - p->data = NULL; - break; - } - - default: - break; - } -} - - diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_free_upstream_contents.c b/drivers/staging/csr/csr_wifi_router_ctrl_free_upstream_contents.c deleted file mode 100644 index 954b3de..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_free_upstream_contents.c +++ /dev/null @@ -1,87 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/slab.h> -#include "csr_wifi_router_ctrl_prim.h" -#include "csr_wifi_router_ctrl_lib.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrWifiRouterCtrlFreeUpstreamMessageContents - * - * DESCRIPTION - * - * - * PARAMETERS - * eventClass: only the value CSR_WIFI_ROUTER_CTRL_PRIM will be handled - * message: the message to free - *----------------------------------------------------------------------------*/ -void CsrWifiRouterCtrlFreeUpstreamMessageContents(u16 eventClass, void *message) -{ - if (eventClass != CSR_WIFI_ROUTER_CTRL_PRIM) - { - return; - } - if (NULL == message) - { - return; - } - - switch (*((CsrWifiRouterCtrlPrim *) message)) - { - case CSR_WIFI_ROUTER_CTRL_HIP_IND: - { - CsrWifiRouterCtrlHipInd *p = (CsrWifiRouterCtrlHipInd *)message; - kfree(p->mlmeCommand); - p->mlmeCommand = NULL; - kfree(p->dataRef1); - p->dataRef1 = NULL; - kfree(p->dataRef2); - p->dataRef2 = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_MULTICAST_ADDRESS_IND: - { - CsrWifiRouterCtrlMulticastAddressInd *p = (CsrWifiRouterCtrlMulticastAddressInd *)message; - kfree(p->setAddresses); - p->setAddresses = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_WIFI_ON_IND: - { - CsrWifiRouterCtrlWifiOnInd *p = (CsrWifiRouterCtrlWifiOnInd *)message; - kfree(p->versions.routerBuild); - p->versions.routerBuild = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_WAPI_RX_MIC_CHECK_IND: - { - CsrWifiRouterCtrlWapiRxMicCheckInd *p = (CsrWifiRouterCtrlWapiRxMicCheckInd *)message; - kfree(p->signal); - p->signal = NULL; - kfree(p->data); - p->data = NULL; - break; - } - case CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_TX_ENCRYPT_IND: - { - CsrWifiRouterCtrlWapiUnicastTxEncryptInd *p = (CsrWifiRouterCtrlWapiUnicastTxEncryptInd *)message; - kfree(p->data); - p->data = NULL; - break; - } - - default: - break; - } -} - - diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_lib.h b/drivers/staging/csr/csr_wifi_router_ctrl_lib.h deleted file mode 100644 index f235153..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_lib.h +++ /dev/null @@ -1,2082 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_CTRL_LIB_H__ -#define CSR_WIFI_ROUTER_CTRL_LIB_H__ - -#include "csr_sched.h" -#include "csr_macro.h" -#include "csr_msg_transport.h" - -#include "csr_wifi_lib.h" - -#include "csr_wifi_router_ctrl_prim.h" -#include "csr_wifi_router_task.h" - -/*----------------------------------------------------------------------------* - * CsrWifiRouterCtrlFreeUpstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_ROUTER_CTRL upstream message. Does not - * free the message itself, and can only be used for upstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_ROUTER_CTRL upstream message - *----------------------------------------------------------------------------*/ -void CsrWifiRouterCtrlFreeUpstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * CsrWifiRouterCtrlFreeDownstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_ROUTER_CTRL downstream message. Does not - * free the message itself, and can only be used for downstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_ROUTER_CTRL downstream message - *----------------------------------------------------------------------------*/ -void CsrWifiRouterCtrlFreeDownstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * Enum to string functions - *----------------------------------------------------------------------------*/ -const char* CsrWifiRouterCtrlBlockAckRoleToString(CsrWifiRouterCtrlBlockAckRole value); -const char* CsrWifiRouterCtrlControlIndicationToString(CsrWifiRouterCtrlControlIndication value); -const char* CsrWifiRouterCtrlListActionToString(CsrWifiRouterCtrlListAction value); -const char* CsrWifiRouterCtrlLowPowerModeToString(CsrWifiRouterCtrlLowPowerMode value); -const char* CsrWifiRouterCtrlMediaStatusToString(CsrWifiRouterCtrlMediaStatus value); -const char* CsrWifiRouterCtrlModeToString(CsrWifiRouterCtrlMode value); -const char* CsrWifiRouterCtrlPeerStatusToString(CsrWifiRouterCtrlPeerStatus value); -const char* CsrWifiRouterCtrlPortActionToString(CsrWifiRouterCtrlPortAction value); -const char* CsrWifiRouterCtrlPowersaveTypeToString(CsrWifiRouterCtrlPowersaveType value); -const char* CsrWifiRouterCtrlProtocolDirectionToString(CsrWifiRouterCtrlProtocolDirection value); -const char* CsrWifiRouterCtrlQoSControlToString(CsrWifiRouterCtrlQoSControl value); -const char* CsrWifiRouterCtrlQueueConfigToString(CsrWifiRouterCtrlQueueConfig value); -const char* CsrWifiRouterCtrlTrafficConfigTypeToString(CsrWifiRouterCtrlTrafficConfigType value); -const char* CsrWifiRouterCtrlTrafficPacketTypeToString(CsrWifiRouterCtrlTrafficPacketType value); -const char* CsrWifiRouterCtrlTrafficTypeToString(CsrWifiRouterCtrlTrafficType value); - - -/*----------------------------------------------------------------------------* - * CsrPrim Type toString function. - * Converts a message type to the String name of the Message - *----------------------------------------------------------------------------*/ -const char* CsrWifiRouterCtrlPrimTypeToString(CsrPrim msgType); - -/*----------------------------------------------------------------------------* - * Lookup arrays for PrimType name Strings - *----------------------------------------------------------------------------*/ -extern const char *CsrWifiRouterCtrlUpstreamPrimNames[CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_COUNT]; -extern const char *CsrWifiRouterCtrlDownstreamPrimNames[CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_COUNT]; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckDisableReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - macAddress - - trafficStreamID - - role - - -*******************************************************************************/ -#define CsrWifiRouterCtrlBlockAckDisableReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckDisableReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_DISABLE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->macAddress = (macAddress__); \ - msg__->trafficStreamID = (trafficStreamID__); \ - msg__->role = (role__); - -#define CsrWifiRouterCtrlBlockAckDisableReqSendTo(dst__, src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__) \ - { \ - CsrWifiRouterCtrlBlockAckDisableReq *msg__; \ - CsrWifiRouterCtrlBlockAckDisableReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlBlockAckDisableReqSend(src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__) \ - CsrWifiRouterCtrlBlockAckDisableReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckDisableCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlBlockAckDisableCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckDisableCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_DISABLE_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlBlockAckDisableCfmSendTo(dst__, src__, clientData__, interfaceTag__, status__) \ - { \ - CsrWifiRouterCtrlBlockAckDisableCfm *msg__; \ - CsrWifiRouterCtrlBlockAckDisableCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlBlockAckDisableCfmSend(dst__, clientData__, interfaceTag__, status__) \ - CsrWifiRouterCtrlBlockAckDisableCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckEnableReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - macAddress - - trafficStreamID - - role - - bufferSize - - timeout - - ssn - - -*******************************************************************************/ -#define CsrWifiRouterCtrlBlockAckEnableReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__, bufferSize__, timeout__, ssn__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckEnableReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ENABLE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->macAddress = (macAddress__); \ - msg__->trafficStreamID = (trafficStreamID__); \ - msg__->role = (role__); \ - msg__->bufferSize = (bufferSize__); \ - msg__->timeout = (timeout__); \ - msg__->ssn = (ssn__); - -#define CsrWifiRouterCtrlBlockAckEnableReqSendTo(dst__, src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__, bufferSize__, timeout__, ssn__) \ - { \ - CsrWifiRouterCtrlBlockAckEnableReq *msg__; \ - CsrWifiRouterCtrlBlockAckEnableReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__, bufferSize__, timeout__, ssn__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlBlockAckEnableReqSend(src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__, bufferSize__, timeout__, ssn__) \ - CsrWifiRouterCtrlBlockAckEnableReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, macAddress__, trafficStreamID__, role__, bufferSize__, timeout__, ssn__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckEnableCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlBlockAckEnableCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckEnableCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ENABLE_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlBlockAckEnableCfmSendTo(dst__, src__, clientData__, interfaceTag__, status__) \ - { \ - CsrWifiRouterCtrlBlockAckEnableCfm *msg__; \ - CsrWifiRouterCtrlBlockAckEnableCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlBlockAckEnableCfmSend(dst__, clientData__, interfaceTag__, status__) \ - CsrWifiRouterCtrlBlockAckEnableCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckErrorIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - trafficStreamID - - peerMacAddress - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlBlockAckErrorIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, trafficStreamID__, peerMacAddress__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckErrorInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ERROR_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->trafficStreamID = (trafficStreamID__); \ - msg__->peerMacAddress = (peerMacAddress__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlBlockAckErrorIndSendTo(dst__, src__, clientData__, interfaceTag__, trafficStreamID__, peerMacAddress__, status__) \ - { \ - CsrWifiRouterCtrlBlockAckErrorInd *msg__; \ - CsrWifiRouterCtrlBlockAckErrorIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, trafficStreamID__, peerMacAddress__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlBlockAckErrorIndSend(dst__, clientData__, interfaceTag__, trafficStreamID__, peerMacAddress__, status__) \ - CsrWifiRouterCtrlBlockAckErrorIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, trafficStreamID__, peerMacAddress__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlCapabilitiesReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - clientData - - -*******************************************************************************/ -#define CsrWifiRouterCtrlCapabilitiesReqCreate(msg__, dst__, src__, clientData__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlCapabilitiesReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_CAPABILITIES_REQ, dst__, src__); \ - msg__->clientData = (clientData__); - -#define CsrWifiRouterCtrlCapabilitiesReqSendTo(dst__, src__, clientData__) \ - { \ - CsrWifiRouterCtrlCapabilitiesReq *msg__; \ - CsrWifiRouterCtrlCapabilitiesReqCreate(msg__, dst__, src__, clientData__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlCapabilitiesReqSend(src__, clientData__) \ - CsrWifiRouterCtrlCapabilitiesReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlCapabilitiesCfmSend - - DESCRIPTION - The router sends this primitive to confirm the size of the queues of the - HIP. - - PARAMETERS - queue - Destination Task Queue - clientData - - commandQueueSize - Size of command queue - trafficQueueSize - Size of traffic queue (per AC) - -*******************************************************************************/ -#define CsrWifiRouterCtrlCapabilitiesCfmCreate(msg__, dst__, src__, clientData__, commandQueueSize__, trafficQueueSize__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlCapabilitiesCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_CAPABILITIES_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->commandQueueSize = (commandQueueSize__); \ - msg__->trafficQueueSize = (trafficQueueSize__); - -#define CsrWifiRouterCtrlCapabilitiesCfmSendTo(dst__, src__, clientData__, commandQueueSize__, trafficQueueSize__) \ - { \ - CsrWifiRouterCtrlCapabilitiesCfm *msg__; \ - CsrWifiRouterCtrlCapabilitiesCfmCreate(msg__, dst__, src__, clientData__, commandQueueSize__, trafficQueueSize__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlCapabilitiesCfmSend(dst__, clientData__, commandQueueSize__, trafficQueueSize__) \ - CsrWifiRouterCtrlCapabilitiesCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, commandQueueSize__, trafficQueueSize__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlConfigurePowerModeReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - clientData - - mode - - wakeHost - - -*******************************************************************************/ -#define CsrWifiRouterCtrlConfigurePowerModeReqCreate(msg__, dst__, src__, clientData__, mode__, wakeHost__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlConfigurePowerModeReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_CONFIGURE_POWER_MODE_REQ, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->mode = (mode__); \ - msg__->wakeHost = (wakeHost__); - -#define CsrWifiRouterCtrlConfigurePowerModeReqSendTo(dst__, src__, clientData__, mode__, wakeHost__) \ - { \ - CsrWifiRouterCtrlConfigurePowerModeReq *msg__; \ - CsrWifiRouterCtrlConfigurePowerModeReqCreate(msg__, dst__, src__, clientData__, mode__, wakeHost__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlConfigurePowerModeReqSend(src__, clientData__, mode__, wakeHost__) \ - CsrWifiRouterCtrlConfigurePowerModeReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__, mode__, wakeHost__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlConnectedIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - peerMacAddress - - peerStatus - - -*******************************************************************************/ -#define CsrWifiRouterCtrlConnectedIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__, peerStatus__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlConnectedInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_CONNECTED_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->peerMacAddress = (peerMacAddress__); \ - msg__->peerStatus = (peerStatus__); - -#define CsrWifiRouterCtrlConnectedIndSendTo(dst__, src__, clientData__, interfaceTag__, peerMacAddress__, peerStatus__) \ - { \ - CsrWifiRouterCtrlConnectedInd *msg__; \ - CsrWifiRouterCtrlConnectedIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__, peerStatus__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlConnectedIndSend(dst__, clientData__, interfaceTag__, peerMacAddress__, peerStatus__) \ - CsrWifiRouterCtrlConnectedIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, peerMacAddress__, peerStatus__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlHipReqSend - - DESCRIPTION - This primitive is used for transferring MLME messages to the HIP. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - mlmeCommandLength - Length of the MLME signal - mlmeCommand - Pointer to the MLME signal - dataRef1Length - Length of the dataRef1 bulk data - dataRef1 - Pointer to the bulk data 1 - dataRef2Length - Length of the dataRef2 bulk data - dataRef2 - Pointer to the bulk data 2 - -*******************************************************************************/ -#define CsrWifiRouterCtrlHipReqCreate(msg__, dst__, src__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlHipReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_HIP_REQ, dst__, src__); \ - msg__->mlmeCommandLength = (mlmeCommandLength__); \ - msg__->mlmeCommand = (mlmeCommand__); \ - msg__->dataRef1Length = (dataRef1Length__); \ - msg__->dataRef1 = (dataRef1__); \ - msg__->dataRef2Length = (dataRef2Length__); \ - msg__->dataRef2 = (dataRef2__); - -#define CsrWifiRouterCtrlHipReqSendTo(dst__, src__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__) \ - { \ - CsrWifiRouterCtrlHipReq *msg__; \ - CsrWifiRouterCtrlHipReqCreate(msg__, dst__, src__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlHipReqSend(src__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__) \ - CsrWifiRouterCtrlHipReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlHipIndSend - - DESCRIPTION - This primitive is used for transferring MLME messages from the HIP. - - PARAMETERS - queue - Destination Task Queue - mlmeCommandLength - Length of the MLME signal - mlmeCommand - Pointer to the MLME signal - dataRef1Length - Length of the dataRef1 bulk data - dataRef1 - Pointer to the bulk data 1 - dataRef2Length - Length of the dataRef2 bulk data - dataRef2 - Pointer to the bulk data 2 - -*******************************************************************************/ -#define CsrWifiRouterCtrlHipIndCreate(msg__, dst__, src__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlHipInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_HIP_IND, dst__, src__); \ - msg__->mlmeCommandLength = (mlmeCommandLength__); \ - msg__->mlmeCommand = (mlmeCommand__); \ - msg__->dataRef1Length = (dataRef1Length__); \ - msg__->dataRef1 = (dataRef1__); \ - msg__->dataRef2Length = (dataRef2Length__); \ - msg__->dataRef2 = (dataRef2__); - -#define CsrWifiRouterCtrlHipIndSendTo(dst__, src__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__) \ - { \ - CsrWifiRouterCtrlHipInd *msg__; \ - CsrWifiRouterCtrlHipIndCreate(msg__, dst__, src__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlHipIndSend(dst__, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__) \ - CsrWifiRouterCtrlHipIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, mlmeCommandLength__, mlmeCommand__, dataRef1Length__, dataRef1__, dataRef2Length__, dataRef2__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlM4ReadyToSendIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - peerMacAddress - - -*******************************************************************************/ -#define CsrWifiRouterCtrlM4ReadyToSendIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlM4ReadyToSendInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_M4_READY_TO_SEND_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->peerMacAddress = (peerMacAddress__); - -#define CsrWifiRouterCtrlM4ReadyToSendIndSendTo(dst__, src__, clientData__, interfaceTag__, peerMacAddress__) \ - { \ - CsrWifiRouterCtrlM4ReadyToSendInd *msg__; \ - CsrWifiRouterCtrlM4ReadyToSendIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlM4ReadyToSendIndSend(dst__, clientData__, interfaceTag__, peerMacAddress__) \ - CsrWifiRouterCtrlM4ReadyToSendIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, peerMacAddress__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlM4TransmitReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - -*******************************************************************************/ -#define CsrWifiRouterCtrlM4TransmitReqCreate(msg__, dst__, src__, interfaceTag__, clientData__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlM4TransmitReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_M4_TRANSMIT_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); - -#define CsrWifiRouterCtrlM4TransmitReqSendTo(dst__, src__, interfaceTag__, clientData__) \ - { \ - CsrWifiRouterCtrlM4TransmitReq *msg__; \ - CsrWifiRouterCtrlM4TransmitReqCreate(msg__, dst__, src__, interfaceTag__, clientData__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlM4TransmitReqSend(src__, interfaceTag__, clientData__) \ - CsrWifiRouterCtrlM4TransmitReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlM4TransmittedIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - peerMacAddress - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlM4TransmittedIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlM4TransmittedInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_M4_TRANSMITTED_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->peerMacAddress = (peerMacAddress__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlM4TransmittedIndSendTo(dst__, src__, clientData__, interfaceTag__, peerMacAddress__, status__) \ - { \ - CsrWifiRouterCtrlM4TransmittedInd *msg__; \ - CsrWifiRouterCtrlM4TransmittedIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlM4TransmittedIndSend(dst__, clientData__, interfaceTag__, peerMacAddress__, status__) \ - CsrWifiRouterCtrlM4TransmittedIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, peerMacAddress__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMediaStatusReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - mediaStatus - - -*******************************************************************************/ -#define CsrWifiRouterCtrlMediaStatusReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, mediaStatus__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlMediaStatusReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_MEDIA_STATUS_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->mediaStatus = (mediaStatus__); - -#define CsrWifiRouterCtrlMediaStatusReqSendTo(dst__, src__, interfaceTag__, clientData__, mediaStatus__) \ - { \ - CsrWifiRouterCtrlMediaStatusReq *msg__; \ - CsrWifiRouterCtrlMediaStatusReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, mediaStatus__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlMediaStatusReqSend(src__, interfaceTag__, clientData__, mediaStatus__) \ - CsrWifiRouterCtrlMediaStatusReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, mediaStatus__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMicFailureIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - peerMacAddress - - unicastPdu - - -*******************************************************************************/ -#define CsrWifiRouterCtrlMicFailureIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__, unicastPdu__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlMicFailureInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_MIC_FAILURE_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->peerMacAddress = (peerMacAddress__); \ - msg__->unicastPdu = (unicastPdu__); - -#define CsrWifiRouterCtrlMicFailureIndSendTo(dst__, src__, clientData__, interfaceTag__, peerMacAddress__, unicastPdu__) \ - { \ - CsrWifiRouterCtrlMicFailureInd *msg__; \ - CsrWifiRouterCtrlMicFailureIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__, unicastPdu__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlMicFailureIndSend(dst__, clientData__, interfaceTag__, peerMacAddress__, unicastPdu__) \ - CsrWifiRouterCtrlMicFailureIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, peerMacAddress__, unicastPdu__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlModeSetReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - mode - - bssid - BSSID of the network the device is going to be a part - of - protection - Set to TRUE if encryption is enabled for the - connection/broadcast frames - intraBssDistEnabled - If set to TRUE, intra BSS destribution will be - enabled. If set to FALSE, any unicast PDU which does - not have the RA as the the local MAC address, shall be - ignored. This field is interpreted by the receive if - mode is set to CSR_WIFI_ROUTER_CTRL_MODE_P2PGO - -*******************************************************************************/ -#define CsrWifiRouterCtrlModeSetReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, mode__, bssid__, protection__, intraBssDistEnabled__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlModeSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_MODE_SET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->mode = (mode__); \ - msg__->bssid = (bssid__); \ - msg__->protection = (protection__); \ - msg__->intraBssDistEnabled = (intraBssDistEnabled__); - -#define CsrWifiRouterCtrlModeSetReqSendTo(dst__, src__, interfaceTag__, clientData__, mode__, bssid__, protection__, intraBssDistEnabled__) \ - { \ - CsrWifiRouterCtrlModeSetReq *msg__; \ - CsrWifiRouterCtrlModeSetReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, mode__, bssid__, protection__, intraBssDistEnabled__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlModeSetReqSend(src__, interfaceTag__, clientData__, mode__, bssid__, protection__, intraBssDistEnabled__) \ - CsrWifiRouterCtrlModeSetReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, mode__, bssid__, protection__, intraBssDistEnabled__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlModeSetCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - mode - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlModeSetCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, mode__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlModeSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_MODE_SET_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->mode = (mode__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlModeSetCfmSendTo(dst__, src__, clientData__, interfaceTag__, mode__, status__) \ - { \ - CsrWifiRouterCtrlModeSetCfm *msg__; \ - CsrWifiRouterCtrlModeSetCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, mode__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlModeSetCfmSend(dst__, clientData__, interfaceTag__, mode__, status__) \ - CsrWifiRouterCtrlModeSetCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, mode__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMulticastAddressIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - action - - setAddressesCount - - setAddresses - - -*******************************************************************************/ -#define CsrWifiRouterCtrlMulticastAddressIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, action__, setAddressesCount__, setAddresses__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlMulticastAddressInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_MULTICAST_ADDRESS_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->action = (action__); \ - msg__->setAddressesCount = (setAddressesCount__); \ - msg__->setAddresses = (setAddresses__); - -#define CsrWifiRouterCtrlMulticastAddressIndSendTo(dst__, src__, clientData__, interfaceTag__, action__, setAddressesCount__, setAddresses__) \ - { \ - CsrWifiRouterCtrlMulticastAddressInd *msg__; \ - CsrWifiRouterCtrlMulticastAddressIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, action__, setAddressesCount__, setAddresses__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlMulticastAddressIndSend(dst__, clientData__, interfaceTag__, action__, setAddressesCount__, setAddresses__) \ - CsrWifiRouterCtrlMulticastAddressIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, action__, setAddressesCount__, setAddresses__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMulticastAddressResSend - - DESCRIPTION - - PARAMETERS - interfaceTag - - clientData - - status - - action - - getAddressesCount - - getAddresses - - -*******************************************************************************/ -#define CsrWifiRouterCtrlMulticastAddressResCreate(msg__, dst__, src__, interfaceTag__, clientData__, status__, action__, getAddressesCount__, getAddresses__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlMulticastAddressRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_MULTICAST_ADDRESS_RES, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->status = (status__); \ - msg__->action = (action__); \ - msg__->getAddressesCount = (getAddressesCount__); \ - msg__->getAddresses = (getAddresses__); - -#define CsrWifiRouterCtrlMulticastAddressResSendTo(dst__, src__, interfaceTag__, clientData__, status__, action__, getAddressesCount__, getAddresses__) \ - { \ - CsrWifiRouterCtrlMulticastAddressRes *msg__; \ - CsrWifiRouterCtrlMulticastAddressResCreate(msg__, dst__, src__, interfaceTag__, clientData__, status__, action__, getAddressesCount__, getAddresses__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlMulticastAddressResSend(src__, interfaceTag__, clientData__, status__, action__, getAddressesCount__, getAddresses__) \ - CsrWifiRouterCtrlMulticastAddressResSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, status__, action__, getAddressesCount__, getAddresses__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerAddReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - peerMacAddress - - associationId - - staInfo - - -*******************************************************************************/ -#define CsrWifiRouterCtrlPeerAddReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, peerMacAddress__, associationId__, staInfo__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlPeerAddReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_PEER_ADD_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->peerMacAddress = (peerMacAddress__); \ - msg__->associationId = (associationId__); \ - msg__->staInfo = (staInfo__); - -#define CsrWifiRouterCtrlPeerAddReqSendTo(dst__, src__, interfaceTag__, clientData__, peerMacAddress__, associationId__, staInfo__) \ - { \ - CsrWifiRouterCtrlPeerAddReq *msg__; \ - CsrWifiRouterCtrlPeerAddReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, peerMacAddress__, associationId__, staInfo__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlPeerAddReqSend(src__, interfaceTag__, clientData__, peerMacAddress__, associationId__, staInfo__) \ - CsrWifiRouterCtrlPeerAddReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, peerMacAddress__, associationId__, staInfo__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerAddCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - peerMacAddress - - peerRecordHandle - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlPeerAddCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__, peerRecordHandle__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlPeerAddCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_PEER_ADD_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->peerMacAddress = (peerMacAddress__); \ - msg__->peerRecordHandle = (peerRecordHandle__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlPeerAddCfmSendTo(dst__, src__, clientData__, interfaceTag__, peerMacAddress__, peerRecordHandle__, status__) \ - { \ - CsrWifiRouterCtrlPeerAddCfm *msg__; \ - CsrWifiRouterCtrlPeerAddCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__, peerRecordHandle__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlPeerAddCfmSend(dst__, clientData__, interfaceTag__, peerMacAddress__, peerRecordHandle__, status__) \ - CsrWifiRouterCtrlPeerAddCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, peerMacAddress__, peerRecordHandle__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerDelReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - peerRecordHandle - - -*******************************************************************************/ -#define CsrWifiRouterCtrlPeerDelReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, peerRecordHandle__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlPeerDelReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_PEER_DEL_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->peerRecordHandle = (peerRecordHandle__); - -#define CsrWifiRouterCtrlPeerDelReqSendTo(dst__, src__, interfaceTag__, clientData__, peerRecordHandle__) \ - { \ - CsrWifiRouterCtrlPeerDelReq *msg__; \ - CsrWifiRouterCtrlPeerDelReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, peerRecordHandle__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlPeerDelReqSend(src__, interfaceTag__, clientData__, peerRecordHandle__) \ - CsrWifiRouterCtrlPeerDelReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, peerRecordHandle__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerDelCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlPeerDelCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlPeerDelCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_PEER_DEL_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlPeerDelCfmSendTo(dst__, src__, clientData__, interfaceTag__, status__) \ - { \ - CsrWifiRouterCtrlPeerDelCfm *msg__; \ - CsrWifiRouterCtrlPeerDelCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlPeerDelCfmSend(dst__, clientData__, interfaceTag__, status__) \ - CsrWifiRouterCtrlPeerDelCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerUpdateReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - peerRecordHandle - - powersaveMode - - -*******************************************************************************/ -#define CsrWifiRouterCtrlPeerUpdateReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, peerRecordHandle__, powersaveMode__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlPeerUpdateReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_PEER_UPDATE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->peerRecordHandle = (peerRecordHandle__); \ - msg__->powersaveMode = (powersaveMode__); - -#define CsrWifiRouterCtrlPeerUpdateReqSendTo(dst__, src__, interfaceTag__, clientData__, peerRecordHandle__, powersaveMode__) \ - { \ - CsrWifiRouterCtrlPeerUpdateReq *msg__; \ - CsrWifiRouterCtrlPeerUpdateReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, peerRecordHandle__, powersaveMode__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlPeerUpdateReqSend(src__, interfaceTag__, clientData__, peerRecordHandle__, powersaveMode__) \ - CsrWifiRouterCtrlPeerUpdateReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, peerRecordHandle__, powersaveMode__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerUpdateCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlPeerUpdateCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlPeerUpdateCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_PEER_UPDATE_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlPeerUpdateCfmSendTo(dst__, src__, clientData__, interfaceTag__, status__) \ - { \ - CsrWifiRouterCtrlPeerUpdateCfm *msg__; \ - CsrWifiRouterCtrlPeerUpdateCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlPeerUpdateCfmSend(dst__, clientData__, interfaceTag__, status__) \ - CsrWifiRouterCtrlPeerUpdateCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPortConfigureReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - uncontrolledPortAction - - controlledPortAction - - macAddress - - setProtection - - -*******************************************************************************/ -#define CsrWifiRouterCtrlPortConfigureReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, uncontrolledPortAction__, controlledPortAction__, macAddress__, setProtection__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlPortConfigureReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_PORT_CONFIGURE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->uncontrolledPortAction = (uncontrolledPortAction__); \ - msg__->controlledPortAction = (controlledPortAction__); \ - msg__->macAddress = (macAddress__); \ - msg__->setProtection = (setProtection__); - -#define CsrWifiRouterCtrlPortConfigureReqSendTo(dst__, src__, interfaceTag__, clientData__, uncontrolledPortAction__, controlledPortAction__, macAddress__, setProtection__) \ - { \ - CsrWifiRouterCtrlPortConfigureReq *msg__; \ - CsrWifiRouterCtrlPortConfigureReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, uncontrolledPortAction__, controlledPortAction__, macAddress__, setProtection__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlPortConfigureReqSend(src__, interfaceTag__, clientData__, uncontrolledPortAction__, controlledPortAction__, macAddress__, setProtection__) \ - CsrWifiRouterCtrlPortConfigureReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, uncontrolledPortAction__, controlledPortAction__, macAddress__, setProtection__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPortConfigureCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - status - - macAddress - - -*******************************************************************************/ -#define CsrWifiRouterCtrlPortConfigureCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__, macAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlPortConfigureCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_PORT_CONFIGURE_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->macAddress = (macAddress__); - -#define CsrWifiRouterCtrlPortConfigureCfmSendTo(dst__, src__, clientData__, interfaceTag__, status__, macAddress__) \ - { \ - CsrWifiRouterCtrlPortConfigureCfm *msg__; \ - CsrWifiRouterCtrlPortConfigureCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__, macAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlPortConfigureCfmSend(dst__, clientData__, interfaceTag__, status__, macAddress__) \ - CsrWifiRouterCtrlPortConfigureCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, status__, macAddress__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlQosControlReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - control - - queueConfig - - -*******************************************************************************/ -#define CsrWifiRouterCtrlQosControlReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, control__, queueConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlQosControlReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->control = (control__); \ - msg__->queueConfig = (queueConfig__); - -#define CsrWifiRouterCtrlQosControlReqSendTo(dst__, src__, interfaceTag__, clientData__, control__, queueConfig__) \ - { \ - CsrWifiRouterCtrlQosControlReq *msg__; \ - CsrWifiRouterCtrlQosControlReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, control__, queueConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlQosControlReqSend(src__, interfaceTag__, clientData__, control__, queueConfig__) \ - CsrWifiRouterCtrlQosControlReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, control__, queueConfig__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRawSdioDeinitialiseReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - clientData - - -*******************************************************************************/ -#define CsrWifiRouterCtrlRawSdioDeinitialiseReqCreate(msg__, dst__, src__, clientData__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlRawSdioDeinitialiseReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_RAW_SDIO_DEINITIALISE_REQ, dst__, src__); \ - msg__->clientData = (clientData__); - -#define CsrWifiRouterCtrlRawSdioDeinitialiseReqSendTo(dst__, src__, clientData__) \ - { \ - CsrWifiRouterCtrlRawSdioDeinitialiseReq *msg__; \ - CsrWifiRouterCtrlRawSdioDeinitialiseReqCreate(msg__, dst__, src__, clientData__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlRawSdioDeinitialiseReqSend(src__, clientData__) \ - CsrWifiRouterCtrlRawSdioDeinitialiseReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRawSdioDeinitialiseCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - result - - -*******************************************************************************/ -#define CsrWifiRouterCtrlRawSdioDeinitialiseCfmCreate(msg__, dst__, src__, clientData__, result__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlRawSdioDeinitialiseCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_RAW_SDIO_DEINITIALISE_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->result = (result__); - -#define CsrWifiRouterCtrlRawSdioDeinitialiseCfmSendTo(dst__, src__, clientData__, result__) \ - { \ - CsrWifiRouterCtrlRawSdioDeinitialiseCfm *msg__; \ - CsrWifiRouterCtrlRawSdioDeinitialiseCfmCreate(msg__, dst__, src__, clientData__, result__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlRawSdioDeinitialiseCfmSend(dst__, clientData__, result__) \ - CsrWifiRouterCtrlRawSdioDeinitialiseCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, result__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRawSdioInitialiseReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - clientData - - -*******************************************************************************/ -#define CsrWifiRouterCtrlRawSdioInitialiseReqCreate(msg__, dst__, src__, clientData__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlRawSdioInitialiseReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_RAW_SDIO_INITIALISE_REQ, dst__, src__); \ - msg__->clientData = (clientData__); - -#define CsrWifiRouterCtrlRawSdioInitialiseReqSendTo(dst__, src__, clientData__) \ - { \ - CsrWifiRouterCtrlRawSdioInitialiseReq *msg__; \ - CsrWifiRouterCtrlRawSdioInitialiseReqCreate(msg__, dst__, src__, clientData__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlRawSdioInitialiseReqSend(src__, clientData__) \ - CsrWifiRouterCtrlRawSdioInitialiseReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRawSdioInitialiseCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - result - - byteRead - - byteWrite - - firmwareDownload - - reset - - coreDumpPrepare - - byteBlockRead - - gpRead16 - - gpWrite16 - - -*******************************************************************************/ -#define CsrWifiRouterCtrlRawSdioInitialiseCfmCreate(msg__, dst__, src__, clientData__, result__, byteRead__, byteWrite__, firmwareDownload__, reset__, coreDumpPrepare__, byteBlockRead__, gpRead16__, gpWrite16__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlRawSdioInitialiseCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_RAW_SDIO_INITIALISE_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->result = (result__); \ - msg__->byteRead = (byteRead__); \ - msg__->byteWrite = (byteWrite__); \ - msg__->firmwareDownload = (firmwareDownload__); \ - msg__->reset = (reset__); \ - msg__->coreDumpPrepare = (coreDumpPrepare__); \ - msg__->byteBlockRead = (byteBlockRead__); \ - msg__->gpRead16 = (gpRead16__); \ - msg__->gpWrite16 = (gpWrite16__); - -#define CsrWifiRouterCtrlRawSdioInitialiseCfmSendTo(dst__, src__, clientData__, result__, byteRead__, byteWrite__, firmwareDownload__, reset__, coreDumpPrepare__, byteBlockRead__, gpRead16__, gpWrite16__) \ - { \ - CsrWifiRouterCtrlRawSdioInitialiseCfm *msg__; \ - CsrWifiRouterCtrlRawSdioInitialiseCfmCreate(msg__, dst__, src__, clientData__, result__, byteRead__, byteWrite__, firmwareDownload__, reset__, coreDumpPrepare__, byteBlockRead__, gpRead16__, gpWrite16__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlRawSdioInitialiseCfmSend(dst__, clientData__, result__, byteRead__, byteWrite__, firmwareDownload__, reset__, coreDumpPrepare__, byteBlockRead__, gpRead16__, gpWrite16__) \ - CsrWifiRouterCtrlRawSdioInitialiseCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, result__, byteRead__, byteWrite__, firmwareDownload__, reset__, coreDumpPrepare__, byteBlockRead__, gpRead16__, gpWrite16__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlResumeIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - powerMaintained - - -*******************************************************************************/ -#define CsrWifiRouterCtrlResumeIndCreate(msg__, dst__, src__, clientData__, powerMaintained__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlResumeInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_RESUME_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->powerMaintained = (powerMaintained__); - -#define CsrWifiRouterCtrlResumeIndSendTo(dst__, src__, clientData__, powerMaintained__) \ - { \ - CsrWifiRouterCtrlResumeInd *msg__; \ - CsrWifiRouterCtrlResumeIndCreate(msg__, dst__, src__, clientData__, powerMaintained__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlResumeIndSend(dst__, clientData__, powerMaintained__) \ - CsrWifiRouterCtrlResumeIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, powerMaintained__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlResumeResSend - - DESCRIPTION - - PARAMETERS - clientData - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlResumeResCreate(msg__, dst__, src__, clientData__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlResumeRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_RESUME_RES, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlResumeResSendTo(dst__, src__, clientData__, status__) \ - { \ - CsrWifiRouterCtrlResumeRes *msg__; \ - CsrWifiRouterCtrlResumeResCreate(msg__, dst__, src__, clientData__, status__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlResumeResSend(src__, clientData__, status__) \ - CsrWifiRouterCtrlResumeResSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlStaInactiveIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - staAddress - - -*******************************************************************************/ -#define CsrWifiRouterCtrlStaInactiveIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, staAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlStaInactiveInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_STA_INACTIVE_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->staAddress = (staAddress__); - -#define CsrWifiRouterCtrlStaInactiveIndSendTo(dst__, src__, clientData__, interfaceTag__, staAddress__) \ - { \ - CsrWifiRouterCtrlStaInactiveInd *msg__; \ - CsrWifiRouterCtrlStaInactiveIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, staAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlStaInactiveIndSend(dst__, clientData__, interfaceTag__, staAddress__) \ - CsrWifiRouterCtrlStaInactiveIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, staAddress__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlSuspendIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - hardSuspend - - d3Suspend - - -*******************************************************************************/ -#define CsrWifiRouterCtrlSuspendIndCreate(msg__, dst__, src__, clientData__, hardSuspend__, d3Suspend__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlSuspendInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_SUSPEND_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->hardSuspend = (hardSuspend__); \ - msg__->d3Suspend = (d3Suspend__); - -#define CsrWifiRouterCtrlSuspendIndSendTo(dst__, src__, clientData__, hardSuspend__, d3Suspend__) \ - { \ - CsrWifiRouterCtrlSuspendInd *msg__; \ - CsrWifiRouterCtrlSuspendIndCreate(msg__, dst__, src__, clientData__, hardSuspend__, d3Suspend__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlSuspendIndSend(dst__, clientData__, hardSuspend__, d3Suspend__) \ - CsrWifiRouterCtrlSuspendIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, hardSuspend__, d3Suspend__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlSuspendResSend - - DESCRIPTION - - PARAMETERS - clientData - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlSuspendResCreate(msg__, dst__, src__, clientData__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlSuspendRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_SUSPEND_RES, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlSuspendResSendTo(dst__, src__, clientData__, status__) \ - { \ - CsrWifiRouterCtrlSuspendRes *msg__; \ - CsrWifiRouterCtrlSuspendResCreate(msg__, dst__, src__, clientData__, status__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlSuspendResSend(src__, clientData__, status__) \ - CsrWifiRouterCtrlSuspendResSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTclasAddReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - tclasLength - - tclas - - -*******************************************************************************/ -#define CsrWifiRouterCtrlTclasAddReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, tclasLength__, tclas__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlTclasAddReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_TCLAS_ADD_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->tclasLength = (tclasLength__); \ - msg__->tclas = (tclas__); - -#define CsrWifiRouterCtrlTclasAddReqSendTo(dst__, src__, interfaceTag__, clientData__, tclasLength__, tclas__) \ - { \ - CsrWifiRouterCtrlTclasAddReq *msg__; \ - CsrWifiRouterCtrlTclasAddReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, tclasLength__, tclas__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlTclasAddReqSend(src__, interfaceTag__, clientData__, tclasLength__, tclas__) \ - CsrWifiRouterCtrlTclasAddReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, tclasLength__, tclas__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTclasAddCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlTclasAddCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlTclasAddCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_TCLAS_ADD_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlTclasAddCfmSendTo(dst__, src__, clientData__, interfaceTag__, status__) \ - { \ - CsrWifiRouterCtrlTclasAddCfm *msg__; \ - CsrWifiRouterCtrlTclasAddCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlTclasAddCfmSend(dst__, clientData__, interfaceTag__, status__) \ - CsrWifiRouterCtrlTclasAddCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTclasDelReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - tclasLength - - tclas - - -*******************************************************************************/ -#define CsrWifiRouterCtrlTclasDelReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, tclasLength__, tclas__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlTclasDelReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_TCLAS_DEL_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->tclasLength = (tclasLength__); \ - msg__->tclas = (tclas__); - -#define CsrWifiRouterCtrlTclasDelReqSendTo(dst__, src__, interfaceTag__, clientData__, tclasLength__, tclas__) \ - { \ - CsrWifiRouterCtrlTclasDelReq *msg__; \ - CsrWifiRouterCtrlTclasDelReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, tclasLength__, tclas__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlTclasDelReqSend(src__, interfaceTag__, clientData__, tclasLength__, tclas__) \ - CsrWifiRouterCtrlTclasDelReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, tclasLength__, tclas__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTclasDelCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlTclasDelCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlTclasDelCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_TCLAS_DEL_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlTclasDelCfmSendTo(dst__, src__, clientData__, interfaceTag__, status__) \ - { \ - CsrWifiRouterCtrlTclasDelCfm *msg__; \ - CsrWifiRouterCtrlTclasDelCfmCreate(msg__, dst__, src__, clientData__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlTclasDelCfmSend(dst__, clientData__, interfaceTag__, status__) \ - CsrWifiRouterCtrlTclasDelCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficClassificationReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - trafficType - - period - - -*******************************************************************************/ -#define CsrWifiRouterCtrlTrafficClassificationReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, trafficType__, period__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlTrafficClassificationReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_TRAFFIC_CLASSIFICATION_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->trafficType = (trafficType__); \ - msg__->period = (period__); - -#define CsrWifiRouterCtrlTrafficClassificationReqSendTo(dst__, src__, interfaceTag__, clientData__, trafficType__, period__) \ - { \ - CsrWifiRouterCtrlTrafficClassificationReq *msg__; \ - CsrWifiRouterCtrlTrafficClassificationReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, trafficType__, period__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlTrafficClassificationReqSend(src__, interfaceTag__, clientData__, trafficType__, period__) \ - CsrWifiRouterCtrlTrafficClassificationReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, trafficType__, period__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficConfigReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - clientData - - trafficConfigType - - config - - -*******************************************************************************/ -#define CsrWifiRouterCtrlTrafficConfigReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, trafficConfigType__, config__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlTrafficConfigReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->clientData = (clientData__); \ - msg__->trafficConfigType = (trafficConfigType__); \ - msg__->config = (config__); - -#define CsrWifiRouterCtrlTrafficConfigReqSendTo(dst__, src__, interfaceTag__, clientData__, trafficConfigType__, config__) \ - { \ - CsrWifiRouterCtrlTrafficConfigReq *msg__; \ - CsrWifiRouterCtrlTrafficConfigReqCreate(msg__, dst__, src__, interfaceTag__, clientData__, trafficConfigType__, config__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlTrafficConfigReqSend(src__, interfaceTag__, clientData__, trafficConfigType__, config__) \ - CsrWifiRouterCtrlTrafficConfigReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, clientData__, trafficConfigType__, config__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficProtocolIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - packetType - - direction - - srcAddress - - -*******************************************************************************/ -#define CsrWifiRouterCtrlTrafficProtocolIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, packetType__, direction__, srcAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlTrafficProtocolInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_TRAFFIC_PROTOCOL_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->packetType = (packetType__); \ - msg__->direction = (direction__); \ - msg__->srcAddress = (srcAddress__); - -#define CsrWifiRouterCtrlTrafficProtocolIndSendTo(dst__, src__, clientData__, interfaceTag__, packetType__, direction__, srcAddress__) \ - { \ - CsrWifiRouterCtrlTrafficProtocolInd *msg__; \ - CsrWifiRouterCtrlTrafficProtocolIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, packetType__, direction__, srcAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlTrafficProtocolIndSend(dst__, clientData__, interfaceTag__, packetType__, direction__, srcAddress__) \ - CsrWifiRouterCtrlTrafficProtocolIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, packetType__, direction__, srcAddress__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficSampleIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - stats - - -*******************************************************************************/ -#define CsrWifiRouterCtrlTrafficSampleIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, stats__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlTrafficSampleInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_TRAFFIC_SAMPLE_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->stats = (stats__); - -#define CsrWifiRouterCtrlTrafficSampleIndSendTo(dst__, src__, clientData__, interfaceTag__, stats__) \ - { \ - CsrWifiRouterCtrlTrafficSampleInd *msg__; \ - CsrWifiRouterCtrlTrafficSampleIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, stats__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlTrafficSampleIndSend(dst__, clientData__, interfaceTag__, stats__) \ - CsrWifiRouterCtrlTrafficSampleIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, stats__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlUnexpectedFrameIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - peerMacAddress - - -*******************************************************************************/ -#define CsrWifiRouterCtrlUnexpectedFrameIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlUnexpectedFrameInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_UNEXPECTED_FRAME_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->peerMacAddress = (peerMacAddress__); - -#define CsrWifiRouterCtrlUnexpectedFrameIndSendTo(dst__, src__, clientData__, interfaceTag__, peerMacAddress__) \ - { \ - CsrWifiRouterCtrlUnexpectedFrameInd *msg__; \ - CsrWifiRouterCtrlUnexpectedFrameIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, peerMacAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlUnexpectedFrameIndSend(dst__, clientData__, interfaceTag__, peerMacAddress__) \ - CsrWifiRouterCtrlUnexpectedFrameIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, peerMacAddress__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiFilterReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - isWapiConnected - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWapiFilterReqCreate(msg__, dst__, src__, interfaceTag__, isWapiConnected__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWapiFilterReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WAPI_FILTER_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->isWapiConnected = (isWapiConnected__); - -#define CsrWifiRouterCtrlWapiFilterReqSendTo(dst__, src__, interfaceTag__, isWapiConnected__) \ - { \ - CsrWifiRouterCtrlWapiFilterReq *msg__; \ - CsrWifiRouterCtrlWapiFilterReqCreate(msg__, dst__, src__, interfaceTag__, isWapiConnected__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWapiFilterReqSend(src__, interfaceTag__, isWapiConnected__) \ - CsrWifiRouterCtrlWapiFilterReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, isWapiConnected__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiMulticastFilterReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWapiMulticastFilterReqCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWapiMulticastFilterReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WAPI_MULTICAST_FILTER_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlWapiMulticastFilterReqSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiRouterCtrlWapiMulticastFilterReq *msg__; \ - CsrWifiRouterCtrlWapiMulticastFilterReqCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWapiMulticastFilterReqSend(src__, interfaceTag__, status__) \ - CsrWifiRouterCtrlWapiMulticastFilterReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiRxMicCheckIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - signalLength - - signal - - dataLength - - data - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWapiRxMicCheckIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, signalLength__, signal__, dataLength__, data__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWapiRxMicCheckInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WAPI_RX_MIC_CHECK_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->signalLength = (signalLength__); \ - msg__->signal = (signal__); \ - msg__->dataLength = (dataLength__); \ - msg__->data = (data__); - -#define CsrWifiRouterCtrlWapiRxMicCheckIndSendTo(dst__, src__, clientData__, interfaceTag__, signalLength__, signal__, dataLength__, data__) \ - { \ - CsrWifiRouterCtrlWapiRxMicCheckInd *msg__; \ - CsrWifiRouterCtrlWapiRxMicCheckIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, signalLength__, signal__, dataLength__, data__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWapiRxMicCheckIndSend(dst__, clientData__, interfaceTag__, signalLength__, signal__, dataLength__, data__) \ - CsrWifiRouterCtrlWapiRxMicCheckIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, signalLength__, signal__, dataLength__, data__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiRxPktReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - signalLength - - signal - - dataLength - - data - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWapiRxPktReqCreate(msg__, dst__, src__, interfaceTag__, signalLength__, signal__, dataLength__, data__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWapiRxPktReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WAPI_RX_PKT_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->signalLength = (signalLength__); \ - msg__->signal = (signal__); \ - msg__->dataLength = (dataLength__); \ - msg__->data = (data__); - -#define CsrWifiRouterCtrlWapiRxPktReqSendTo(dst__, src__, interfaceTag__, signalLength__, signal__, dataLength__, data__) \ - { \ - CsrWifiRouterCtrlWapiRxPktReq *msg__; \ - CsrWifiRouterCtrlWapiRxPktReqCreate(msg__, dst__, src__, interfaceTag__, signalLength__, signal__, dataLength__, data__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWapiRxPktReqSend(src__, interfaceTag__, signalLength__, signal__, dataLength__, data__) \ - CsrWifiRouterCtrlWapiRxPktReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, signalLength__, signal__, dataLength__, data__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiUnicastFilterReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWapiUnicastFilterReqCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWapiUnicastFilterReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_FILTER_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlWapiUnicastFilterReqSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiRouterCtrlWapiUnicastFilterReq *msg__; \ - CsrWifiRouterCtrlWapiUnicastFilterReqCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWapiUnicastFilterReqSend(src__, interfaceTag__, status__) \ - CsrWifiRouterCtrlWapiUnicastFilterReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiUnicastTxEncryptIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - interfaceTag - - dataLength - - data - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWapiUnicastTxEncryptIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, dataLength__, data__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWapiUnicastTxEncryptInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_TX_ENCRYPT_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->dataLength = (dataLength__); \ - msg__->data = (data__); - -#define CsrWifiRouterCtrlWapiUnicastTxEncryptIndSendTo(dst__, src__, clientData__, interfaceTag__, dataLength__, data__) \ - { \ - CsrWifiRouterCtrlWapiUnicastTxEncryptInd *msg__; \ - CsrWifiRouterCtrlWapiUnicastTxEncryptIndCreate(msg__, dst__, src__, clientData__, interfaceTag__, dataLength__, data__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWapiUnicastTxEncryptIndSend(dst__, clientData__, interfaceTag__, dataLength__, data__) \ - CsrWifiRouterCtrlWapiUnicastTxEncryptIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, interfaceTag__, dataLength__, data__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiUnicastTxPktReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - dataLength - - data - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWapiUnicastTxPktReqCreate(msg__, dst__, src__, interfaceTag__, dataLength__, data__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWapiUnicastTxPktReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_TX_PKT_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->dataLength = (dataLength__); \ - msg__->data = (data__); - -#define CsrWifiRouterCtrlWapiUnicastTxPktReqSendTo(dst__, src__, interfaceTag__, dataLength__, data__) \ - { \ - CsrWifiRouterCtrlWapiUnicastTxPktReq *msg__; \ - CsrWifiRouterCtrlWapiUnicastTxPktReqCreate(msg__, dst__, src__, interfaceTag__, dataLength__, data__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWapiUnicastTxPktReqSend(src__, interfaceTag__, dataLength__, data__) \ - CsrWifiRouterCtrlWapiUnicastTxPktReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, dataLength__, data__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOffReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - clientData - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWifiOffReqCreate(msg__, dst__, src__, clientData__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWifiOffReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WIFI_OFF_REQ, dst__, src__); \ - msg__->clientData = (clientData__); - -#define CsrWifiRouterCtrlWifiOffReqSendTo(dst__, src__, clientData__) \ - { \ - CsrWifiRouterCtrlWifiOffReq *msg__; \ - CsrWifiRouterCtrlWifiOffReqCreate(msg__, dst__, src__, clientData__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWifiOffReqSend(src__, clientData__) \ - CsrWifiRouterCtrlWifiOffReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOffIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - controlIndication - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWifiOffIndCreate(msg__, dst__, src__, clientData__, controlIndication__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWifiOffInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WIFI_OFF_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->controlIndication = (controlIndication__); - -#define CsrWifiRouterCtrlWifiOffIndSendTo(dst__, src__, clientData__, controlIndication__) \ - { \ - CsrWifiRouterCtrlWifiOffInd *msg__; \ - CsrWifiRouterCtrlWifiOffIndCreate(msg__, dst__, src__, clientData__, controlIndication__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWifiOffIndSend(dst__, clientData__, controlIndication__) \ - CsrWifiRouterCtrlWifiOffIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, controlIndication__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOffResSend - - DESCRIPTION - - PARAMETERS - clientData - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWifiOffResCreate(msg__, dst__, src__, clientData__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWifiOffRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WIFI_OFF_RES, dst__, src__); \ - msg__->clientData = (clientData__); - -#define CsrWifiRouterCtrlWifiOffResSendTo(dst__, src__, clientData__) \ - { \ - CsrWifiRouterCtrlWifiOffRes *msg__; \ - CsrWifiRouterCtrlWifiOffResCreate(msg__, dst__, src__, clientData__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWifiOffResSend(src__, clientData__) \ - CsrWifiRouterCtrlWifiOffResSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOffCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWifiOffCfmCreate(msg__, dst__, src__, clientData__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWifiOffCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WIFI_OFF_CFM, dst__, src__); \ - msg__->clientData = (clientData__); - -#define CsrWifiRouterCtrlWifiOffCfmSendTo(dst__, src__, clientData__) \ - { \ - CsrWifiRouterCtrlWifiOffCfm *msg__; \ - CsrWifiRouterCtrlWifiOffCfmCreate(msg__, dst__, src__, clientData__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWifiOffCfmSend(dst__, clientData__) \ - CsrWifiRouterCtrlWifiOffCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOnReqSend - - DESCRIPTION - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - clientData - - dataLength - Number of bytes in the buffer pointed to by 'data' - data - Pointer to the buffer containing 'dataLength' bytes - -*******************************************************************************/ -#define CsrWifiRouterCtrlWifiOnReqCreate(msg__, dst__, src__, clientData__, dataLength__, data__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWifiOnReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WIFI_ON_REQ, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->dataLength = (dataLength__); \ - msg__->data = (data__); - -#define CsrWifiRouterCtrlWifiOnReqSendTo(dst__, src__, clientData__, dataLength__, data__) \ - { \ - CsrWifiRouterCtrlWifiOnReq *msg__; \ - CsrWifiRouterCtrlWifiOnReqCreate(msg__, dst__, src__, clientData__, dataLength__, data__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWifiOnReqSend(src__, clientData__, dataLength__, data__) \ - CsrWifiRouterCtrlWifiOnReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__, dataLength__, data__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOnIndSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - status - - versions - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWifiOnIndCreate(msg__, dst__, src__, clientData__, status__, versions__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWifiOnInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WIFI_ON_IND, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->status = (status__); \ - msg__->versions = (versions__); - -#define CsrWifiRouterCtrlWifiOnIndSendTo(dst__, src__, clientData__, status__, versions__) \ - { \ - CsrWifiRouterCtrlWifiOnInd *msg__; \ - CsrWifiRouterCtrlWifiOnIndCreate(msg__, dst__, src__, clientData__, status__, versions__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWifiOnIndSend(dst__, clientData__, status__, versions__) \ - CsrWifiRouterCtrlWifiOnIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, status__, versions__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOnResSend - - DESCRIPTION - - PARAMETERS - clientData - - status - - numInterfaceAddress - - stationMacAddress - array size 1 MUST match CSR_WIFI_NUM_INTERFACES - smeVersions - - scheduledInterrupt - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWifiOnResCreate(msg__, dst__, src__, clientData__, status__, numInterfaceAddress__, stationMacAddress__, smeVersions__, scheduledInterrupt__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWifiOnRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WIFI_ON_RES, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->status = (status__); \ - msg__->numInterfaceAddress = (numInterfaceAddress__); \ - memcpy(msg__->stationMacAddress, (stationMacAddress__), sizeof(CsrWifiMacAddress) * 2); \ - msg__->smeVersions = (smeVersions__); \ - msg__->scheduledInterrupt = (scheduledInterrupt__); - -#define CsrWifiRouterCtrlWifiOnResSendTo(dst__, src__, clientData__, status__, numInterfaceAddress__, stationMacAddress__, smeVersions__, scheduledInterrupt__) \ - { \ - CsrWifiRouterCtrlWifiOnRes *msg__; \ - CsrWifiRouterCtrlWifiOnResCreate(msg__, dst__, src__, clientData__, status__, numInterfaceAddress__, stationMacAddress__, smeVersions__, scheduledInterrupt__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWifiOnResSend(src__, clientData__, status__, numInterfaceAddress__, stationMacAddress__, smeVersions__, scheduledInterrupt__) \ - CsrWifiRouterCtrlWifiOnResSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, clientData__, status__, numInterfaceAddress__, stationMacAddress__, smeVersions__, scheduledInterrupt__) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOnCfmSend - - DESCRIPTION - - PARAMETERS - queue - Destination Task Queue - clientData - - status - - -*******************************************************************************/ -#define CsrWifiRouterCtrlWifiOnCfmCreate(msg__, dst__, src__, clientData__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterCtrlWifiOnCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_CTRL_PRIM, CSR_WIFI_ROUTER_CTRL_WIFI_ON_CFM, dst__, src__); \ - msg__->clientData = (clientData__); \ - msg__->status = (status__); - -#define CsrWifiRouterCtrlWifiOnCfmSendTo(dst__, src__, clientData__, status__) \ - { \ - CsrWifiRouterCtrlWifiOnCfm *msg__; \ - CsrWifiRouterCtrlWifiOnCfmCreate(msg__, dst__, src__, clientData__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_CTRL_PRIM, msg__); \ - } - -#define CsrWifiRouterCtrlWifiOnCfmSend(dst__, clientData__, status__) \ - CsrWifiRouterCtrlWifiOnCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, clientData__, status__) - -#endif /* CSR_WIFI_ROUTER_CTRL_LIB_H__ */ diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_prim.h b/drivers/staging/csr/csr_wifi_router_ctrl_prim.h deleted file mode 100644 index 1312a33..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_prim.h +++ /dev/null @@ -1,2113 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_CTRL_PRIM_H__ -#define CSR_WIFI_ROUTER_CTRL_PRIM_H__ - -#include <linux/types.h> -#include "csr_prim_defs.h" -#include "csr_sched.h" -#include "csr_wifi_common.h" -#include "csr_result.h" -#include "csr_wifi_fsm_event.h" - -#define CSR_WIFI_ROUTER_CTRL_PRIM (0x0401) - -typedef CsrPrim CsrWifiRouterCtrlPrim; - -typedef CsrResult (*CsrWifiRouterCtrlRawSdioByteWrite)(u8 func, u32 address, u8 data); -typedef CsrResult (*CsrWifiRouterCtrlRawSdioByteRead)(u8 func, u32 address, u8 *pdata); -typedef CsrResult (*CsrWifiRouterCtrlRawSdioFirmwareDownload)(u32 length, const u8 *pdata); -typedef CsrResult (*CsrWifiRouterCtrlRawSdioReset)(void); -typedef CsrResult (*CsrWifiRouterCtrlRawSdioCoreDumpPrepare)(u8 suspendSme); -typedef CsrResult (*CsrWifiRouterCtrlRawSdioByteBlockRead)(u8 func, u32 address, u8 *pdata, u32 length); -typedef CsrResult (*CsrWifiRouterCtrlRawSdioGpRead16)(u8 func, u32 address, u16 *pdata); -typedef CsrResult (*CsrWifiRouterCtrlRawSdioGpWrite16)(u8 func, u32 address, u16 data); - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckRole - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ORIGINATOR - - - CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_RECIPIENT - - - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlBlockAckRole; -#define CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ORIGINATOR ((CsrWifiRouterCtrlBlockAckRole) 0x00) -#define CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_RECIPIENT ((CsrWifiRouterCtrlBlockAckRole) 0x01) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlControlIndication - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_CONTROL_INDICATION_ERROR - - - CSR_WIFI_ROUTER_CTRL_CONTROL_INDICATION_EXIT - - - CSR_WIFI_ROUTER_CTRL_CONTROL_INDICATION_USER_REQUESTED - - - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlControlIndication; -#define CSR_WIFI_ROUTER_CTRL_CONTROL_INDICATION_ERROR ((CsrWifiRouterCtrlControlIndication) 0x01) -#define CSR_WIFI_ROUTER_CTRL_CONTROL_INDICATION_EXIT ((CsrWifiRouterCtrlControlIndication) 0x02) -#define CSR_WIFI_ROUTER_CTRL_CONTROL_INDICATION_USER_REQUESTED ((CsrWifiRouterCtrlControlIndication) 0x03) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlListAction - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_LIST_ACTION_GET - - - CSR_WIFI_ROUTER_CTRL_LIST_ACTION_ADD - - - CSR_WIFI_ROUTER_CTRL_LIST_ACTION_REMOVE - - - CSR_WIFI_ROUTER_CTRL_LIST_ACTION_FLUSH - - - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlListAction; -#define CSR_WIFI_ROUTER_CTRL_LIST_ACTION_GET ((CsrWifiRouterCtrlListAction) 0x00) -#define CSR_WIFI_ROUTER_CTRL_LIST_ACTION_ADD ((CsrWifiRouterCtrlListAction) 0x01) -#define CSR_WIFI_ROUTER_CTRL_LIST_ACTION_REMOVE ((CsrWifiRouterCtrlListAction) 0x02) -#define CSR_WIFI_ROUTER_CTRL_LIST_ACTION_FLUSH ((CsrWifiRouterCtrlListAction) 0x03) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlLowPowerMode - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_LOW_POWER_MODE_DISABLED - - - CSR_WIFI_ROUTER_CTRL_LOW_POWER_MODE_ENABLED - - - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlLowPowerMode; -#define CSR_WIFI_ROUTER_CTRL_LOW_POWER_MODE_DISABLED ((CsrWifiRouterCtrlLowPowerMode) 0x0000) -#define CSR_WIFI_ROUTER_CTRL_LOW_POWER_MODE_ENABLED ((CsrWifiRouterCtrlLowPowerMode) 0x0001) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMediaStatus - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_MEDIA_STATUS_CONNECTED - - - CSR_WIFI_ROUTER_CTRL_MEDIA_STATUS_DISCONNECTED - - - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlMediaStatus; -#define CSR_WIFI_ROUTER_CTRL_MEDIA_STATUS_CONNECTED ((CsrWifiRouterCtrlMediaStatus) 0x00) -#define CSR_WIFI_ROUTER_CTRL_MEDIA_STATUS_DISCONNECTED ((CsrWifiRouterCtrlMediaStatus) 0x01) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMode - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_MODE_NONE - - CSR_WIFI_ROUTER_CTRL_MODE_IBSS - - CSR_WIFI_ROUTER_CTRL_MODE_STA - - CSR_WIFI_ROUTER_CTRL_MODE_AP - - CSR_WIFI_ROUTER_CTRL_MODE_MONITOR - - CSR_WIFI_ROUTER_CTRL_MODE_AMP - - CSR_WIFI_ROUTER_CTRL_MODE_P2P - - CSR_WIFI_ROUTER_CTRL_MODE_P2PGO - - CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI - - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlMode; -#define CSR_WIFI_ROUTER_CTRL_MODE_NONE ((CsrWifiRouterCtrlMode) 0x00) -#define CSR_WIFI_ROUTER_CTRL_MODE_IBSS ((CsrWifiRouterCtrlMode) 0x01) -#define CSR_WIFI_ROUTER_CTRL_MODE_STA ((CsrWifiRouterCtrlMode) 0x02) -#define CSR_WIFI_ROUTER_CTRL_MODE_AP ((CsrWifiRouterCtrlMode) 0x03) -#define CSR_WIFI_ROUTER_CTRL_MODE_MONITOR ((CsrWifiRouterCtrlMode) 0x04) -#define CSR_WIFI_ROUTER_CTRL_MODE_AMP ((CsrWifiRouterCtrlMode) 0x05) -#define CSR_WIFI_ROUTER_CTRL_MODE_P2P ((CsrWifiRouterCtrlMode) 0x06) -#define CSR_WIFI_ROUTER_CTRL_MODE_P2PGO ((CsrWifiRouterCtrlMode) 0x07) -#define CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI ((CsrWifiRouterCtrlMode) 0x08) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerStatus - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE - - - CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE - - - CSR_WIFI_ROUTER_CTRL_PEER_DISCONNECTED - - - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlPeerStatus; -#define CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE ((CsrWifiRouterCtrlPeerStatus) 0x00) -#define CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE ((CsrWifiRouterCtrlPeerStatus) 0x01) -#define CSR_WIFI_ROUTER_CTRL_PEER_DISCONNECTED ((CsrWifiRouterCtrlPeerStatus) 0x02) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPortAction - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN - - - CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD - - - CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_BLOCK - - - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlPortAction; -#define CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN ((CsrWifiRouterCtrlPortAction) 0x0000) -#define CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD ((CsrWifiRouterCtrlPortAction) 0x0001) -#define CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_BLOCK ((CsrWifiRouterCtrlPortAction) 0x0002) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPowersaveType - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_AC_BK_PS_INFO_PRESENT - - If set, AC BK PS info is present in b4 and b5 - CSR_WIFI_ROUTER_CTRL_AC_BE_PS_INFO_PRESENT - - If set, AC BE PS info is present in b6 and b7 - CSR_WIFI_ROUTER_CTRL_AC_VI_PS_INFO_PRESENT - - If set, AC VI PS info is present in b8 and b9 - CSR_WIFI_ROUTER_CTRL_AC_VO_PS_INFO_PRESENT - - If set, AC VO PS info is present in b10 and b11 - CSR_WIFI_ROUTER_CTRL_AC_BK_TRIGGER_ENABLED - - - CSR_WIFI_ROUTER_CTRL_AC_BK_DELIVERY_ENABLED - - - CSR_WIFI_ROUTER_CTRL_AC_BE_TRIGGER_ENABLED - - - CSR_WIFI_ROUTER_CTRL_AC_BE_DELIVERY_ENABLED - - - CSR_WIFI_ROUTER_CTRL_AC_VI_TRIGGER_ENABLED - - - CSR_WIFI_ROUTER_CTRL_AC_VI_DELIVERY_ENABLED - - - CSR_WIFI_ROUTER_CTRL_AC_VO_TRIGGER_ENABLED - - - CSR_WIFI_ROUTER_CTRL_AC_VO_DELIVERY_ENABLED - - - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlPowersaveType; -#define CSR_WIFI_ROUTER_CTRL_AC_BK_PS_INFO_PRESENT ((CsrWifiRouterCtrlPowersaveType) 0x0001) -#define CSR_WIFI_ROUTER_CTRL_AC_BE_PS_INFO_PRESENT ((CsrWifiRouterCtrlPowersaveType) 0x0002) -#define CSR_WIFI_ROUTER_CTRL_AC_VI_PS_INFO_PRESENT ((CsrWifiRouterCtrlPowersaveType) 0x0004) -#define CSR_WIFI_ROUTER_CTRL_AC_VO_PS_INFO_PRESENT ((CsrWifiRouterCtrlPowersaveType) 0x0008) -#define CSR_WIFI_ROUTER_CTRL_AC_BK_TRIGGER_ENABLED ((CsrWifiRouterCtrlPowersaveType) 0x0010) -#define CSR_WIFI_ROUTER_CTRL_AC_BK_DELIVERY_ENABLED ((CsrWifiRouterCtrlPowersaveType) 0x0020) -#define CSR_WIFI_ROUTER_CTRL_AC_BE_TRIGGER_ENABLED ((CsrWifiRouterCtrlPowersaveType) 0x0040) -#define CSR_WIFI_ROUTER_CTRL_AC_BE_DELIVERY_ENABLED ((CsrWifiRouterCtrlPowersaveType) 0x0080) -#define CSR_WIFI_ROUTER_CTRL_AC_VI_TRIGGER_ENABLED ((CsrWifiRouterCtrlPowersaveType) 0x0100) -#define CSR_WIFI_ROUTER_CTRL_AC_VI_DELIVERY_ENABLED ((CsrWifiRouterCtrlPowersaveType) 0x0200) -#define CSR_WIFI_ROUTER_CTRL_AC_VO_TRIGGER_ENABLED ((CsrWifiRouterCtrlPowersaveType) 0x0400) -#define CSR_WIFI_ROUTER_CTRL_AC_VO_DELIVERY_ENABLED ((CsrWifiRouterCtrlPowersaveType) 0x0800) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlProtocolDirection - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_RX - - - CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_TX - - - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlProtocolDirection; -#define CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_RX ((CsrWifiRouterCtrlProtocolDirection) 0x0000) -#define CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_TX ((CsrWifiRouterCtrlProtocolDirection) 0x0001) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlQoSControl - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_OFF - - - CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_WMM_ON - - - CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_80211_ON - - - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlQoSControl; -#define CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_OFF ((CsrWifiRouterCtrlQoSControl) 0x0000) -#define CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_WMM_ON ((CsrWifiRouterCtrlQoSControl) 0x0001) -#define CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_80211_ON ((CsrWifiRouterCtrlQoSControl) 0x0002) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlQueueConfig - - DESCRIPTION - Defines which Queues are enabled for use. - - VALUES - CSR_WIFI_ROUTER_CTRL_QUEUE_BE_ENABLE - - - CSR_WIFI_ROUTER_CTRL_QUEUE_BK_ENABLE - - - CSR_WIFI_ROUTER_CTRL_QUEUE_VI_ENABLE - - - CSR_WIFI_ROUTER_CTRL_QUEUE_VO_ENABLE - - - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlQueueConfig; -#define CSR_WIFI_ROUTER_CTRL_QUEUE_BE_ENABLE ((CsrWifiRouterCtrlQueueConfig) 0x01) -#define CSR_WIFI_ROUTER_CTRL_QUEUE_BK_ENABLE ((CsrWifiRouterCtrlQueueConfig) 0x02) -#define CSR_WIFI_ROUTER_CTRL_QUEUE_VI_ENABLE ((CsrWifiRouterCtrlQueueConfig) 0x04) -#define CSR_WIFI_ROUTER_CTRL_QUEUE_VO_ENABLE ((CsrWifiRouterCtrlQueueConfig) 0x08) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficConfigType - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_RESET - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_FILTER - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_CLS - - - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlTrafficConfigType; -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_RESET ((CsrWifiRouterCtrlTrafficConfigType) 0x0000) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_FILTER ((CsrWifiRouterCtrlTrafficConfigType) 0x0001) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_CLS ((CsrWifiRouterCtrlTrafficConfigType) 0x0002) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficPacketType - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_NONE - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_EAPOL - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_DHCP - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_DHCP_ACK - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_ARP - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_AIRONET - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_CUSTOM - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_ALL - - - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlTrafficPacketType; -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_NONE ((CsrWifiRouterCtrlTrafficPacketType) 0x0000) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_EAPOL ((CsrWifiRouterCtrlTrafficPacketType) 0x0001) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_DHCP ((CsrWifiRouterCtrlTrafficPacketType) 0x0002) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_DHCP_ACK ((CsrWifiRouterCtrlTrafficPacketType) 0x0004) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_ARP ((CsrWifiRouterCtrlTrafficPacketType) 0x0008) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_AIRONET ((CsrWifiRouterCtrlTrafficPacketType) 0x0010) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_CUSTOM ((CsrWifiRouterCtrlTrafficPacketType) 0x0020) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_ALL ((CsrWifiRouterCtrlTrafficPacketType) 0x00FF) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficType - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_OCCASIONAL - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_BURSTY - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_PERIODIC - - - CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_CONTINUOUS - - - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlTrafficType; -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_OCCASIONAL ((CsrWifiRouterCtrlTrafficType) 0x00) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_BURSTY ((CsrWifiRouterCtrlTrafficType) 0x01) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_PERIODIC ((CsrWifiRouterCtrlTrafficType) 0x02) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_TYPE_CONTINUOUS ((CsrWifiRouterCtrlTrafficType) 0x03) - - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerRecordHandle - - DESCRIPTION - -*******************************************************************************/ -typedef u32 CsrWifiRouterCtrlPeerRecordHandle; -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPowersaveTypeMask - - DESCRIPTION - Mask type for use with the values defined by - CsrWifiRouterCtrlPowersaveType - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlPowersaveTypeMask; -/******************************************************************************* - - NAME - CsrWifiRouterCtrlQueueConfigMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiRouterCtrlQueueConfig - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlQueueConfigMask; -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRequestorInfo - - DESCRIPTION - -*******************************************************************************/ -typedef u16 CsrWifiRouterCtrlRequestorInfo; -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficStreamId - - DESCRIPTION - -*******************************************************************************/ -typedef u8 CsrWifiRouterCtrlTrafficStreamId; - - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlSmeVersions - - DESCRIPTION - - MEMBERS - firmwarePatch - - smeBuild - - smeHip - - -*******************************************************************************/ -typedef struct -{ - u32 firmwarePatch; - char *smeBuild; - u32 smeHip; -} CsrWifiRouterCtrlSmeVersions; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlStaInfo - - DESCRIPTION - - MEMBERS - wmmOrQosEnabled - - powersaveMode - - maxSpLength - - listenIntervalInTus - - -*******************************************************************************/ -typedef struct -{ - u8 wmmOrQosEnabled; - CsrWifiRouterCtrlPowersaveTypeMask powersaveMode; - u8 maxSpLength; - u16 listenIntervalInTus; -} CsrWifiRouterCtrlStaInfo; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficFilter - - DESCRIPTION - - MEMBERS - etherType - - ipType - - udpSourcePort - - udpDestPort - - -*******************************************************************************/ -typedef struct -{ - u32 etherType; - u8 ipType; - u32 udpSourcePort; - u32 udpDestPort; -} CsrWifiRouterCtrlTrafficFilter; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficStats - - DESCRIPTION - - MEMBERS - rxMeanRate - Mean rx data rate over the interval - rxFramesNum - Keep number of Rx frames per second, for CYCLE_3. - txFramesNum - Keep number of Tx frames per second, for CYCLE_3. - rxBytesCount - Keep calculated Rx throughput per second, for CYCLE_2. - txBytesCount - Keep calculated Tx throughput per second, for CYCLE_2. - intervals - array size 11 MUST match TA_INTERVALS_NUM - -*******************************************************************************/ -typedef struct -{ - u32 rxMeanRate; - u32 rxFramesNum; - u32 txFramesNum; - u32 rxBytesCount; - u32 txBytesCount; - u8 intervals[11]; -} CsrWifiRouterCtrlTrafficStats; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlVersions - - DESCRIPTION - - MEMBERS - chipId - - chipVersion - - firmwareBuild - - firmwareHip - - routerBuild - - routerHip - - -*******************************************************************************/ -typedef struct -{ - u32 chipId; - u32 chipVersion; - u32 firmwareBuild; - u32 firmwareHip; - char *routerBuild; - u32 routerHip; -} CsrWifiRouterCtrlVersions; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficConfig - - DESCRIPTION - - MEMBERS - packetFilter - - customFilter - - -*******************************************************************************/ -typedef struct -{ - u16 packetFilter; - CsrWifiRouterCtrlTrafficFilter customFilter; -} CsrWifiRouterCtrlTrafficConfig; - - -/* Downstream */ -#define CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST (0x0000) - -#define CSR_WIFI_ROUTER_CTRL_CONFIGURE_POWER_MODE_REQ ((CsrWifiRouterCtrlPrim) (0x0000 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_HIP_REQ ((CsrWifiRouterCtrlPrim) (0x0001 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_MEDIA_STATUS_REQ ((CsrWifiRouterCtrlPrim) (0x0002 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_MULTICAST_ADDRESS_RES ((CsrWifiRouterCtrlPrim) (0x0003 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_PORT_CONFIGURE_REQ ((CsrWifiRouterCtrlPrim) (0x0004 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_REQ ((CsrWifiRouterCtrlPrim) (0x0005 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_SUSPEND_RES ((CsrWifiRouterCtrlPrim) (0x0006 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_TCLAS_ADD_REQ ((CsrWifiRouterCtrlPrim) (0x0007 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_RESUME_RES ((CsrWifiRouterCtrlPrim) (0x0008 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_RAW_SDIO_DEINITIALISE_REQ ((CsrWifiRouterCtrlPrim) (0x0009 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_RAW_SDIO_INITIALISE_REQ ((CsrWifiRouterCtrlPrim) (0x000A + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_TCLAS_DEL_REQ ((CsrWifiRouterCtrlPrim) (0x000B + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_CLASSIFICATION_REQ ((CsrWifiRouterCtrlPrim) (0x000C + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_REQ ((CsrWifiRouterCtrlPrim) (0x000D + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WIFI_OFF_REQ ((CsrWifiRouterCtrlPrim) (0x000E + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WIFI_OFF_RES ((CsrWifiRouterCtrlPrim) (0x000F + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WIFI_ON_REQ ((CsrWifiRouterCtrlPrim) (0x0010 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WIFI_ON_RES ((CsrWifiRouterCtrlPrim) (0x0011 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_M4_TRANSMIT_REQ ((CsrWifiRouterCtrlPrim) (0x0012 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_MODE_SET_REQ ((CsrWifiRouterCtrlPrim) (0x0013 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_PEER_ADD_REQ ((CsrWifiRouterCtrlPrim) (0x0014 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_PEER_DEL_REQ ((CsrWifiRouterCtrlPrim) (0x0015 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_PEER_UPDATE_REQ ((CsrWifiRouterCtrlPrim) (0x0016 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_CAPABILITIES_REQ ((CsrWifiRouterCtrlPrim) (0x0017 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ENABLE_REQ ((CsrWifiRouterCtrlPrim) (0x0018 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_DISABLE_REQ ((CsrWifiRouterCtrlPrim) (0x0019 + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WAPI_RX_PKT_REQ ((CsrWifiRouterCtrlPrim) (0x001A + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WAPI_MULTICAST_FILTER_REQ ((CsrWifiRouterCtrlPrim) (0x001B + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_FILTER_REQ ((CsrWifiRouterCtrlPrim) (0x001C + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_TX_PKT_REQ ((CsrWifiRouterCtrlPrim) (0x001D + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WAPI_FILTER_REQ ((CsrWifiRouterCtrlPrim) (0x001E + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST)) - - -#define CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_HIGHEST (0x001E + CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST) - -/* Upstream */ -#define CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST (0x0000 + CSR_PRIM_UPSTREAM) - -#define CSR_WIFI_ROUTER_CTRL_HIP_IND ((CsrWifiRouterCtrlPrim)(0x0000 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_MULTICAST_ADDRESS_IND ((CsrWifiRouterCtrlPrim)(0x0001 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_PORT_CONFIGURE_CFM ((CsrWifiRouterCtrlPrim)(0x0002 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_RESUME_IND ((CsrWifiRouterCtrlPrim)(0x0003 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_SUSPEND_IND ((CsrWifiRouterCtrlPrim)(0x0004 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_TCLAS_ADD_CFM ((CsrWifiRouterCtrlPrim)(0x0005 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_RAW_SDIO_DEINITIALISE_CFM ((CsrWifiRouterCtrlPrim)(0x0006 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_RAW_SDIO_INITIALISE_CFM ((CsrWifiRouterCtrlPrim)(0x0007 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_TCLAS_DEL_CFM ((CsrWifiRouterCtrlPrim)(0x0008 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_PROTOCOL_IND ((CsrWifiRouterCtrlPrim)(0x0009 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_TRAFFIC_SAMPLE_IND ((CsrWifiRouterCtrlPrim)(0x000A + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WIFI_OFF_IND ((CsrWifiRouterCtrlPrim)(0x000B + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WIFI_OFF_CFM ((CsrWifiRouterCtrlPrim)(0x000C + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WIFI_ON_IND ((CsrWifiRouterCtrlPrim)(0x000D + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WIFI_ON_CFM ((CsrWifiRouterCtrlPrim)(0x000E + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_M4_READY_TO_SEND_IND ((CsrWifiRouterCtrlPrim)(0x000F + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_M4_TRANSMITTED_IND ((CsrWifiRouterCtrlPrim)(0x0010 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_MIC_FAILURE_IND ((CsrWifiRouterCtrlPrim)(0x0011 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_CONNECTED_IND ((CsrWifiRouterCtrlPrim)(0x0012 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_PEER_ADD_CFM ((CsrWifiRouterCtrlPrim)(0x0013 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_PEER_DEL_CFM ((CsrWifiRouterCtrlPrim)(0x0014 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_UNEXPECTED_FRAME_IND ((CsrWifiRouterCtrlPrim)(0x0015 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_PEER_UPDATE_CFM ((CsrWifiRouterCtrlPrim)(0x0016 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_CAPABILITIES_CFM ((CsrWifiRouterCtrlPrim)(0x0017 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ENABLE_CFM ((CsrWifiRouterCtrlPrim)(0x0018 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_DISABLE_CFM ((CsrWifiRouterCtrlPrim)(0x0019 + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ERROR_IND ((CsrWifiRouterCtrlPrim)(0x001A + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_STA_INACTIVE_IND ((CsrWifiRouterCtrlPrim)(0x001B + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WAPI_RX_MIC_CHECK_IND ((CsrWifiRouterCtrlPrim)(0x001C + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_MODE_SET_CFM ((CsrWifiRouterCtrlPrim)(0x001D + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_CTRL_WAPI_UNICAST_TX_ENCRYPT_IND ((CsrWifiRouterCtrlPrim)(0x001E + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST)) - -#define CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_HIGHEST (0x001E + CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST) - -#define CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_COUNT (CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_HIGHEST + 1 - CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST) -#define CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_COUNT (CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_HIGHEST + 1 - CSR_WIFI_ROUTER_CTRL_PRIM_UPSTREAM_LOWEST) - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlConfigurePowerModeReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - mode - - wakeHost - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlLowPowerMode mode; - u8 wakeHost; -} CsrWifiRouterCtrlConfigurePowerModeReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlHipReq - - DESCRIPTION - This primitive is used for transferring MLME messages to the HIP. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - mlmeCommandLength - Length of the MLME signal - mlmeCommand - Pointer to the MLME signal - dataRef1Length - Length of the dataRef1 bulk data - dataRef1 - Pointer to the bulk data 1 - dataRef2Length - Length of the dataRef2 bulk data - dataRef2 - Pointer to the bulk data 2 - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 mlmeCommandLength; - u8 *mlmeCommand; - u16 dataRef1Length; - u8 *dataRef1; - u16 dataRef2Length; - u8 *dataRef2; -} CsrWifiRouterCtrlHipReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMediaStatusReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - mediaStatus - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlMediaStatus mediaStatus; -} CsrWifiRouterCtrlMediaStatusReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMulticastAddressRes - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - status - - action - - getAddressesCount - - getAddresses - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrResult status; - CsrWifiRouterCtrlListAction action; - u8 getAddressesCount; - CsrWifiMacAddress *getAddresses; -} CsrWifiRouterCtrlMulticastAddressRes; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPortConfigureReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - uncontrolledPortAction - - controlledPortAction - - macAddress - - setProtection - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlPortAction uncontrolledPortAction; - CsrWifiRouterCtrlPortAction controlledPortAction; - CsrWifiMacAddress macAddress; - u8 setProtection; -} CsrWifiRouterCtrlPortConfigureReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlQosControlReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - control - - queueConfig - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlQoSControl control; - CsrWifiRouterCtrlQueueConfigMask queueConfig; -} CsrWifiRouterCtrlQosControlReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlSuspendRes - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrResult status; -} CsrWifiRouterCtrlSuspendRes; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTclasAddReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - tclasLength - - tclas - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 tclasLength; - u8 *tclas; -} CsrWifiRouterCtrlTclasAddReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlResumeRes - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrResult status; -} CsrWifiRouterCtrlResumeRes; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRawSdioDeinitialiseReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; -} CsrWifiRouterCtrlRawSdioDeinitialiseReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRawSdioInitialiseReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; -} CsrWifiRouterCtrlRawSdioInitialiseReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTclasDelReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - tclasLength - - tclas - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 tclasLength; - u8 *tclas; -} CsrWifiRouterCtrlTclasDelReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficClassificationReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - trafficType - - period - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlTrafficType trafficType; - u16 period; -} CsrWifiRouterCtrlTrafficClassificationReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficConfigReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - trafficConfigType - - config - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlTrafficConfigType trafficConfigType; - CsrWifiRouterCtrlTrafficConfig config; -} CsrWifiRouterCtrlTrafficConfigReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOffReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; -} CsrWifiRouterCtrlWifiOffReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOffRes - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; -} CsrWifiRouterCtrlWifiOffRes; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOnReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - dataLength - Number of bytes in the buffer pointed to by 'data' - data - Pointer to the buffer containing 'dataLength' bytes - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u32 dataLength; - u8 *data; -} CsrWifiRouterCtrlWifiOnReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOnRes - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - status - - numInterfaceAddress - - stationMacAddress - array size 1 MUST match CSR_WIFI_NUM_INTERFACES - smeVersions - - scheduledInterrupt - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrResult status; - u16 numInterfaceAddress; - CsrWifiMacAddress stationMacAddress[2]; - CsrWifiRouterCtrlSmeVersions smeVersions; - u8 scheduledInterrupt; -} CsrWifiRouterCtrlWifiOnRes; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlM4TransmitReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; -} CsrWifiRouterCtrlM4TransmitReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlModeSetReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - mode - - bssid - BSSID of the network the device is going to be a part - of - protection - Set to TRUE if encryption is enabled for the - connection/broadcast frames - intraBssDistEnabled - If set to TRUE, intra BSS destribution will be - enabled. If set to FALSE, any unicast PDU which does - not have the RA as the the local MAC address, shall be - ignored. This field is interpreted by the receive if - mode is set to CSR_WIFI_ROUTER_CTRL_MODE_P2PGO - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlMode mode; - CsrWifiMacAddress bssid; - u8 protection; - u8 intraBssDistEnabled; -} CsrWifiRouterCtrlModeSetReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerAddReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - peerMacAddress - - associationId - - staInfo - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiMacAddress peerMacAddress; - u16 associationId; - CsrWifiRouterCtrlStaInfo staInfo; -} CsrWifiRouterCtrlPeerAddReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerDelReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - peerRecordHandle - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlPeerRecordHandle peerRecordHandle; -} CsrWifiRouterCtrlPeerDelReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerUpdateReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - peerRecordHandle - - powersaveMode - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlPeerRecordHandle peerRecordHandle; - CsrWifiRouterCtrlPowersaveTypeMask powersaveMode; -} CsrWifiRouterCtrlPeerUpdateReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlCapabilitiesReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; -} CsrWifiRouterCtrlCapabilitiesReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckEnableReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - macAddress - - trafficStreamID - - role - - bufferSize - - timeout - - ssn - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiMacAddress macAddress; - CsrWifiRouterCtrlTrafficStreamId trafficStreamID; - CsrWifiRouterCtrlBlockAckRole role; - u16 bufferSize; - u16 timeout; - u16 ssn; -} CsrWifiRouterCtrlBlockAckEnableReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckDisableReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - clientData - - macAddress - - trafficStreamID - - role - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiMacAddress macAddress; - CsrWifiRouterCtrlTrafficStreamId trafficStreamID; - CsrWifiRouterCtrlBlockAckRole role; -} CsrWifiRouterCtrlBlockAckDisableReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiRxPktReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - signalLength - - signal - - dataLength - - data - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u16 signalLength; - u8 *signal; - u16 dataLength; - u8 *data; -} CsrWifiRouterCtrlWapiRxPktReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiMulticastFilterReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 status; -} CsrWifiRouterCtrlWapiMulticastFilterReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiUnicastFilterReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 status; -} CsrWifiRouterCtrlWapiUnicastFilterReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiUnicastTxPktReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - dataLength - - data - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u16 dataLength; - u8 *data; -} CsrWifiRouterCtrlWapiUnicastTxPktReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiFilterReq - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - isWapiConnected - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 isWapiConnected; -} CsrWifiRouterCtrlWapiFilterReq; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlHipInd - - DESCRIPTION - This primitive is used for transferring MLME messages from the HIP. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - mlmeCommandLength - Length of the MLME signal - mlmeCommand - Pointer to the MLME signal - dataRef1Length - Length of the dataRef1 bulk data - dataRef1 - Pointer to the bulk data 1 - dataRef2Length - Length of the dataRef2 bulk data - dataRef2 - Pointer to the bulk data 2 - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 mlmeCommandLength; - u8 *mlmeCommand; - u16 dataRef1Length; - u8 *dataRef1; - u16 dataRef2Length; - u8 *dataRef2; -} CsrWifiRouterCtrlHipInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMulticastAddressInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - action - - setAddressesCount - - setAddresses - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiRouterCtrlListAction action; - u8 setAddressesCount; - CsrWifiMacAddress *setAddresses; -} CsrWifiRouterCtrlMulticastAddressInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPortConfigureCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - status - - macAddress - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrResult status; - CsrWifiMacAddress macAddress; -} CsrWifiRouterCtrlPortConfigureCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlResumeInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - powerMaintained - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u8 powerMaintained; -} CsrWifiRouterCtrlResumeInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlSuspendInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - hardSuspend - - d3Suspend - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u8 hardSuspend; - u8 d3Suspend; -} CsrWifiRouterCtrlSuspendInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTclasAddCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrResult status; -} CsrWifiRouterCtrlTclasAddCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRawSdioDeinitialiseCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - result - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrResult result; -} CsrWifiRouterCtrlRawSdioDeinitialiseCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlRawSdioInitialiseCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - result - - byteRead - - byteWrite - - firmwareDownload - - reset - - coreDumpPrepare - - byteBlockRead - - gpRead16 - - gpWrite16 - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrResult result; - CsrWifiRouterCtrlRawSdioByteRead byteRead; - CsrWifiRouterCtrlRawSdioByteWrite byteWrite; - CsrWifiRouterCtrlRawSdioFirmwareDownload firmwareDownload; - CsrWifiRouterCtrlRawSdioReset reset; - CsrWifiRouterCtrlRawSdioCoreDumpPrepare coreDumpPrepare; - CsrWifiRouterCtrlRawSdioByteBlockRead byteBlockRead; - CsrWifiRouterCtrlRawSdioGpRead16 gpRead16; - CsrWifiRouterCtrlRawSdioGpWrite16 gpWrite16; -} CsrWifiRouterCtrlRawSdioInitialiseCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTclasDelCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrResult status; -} CsrWifiRouterCtrlTclasDelCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficProtocolInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - packetType - - direction - - srcAddress - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiRouterCtrlTrafficPacketType packetType; - CsrWifiRouterCtrlProtocolDirection direction; - CsrWifiMacAddress srcAddress; -} CsrWifiRouterCtrlTrafficProtocolInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlTrafficSampleInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - stats - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiRouterCtrlTrafficStats stats; -} CsrWifiRouterCtrlTrafficSampleInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOffInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - controlIndication - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrWifiRouterCtrlControlIndication controlIndication; -} CsrWifiRouterCtrlWifiOffInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOffCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; -} CsrWifiRouterCtrlWifiOffCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOnInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - status - - versions - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrResult status; - CsrWifiRouterCtrlVersions versions; -} CsrWifiRouterCtrlWifiOnInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWifiOnCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - CsrResult status; -} CsrWifiRouterCtrlWifiOnCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlM4ReadyToSendInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - peerMacAddress - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiMacAddress peerMacAddress; -} CsrWifiRouterCtrlM4ReadyToSendInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlM4TransmittedInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - peerMacAddress - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiMacAddress peerMacAddress; - CsrResult status; -} CsrWifiRouterCtrlM4TransmittedInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlMicFailureInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - peerMacAddress - - unicastPdu - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiMacAddress peerMacAddress; - u8 unicastPdu; -} CsrWifiRouterCtrlMicFailureInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlConnectedInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - peerMacAddress - - peerStatus - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiMacAddress peerMacAddress; - CsrWifiRouterCtrlPeerStatus peerStatus; -} CsrWifiRouterCtrlConnectedInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerAddCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - peerMacAddress - - peerRecordHandle - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiMacAddress peerMacAddress; - CsrWifiRouterCtrlPeerRecordHandle peerRecordHandle; - CsrResult status; -} CsrWifiRouterCtrlPeerAddCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerDelCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrResult status; -} CsrWifiRouterCtrlPeerDelCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlUnexpectedFrameInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - peerMacAddress - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiMacAddress peerMacAddress; -} CsrWifiRouterCtrlUnexpectedFrameInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlPeerUpdateCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrResult status; -} CsrWifiRouterCtrlPeerUpdateCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlCapabilitiesCfm - - DESCRIPTION - The router sends this primitive to confirm the size of the queues of the - HIP. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - commandQueueSize - Size of command queue - trafficQueueSize - Size of traffic queue (per AC) - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 commandQueueSize; - u16 trafficQueueSize; -} CsrWifiRouterCtrlCapabilitiesCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckEnableCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrResult status; -} CsrWifiRouterCtrlBlockAckEnableCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckDisableCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrResult status; -} CsrWifiRouterCtrlBlockAckDisableCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlBlockAckErrorInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - trafficStreamID - - peerMacAddress - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiRouterCtrlTrafficStreamId trafficStreamID; - CsrWifiMacAddress peerMacAddress; - CsrResult status; -} CsrWifiRouterCtrlBlockAckErrorInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlStaInactiveInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - staAddress - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiMacAddress staAddress; -} CsrWifiRouterCtrlStaInactiveInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiRxMicCheckInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - signalLength - - signal - - dataLength - - data - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - u16 signalLength; - u8 *signal; - u16 dataLength; - u8 *data; -} CsrWifiRouterCtrlWapiRxMicCheckInd; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlModeSetCfm - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - mode - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - CsrWifiRouterCtrlMode mode; - CsrResult status; -} CsrWifiRouterCtrlModeSetCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterCtrlWapiUnicastTxEncryptInd - - DESCRIPTION - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - clientData - - interfaceTag - - dataLength - - data - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiRouterCtrlRequestorInfo clientData; - u16 interfaceTag; - u16 dataLength; - u8 *data; -} CsrWifiRouterCtrlWapiUnicastTxEncryptInd; - -#endif /* CSR_WIFI_ROUTER_CTRL_PRIM_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_sef.c b/drivers/staging/csr/csr_wifi_router_ctrl_sef.c deleted file mode 100644 index 99cf930..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_sef.c +++ /dev/null @@ -1,46 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - Confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - - *****************************************************************************/ -#include "csr_wifi_router_ctrl_sef.h" - -const CsrWifiRouterCtrlStateHandlerType - CsrWifiRouterCtrlDownstreamStateHandlers - [CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_COUNT] = { - /* 0x0000 */ CsrWifiRouterCtrlConfigurePowerModeReqHandler, - /* 0x0001 */ CsrWifiRouterCtrlHipReqHandler, - /* 0x0002 */ CsrWifiRouterCtrlMediaStatusReqHandler, - /* 0x0003 */ CsrWifiRouterCtrlMulticastAddressResHandler, - /* 0x0004 */ CsrWifiRouterCtrlPortConfigureReqHandler, - /* 0x0005 */ CsrWifiRouterCtrlQosControlReqHandler, - /* 0x0006 */ CsrWifiRouterCtrlSuspendResHandler, - /* 0x0007 */ CsrWifiRouterCtrlTclasAddReqHandler, - /* 0x0008 */ CsrWifiRouterCtrlResumeResHandler, - /* 0x0009 */ CsrWifiRouterCtrlRawSdioDeinitialiseReqHandler, - /* 0x000A */ CsrWifiRouterCtrlRawSdioInitialiseReqHandler, - /* 0x000B */ CsrWifiRouterCtrlTclasDelReqHandler, - /* 0x000C */ CsrWifiRouterCtrlTrafficClassificationReqHandler, - /* 0x000D */ CsrWifiRouterCtrlTrafficConfigReqHandler, - /* 0x000E */ CsrWifiRouterCtrlWifiOffReqHandler, - /* 0x000F */ CsrWifiRouterCtrlWifiOffResHandler, - /* 0x0010 */ CsrWifiRouterCtrlWifiOnReqHandler, - /* 0x0011 */ CsrWifiRouterCtrlWifiOnResHandler, - /* 0x0012 */ CsrWifiRouterCtrlM4TransmitReqHandler, - /* 0x0013 */ CsrWifiRouterCtrlModeSetReqHandler, - /* 0x0014 */ CsrWifiRouterCtrlPeerAddReqHandler, - /* 0x0015 */ CsrWifiRouterCtrlPeerDelReqHandler, - /* 0x0016 */ CsrWifiRouterCtrlPeerUpdateReqHandler, - /* 0x0017 */ CsrWifiRouterCtrlCapabilitiesReqHandler, - /* 0x0018 */ CsrWifiRouterCtrlBlockAckEnableReqHandler, - /* 0x0019 */ CsrWifiRouterCtrlBlockAckDisableReqHandler, - /* 0x001A */ CsrWifiRouterCtrlWapiRxPktReqHandler, - /* 0x001B */ CsrWifiRouterCtrlWapiMulticastFilterReqHandler, - /* 0x001C */ CsrWifiRouterCtrlWapiUnicastFilterReqHandler, - /* 0x001D */ CsrWifiRouterCtrlWapiUnicastTxPktReqHandler, - /* 0x001E */ CsrWifiRouterCtrlWapiFilterReqHandler, -}; diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_sef.h b/drivers/staging/csr/csr_wifi_router_ctrl_sef.h deleted file mode 100644 index 2fb4937..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_sef.h +++ /dev/null @@ -1,51 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - Confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - - *****************************************************************************/ -#ifndef CSR_WIFI_ROUTER_SEF_CSR_WIFI_ROUTER_CTRL_H__ -#define CSR_WIFI_ROUTER_SEF_CSR_WIFI_ROUTER_CTRL_H__ - -#include "csr_wifi_router_ctrl_prim.h" - - typedef void (*CsrWifiRouterCtrlStateHandlerType)(void* drvpriv, CsrWifiFsmEvent* msg); - - extern const CsrWifiRouterCtrlStateHandlerType CsrWifiRouterCtrlDownstreamStateHandlers[CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_COUNT]; - - extern void CsrWifiRouterCtrlConfigurePowerModeReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlHipReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlMediaStatusReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlMulticastAddressResHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlPortConfigureReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlQosControlReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlSuspendResHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlTclasAddReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlResumeResHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlRawSdioDeinitialiseReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlRawSdioInitialiseReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlTclasDelReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlTrafficClassificationReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlTrafficConfigReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWifiOffReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWifiOffResHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWifiOnReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWifiOnResHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlM4TransmitReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlModeSetReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlPeerAddReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlPeerDelReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlPeerUpdateReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlCapabilitiesReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlBlockAckEnableReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlBlockAckDisableReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWapiMulticastFilterReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWapiRxPktReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWapiUnicastTxPktReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWapiUnicastFilterReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterCtrlWapiFilterReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - -#endif /* CSR_WIFI_ROUTER_SEF_CSR_WIFI_ROUTER_CTRL_H__ */ diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_serialize.c b/drivers/staging/csr/csr_wifi_router_ctrl_serialize.c deleted file mode 100644 index 3eda1b6..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_serialize.c +++ /dev/null @@ -1,2591 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/string.h> -#include <linux/slab.h> -#include "csr_msgconv.h" -#include "csr_wifi_router_ctrl_prim.h" -#include "csr_wifi_router_ctrl_serialize.h" - -void CsrWifiRouterCtrlPfree(void *ptr) -{ - kfree(ptr); -} - - -size_t CsrWifiRouterCtrlConfigurePowerModeReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrWifiRouterCtrlLowPowerMode primitive->mode */ - bufferSize += 1; /* u8 primitive->wakeHost */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlConfigurePowerModeReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlConfigurePowerModeReq *primitive = (CsrWifiRouterCtrlConfigurePowerModeReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->mode); - CsrUint8Ser(ptr, len, (u8) primitive->wakeHost); - return(ptr); -} - - -void* CsrWifiRouterCtrlConfigurePowerModeReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlConfigurePowerModeReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlConfigurePowerModeReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mode, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wakeHost, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlHipReqSizeof(void *msg) -{ - CsrWifiRouterCtrlHipReq *primitive = (CsrWifiRouterCtrlHipReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 12) */ - bufferSize += 2; /* u16 primitive->mlmeCommandLength */ - bufferSize += primitive->mlmeCommandLength; /* u8 primitive->mlmeCommand */ - bufferSize += 2; /* u16 primitive->dataRef1Length */ - bufferSize += primitive->dataRef1Length; /* u8 primitive->dataRef1 */ - bufferSize += 2; /* u16 primitive->dataRef2Length */ - bufferSize += primitive->dataRef2Length; /* u8 primitive->dataRef2 */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlHipReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlHipReq *primitive = (CsrWifiRouterCtrlHipReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->mlmeCommandLength); - if (primitive->mlmeCommandLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mlmeCommand, ((u16) (primitive->mlmeCommandLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->dataRef1Length); - if (primitive->dataRef1Length) - { - CsrMemCpySer(ptr, len, (const void *) primitive->dataRef1, ((u16) (primitive->dataRef1Length))); - } - CsrUint16Ser(ptr, len, (u16) primitive->dataRef2Length); - if (primitive->dataRef2Length) - { - CsrMemCpySer(ptr, len, (const void *) primitive->dataRef2, ((u16) (primitive->dataRef2Length))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlHipReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlHipReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlHipReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mlmeCommandLength, buffer, &offset); - if (primitive->mlmeCommandLength) - { - primitive->mlmeCommand = kmalloc(primitive->mlmeCommandLength, GFP_KERNEL); - CsrMemCpyDes(primitive->mlmeCommand, buffer, &offset, ((u16) (primitive->mlmeCommandLength))); - } - else - { - primitive->mlmeCommand = NULL; - } - CsrUint16Des((u16 *) &primitive->dataRef1Length, buffer, &offset); - if (primitive->dataRef1Length) - { - primitive->dataRef1 = kmalloc(primitive->dataRef1Length, GFP_KERNEL); - CsrMemCpyDes(primitive->dataRef1, buffer, &offset, ((u16) (primitive->dataRef1Length))); - } - else - { - primitive->dataRef1 = NULL; - } - CsrUint16Des((u16 *) &primitive->dataRef2Length, buffer, &offset); - if (primitive->dataRef2Length) - { - primitive->dataRef2 = kmalloc(primitive->dataRef2Length, GFP_KERNEL); - CsrMemCpyDes(primitive->dataRef2, buffer, &offset, ((u16) (primitive->dataRef2Length))); - } - else - { - primitive->dataRef2 = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlHipReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlHipReq *primitive = (CsrWifiRouterCtrlHipReq *) voidPrimitivePointer; - kfree(primitive->mlmeCommand); - kfree(primitive->dataRef1); - kfree(primitive->dataRef2); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlMediaStatusReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 1; /* CsrWifiRouterCtrlMediaStatus primitive->mediaStatus */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlMediaStatusReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlMediaStatusReq *primitive = (CsrWifiRouterCtrlMediaStatusReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint8Ser(ptr, len, (u8) primitive->mediaStatus); - return(ptr); -} - - -void* CsrWifiRouterCtrlMediaStatusReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlMediaStatusReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlMediaStatusReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mediaStatus, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlMulticastAddressResSizeof(void *msg) -{ - CsrWifiRouterCtrlMulticastAddressRes *primitive = (CsrWifiRouterCtrlMulticastAddressRes *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 17) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* CsrWifiRouterCtrlListAction primitive->action */ - bufferSize += 1; /* u8 primitive->getAddressesCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressesCount; i1++) - { - bufferSize += 6; /* u8 primitive->getAddresses[i1].a[6] */ - } - } - return bufferSize; -} - - -u8* CsrWifiRouterCtrlMulticastAddressResSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlMulticastAddressRes *primitive = (CsrWifiRouterCtrlMulticastAddressRes *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->getAddressesCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressesCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->getAddresses[i1].a, ((u16) (6))); - } - } - return(ptr); -} - - -void* CsrWifiRouterCtrlMulticastAddressResDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlMulticastAddressRes *primitive = kmalloc(sizeof(CsrWifiRouterCtrlMulticastAddressRes), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->getAddressesCount, buffer, &offset); - primitive->getAddresses = NULL; - if (primitive->getAddressesCount) - { - primitive->getAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->getAddressesCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressesCount; i1++) - { - CsrMemCpyDes(primitive->getAddresses[i1].a, buffer, &offset, ((u16) (6))); - } - } - - return primitive; -} - - -void CsrWifiRouterCtrlMulticastAddressResSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlMulticastAddressRes *primitive = (CsrWifiRouterCtrlMulticastAddressRes *) voidPrimitivePointer; - kfree(primitive->getAddresses); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlPortConfigureReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 18) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrWifiRouterCtrlPortAction primitive->uncontrolledPortAction */ - bufferSize += 2; /* CsrWifiRouterCtrlPortAction primitive->controlledPortAction */ - bufferSize += 6; /* u8 primitive->macAddress.a[6] */ - bufferSize += 1; /* u8 primitive->setProtection */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlPortConfigureReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlPortConfigureReq *primitive = (CsrWifiRouterCtrlPortConfigureReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->uncontrolledPortAction); - CsrUint16Ser(ptr, len, (u16) primitive->controlledPortAction); - CsrMemCpySer(ptr, len, (const void *) primitive->macAddress.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->setProtection); - return(ptr); -} - - -void* CsrWifiRouterCtrlPortConfigureReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlPortConfigureReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlPortConfigureReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->uncontrolledPortAction, buffer, &offset); - CsrUint16Des((u16 *) &primitive->controlledPortAction, buffer, &offset); - CsrMemCpyDes(primitive->macAddress.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->setProtection, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlQosControlReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrWifiRouterCtrlQoSControl primitive->control */ - bufferSize += 1; /* CsrWifiRouterCtrlQueueConfigMask primitive->queueConfig */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlQosControlReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlQosControlReq *primitive = (CsrWifiRouterCtrlQosControlReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->control); - CsrUint8Ser(ptr, len, (u8) primitive->queueConfig); - return(ptr); -} - - -void* CsrWifiRouterCtrlQosControlReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlQosControlReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlQosControlReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->control, buffer, &offset); - CsrUint8Des((u8 *) &primitive->queueConfig, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlSuspendResSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlSuspendResSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlSuspendRes *primitive = (CsrWifiRouterCtrlSuspendRes *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlSuspendResDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlSuspendRes *primitive = kmalloc(sizeof(CsrWifiRouterCtrlSuspendRes), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlTclasAddReqSizeof(void *msg) -{ - CsrWifiRouterCtrlTclasAddReq *primitive = (CsrWifiRouterCtrlTclasAddReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->tclasLength */ - bufferSize += primitive->tclasLength; /* u8 primitive->tclas */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlTclasAddReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlTclasAddReq *primitive = (CsrWifiRouterCtrlTclasAddReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->tclasLength); - if (primitive->tclasLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->tclas, ((u16) (primitive->tclasLength))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlTclasAddReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlTclasAddReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlTclasAddReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->tclasLength, buffer, &offset); - if (primitive->tclasLength) - { - primitive->tclas = kmalloc(primitive->tclasLength, GFP_KERNEL); - CsrMemCpyDes(primitive->tclas, buffer, &offset, ((u16) (primitive->tclasLength))); - } - else - { - primitive->tclas = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlTclasAddReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlTclasAddReq *primitive = (CsrWifiRouterCtrlTclasAddReq *) voidPrimitivePointer; - kfree(primitive->tclas); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlResumeResSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlResumeResSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlResumeRes *primitive = (CsrWifiRouterCtrlResumeRes *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlResumeResDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlResumeRes *primitive = kmalloc(sizeof(CsrWifiRouterCtrlResumeRes), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlTclasDelReqSizeof(void *msg) -{ - CsrWifiRouterCtrlTclasDelReq *primitive = (CsrWifiRouterCtrlTclasDelReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->tclasLength */ - bufferSize += primitive->tclasLength; /* u8 primitive->tclas */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlTclasDelReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlTclasDelReq *primitive = (CsrWifiRouterCtrlTclasDelReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->tclasLength); - if (primitive->tclasLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->tclas, ((u16) (primitive->tclasLength))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlTclasDelReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlTclasDelReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlTclasDelReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->tclasLength, buffer, &offset); - if (primitive->tclasLength) - { - primitive->tclas = kmalloc(primitive->tclasLength, GFP_KERNEL); - CsrMemCpyDes(primitive->tclas, buffer, &offset, ((u16) (primitive->tclasLength))); - } - else - { - primitive->tclas = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlTclasDelReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlTclasDelReq *primitive = (CsrWifiRouterCtrlTclasDelReq *) voidPrimitivePointer; - kfree(primitive->tclas); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlTrafficClassificationReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 1; /* CsrWifiRouterCtrlTrafficType primitive->trafficType */ - bufferSize += 2; /* u16 primitive->period */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlTrafficClassificationReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlTrafficClassificationReq *primitive = (CsrWifiRouterCtrlTrafficClassificationReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint8Ser(ptr, len, (u8) primitive->trafficType); - CsrUint16Ser(ptr, len, (u16) primitive->period); - return(ptr); -} - - -void* CsrWifiRouterCtrlTrafficClassificationReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlTrafficClassificationReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlTrafficClassificationReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint8Des((u8 *) &primitive->trafficType, buffer, &offset); - CsrUint16Des((u16 *) &primitive->period, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlTrafficConfigReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 24) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrWifiRouterCtrlTrafficConfigType primitive->trafficConfigType */ - bufferSize += 2; /* u16 primitive->config.packetFilter */ - bufferSize += 4; /* u32 primitive->config.customFilter.etherType */ - bufferSize += 1; /* u8 primitive->config.customFilter.ipType */ - bufferSize += 4; /* u32 primitive->config.customFilter.udpSourcePort */ - bufferSize += 4; /* u32 primitive->config.customFilter.udpDestPort */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlTrafficConfigReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlTrafficConfigReq *primitive = (CsrWifiRouterCtrlTrafficConfigReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->trafficConfigType); - CsrUint16Ser(ptr, len, (u16) primitive->config.packetFilter); - CsrUint32Ser(ptr, len, (u32) primitive->config.customFilter.etherType); - CsrUint8Ser(ptr, len, (u8) primitive->config.customFilter.ipType); - CsrUint32Ser(ptr, len, (u32) primitive->config.customFilter.udpSourcePort); - CsrUint32Ser(ptr, len, (u32) primitive->config.customFilter.udpDestPort); - return(ptr); -} - - -void* CsrWifiRouterCtrlTrafficConfigReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlTrafficConfigReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlTrafficConfigReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->trafficConfigType, buffer, &offset); - CsrUint16Des((u16 *) &primitive->config.packetFilter, buffer, &offset); - CsrUint32Des((u32 *) &primitive->config.customFilter.etherType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->config.customFilter.ipType, buffer, &offset); - CsrUint32Des((u32 *) &primitive->config.customFilter.udpSourcePort, buffer, &offset); - CsrUint32Des((u32 *) &primitive->config.customFilter.udpDestPort, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlWifiOnReqSizeof(void *msg) -{ - CsrWifiRouterCtrlWifiOnReq *primitive = (CsrWifiRouterCtrlWifiOnReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 4; /* u32 primitive->dataLength */ - bufferSize += primitive->dataLength; /* u8 primitive->data */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlWifiOnReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlWifiOnReq *primitive = (CsrWifiRouterCtrlWifiOnReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint32Ser(ptr, len, (u32) primitive->dataLength); - if (primitive->dataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlWifiOnReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlWifiOnReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlWifiOnReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint32Des((u32 *) &primitive->dataLength, buffer, &offset); - if (primitive->dataLength) - { - primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); - } - else - { - primitive->data = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlWifiOnReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlWifiOnReq *primitive = (CsrWifiRouterCtrlWifiOnReq *) voidPrimitivePointer; - kfree(primitive->data); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlWifiOnResSizeof(void *msg) -{ - CsrWifiRouterCtrlWifiOnRes *primitive = (CsrWifiRouterCtrlWifiOnRes *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 30) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* u16 primitive->numInterfaceAddress */ - { - u16 i1; - for (i1 = 0; i1 < 2; i1++) - { - bufferSize += 6; /* u8 primitive->stationMacAddress[i1].a[6] */ - } - } - bufferSize += 4; /* u32 primitive->smeVersions.firmwarePatch */ - bufferSize += (primitive->smeVersions.smeBuild ? strlen(primitive->smeVersions.smeBuild) : 0) + 1; /* char* primitive->smeVersions.smeBuild (0 byte len + 1 for NULL Term) */ - bufferSize += 4; /* u32 primitive->smeVersions.smeHip */ - bufferSize += 1; /* u8 primitive->scheduledInterrupt */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlWifiOnResSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlWifiOnRes *primitive = (CsrWifiRouterCtrlWifiOnRes *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->numInterfaceAddress); - { - u16 i1; - for (i1 = 0; i1 < 2; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->stationMacAddress[i1].a, ((u16) (6))); - } - } - CsrUint32Ser(ptr, len, (u32) primitive->smeVersions.firmwarePatch); - CsrCharStringSer(ptr, len, primitive->smeVersions.smeBuild); - CsrUint32Ser(ptr, len, (u32) primitive->smeVersions.smeHip); - CsrUint8Ser(ptr, len, (u8) primitive->scheduledInterrupt); - return(ptr); -} - - -void* CsrWifiRouterCtrlWifiOnResDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlWifiOnRes *primitive = kmalloc(sizeof(CsrWifiRouterCtrlWifiOnRes), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->numInterfaceAddress, buffer, &offset); - { - u16 i1; - for (i1 = 0; i1 < 2; i1++) - { - CsrMemCpyDes(primitive->stationMacAddress[i1].a, buffer, &offset, ((u16) (6))); - } - } - CsrUint32Des((u32 *) &primitive->smeVersions.firmwarePatch, buffer, &offset); - CsrCharStringDes(&primitive->smeVersions.smeBuild, buffer, &offset); - CsrUint32Des((u32 *) &primitive->smeVersions.smeHip, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scheduledInterrupt, buffer, &offset); - - return primitive; -} - - -void CsrWifiRouterCtrlWifiOnResSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlWifiOnRes *primitive = (CsrWifiRouterCtrlWifiOnRes *) voidPrimitivePointer; - kfree(primitive->smeVersions.smeBuild); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlM4TransmitReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlM4TransmitReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlM4TransmitReq *primitive = (CsrWifiRouterCtrlM4TransmitReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - return(ptr); -} - - -void* CsrWifiRouterCtrlM4TransmitReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlM4TransmitReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlM4TransmitReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlModeSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 16) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 1; /* CsrWifiRouterCtrlMode primitive->mode */ - bufferSize += 6; /* u8 primitive->bssid.a[6] */ - bufferSize += 1; /* u8 primitive->protection */ - bufferSize += 1; /* u8 primitive->intraBssDistEnabled */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlModeSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlModeSetReq *primitive = (CsrWifiRouterCtrlModeSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint8Ser(ptr, len, (u8) primitive->mode); - CsrMemCpySer(ptr, len, (const void *) primitive->bssid.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->protection); - CsrUint8Ser(ptr, len, (u8) primitive->intraBssDistEnabled); - return(ptr); -} - - -void* CsrWifiRouterCtrlModeSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlModeSetReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlModeSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mode, buffer, &offset); - CsrMemCpyDes(primitive->bssid.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->protection, buffer, &offset); - CsrUint8Des((u8 *) &primitive->intraBssDistEnabled, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlPeerAddReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 21) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - bufferSize += 2; /* u16 primitive->associationId */ - bufferSize += 1; /* u8 primitive->staInfo.wmmOrQosEnabled */ - bufferSize += 2; /* CsrWifiRouterCtrlPowersaveTypeMask primitive->staInfo.powersaveMode */ - bufferSize += 1; /* u8 primitive->staInfo.maxSpLength */ - bufferSize += 2; /* u16 primitive->staInfo.listenIntervalInTus */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlPeerAddReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlPeerAddReq *primitive = (CsrWifiRouterCtrlPeerAddReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->associationId); - CsrUint8Ser(ptr, len, (u8) primitive->staInfo.wmmOrQosEnabled); - CsrUint16Ser(ptr, len, (u16) primitive->staInfo.powersaveMode); - CsrUint8Ser(ptr, len, (u8) primitive->staInfo.maxSpLength); - CsrUint16Ser(ptr, len, (u16) primitive->staInfo.listenIntervalInTus); - return(ptr); -} - - -void* CsrWifiRouterCtrlPeerAddReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlPeerAddReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlPeerAddReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->associationId, buffer, &offset); - CsrUint8Des((u8 *) &primitive->staInfo.wmmOrQosEnabled, buffer, &offset); - CsrUint16Des((u16 *) &primitive->staInfo.powersaveMode, buffer, &offset); - CsrUint8Des((u8 *) &primitive->staInfo.maxSpLength, buffer, &offset); - CsrUint16Des((u16 *) &primitive->staInfo.listenIntervalInTus, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlPeerDelReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 4; /* CsrWifiRouterCtrlPeerRecordHandle primitive->peerRecordHandle */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlPeerDelReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlPeerDelReq *primitive = (CsrWifiRouterCtrlPeerDelReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint32Ser(ptr, len, (u32) primitive->peerRecordHandle); - return(ptr); -} - - -void* CsrWifiRouterCtrlPeerDelReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlPeerDelReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlPeerDelReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint32Des((u32 *) &primitive->peerRecordHandle, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlPeerUpdateReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 4; /* CsrWifiRouterCtrlPeerRecordHandle primitive->peerRecordHandle */ - bufferSize += 2; /* CsrWifiRouterCtrlPowersaveTypeMask primitive->powersaveMode */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlPeerUpdateReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlPeerUpdateReq *primitive = (CsrWifiRouterCtrlPeerUpdateReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint32Ser(ptr, len, (u32) primitive->peerRecordHandle); - CsrUint16Ser(ptr, len, (u16) primitive->powersaveMode); - return(ptr); -} - - -void* CsrWifiRouterCtrlPeerUpdateReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlPeerUpdateReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlPeerUpdateReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint32Des((u32 *) &primitive->peerRecordHandle, buffer, &offset); - CsrUint16Des((u16 *) &primitive->powersaveMode, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlBlockAckEnableReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 21) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 6; /* u8 primitive->macAddress.a[6] */ - bufferSize += 1; /* CsrWifiRouterCtrlTrafficStreamId primitive->trafficStreamID */ - bufferSize += 1; /* CsrWifiRouterCtrlBlockAckRole primitive->role */ - bufferSize += 2; /* u16 primitive->bufferSize */ - bufferSize += 2; /* u16 primitive->timeout */ - bufferSize += 2; /* u16 primitive->ssn */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlBlockAckEnableReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlBlockAckEnableReq *primitive = (CsrWifiRouterCtrlBlockAckEnableReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrMemCpySer(ptr, len, (const void *) primitive->macAddress.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->trafficStreamID); - CsrUint8Ser(ptr, len, (u8) primitive->role); - CsrUint16Ser(ptr, len, (u16) primitive->bufferSize); - CsrUint16Ser(ptr, len, (u16) primitive->timeout); - CsrUint16Ser(ptr, len, (u16) primitive->ssn); - return(ptr); -} - - -void* CsrWifiRouterCtrlBlockAckEnableReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlBlockAckEnableReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckEnableReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrMemCpyDes(primitive->macAddress.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->trafficStreamID, buffer, &offset); - CsrUint8Des((u8 *) &primitive->role, buffer, &offset); - CsrUint16Des((u16 *) &primitive->bufferSize, buffer, &offset); - CsrUint16Des((u16 *) &primitive->timeout, buffer, &offset); - CsrUint16Des((u16 *) &primitive->ssn, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlBlockAckDisableReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 6; /* u8 primitive->macAddress.a[6] */ - bufferSize += 1; /* CsrWifiRouterCtrlTrafficStreamId primitive->trafficStreamID */ - bufferSize += 1; /* CsrWifiRouterCtrlBlockAckRole primitive->role */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlBlockAckDisableReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlBlockAckDisableReq *primitive = (CsrWifiRouterCtrlBlockAckDisableReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrMemCpySer(ptr, len, (const void *) primitive->macAddress.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->trafficStreamID); - CsrUint8Ser(ptr, len, (u8) primitive->role); - return(ptr); -} - - -void* CsrWifiRouterCtrlBlockAckDisableReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlBlockAckDisableReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckDisableReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrMemCpyDes(primitive->macAddress.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->trafficStreamID, buffer, &offset); - CsrUint8Des((u8 *) &primitive->role, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlWapiRxPktReqSizeof(void *msg) -{ - CsrWifiRouterCtrlWapiRxPktReq *primitive = (CsrWifiRouterCtrlWapiRxPktReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* u16 primitive->signalLength */ - bufferSize += primitive->signalLength; /* u8 primitive->signal */ - bufferSize += 2; /* u16 primitive->dataLength */ - bufferSize += primitive->dataLength; /* u8 primitive->data */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlWapiRxPktReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlWapiRxPktReq *primitive = (CsrWifiRouterCtrlWapiRxPktReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->signalLength); - if (primitive->signalLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->signal, ((u16) (primitive->signalLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->dataLength); - if (primitive->dataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlWapiRxPktReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlWapiRxPktReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlWapiRxPktReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->signalLength, buffer, &offset); - if (primitive->signalLength) - { - primitive->signal = kmalloc(primitive->signalLength, GFP_KERNEL); - CsrMemCpyDes(primitive->signal, buffer, &offset, ((u16) (primitive->signalLength))); - } - else - { - primitive->signal = NULL; - } - CsrUint16Des((u16 *) &primitive->dataLength, buffer, &offset); - if (primitive->dataLength) - { - primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); - } - else - { - primitive->data = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlWapiRxPktReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlWapiRxPktReq *primitive = (CsrWifiRouterCtrlWapiRxPktReq *) voidPrimitivePointer; - kfree(primitive->signal); - kfree(primitive->data); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlWapiUnicastTxPktReqSizeof(void *msg) -{ - CsrWifiRouterCtrlWapiUnicastTxPktReq *primitive = (CsrWifiRouterCtrlWapiUnicastTxPktReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* u16 primitive->dataLength */ - bufferSize += primitive->dataLength; /* u8 primitive->data */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlWapiUnicastTxPktReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlWapiUnicastTxPktReq *primitive = (CsrWifiRouterCtrlWapiUnicastTxPktReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->dataLength); - if (primitive->dataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlWapiUnicastTxPktReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlWapiUnicastTxPktReq *primitive = kmalloc(sizeof(CsrWifiRouterCtrlWapiUnicastTxPktReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->dataLength, buffer, &offset); - if (primitive->dataLength) - { - primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); - } - else - { - primitive->data = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlWapiUnicastTxPktReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlWapiUnicastTxPktReq *primitive = (CsrWifiRouterCtrlWapiUnicastTxPktReq *) voidPrimitivePointer; - kfree(primitive->data); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlHipIndSizeof(void *msg) -{ - CsrWifiRouterCtrlHipInd *primitive = (CsrWifiRouterCtrlHipInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 12) */ - bufferSize += 2; /* u16 primitive->mlmeCommandLength */ - bufferSize += primitive->mlmeCommandLength; /* u8 primitive->mlmeCommand */ - bufferSize += 2; /* u16 primitive->dataRef1Length */ - bufferSize += primitive->dataRef1Length; /* u8 primitive->dataRef1 */ - bufferSize += 2; /* u16 primitive->dataRef2Length */ - bufferSize += primitive->dataRef2Length; /* u8 primitive->dataRef2 */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlHipIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlHipInd *primitive = (CsrWifiRouterCtrlHipInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->mlmeCommandLength); - if (primitive->mlmeCommandLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mlmeCommand, ((u16) (primitive->mlmeCommandLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->dataRef1Length); - if (primitive->dataRef1Length) - { - CsrMemCpySer(ptr, len, (const void *) primitive->dataRef1, ((u16) (primitive->dataRef1Length))); - } - CsrUint16Ser(ptr, len, (u16) primitive->dataRef2Length); - if (primitive->dataRef2Length) - { - CsrMemCpySer(ptr, len, (const void *) primitive->dataRef2, ((u16) (primitive->dataRef2Length))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlHipIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlHipInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlHipInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mlmeCommandLength, buffer, &offset); - if (primitive->mlmeCommandLength) - { - primitive->mlmeCommand = kmalloc(primitive->mlmeCommandLength, GFP_KERNEL); - CsrMemCpyDes(primitive->mlmeCommand, buffer, &offset, ((u16) (primitive->mlmeCommandLength))); - } - else - { - primitive->mlmeCommand = NULL; - } - CsrUint16Des((u16 *) &primitive->dataRef1Length, buffer, &offset); - if (primitive->dataRef1Length) - { - primitive->dataRef1 = kmalloc(primitive->dataRef1Length, GFP_KERNEL); - CsrMemCpyDes(primitive->dataRef1, buffer, &offset, ((u16) (primitive->dataRef1Length))); - } - else - { - primitive->dataRef1 = NULL; - } - CsrUint16Des((u16 *) &primitive->dataRef2Length, buffer, &offset); - if (primitive->dataRef2Length) - { - primitive->dataRef2 = kmalloc(primitive->dataRef2Length, GFP_KERNEL); - CsrMemCpyDes(primitive->dataRef2, buffer, &offset, ((u16) (primitive->dataRef2Length))); - } - else - { - primitive->dataRef2 = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlHipIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlHipInd *primitive = (CsrWifiRouterCtrlHipInd *) voidPrimitivePointer; - kfree(primitive->mlmeCommand); - kfree(primitive->dataRef1); - kfree(primitive->dataRef2); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlMulticastAddressIndSizeof(void *msg) -{ - CsrWifiRouterCtrlMulticastAddressInd *primitive = (CsrWifiRouterCtrlMulticastAddressInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiRouterCtrlListAction primitive->action */ - bufferSize += 1; /* u8 primitive->setAddressesCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressesCount; i1++) - { - bufferSize += 6; /* u8 primitive->setAddresses[i1].a[6] */ - } - } - return bufferSize; -} - - -u8* CsrWifiRouterCtrlMulticastAddressIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlMulticastAddressInd *primitive = (CsrWifiRouterCtrlMulticastAddressInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->setAddressesCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressesCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->setAddresses[i1].a, ((u16) (6))); - } - } - return(ptr); -} - - -void* CsrWifiRouterCtrlMulticastAddressIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlMulticastAddressInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlMulticastAddressInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->setAddressesCount, buffer, &offset); - primitive->setAddresses = NULL; - if (primitive->setAddressesCount) - { - primitive->setAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->setAddressesCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressesCount; i1++) - { - CsrMemCpyDes(primitive->setAddresses[i1].a, buffer, &offset, ((u16) (6))); - } - } - - return primitive; -} - - -void CsrWifiRouterCtrlMulticastAddressIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlMulticastAddressInd *primitive = (CsrWifiRouterCtrlMulticastAddressInd *) voidPrimitivePointer; - kfree(primitive->setAddresses); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlPortConfigureCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 6; /* u8 primitive->macAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlPortConfigureCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlPortConfigureCfm *primitive = (CsrWifiRouterCtrlPortConfigureCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrMemCpySer(ptr, len, (const void *) primitive->macAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiRouterCtrlPortConfigureCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlPortConfigureCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlPortConfigureCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrMemCpyDes(primitive->macAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiRouterCtrlSuspendIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 1; /* u8 primitive->hardSuspend */ - bufferSize += 1; /* u8 primitive->d3Suspend */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlSuspendIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlSuspendInd *primitive = (CsrWifiRouterCtrlSuspendInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint8Ser(ptr, len, (u8) primitive->hardSuspend); - CsrUint8Ser(ptr, len, (u8) primitive->d3Suspend); - return(ptr); -} - - -void* CsrWifiRouterCtrlSuspendIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlSuspendInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlSuspendInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint8Des((u8 *) &primitive->hardSuspend, buffer, &offset); - CsrUint8Des((u8 *) &primitive->d3Suspend, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlTclasAddCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlTclasAddCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlTclasAddCfm *primitive = (CsrWifiRouterCtrlTclasAddCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlTclasAddCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlTclasAddCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlTclasAddCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlRawSdioDeinitialiseCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrResult primitive->result */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlRawSdioDeinitialiseCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlRawSdioDeinitialiseCfm *primitive = (CsrWifiRouterCtrlRawSdioDeinitialiseCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->result); - return(ptr); -} - - -void* CsrWifiRouterCtrlRawSdioDeinitialiseCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlRawSdioDeinitialiseCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlRawSdioDeinitialiseCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlRawSdioInitialiseCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 39) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrResult primitive->result */ - bufferSize += 4; /* CsrWifiRouterCtrlRawSdioByteRead primitive->byteRead */ - bufferSize += 4; /* CsrWifiRouterCtrlRawSdioByteWrite primitive->byteWrite */ - bufferSize += 4; /* CsrWifiRouterCtrlRawSdioFirmwareDownload primitive->firmwareDownload */ - bufferSize += 4; /* CsrWifiRouterCtrlRawSdioReset primitive->reset */ - bufferSize += 4; /* CsrWifiRouterCtrlRawSdioCoreDumpPrepare primitive->coreDumpPrepare */ - bufferSize += 4; /* CsrWifiRouterCtrlRawSdioByteBlockRead primitive->byteBlockRead */ - bufferSize += 4; /* CsrWifiRouterCtrlRawSdioGpRead16 primitive->gpRead16 */ - bufferSize += 4; /* CsrWifiRouterCtrlRawSdioGpWrite16 primitive->gpWrite16 */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlRawSdioInitialiseCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlRawSdioInitialiseCfm *primitive = (CsrWifiRouterCtrlRawSdioInitialiseCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->result); - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->byteRead */ - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->byteWrite */ - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->firmwareDownload */ - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->reset */ - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->coreDumpPrepare */ - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->byteBlockRead */ - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->gpRead16 */ - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->gpWrite16 */ - return(ptr); -} - - -void* CsrWifiRouterCtrlRawSdioInitialiseCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlRawSdioInitialiseCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlRawSdioInitialiseCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result, buffer, &offset); - primitive->byteRead = NULL; /* Special for Function Pointers... */ - offset += 4; - primitive->byteWrite = NULL; /* Special for Function Pointers... */ - offset += 4; - primitive->firmwareDownload = NULL; /* Special for Function Pointers... */ - offset += 4; - primitive->reset = NULL; /* Special for Function Pointers... */ - offset += 4; - primitive->coreDumpPrepare = NULL; /* Special for Function Pointers... */ - offset += 4; - primitive->byteBlockRead = NULL; /* Special for Function Pointers... */ - offset += 4; - primitive->gpRead16 = NULL; /* Special for Function Pointers... */ - offset += 4; - primitive->gpWrite16 = NULL; /* Special for Function Pointers... */ - offset += 4; - - return primitive; -} - - -size_t CsrWifiRouterCtrlTclasDelCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlTclasDelCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlTclasDelCfm *primitive = (CsrWifiRouterCtrlTclasDelCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlTclasDelCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlTclasDelCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlTclasDelCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlTrafficProtocolIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 17) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrWifiRouterCtrlTrafficPacketType primitive->packetType */ - bufferSize += 2; /* CsrWifiRouterCtrlProtocolDirection primitive->direction */ - bufferSize += 6; /* u8 primitive->srcAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlTrafficProtocolIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlTrafficProtocolInd *primitive = (CsrWifiRouterCtrlTrafficProtocolInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->packetType); - CsrUint16Ser(ptr, len, (u16) primitive->direction); - CsrMemCpySer(ptr, len, (const void *) primitive->srcAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiRouterCtrlTrafficProtocolIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlTrafficProtocolInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlTrafficProtocolInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->packetType, buffer, &offset); - CsrUint16Des((u16 *) &primitive->direction, buffer, &offset); - CsrMemCpyDes(primitive->srcAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiRouterCtrlTrafficSampleIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 38) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 4; /* u32 primitive->stats.rxMeanRate */ - bufferSize += 4; /* u32 primitive->stats.rxFramesNum */ - bufferSize += 4; /* u32 primitive->stats.txFramesNum */ - bufferSize += 4; /* u32 primitive->stats.rxBytesCount */ - bufferSize += 4; /* u32 primitive->stats.txBytesCount */ - bufferSize += 11; /* u8 primitive->stats.intervals[11] */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlTrafficSampleIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlTrafficSampleInd *primitive = (CsrWifiRouterCtrlTrafficSampleInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint32Ser(ptr, len, (u32) primitive->stats.rxMeanRate); - CsrUint32Ser(ptr, len, (u32) primitive->stats.rxFramesNum); - CsrUint32Ser(ptr, len, (u32) primitive->stats.txFramesNum); - CsrUint32Ser(ptr, len, (u32) primitive->stats.rxBytesCount); - CsrUint32Ser(ptr, len, (u32) primitive->stats.txBytesCount); - CsrMemCpySer(ptr, len, (const void *) primitive->stats.intervals, ((u16) (11))); - return(ptr); -} - - -void* CsrWifiRouterCtrlTrafficSampleIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlTrafficSampleInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlTrafficSampleInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint32Des((u32 *) &primitive->stats.rxMeanRate, buffer, &offset); - CsrUint32Des((u32 *) &primitive->stats.rxFramesNum, buffer, &offset); - CsrUint32Des((u32 *) &primitive->stats.txFramesNum, buffer, &offset); - CsrUint32Des((u32 *) &primitive->stats.rxBytesCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->stats.txBytesCount, buffer, &offset); - CsrMemCpyDes(primitive->stats.intervals, buffer, &offset, ((u16) (11))); - - return primitive; -} - - -size_t CsrWifiRouterCtrlWifiOnIndSizeof(void *msg) -{ - CsrWifiRouterCtrlWifiOnInd *primitive = (CsrWifiRouterCtrlWifiOnInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 27) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 4; /* u32 primitive->versions.chipId */ - bufferSize += 4; /* u32 primitive->versions.chipVersion */ - bufferSize += 4; /* u32 primitive->versions.firmwareBuild */ - bufferSize += 4; /* u32 primitive->versions.firmwareHip */ - bufferSize += (primitive->versions.routerBuild ? strlen(primitive->versions.routerBuild) : 0) + 1; /* char* primitive->versions.routerBuild (0 byte len + 1 for NULL Term) */ - bufferSize += 4; /* u32 primitive->versions.routerHip */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlWifiOnIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlWifiOnInd *primitive = (CsrWifiRouterCtrlWifiOnInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint32Ser(ptr, len, (u32) primitive->versions.chipId); - CsrUint32Ser(ptr, len, (u32) primitive->versions.chipVersion); - CsrUint32Ser(ptr, len, (u32) primitive->versions.firmwareBuild); - CsrUint32Ser(ptr, len, (u32) primitive->versions.firmwareHip); - CsrCharStringSer(ptr, len, primitive->versions.routerBuild); - CsrUint32Ser(ptr, len, (u32) primitive->versions.routerHip); - return(ptr); -} - - -void* CsrWifiRouterCtrlWifiOnIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlWifiOnInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlWifiOnInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.chipId, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.chipVersion, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.firmwareBuild, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.firmwareHip, buffer, &offset); - CsrCharStringDes(&primitive->versions.routerBuild, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.routerHip, buffer, &offset); - - return primitive; -} - - -void CsrWifiRouterCtrlWifiOnIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlWifiOnInd *primitive = (CsrWifiRouterCtrlWifiOnInd *) voidPrimitivePointer; - kfree(primitive->versions.routerBuild); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlWifiOnCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlWifiOnCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlWifiOnCfm *primitive = (CsrWifiRouterCtrlWifiOnCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlWifiOnCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlWifiOnCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlWifiOnCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlM4ReadyToSendIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlM4ReadyToSendIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlM4ReadyToSendInd *primitive = (CsrWifiRouterCtrlM4ReadyToSendInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiRouterCtrlM4ReadyToSendIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlM4ReadyToSendInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlM4ReadyToSendInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiRouterCtrlM4TransmittedIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlM4TransmittedIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlM4TransmittedInd *primitive = (CsrWifiRouterCtrlM4TransmittedInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlM4TransmittedIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlM4TransmittedInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlM4TransmittedInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlMicFailureIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 14) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - bufferSize += 1; /* u8 primitive->unicastPdu */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlMicFailureIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlMicFailureInd *primitive = (CsrWifiRouterCtrlMicFailureInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->unicastPdu); - return(ptr); -} - - -void* CsrWifiRouterCtrlMicFailureIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlMicFailureInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlMicFailureInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->unicastPdu, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlConnectedIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 14) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - bufferSize += 1; /* CsrWifiRouterCtrlPeerStatus primitive->peerStatus */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlConnectedIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlConnectedInd *primitive = (CsrWifiRouterCtrlConnectedInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->peerStatus); - return(ptr); -} - - -void* CsrWifiRouterCtrlConnectedIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlConnectedInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlConnectedInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->peerStatus, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlPeerAddCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 19) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - bufferSize += 4; /* CsrWifiRouterCtrlPeerRecordHandle primitive->peerRecordHandle */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlPeerAddCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlPeerAddCfm *primitive = (CsrWifiRouterCtrlPeerAddCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - CsrUint32Ser(ptr, len, (u32) primitive->peerRecordHandle); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlPeerAddCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlPeerAddCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlPeerAddCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - CsrUint32Des((u32 *) &primitive->peerRecordHandle, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlPeerDelCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlPeerDelCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlPeerDelCfm *primitive = (CsrWifiRouterCtrlPeerDelCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlPeerDelCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlPeerDelCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlPeerDelCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlUnexpectedFrameIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlUnexpectedFrameIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlUnexpectedFrameInd *primitive = (CsrWifiRouterCtrlUnexpectedFrameInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiRouterCtrlUnexpectedFrameIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlUnexpectedFrameInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlUnexpectedFrameInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiRouterCtrlPeerUpdateCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlPeerUpdateCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlPeerUpdateCfm *primitive = (CsrWifiRouterCtrlPeerUpdateCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlPeerUpdateCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlPeerUpdateCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlPeerUpdateCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlCapabilitiesCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->commandQueueSize */ - bufferSize += 2; /* u16 primitive->trafficQueueSize */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlCapabilitiesCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlCapabilitiesCfm *primitive = (CsrWifiRouterCtrlCapabilitiesCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->commandQueueSize); - CsrUint16Ser(ptr, len, (u16) primitive->trafficQueueSize); - return(ptr); -} - - -void* CsrWifiRouterCtrlCapabilitiesCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlCapabilitiesCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlCapabilitiesCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->commandQueueSize, buffer, &offset); - CsrUint16Des((u16 *) &primitive->trafficQueueSize, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlBlockAckEnableCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlBlockAckEnableCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlBlockAckEnableCfm *primitive = (CsrWifiRouterCtrlBlockAckEnableCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlBlockAckEnableCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlBlockAckEnableCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckEnableCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlBlockAckDisableCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlBlockAckDisableCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlBlockAckDisableCfm *primitive = (CsrWifiRouterCtrlBlockAckDisableCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlBlockAckDisableCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlBlockAckDisableCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckDisableCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlBlockAckErrorIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 16) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiRouterCtrlTrafficStreamId primitive->trafficStreamID */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlBlockAckErrorIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlBlockAckErrorInd *primitive = (CsrWifiRouterCtrlBlockAckErrorInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->trafficStreamID); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlBlockAckErrorIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlBlockAckErrorInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlBlockAckErrorInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->trafficStreamID, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlStaInactiveIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->staAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlStaInactiveIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlStaInactiveInd *primitive = (CsrWifiRouterCtrlStaInactiveInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->staAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiRouterCtrlStaInactiveIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlStaInactiveInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlStaInactiveInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->staAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiRouterCtrlWapiRxMicCheckIndSizeof(void *msg) -{ - CsrWifiRouterCtrlWapiRxMicCheckInd *primitive = (CsrWifiRouterCtrlWapiRxMicCheckInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* u16 primitive->signalLength */ - bufferSize += primitive->signalLength; /* u8 primitive->signal */ - bufferSize += 2; /* u16 primitive->dataLength */ - bufferSize += primitive->dataLength; /* u8 primitive->data */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlWapiRxMicCheckIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlWapiRxMicCheckInd *primitive = (CsrWifiRouterCtrlWapiRxMicCheckInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->signalLength); - if (primitive->signalLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->signal, ((u16) (primitive->signalLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->dataLength); - if (primitive->dataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlWapiRxMicCheckIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlWapiRxMicCheckInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlWapiRxMicCheckInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->signalLength, buffer, &offset); - if (primitive->signalLength) - { - primitive->signal = kmalloc(primitive->signalLength, GFP_KERNEL); - CsrMemCpyDes(primitive->signal, buffer, &offset, ((u16) (primitive->signalLength))); - } - else - { - primitive->signal = NULL; - } - CsrUint16Des((u16 *) &primitive->dataLength, buffer, &offset); - if (primitive->dataLength) - { - primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); - } - else - { - primitive->data = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlWapiRxMicCheckIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlWapiRxMicCheckInd *primitive = (CsrWifiRouterCtrlWapiRxMicCheckInd *) voidPrimitivePointer; - kfree(primitive->signal); - kfree(primitive->data); - kfree(primitive); -} - - -size_t CsrWifiRouterCtrlModeSetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiRouterCtrlMode primitive->mode */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlModeSetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlModeSetCfm *primitive = (CsrWifiRouterCtrlModeSetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->mode); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterCtrlModeSetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlModeSetCfm *primitive = kmalloc(sizeof(CsrWifiRouterCtrlModeSetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterCtrlWapiUnicastTxEncryptIndSizeof(void *msg) -{ - CsrWifiRouterCtrlWapiUnicastTxEncryptInd *primitive = (CsrWifiRouterCtrlWapiUnicastTxEncryptInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* CsrWifiRouterCtrlRequestorInfo primitive->clientData */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* u16 primitive->dataLength */ - bufferSize += primitive->dataLength; /* u8 primitive->data */ - return bufferSize; -} - - -u8* CsrWifiRouterCtrlWapiUnicastTxEncryptIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterCtrlWapiUnicastTxEncryptInd *primitive = (CsrWifiRouterCtrlWapiUnicastTxEncryptInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->clientData); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->dataLength); - if (primitive->dataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); - } - return(ptr); -} - - -void* CsrWifiRouterCtrlWapiUnicastTxEncryptIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterCtrlWapiUnicastTxEncryptInd *primitive = kmalloc(sizeof(CsrWifiRouterCtrlWapiUnicastTxEncryptInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->clientData, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->dataLength, buffer, &offset); - if (primitive->dataLength) - { - primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); - } - else - { - primitive->data = NULL; - } - - return primitive; -} - - -void CsrWifiRouterCtrlWapiUnicastTxEncryptIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterCtrlWapiUnicastTxEncryptInd *primitive = (CsrWifiRouterCtrlWapiUnicastTxEncryptInd *) voidPrimitivePointer; - kfree(primitive->data); - kfree(primitive); -} - - diff --git a/drivers/staging/csr/csr_wifi_router_ctrl_serialize.h b/drivers/staging/csr/csr_wifi_router_ctrl_serialize.h deleted file mode 100644 index c904838..0000000 --- a/drivers/staging/csr/csr_wifi_router_ctrl_serialize.h +++ /dev/null @@ -1,333 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_CTRL_SERIALIZE_H__ -#define CSR_WIFI_ROUTER_CTRL_SERIALIZE_H__ - -#include "csr_wifi_msgconv.h" - -#include "csr_wifi_router_ctrl_prim.h" - -extern void CsrWifiRouterCtrlPfree(void *ptr); - -extern u8* CsrWifiRouterCtrlConfigurePowerModeReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlConfigurePowerModeReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlConfigurePowerModeReqSizeof(void *msg); -#define CsrWifiRouterCtrlConfigurePowerModeReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlHipReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlHipReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlHipReqSizeof(void *msg); -extern void CsrWifiRouterCtrlHipReqSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlMediaStatusReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlMediaStatusReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlMediaStatusReqSizeof(void *msg); -#define CsrWifiRouterCtrlMediaStatusReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlMulticastAddressResSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlMulticastAddressResDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlMulticastAddressResSizeof(void *msg); -extern void CsrWifiRouterCtrlMulticastAddressResSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlPortConfigureReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlPortConfigureReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlPortConfigureReqSizeof(void *msg); -#define CsrWifiRouterCtrlPortConfigureReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlQosControlReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlQosControlReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlQosControlReqSizeof(void *msg); -#define CsrWifiRouterCtrlQosControlReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlSuspendResSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlSuspendResDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlSuspendResSizeof(void *msg); -#define CsrWifiRouterCtrlSuspendResSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlTclasAddReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlTclasAddReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlTclasAddReqSizeof(void *msg); -extern void CsrWifiRouterCtrlTclasAddReqSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlResumeResSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlResumeResDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlResumeResSizeof(void *msg); -#define CsrWifiRouterCtrlResumeResSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlRawSdioDeinitialiseReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiRouterCtrlRawSdioDeinitialiseReqDes CsrWifiEventCsrUint16Des -#define CsrWifiRouterCtrlRawSdioDeinitialiseReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiRouterCtrlRawSdioDeinitialiseReqSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlRawSdioInitialiseReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiRouterCtrlRawSdioInitialiseReqDes CsrWifiEventCsrUint16Des -#define CsrWifiRouterCtrlRawSdioInitialiseReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiRouterCtrlRawSdioInitialiseReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlTclasDelReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlTclasDelReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlTclasDelReqSizeof(void *msg); -extern void CsrWifiRouterCtrlTclasDelReqSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlTrafficClassificationReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlTrafficClassificationReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlTrafficClassificationReqSizeof(void *msg); -#define CsrWifiRouterCtrlTrafficClassificationReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlTrafficConfigReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlTrafficConfigReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlTrafficConfigReqSizeof(void *msg); -#define CsrWifiRouterCtrlTrafficConfigReqSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlWifiOffReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiRouterCtrlWifiOffReqDes CsrWifiEventCsrUint16Des -#define CsrWifiRouterCtrlWifiOffReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiRouterCtrlWifiOffReqSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlWifiOffResSer CsrWifiEventCsrUint16Ser -#define CsrWifiRouterCtrlWifiOffResDes CsrWifiEventCsrUint16Des -#define CsrWifiRouterCtrlWifiOffResSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiRouterCtrlWifiOffResSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlWifiOnReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlWifiOnReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlWifiOnReqSizeof(void *msg); -extern void CsrWifiRouterCtrlWifiOnReqSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlWifiOnResSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlWifiOnResDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlWifiOnResSizeof(void *msg); -extern void CsrWifiRouterCtrlWifiOnResSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlM4TransmitReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlM4TransmitReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlM4TransmitReqSizeof(void *msg); -#define CsrWifiRouterCtrlM4TransmitReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlModeSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlModeSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlModeSetReqSizeof(void *msg); -#define CsrWifiRouterCtrlModeSetReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlPeerAddReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlPeerAddReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlPeerAddReqSizeof(void *msg); -#define CsrWifiRouterCtrlPeerAddReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlPeerDelReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlPeerDelReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlPeerDelReqSizeof(void *msg); -#define CsrWifiRouterCtrlPeerDelReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlPeerUpdateReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlPeerUpdateReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlPeerUpdateReqSizeof(void *msg); -#define CsrWifiRouterCtrlPeerUpdateReqSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlCapabilitiesReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiRouterCtrlCapabilitiesReqDes CsrWifiEventCsrUint16Des -#define CsrWifiRouterCtrlCapabilitiesReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiRouterCtrlCapabilitiesReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlBlockAckEnableReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlBlockAckEnableReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlBlockAckEnableReqSizeof(void *msg); -#define CsrWifiRouterCtrlBlockAckEnableReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlBlockAckDisableReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlBlockAckDisableReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlBlockAckDisableReqSizeof(void *msg); -#define CsrWifiRouterCtrlBlockAckDisableReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlWapiRxPktReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlWapiRxPktReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlWapiRxPktReqSizeof(void *msg); -extern void CsrWifiRouterCtrlWapiRxPktReqSerFree(void *msg); - -#define CsrWifiRouterCtrlWapiMulticastFilterReqSer CsrWifiEventCsrUint16CsrUint8Ser -#define CsrWifiRouterCtrlWapiMulticastFilterReqDes CsrWifiEventCsrUint16CsrUint8Des -#define CsrWifiRouterCtrlWapiMulticastFilterReqSizeof CsrWifiEventCsrUint16CsrUint8Sizeof -#define CsrWifiRouterCtrlWapiMulticastFilterReqSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlWapiUnicastFilterReqSer CsrWifiEventCsrUint16CsrUint8Ser -#define CsrWifiRouterCtrlWapiUnicastFilterReqDes CsrWifiEventCsrUint16CsrUint8Des -#define CsrWifiRouterCtrlWapiUnicastFilterReqSizeof CsrWifiEventCsrUint16CsrUint8Sizeof -#define CsrWifiRouterCtrlWapiUnicastFilterReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlWapiUnicastTxPktReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlWapiUnicastTxPktReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlWapiUnicastTxPktReqSizeof(void *msg); -extern void CsrWifiRouterCtrlWapiUnicastTxPktReqSerFree(void *msg); - -#define CsrWifiRouterCtrlWapiFilterReqSer CsrWifiEventCsrUint16CsrUint8Ser -#define CsrWifiRouterCtrlWapiFilterReqDes CsrWifiEventCsrUint16CsrUint8Des -#define CsrWifiRouterCtrlWapiFilterReqSizeof CsrWifiEventCsrUint16CsrUint8Sizeof -#define CsrWifiRouterCtrlWapiFilterReqSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlHipIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlHipIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlHipIndSizeof(void *msg); -extern void CsrWifiRouterCtrlHipIndSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlMulticastAddressIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlMulticastAddressIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlMulticastAddressIndSizeof(void *msg); -extern void CsrWifiRouterCtrlMulticastAddressIndSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlPortConfigureCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlPortConfigureCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlPortConfigureCfmSizeof(void *msg); -#define CsrWifiRouterCtrlPortConfigureCfmSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlResumeIndSer CsrWifiEventCsrUint16CsrUint8Ser -#define CsrWifiRouterCtrlResumeIndDes CsrWifiEventCsrUint16CsrUint8Des -#define CsrWifiRouterCtrlResumeIndSizeof CsrWifiEventCsrUint16CsrUint8Sizeof -#define CsrWifiRouterCtrlResumeIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlSuspendIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlSuspendIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlSuspendIndSizeof(void *msg); -#define CsrWifiRouterCtrlSuspendIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlTclasAddCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlTclasAddCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlTclasAddCfmSizeof(void *msg); -#define CsrWifiRouterCtrlTclasAddCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlRawSdioDeinitialiseCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlRawSdioDeinitialiseCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlRawSdioDeinitialiseCfmSizeof(void *msg); -#define CsrWifiRouterCtrlRawSdioDeinitialiseCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlRawSdioInitialiseCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlRawSdioInitialiseCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlRawSdioInitialiseCfmSizeof(void *msg); -#define CsrWifiRouterCtrlRawSdioInitialiseCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlTclasDelCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlTclasDelCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlTclasDelCfmSizeof(void *msg); -#define CsrWifiRouterCtrlTclasDelCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlTrafficProtocolIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlTrafficProtocolIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlTrafficProtocolIndSizeof(void *msg); -#define CsrWifiRouterCtrlTrafficProtocolIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlTrafficSampleIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlTrafficSampleIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlTrafficSampleIndSizeof(void *msg); -#define CsrWifiRouterCtrlTrafficSampleIndSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlWifiOffIndSer CsrWifiEventCsrUint16CsrUint8Ser -#define CsrWifiRouterCtrlWifiOffIndDes CsrWifiEventCsrUint16CsrUint8Des -#define CsrWifiRouterCtrlWifiOffIndSizeof CsrWifiEventCsrUint16CsrUint8Sizeof -#define CsrWifiRouterCtrlWifiOffIndSerFree CsrWifiRouterCtrlPfree - -#define CsrWifiRouterCtrlWifiOffCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiRouterCtrlWifiOffCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiRouterCtrlWifiOffCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiRouterCtrlWifiOffCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlWifiOnIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlWifiOnIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlWifiOnIndSizeof(void *msg); -extern void CsrWifiRouterCtrlWifiOnIndSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlWifiOnCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlWifiOnCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlWifiOnCfmSizeof(void *msg); -#define CsrWifiRouterCtrlWifiOnCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlM4ReadyToSendIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlM4ReadyToSendIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlM4ReadyToSendIndSizeof(void *msg); -#define CsrWifiRouterCtrlM4ReadyToSendIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlM4TransmittedIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlM4TransmittedIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlM4TransmittedIndSizeof(void *msg); -#define CsrWifiRouterCtrlM4TransmittedIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlMicFailureIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlMicFailureIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlMicFailureIndSizeof(void *msg); -#define CsrWifiRouterCtrlMicFailureIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlConnectedIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlConnectedIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlConnectedIndSizeof(void *msg); -#define CsrWifiRouterCtrlConnectedIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlPeerAddCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlPeerAddCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlPeerAddCfmSizeof(void *msg); -#define CsrWifiRouterCtrlPeerAddCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlPeerDelCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlPeerDelCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlPeerDelCfmSizeof(void *msg); -#define CsrWifiRouterCtrlPeerDelCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlUnexpectedFrameIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlUnexpectedFrameIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlUnexpectedFrameIndSizeof(void *msg); -#define CsrWifiRouterCtrlUnexpectedFrameIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlPeerUpdateCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlPeerUpdateCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlPeerUpdateCfmSizeof(void *msg); -#define CsrWifiRouterCtrlPeerUpdateCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlCapabilitiesCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlCapabilitiesCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlCapabilitiesCfmSizeof(void *msg); -#define CsrWifiRouterCtrlCapabilitiesCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlBlockAckEnableCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlBlockAckEnableCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlBlockAckEnableCfmSizeof(void *msg); -#define CsrWifiRouterCtrlBlockAckEnableCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlBlockAckDisableCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlBlockAckDisableCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlBlockAckDisableCfmSizeof(void *msg); -#define CsrWifiRouterCtrlBlockAckDisableCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlBlockAckErrorIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlBlockAckErrorIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlBlockAckErrorIndSizeof(void *msg); -#define CsrWifiRouterCtrlBlockAckErrorIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlStaInactiveIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlStaInactiveIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlStaInactiveIndSizeof(void *msg); -#define CsrWifiRouterCtrlStaInactiveIndSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlWapiRxMicCheckIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlWapiRxMicCheckIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlWapiRxMicCheckIndSizeof(void *msg); -extern void CsrWifiRouterCtrlWapiRxMicCheckIndSerFree(void *msg); - -extern u8* CsrWifiRouterCtrlModeSetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlModeSetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlModeSetCfmSizeof(void *msg); -#define CsrWifiRouterCtrlModeSetCfmSerFree CsrWifiRouterCtrlPfree - -extern u8* CsrWifiRouterCtrlWapiUnicastTxEncryptIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterCtrlWapiUnicastTxEncryptIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterCtrlWapiUnicastTxEncryptIndSizeof(void *msg); -extern void CsrWifiRouterCtrlWapiUnicastTxEncryptIndSerFree(void *msg); - -#endif /* CSR_WIFI_ROUTER_CTRL_SERIALIZE_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_router_free_downstream_contents.c b/drivers/staging/csr/csr_wifi_router_free_downstream_contents.c deleted file mode 100644 index c4badc5..0000000 --- a/drivers/staging/csr/csr_wifi_router_free_downstream_contents.c +++ /dev/null @@ -1,53 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/slab.h> -#include "csr_wifi_router_prim.h" -#include "csr_wifi_router_lib.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrWifiRouterFreeDownstreamMessageContents - * - * DESCRIPTION - * - * - * PARAMETERS - * eventClass: only the value CSR_WIFI_ROUTER_PRIM will be handled - * message: the message to free - *----------------------------------------------------------------------------*/ -void CsrWifiRouterFreeDownstreamMessageContents(u16 eventClass, void *message) -{ - if (eventClass != CSR_WIFI_ROUTER_PRIM) - { - return; - } - if (NULL == message) - { - return; - } - - switch (*((CsrWifiRouterPrim *) message)) - { - case CSR_WIFI_ROUTER_MA_PACKET_REQ: - { - CsrWifiRouterMaPacketReq *p = (CsrWifiRouterMaPacketReq *)message; - kfree(p->frame); - p->frame = NULL; - break; - } - - default: - break; - } -} - - diff --git a/drivers/staging/csr/csr_wifi_router_free_upstream_contents.c b/drivers/staging/csr/csr_wifi_router_free_upstream_contents.c deleted file mode 100644 index 4cd1263..0000000 --- a/drivers/staging/csr/csr_wifi_router_free_upstream_contents.c +++ /dev/null @@ -1,47 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/slab.h> -#include "csr_wifi_router_prim.h" -#include "csr_wifi_router_lib.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrWifiRouterFreeUpstreamMessageContents - * - * DESCRIPTION - * - * - * PARAMETERS - * eventClass: only the value CSR_WIFI_ROUTER_PRIM will be handled - * message: the message to free - *----------------------------------------------------------------------------*/ -void CsrWifiRouterFreeUpstreamMessageContents(u16 eventClass, void *message) -{ - if (eventClass != CSR_WIFI_ROUTER_PRIM) - return; - if (NULL == message) - return; - switch (*((CsrWifiRouterPrim *) message)) { - case CSR_WIFI_ROUTER_MA_PACKET_IND: - { - CsrWifiRouterMaPacketInd *p = - (CsrWifiRouterMaPacketInd *) message; - kfree(p->frame); - p->frame = NULL; - break; - } - default: - break; - } -} - - diff --git a/drivers/staging/csr/csr_wifi_router_lib.h b/drivers/staging/csr/csr_wifi_router_lib.h deleted file mode 100644 index b0477c4..0000000 --- a/drivers/staging/csr/csr_wifi_router_lib.h +++ /dev/null @@ -1,417 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_LIB_H__ -#define CSR_WIFI_ROUTER_LIB_H__ - -#include "csr_sched.h" -#include "csr_macro.h" -#include "csr_msg_transport.h" - -#include "csr_wifi_lib.h" - -#include "csr_wifi_router_prim.h" -#include "csr_wifi_router_task.h" - -/*----------------------------------------------------------------------------* - * CsrWifiRouterFreeUpstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_ROUTER upstream message. Does not - * free the message itself, and can only be used for upstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_ROUTER upstream message - *----------------------------------------------------------------------------*/ -void CsrWifiRouterFreeUpstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * CsrWifiRouterFreeDownstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_ROUTER downstream message. Does not - * free the message itself, and can only be used for downstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_ROUTER downstream message - *----------------------------------------------------------------------------*/ -void CsrWifiRouterFreeDownstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * Enum to string functions - *----------------------------------------------------------------------------*/ -const char* CsrWifiRouterAppTypeToString(CsrWifiRouterAppType value); -const char* CsrWifiRouterEncapsulationToString(CsrWifiRouterEncapsulation value); -const char* CsrWifiRouterOuiToString(CsrWifiRouterOui value); -const char* CsrWifiRouterPriorityToString(CsrWifiRouterPriority value); - - -/*----------------------------------------------------------------------------* - * CsrPrim Type toString function. - * Converts a message type to the String name of the Message - *----------------------------------------------------------------------------*/ -const char* CsrWifiRouterPrimTypeToString(CsrPrim msgType); - -/*----------------------------------------------------------------------------* - * Lookup arrays for PrimType name Strings - *----------------------------------------------------------------------------*/ -extern const char *CsrWifiRouterUpstreamPrimNames[CSR_WIFI_ROUTER_PRIM_UPSTREAM_COUNT]; -extern const char *CsrWifiRouterDownstreamPrimNames[CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_COUNT]; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketCancelReqSend - - DESCRIPTION - This primitive is used to request cancellation of a previously send - CsrWifiRouterMaPacketReq. - The frame may already have been transmitted so there is no guarantees - that the CsrWifiRouterMaPacketCancelReq actually cancels the transmission - of the frame in question. - If the cancellation fails, the Router will send, if required, - CsrWifiRouterMaPacketCfm. - If the cancellation succeeds, the Router will not send - CsrWifiRouterMaPacketCfm. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - hostTag - The hostTag for the frame, which should be cancelled. - priority - Priority of the frame, which should be cancelled - peerMacAddress - Destination MAC address of the frame, which should be - cancelled - -*******************************************************************************/ -#define CsrWifiRouterMaPacketCancelReqCreate(msg__, dst__, src__, interfaceTag__, hostTag__, priority__, peerMacAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketCancelReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_CANCEL_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->hostTag = (hostTag__); \ - msg__->priority = (priority__); \ - msg__->peerMacAddress = (peerMacAddress__); - -#define CsrWifiRouterMaPacketCancelReqSendTo(dst__, src__, interfaceTag__, hostTag__, priority__, peerMacAddress__) \ - { \ - CsrWifiRouterMaPacketCancelReq *msg__; \ - CsrWifiRouterMaPacketCancelReqCreate(msg__, dst__, src__, interfaceTag__, hostTag__, priority__, peerMacAddress__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketCancelReqSend(src__, interfaceTag__, hostTag__, priority__, peerMacAddress__) \ - CsrWifiRouterMaPacketCancelReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, hostTag__, priority__, peerMacAddress__) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketReqSend - - DESCRIPTION - A task sends this primitive to transmit a frame. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - The handle of the subscription - frameLength - Length of the frame to be sent in bytes - frame - Pointer to the frame to be sent - freeFunction - Pointer to function to be used to free the frame - priority - Priority of the frame, which should be sent - hostTag - An application shall set the bits b31..b28 using one of - the CSR_WIFI_ROUTER_APP_TYPE_* masks. Bits b0..b27 can - be used by the requestor without any restrictions, but - the hostTag shall be unique so the hostTag for - CSR_WIFI_ROUTER_APP _TYPE_OTHER should be constructured - in the following way [ CSR_WIFI_ROUTER_APP_TYPE_OTHER - (4 bits) | SubscriptionHandle (8 bits) | Sequence no. - (20 bits) ]. If the hostTag is not unique, the - behaviour of the system is unpredicatable with respect - to data/management frame transfer. - cfmRequested - Indicates if the requestor needs a confirm for packet - requests sent under this subscription. If set to TRUE, - the router will send a confirm, else it will not send - any confirm - -*******************************************************************************/ -#define CsrWifiRouterMaPacketReqCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__, frameLength__, frame__, freeFunction__, priority__, hostTag__, cfmRequested__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->subscriptionHandle = (subscriptionHandle__); \ - msg__->frameLength = (frameLength__); \ - msg__->frame = (frame__); \ - msg__->freeFunction = (freeFunction__); \ - msg__->priority = (priority__); \ - msg__->hostTag = (hostTag__); \ - msg__->cfmRequested = (cfmRequested__); - -#define CsrWifiRouterMaPacketReqSendTo(dst__, src__, interfaceTag__, subscriptionHandle__, frameLength__, frame__, freeFunction__, priority__, hostTag__, cfmRequested__) \ - { \ - CsrWifiRouterMaPacketReq *msg__; \ - CsrWifiRouterMaPacketReqCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__, frameLength__, frame__, freeFunction__, priority__, hostTag__, cfmRequested__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketReqSend(src__, interfaceTag__, subscriptionHandle__, frameLength__, frame__, freeFunction__, priority__, hostTag__, cfmRequested__) \ - CsrWifiRouterMaPacketReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, subscriptionHandle__, frameLength__, frame__, freeFunction__, priority__, hostTag__, cfmRequested__) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketIndSend - - DESCRIPTION - The router sends the primitive to a subscribed task when it receives a - frame matching the subscription. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - The handle of the subscription - result - Status of the operation - frameLength - Length of the received frame in bytes - frame - Pointer to the received frame - freeFunction - Pointer to function to be used to free the frame - rssi - Received signal strength indication in dBm - snr - Signal to Noise Ratio - rate - Transmission/Reception rate - -*******************************************************************************/ -#define CsrWifiRouterMaPacketIndCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__, result__, frameLength__, frame__, freeFunction__, rssi__, snr__, rate__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->subscriptionHandle = (subscriptionHandle__); \ - msg__->result = (result__); \ - msg__->frameLength = (frameLength__); \ - msg__->frame = (frame__); \ - msg__->freeFunction = (freeFunction__); \ - msg__->rssi = (rssi__); \ - msg__->snr = (snr__); \ - msg__->rate = (rate__); - -#define CsrWifiRouterMaPacketIndSendTo(dst__, src__, interfaceTag__, subscriptionHandle__, result__, frameLength__, frame__, freeFunction__, rssi__, snr__, rate__) \ - { \ - CsrWifiRouterMaPacketInd *msg__; \ - CsrWifiRouterMaPacketIndCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__, result__, frameLength__, frame__, freeFunction__, rssi__, snr__, rate__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketIndSend(dst__, interfaceTag__, subscriptionHandle__, result__, frameLength__, frame__, freeFunction__, rssi__, snr__, rate__) \ - CsrWifiRouterMaPacketIndSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, interfaceTag__, subscriptionHandle__, result__, frameLength__, frame__, freeFunction__, rssi__, snr__, rate__) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketResSend - - DESCRIPTION - A task send this primitive to confirm the reception of the received - frame. - - PARAMETERS - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - The handle of the subscription - result - Status of the operation - -*******************************************************************************/ -#define CsrWifiRouterMaPacketResCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__, result__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketRes), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_RES, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->subscriptionHandle = (subscriptionHandle__); \ - msg__->result = (result__); - -#define CsrWifiRouterMaPacketResSendTo(dst__, src__, interfaceTag__, subscriptionHandle__, result__) \ - { \ - CsrWifiRouterMaPacketRes *msg__; \ - CsrWifiRouterMaPacketResCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__, result__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketResSend(src__, interfaceTag__, subscriptionHandle__, result__) \ - CsrWifiRouterMaPacketResSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, subscriptionHandle__, result__) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketCfmSend - - DESCRIPTION - The router sends the primitive to confirm the result of the transmission - of the packet of the corresponding CSR_WIFI_ROUTER MA_PACKET_REQ request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - result - Status of the operation - hostTag - The hostTrag will match the hostTag sent in the request. - rate - Transmission/Reception rate - -*******************************************************************************/ -#define CsrWifiRouterMaPacketCfmCreate(msg__, dst__, src__, interfaceTag__, result__, hostTag__, rate__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->result = (result__); \ - msg__->hostTag = (hostTag__); \ - msg__->rate = (rate__); - -#define CsrWifiRouterMaPacketCfmSendTo(dst__, src__, interfaceTag__, result__, hostTag__, rate__) \ - { \ - CsrWifiRouterMaPacketCfm *msg__; \ - CsrWifiRouterMaPacketCfmCreate(msg__, dst__, src__, interfaceTag__, result__, hostTag__, rate__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketCfmSend(dst__, interfaceTag__, result__, hostTag__, rate__) \ - CsrWifiRouterMaPacketCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, interfaceTag__, result__, hostTag__, rate__) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketSubscribeReqSend - - DESCRIPTION - A task can use this primitive to subscribe for a particular OUI/protocol - and transmit and receive frames matching the subscription. - NOTE: Multiple subscriptions for a given protocol and OUI will result in - the first subscription receiving the data and not the subsequent - subscriptions. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - encapsulation - Specifies the encapsulation type, which will be used for the - subscription - protocol - Together with the OUI, specifies the protocol, which a task - wants to subscribe to - oui - Specifies the OUI for the protocol, which a task wants to - subscribe to - -*******************************************************************************/ -#define CsrWifiRouterMaPacketSubscribeReqCreate(msg__, dst__, src__, interfaceTag__, encapsulation__, protocol__, oui__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketSubscribeReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_SUBSCRIBE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->encapsulation = (encapsulation__); \ - msg__->protocol = (protocol__); \ - msg__->oui = (oui__); - -#define CsrWifiRouterMaPacketSubscribeReqSendTo(dst__, src__, interfaceTag__, encapsulation__, protocol__, oui__) \ - { \ - CsrWifiRouterMaPacketSubscribeReq *msg__; \ - CsrWifiRouterMaPacketSubscribeReqCreate(msg__, dst__, src__, interfaceTag__, encapsulation__, protocol__, oui__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketSubscribeReqSend(src__, interfaceTag__, encapsulation__, protocol__, oui__) \ - CsrWifiRouterMaPacketSubscribeReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, encapsulation__, protocol__, oui__) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketSubscribeCfmSend - - DESCRIPTION - The router sends this primitive to confirm the result of the - subscription. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - Handle to the subscription - This handle must be used in all subsequent requests - status - Status of the operation - allocOffset - Size of the offset for the frames of the subscription - -*******************************************************************************/ -#define CsrWifiRouterMaPacketSubscribeCfmCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__, status__, allocOffset__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketSubscribeCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_SUBSCRIBE_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->subscriptionHandle = (subscriptionHandle__); \ - msg__->status = (status__); \ - msg__->allocOffset = (allocOffset__); - -#define CsrWifiRouterMaPacketSubscribeCfmSendTo(dst__, src__, interfaceTag__, subscriptionHandle__, status__, allocOffset__) \ - { \ - CsrWifiRouterMaPacketSubscribeCfm *msg__; \ - CsrWifiRouterMaPacketSubscribeCfmCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__, status__, allocOffset__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketSubscribeCfmSend(dst__, interfaceTag__, subscriptionHandle__, status__, allocOffset__) \ - CsrWifiRouterMaPacketSubscribeCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, interfaceTag__, subscriptionHandle__, status__, allocOffset__) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketUnsubscribeReqSend - - DESCRIPTION - A task sends this primitive to unsubscribe a subscription - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - The handle of the subscription - -*******************************************************************************/ -#define CsrWifiRouterMaPacketUnsubscribeReqCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketUnsubscribeReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_UNSUBSCRIBE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->subscriptionHandle = (subscriptionHandle__); - -#define CsrWifiRouterMaPacketUnsubscribeReqSendTo(dst__, src__, interfaceTag__, subscriptionHandle__) \ - { \ - CsrWifiRouterMaPacketUnsubscribeReq *msg__; \ - CsrWifiRouterMaPacketUnsubscribeReqCreate(msg__, dst__, src__, interfaceTag__, subscriptionHandle__); \ - CsrMsgTransport(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketUnsubscribeReqSend(src__, interfaceTag__, subscriptionHandle__) \ - CsrWifiRouterMaPacketUnsubscribeReqSendTo(CSR_WIFI_ROUTER_IFACEQUEUE, src__, interfaceTag__, subscriptionHandle__) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketUnsubscribeCfmSend - - DESCRIPTION - The router sends this primitive to confirm the result of the - unsubscription. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Status of the operation - -*******************************************************************************/ -#define CsrWifiRouterMaPacketUnsubscribeCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiRouterMaPacketUnsubscribeCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_ROUTER_PRIM, CSR_WIFI_ROUTER_MA_PACKET_UNSUBSCRIBE_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiRouterMaPacketUnsubscribeCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiRouterMaPacketUnsubscribeCfm *msg__; \ - CsrWifiRouterMaPacketUnsubscribeCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_ROUTER_PRIM, msg__); \ - } - -#define CsrWifiRouterMaPacketUnsubscribeCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiRouterMaPacketUnsubscribeCfmSendTo(dst__, CSR_WIFI_ROUTER_IFACEQUEUE, interfaceTag__, status__) - -#endif /* CSR_WIFI_ROUTER_LIB_H__ */ diff --git a/drivers/staging/csr/csr_wifi_router_prim.h b/drivers/staging/csr/csr_wifi_router_prim.h deleted file mode 100644 index c52344b..0000000 --- a/drivers/staging/csr/csr_wifi_router_prim.h +++ /dev/null @@ -1,421 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_PRIM_H__ -#define CSR_WIFI_ROUTER_PRIM_H__ - -#include <linux/types.h> -#include "csr_prim_defs.h" -#include "csr_sched.h" -#include "csr_wifi_common.h" -#include "csr_result.h" -#include "csr_wifi_fsm_event.h" - -#define CSR_WIFI_ROUTER_PRIM (0x0400) - -typedef CsrPrim CsrWifiRouterPrim; - -typedef void (*CsrWifiRouterFrameFreeFunction)(void *frame); - -/******************************************************************************* - - NAME - CsrWifiRouterAppType - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_APP_TYPE_SME - - CSR_WIFI_ROUTER_APP_TYPE_PAL - - CSR_WIFI_ROUTER_APP_TYPE_NME - - CSR_WIFI_ROUTER_APP_TYPE_OTHER - - -*******************************************************************************/ -typedef u8 CsrWifiRouterAppType; -#define CSR_WIFI_ROUTER_APP_TYPE_SME ((CsrWifiRouterAppType) 0x0) -#define CSR_WIFI_ROUTER_APP_TYPE_PAL ((CsrWifiRouterAppType) 0x1) -#define CSR_WIFI_ROUTER_APP_TYPE_NME ((CsrWifiRouterAppType) 0x2) -#define CSR_WIFI_ROUTER_APP_TYPE_OTHER ((CsrWifiRouterAppType) 0x3) - -/******************************************************************************* - - NAME - CsrWifiRouterEncapsulation - - DESCRIPTION - Indicates the type of encapsulation used for the subscription - - VALUES - CSR_WIFI_ROUTER_ENCAPSULATION_ETHERNET - - Ethernet encapsulation - CSR_WIFI_ROUTER_ENCAPSULATION_LLC_SNAP - - LLC/SNAP encapsulation - -*******************************************************************************/ -typedef u8 CsrWifiRouterEncapsulation; -#define CSR_WIFI_ROUTER_ENCAPSULATION_ETHERNET ((CsrWifiRouterEncapsulation) 0x00) -#define CSR_WIFI_ROUTER_ENCAPSULATION_LLC_SNAP ((CsrWifiRouterEncapsulation) 0x01) - -/******************************************************************************* - - NAME - CsrWifiRouterOui - - DESCRIPTION - - VALUES - CSR_WIFI_ROUTER_OUI_RFC_1042 - - CSR_WIFI_ROUTER_OUI_BT - - -*******************************************************************************/ -typedef u32 CsrWifiRouterOui; -#define CSR_WIFI_ROUTER_OUI_RFC_1042 ((CsrWifiRouterOui) 0x000000) -#define CSR_WIFI_ROUTER_OUI_BT ((CsrWifiRouterOui) 0x001958) - -/******************************************************************************* - - NAME - CsrWifiRouterPriority - - DESCRIPTION - As defined in the IEEE 802.11 standards - - VALUES - CSR_WIFI_ROUTER_PRIORITY_QOS_UP0 - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_QOS_UP1 - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_QOS_UP2 - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_QOS_UP3 - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_QOS_UP4 - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_QOS_UP5 - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_QOS_UP6 - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_QOS_UP7 - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_CONTENTION - - See IEEE 802.11 Standard - CSR_WIFI_ROUTER_PRIORITY_MANAGEMENT - - See IEEE 802.11 Standard - -*******************************************************************************/ -typedef u16 CsrWifiRouterPriority; -#define CSR_WIFI_ROUTER_PRIORITY_QOS_UP0 ((CsrWifiRouterPriority) 0x0000) -#define CSR_WIFI_ROUTER_PRIORITY_QOS_UP1 ((CsrWifiRouterPriority) 0x0001) -#define CSR_WIFI_ROUTER_PRIORITY_QOS_UP2 ((CsrWifiRouterPriority) 0x0002) -#define CSR_WIFI_ROUTER_PRIORITY_QOS_UP3 ((CsrWifiRouterPriority) 0x0003) -#define CSR_WIFI_ROUTER_PRIORITY_QOS_UP4 ((CsrWifiRouterPriority) 0x0004) -#define CSR_WIFI_ROUTER_PRIORITY_QOS_UP5 ((CsrWifiRouterPriority) 0x0005) -#define CSR_WIFI_ROUTER_PRIORITY_QOS_UP6 ((CsrWifiRouterPriority) 0x0006) -#define CSR_WIFI_ROUTER_PRIORITY_QOS_UP7 ((CsrWifiRouterPriority) 0x0007) -#define CSR_WIFI_ROUTER_PRIORITY_CONTENTION ((CsrWifiRouterPriority) 0x8000) -#define CSR_WIFI_ROUTER_PRIORITY_MANAGEMENT ((CsrWifiRouterPriority) 0x8010) - - -/* Downstream */ -#define CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST (0x0000) - -#define CSR_WIFI_ROUTER_MA_PACKET_SUBSCRIBE_REQ ((CsrWifiRouterPrim) (0x0000 + CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_MA_PACKET_UNSUBSCRIBE_REQ ((CsrWifiRouterPrim) (0x0001 + CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_MA_PACKET_REQ ((CsrWifiRouterPrim) (0x0002 + CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_MA_PACKET_RES ((CsrWifiRouterPrim) (0x0003 + CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_MA_PACKET_CANCEL_REQ ((CsrWifiRouterPrim) (0x0004 + CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST)) - - -#define CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_HIGHEST (0x0004 + CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST) - -/* Upstream */ -#define CSR_WIFI_ROUTER_PRIM_UPSTREAM_LOWEST (0x0000 + CSR_PRIM_UPSTREAM) - -#define CSR_WIFI_ROUTER_MA_PACKET_SUBSCRIBE_CFM ((CsrWifiRouterPrim)(0x0000 + CSR_WIFI_ROUTER_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_MA_PACKET_UNSUBSCRIBE_CFM ((CsrWifiRouterPrim)(0x0001 + CSR_WIFI_ROUTER_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_MA_PACKET_CFM ((CsrWifiRouterPrim)(0x0002 + CSR_WIFI_ROUTER_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_ROUTER_MA_PACKET_IND ((CsrWifiRouterPrim)(0x0003 + CSR_WIFI_ROUTER_PRIM_UPSTREAM_LOWEST)) - -#define CSR_WIFI_ROUTER_PRIM_UPSTREAM_HIGHEST (0x0003 + CSR_WIFI_ROUTER_PRIM_UPSTREAM_LOWEST) - -#define CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_COUNT (CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_HIGHEST + 1 - CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST) -#define CSR_WIFI_ROUTER_PRIM_UPSTREAM_COUNT (CSR_WIFI_ROUTER_PRIM_UPSTREAM_HIGHEST + 1 - CSR_WIFI_ROUTER_PRIM_UPSTREAM_LOWEST) - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketSubscribeReq - - DESCRIPTION - A task can use this primitive to subscribe for a particular OUI/protocol - and transmit and receive frames matching the subscription. - NOTE: Multiple subscriptions for a given protocol and OUI will result in - the first subscription receiving the data and not the subsequent - subscriptions. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - encapsulation - Specifies the encapsulation type, which will be used for the - subscription - protocol - Together with the OUI, specifies the protocol, which a task - wants to subscribe to - oui - Specifies the OUI for the protocol, which a task wants to - subscribe to - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiRouterEncapsulation encapsulation; - u16 protocol; - u32 oui; -} CsrWifiRouterMaPacketSubscribeReq; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketUnsubscribeReq - - DESCRIPTION - A task sends this primitive to unsubscribe a subscription - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - The handle of the subscription - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 subscriptionHandle; -} CsrWifiRouterMaPacketUnsubscribeReq; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketReq - - DESCRIPTION - A task sends this primitive to transmit a frame. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - The handle of the subscription - frameLength - Length of the frame to be sent in bytes - frame - Pointer to the frame to be sent - freeFunction - Pointer to function to be used to free the frame - priority - Priority of the frame, which should be sent - hostTag - An application shall set the bits b31..b28 using one of - the CSR_WIFI_ROUTER_APP_TYPE_* masks. Bits b0..b27 can - be used by the requestor without any restrictions, but - the hostTag shall be unique so the hostTag for - CSR_WIFI_ROUTER_APP _TYPE_OTHER should be constructured - in the following way [ CSR_WIFI_ROUTER_APP_TYPE_OTHER - (4 bits) | SubscriptionHandle (8 bits) | Sequence no. - (20 bits) ]. If the hostTag is not unique, the - behaviour of the system is unpredicatable with respect - to data/management frame transfer. - cfmRequested - Indicates if the requestor needs a confirm for packet - requests sent under this subscription. If set to TRUE, - the router will send a confirm, else it will not send - any confirm - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 subscriptionHandle; - u16 frameLength; - u8 *frame; - CsrWifiRouterFrameFreeFunction freeFunction; - CsrWifiRouterPriority priority; - u32 hostTag; - u8 cfmRequested; -} CsrWifiRouterMaPacketReq; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketRes - - DESCRIPTION - A task send this primitive to confirm the reception of the received - frame. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - The handle of the subscription - result - Status of the operation - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 subscriptionHandle; - CsrResult result; -} CsrWifiRouterMaPacketRes; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketCancelReq - - DESCRIPTION - This primitive is used to request cancellation of a previously send - CsrWifiRouterMaPacketReq. - The frame may already have been transmitted so there is no guarantees - that the CsrWifiRouterMaPacketCancelReq actually cancels the transmission - of the frame in question. - If the cancellation fails, the Router will send, if required, - CsrWifiRouterMaPacketCfm. - If the cancellation succeeds, the Router will not send - CsrWifiRouterMaPacketCfm. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - hostTag - The hostTag for the frame, which should be cancelled. - priority - Priority of the frame, which should be cancelled - peerMacAddress - Destination MAC address of the frame, which should be - cancelled - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u32 hostTag; - CsrWifiRouterPriority priority; - CsrWifiMacAddress peerMacAddress; -} CsrWifiRouterMaPacketCancelReq; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketSubscribeCfm - - DESCRIPTION - The router sends this primitive to confirm the result of the - subscription. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - Handle to the subscription - This handle must be used in all subsequent requests - status - Status of the operation - allocOffset - Size of the offset for the frames of the subscription - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 subscriptionHandle; - CsrResult status; - u16 allocOffset; -} CsrWifiRouterMaPacketSubscribeCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketUnsubscribeCfm - - DESCRIPTION - The router sends this primitive to confirm the result of the - unsubscription. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Status of the operation - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiRouterMaPacketUnsubscribeCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketCfm - - DESCRIPTION - The router sends the primitive to confirm the result of the transmission - of the packet of the corresponding CSR_WIFI_ROUTER MA_PACKET_REQ request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - result - Status of the operation - hostTag - The hostTrag will match the hostTag sent in the request. - rate - Transmission/Reception rate - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult result; - u32 hostTag; - u16 rate; -} CsrWifiRouterMaPacketCfm; - -/******************************************************************************* - - NAME - CsrWifiRouterMaPacketInd - - DESCRIPTION - The router sends the primitive to a subscribed task when it receives a - frame matching the subscription. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - subscriptionHandle - The handle of the subscription - result - Status of the operation - frameLength - Length of the received frame in bytes - frame - Pointer to the received frame - freeFunction - Pointer to function to be used to free the frame - rssi - Received signal strength indication in dBm - snr - Signal to Noise Ratio - rate - Transmission/Reception rate - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 subscriptionHandle; - CsrResult result; - u16 frameLength; - u8 *frame; - CsrWifiRouterFrameFreeFunction freeFunction; - s16 rssi; - s16 snr; - u16 rate; -} CsrWifiRouterMaPacketInd; - -#endif /* CSR_WIFI_ROUTER_PRIM_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_router_sef.c b/drivers/staging/csr/csr_wifi_router_sef.c deleted file mode 100644 index 45a10fb..0000000 --- a/drivers/staging/csr/csr_wifi_router_sef.c +++ /dev/null @@ -1,19 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - Confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - - *****************************************************************************/ -#include "csr_wifi_router_sef.h" - -const CsrWifiRouterStateHandlerType CsrWifiRouterDownstreamStateHandlers[CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_COUNT] = -{ - /* 0x0000 */ CsrWifiRouterMaPacketSubscribeReqHandler, - /* 0x0001 */ CsrWifiRouterMaPacketUnsubscribeReqHandler, - /* 0x0002 */ CsrWifiRouterMaPacketReqHandler, - /* 0x0003 */ CsrWifiRouterMaPacketResHandler, - /* 0x0004 */ CsrWifiRouterMaPacketCancelReqHandler, -}; diff --git a/drivers/staging/csr/csr_wifi_router_sef.h b/drivers/staging/csr/csr_wifi_router_sef.h deleted file mode 100644 index 86692c7..0000000 --- a/drivers/staging/csr/csr_wifi_router_sef.h +++ /dev/null @@ -1,25 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - Confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - - *****************************************************************************/ -#ifndef CSR_WIFI_ROUTER_SEF_CSR_WIFI_ROUTER_H__ -#define CSR_WIFI_ROUTER_SEF_CSR_WIFI_ROUTER_H__ - -#include "csr_wifi_router_prim.h" - - typedef void (*CsrWifiRouterStateHandlerType)(void* drvpriv, CsrWifiFsmEvent* msg); - - extern const CsrWifiRouterStateHandlerType CsrWifiRouterDownstreamStateHandlers[CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_COUNT]; - - extern void CsrWifiRouterMaPacketSubscribeReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterMaPacketUnsubscribeReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterMaPacketReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterMaPacketResHandler(void* drvpriv, CsrWifiFsmEvent* msg); - extern void CsrWifiRouterMaPacketCancelReqHandler(void* drvpriv, CsrWifiFsmEvent* msg); - -#endif /* CSR_WIFI_ROUTER_SEF_CSR_WIFI_ROUTER_H__ */ diff --git a/drivers/staging/csr/csr_wifi_router_serialize.c b/drivers/staging/csr/csr_wifi_router_serialize.c deleted file mode 100644 index 4eccf5d..0000000 --- a/drivers/staging/csr/csr_wifi_router_serialize.c +++ /dev/null @@ -1,418 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/slab.h> -#include "csr_msgconv.h" -#include "csr_wifi_router_prim.h" -#include "csr_wifi_router_serialize.h" - -void CsrWifiRouterPfree(void *ptr) -{ - kfree(ptr); -} - - -size_t CsrWifiRouterMaPacketSubscribeReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 12) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiRouterEncapsulation primitive->encapsulation */ - bufferSize += 2; /* u16 primitive->protocol */ - bufferSize += 4; /* u32 primitive->oui */ - return bufferSize; -} - - -u8* CsrWifiRouterMaPacketSubscribeReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterMaPacketSubscribeReq *primitive = (CsrWifiRouterMaPacketSubscribeReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->encapsulation); - CsrUint16Ser(ptr, len, (u16) primitive->protocol); - CsrUint32Ser(ptr, len, (u32) primitive->oui); - return(ptr); -} - - -void* CsrWifiRouterMaPacketSubscribeReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterMaPacketSubscribeReq *primitive = kmalloc(sizeof(CsrWifiRouterMaPacketSubscribeReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->encapsulation, buffer, &offset); - CsrUint16Des((u16 *) &primitive->protocol, buffer, &offset); - CsrUint32Des((u32 *) &primitive->oui, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterMaPacketReqSizeof(void *msg) -{ - CsrWifiRouterMaPacketReq *primitive = (CsrWifiRouterMaPacketReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 20) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* u8 primitive->subscriptionHandle */ - bufferSize += 2; /* u16 primitive->frameLength */ - bufferSize += primitive->frameLength; /* u8 primitive->frame */ - bufferSize += 4; /* CsrWifiRouterFrameFreeFunction primitive->freeFunction */ - bufferSize += 2; /* CsrWifiRouterPriority primitive->priority */ - bufferSize += 4; /* u32 primitive->hostTag */ - bufferSize += 1; /* u8 primitive->cfmRequested */ - return bufferSize; -} - - -u8* CsrWifiRouterMaPacketReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterMaPacketReq *primitive = (CsrWifiRouterMaPacketReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->subscriptionHandle); - CsrUint16Ser(ptr, len, (u16) primitive->frameLength); - if (primitive->frameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->frame, ((u16) (primitive->frameLength))); - } - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->freeFunction */ - CsrUint16Ser(ptr, len, (u16) primitive->priority); - CsrUint32Ser(ptr, len, (u32) primitive->hostTag); - CsrUint8Ser(ptr, len, (u8) primitive->cfmRequested); - return(ptr); -} - - -void* CsrWifiRouterMaPacketReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterMaPacketReq *primitive = kmalloc(sizeof(CsrWifiRouterMaPacketReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->subscriptionHandle, buffer, &offset); - CsrUint16Des((u16 *) &primitive->frameLength, buffer, &offset); - if (primitive->frameLength) - { - primitive->frame = kmalloc(primitive->frameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->frame, buffer, &offset, ((u16) (primitive->frameLength))); - } - else - { - primitive->frame = NULL; - } - primitive->freeFunction = NULL; /* Special for Function Pointers... */ - offset += 4; - CsrUint16Des((u16 *) &primitive->priority, buffer, &offset); - CsrUint32Des((u32 *) &primitive->hostTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->cfmRequested, buffer, &offset); - - return primitive; -} - - -void CsrWifiRouterMaPacketReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterMaPacketReq *primitive = (CsrWifiRouterMaPacketReq *) voidPrimitivePointer; - kfree(primitive->frame); - kfree(primitive); -} - - -size_t CsrWifiRouterMaPacketResSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* u8 primitive->subscriptionHandle */ - bufferSize += 2; /* CsrResult primitive->result */ - return bufferSize; -} - - -u8* CsrWifiRouterMaPacketResSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterMaPacketRes *primitive = (CsrWifiRouterMaPacketRes *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->subscriptionHandle); - CsrUint16Ser(ptr, len, (u16) primitive->result); - return(ptr); -} - - -void* CsrWifiRouterMaPacketResDes(u8 *buffer, size_t length) -{ - CsrWifiRouterMaPacketRes *primitive = kmalloc(sizeof(CsrWifiRouterMaPacketRes), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->subscriptionHandle, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterMaPacketCancelReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 17) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 4; /* u32 primitive->hostTag */ - bufferSize += 2; /* CsrWifiRouterPriority primitive->priority */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiRouterMaPacketCancelReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterMaPacketCancelReq *primitive = (CsrWifiRouterMaPacketCancelReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint32Ser(ptr, len, (u32) primitive->hostTag); - CsrUint16Ser(ptr, len, (u16) primitive->priority); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiRouterMaPacketCancelReqDes(u8 *buffer, size_t length) -{ - CsrWifiRouterMaPacketCancelReq *primitive = kmalloc(sizeof(CsrWifiRouterMaPacketCancelReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint32Des((u32 *) &primitive->hostTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->priority, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiRouterMaPacketSubscribeCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* u8 primitive->subscriptionHandle */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* u16 primitive->allocOffset */ - return bufferSize; -} - - -u8* CsrWifiRouterMaPacketSubscribeCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterMaPacketSubscribeCfm *primitive = (CsrWifiRouterMaPacketSubscribeCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->subscriptionHandle); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->allocOffset); - return(ptr); -} - - -void* CsrWifiRouterMaPacketSubscribeCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterMaPacketSubscribeCfm *primitive = kmalloc(sizeof(CsrWifiRouterMaPacketSubscribeCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->subscriptionHandle, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->allocOffset, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterMaPacketUnsubscribeCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiRouterMaPacketUnsubscribeCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterMaPacketUnsubscribeCfm *primitive = (CsrWifiRouterMaPacketUnsubscribeCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiRouterMaPacketUnsubscribeCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterMaPacketUnsubscribeCfm *primitive = kmalloc(sizeof(CsrWifiRouterMaPacketUnsubscribeCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterMaPacketCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->result */ - bufferSize += 4; /* u32 primitive->hostTag */ - bufferSize += 2; /* u16 primitive->rate */ - return bufferSize; -} - - -u8* CsrWifiRouterMaPacketCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterMaPacketCfm *primitive = (CsrWifiRouterMaPacketCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->result); - CsrUint32Ser(ptr, len, (u32) primitive->hostTag); - CsrUint16Ser(ptr, len, (u16) primitive->rate); - return(ptr); -} - - -void* CsrWifiRouterMaPacketCfmDes(u8 *buffer, size_t length) -{ - CsrWifiRouterMaPacketCfm *primitive = kmalloc(sizeof(CsrWifiRouterMaPacketCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result, buffer, &offset); - CsrUint32Des((u32 *) &primitive->hostTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->rate, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiRouterMaPacketIndSizeof(void *msg) -{ - CsrWifiRouterMaPacketInd *primitive = (CsrWifiRouterMaPacketInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 21) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* u8 primitive->subscriptionHandle */ - bufferSize += 2; /* CsrResult primitive->result */ - bufferSize += 2; /* u16 primitive->frameLength */ - bufferSize += primitive->frameLength; /* u8 primitive->frame */ - bufferSize += 4; /* CsrWifiRouterFrameFreeFunction primitive->freeFunction */ - bufferSize += 2; /* s16 primitive->rssi */ - bufferSize += 2; /* s16 primitive->snr */ - bufferSize += 2; /* u16 primitive->rate */ - return bufferSize; -} - - -u8* CsrWifiRouterMaPacketIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiRouterMaPacketInd *primitive = (CsrWifiRouterMaPacketInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->subscriptionHandle); - CsrUint16Ser(ptr, len, (u16) primitive->result); - CsrUint16Ser(ptr, len, (u16) primitive->frameLength); - if (primitive->frameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->frame, ((u16) (primitive->frameLength))); - } - CsrUint32Ser(ptr, len, 0); /* Special for Function Pointers... primitive->freeFunction */ - CsrUint16Ser(ptr, len, (u16) primitive->rssi); - CsrUint16Ser(ptr, len, (u16) primitive->snr); - CsrUint16Ser(ptr, len, (u16) primitive->rate); - return(ptr); -} - - -void* CsrWifiRouterMaPacketIndDes(u8 *buffer, size_t length) -{ - CsrWifiRouterMaPacketInd *primitive = kmalloc(sizeof(CsrWifiRouterMaPacketInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->subscriptionHandle, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result, buffer, &offset); - CsrUint16Des((u16 *) &primitive->frameLength, buffer, &offset); - if (primitive->frameLength) - { - primitive->frame = kmalloc(primitive->frameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->frame, buffer, &offset, ((u16) (primitive->frameLength))); - } - else - { - primitive->frame = NULL; - } - primitive->freeFunction = NULL; /* Special for Function Pointers... */ - offset += 4; - CsrUint16Des((u16 *) &primitive->rssi, buffer, &offset); - CsrUint16Des((u16 *) &primitive->snr, buffer, &offset); - CsrUint16Des((u16 *) &primitive->rate, buffer, &offset); - - return primitive; -} - - -void CsrWifiRouterMaPacketIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiRouterMaPacketInd *primitive = (CsrWifiRouterMaPacketInd *) voidPrimitivePointer; - kfree(primitive->frame); - kfree(primitive); -} - - diff --git a/drivers/staging/csr/csr_wifi_router_serialize.h b/drivers/staging/csr/csr_wifi_router_serialize.h deleted file mode 100644 index 94ccdac..0000000 --- a/drivers/staging/csr/csr_wifi_router_serialize.h +++ /dev/null @@ -1,67 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_SERIALIZE_H__ -#define CSR_WIFI_ROUTER_SERIALIZE_H__ - -#include "csr_wifi_msgconv.h" -#include "csr_wifi_router_prim.h" - -extern void CsrWifiRouterPfree(void *ptr); - -extern u8* CsrWifiRouterMaPacketSubscribeReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterMaPacketSubscribeReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterMaPacketSubscribeReqSizeof(void *msg); -#define CsrWifiRouterMaPacketSubscribeReqSerFree CsrWifiRouterPfree - -#define CsrWifiRouterMaPacketUnsubscribeReqSer CsrWifiEventCsrUint16CsrUint8Ser -#define CsrWifiRouterMaPacketUnsubscribeReqDes CsrWifiEventCsrUint16CsrUint8Des -#define CsrWifiRouterMaPacketUnsubscribeReqSizeof CsrWifiEventCsrUint16CsrUint8Sizeof -#define CsrWifiRouterMaPacketUnsubscribeReqSerFree CsrWifiRouterPfree - -extern u8* CsrWifiRouterMaPacketReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterMaPacketReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterMaPacketReqSizeof(void *msg); -extern void CsrWifiRouterMaPacketReqSerFree(void *msg); - -extern u8* CsrWifiRouterMaPacketResSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterMaPacketResDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterMaPacketResSizeof(void *msg); -#define CsrWifiRouterMaPacketResSerFree CsrWifiRouterPfree - -extern u8* CsrWifiRouterMaPacketCancelReqSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterMaPacketCancelReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterMaPacketCancelReqSizeof(void *msg); -#define CsrWifiRouterMaPacketCancelReqSerFree CsrWifiRouterPfree - -extern u8* CsrWifiRouterMaPacketSubscribeCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterMaPacketSubscribeCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterMaPacketSubscribeCfmSizeof(void *msg); -#define CsrWifiRouterMaPacketSubscribeCfmSerFree CsrWifiRouterPfree - -extern u8* CsrWifiRouterMaPacketUnsubscribeCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterMaPacketUnsubscribeCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterMaPacketUnsubscribeCfmSizeof(void *msg); -#define CsrWifiRouterMaPacketUnsubscribeCfmSerFree CsrWifiRouterPfree - -extern u8* CsrWifiRouterMaPacketCfmSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterMaPacketCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterMaPacketCfmSizeof(void *msg); -#define CsrWifiRouterMaPacketCfmSerFree CsrWifiRouterPfree - -extern u8* CsrWifiRouterMaPacketIndSer(u8 *ptr, size_t *len, void *msg); -extern void* CsrWifiRouterMaPacketIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiRouterMaPacketIndSizeof(void *msg); -extern void CsrWifiRouterMaPacketIndSerFree(void *msg); - -#endif /* CSR_WIFI_ROUTER_SERIALIZE_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_router_task.h b/drivers/staging/csr/csr_wifi_router_task.h deleted file mode 100644 index 9ba892f..0000000 --- a/drivers/staging/csr/csr_wifi_router_task.h +++ /dev/null @@ -1,25 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_ROUTER_TASK_H__ -#define CSR_WIFI_ROUTER_TASK_H__ - -#include "csr_sched.h" - -#define CSR_WIFI_ROUTER_LOG_ID 0x1201FFFF -extern CsrSchedQid CSR_WIFI_ROUTER_IFACEQUEUE; -void CsrWifiRouterInit(void **gash); -void CsrWifiRouterDeinit(void **gash); -void CsrWifiRouterHandler(void **gash); - -#endif /* CSR_WIFI_ROUTER_TASK_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_router_transport.c b/drivers/staging/csr/csr_wifi_router_transport.c deleted file mode 100644 index e905ead..0000000 --- a/drivers/staging/csr/csr_wifi_router_transport.c +++ /dev/null @@ -1,199 +0,0 @@ -/** @file router_transport.c - * - * - * Copyright (C) Cambridge Silicon Radio Ltd 2006-2010. All rights reserved. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - ****************************************************************************/ - -#include "unifi_priv.h" - -#include "csr_sched.h" -#include "csr_msgconv.h" - -#include "sme_userspace.h" - -#include "csr_wifi_hostio_prim.h" -#include "csr_wifi_router_lib.h" -#include "csr_wifi_router_sef.h" -#include "csr_wifi_router_converter_init.h" -#include "csr_wifi_router_ctrl_lib.h" -#include "csr_wifi_router_ctrl_sef.h" -#include "csr_wifi_router_ctrl_converter_init.h" -#include "csr_wifi_sme_prim.h" -#include "csr_wifi_sme_sef.h" -#include "csr_wifi_sme_converter_init.h" -#ifdef CSR_SUPPORT_WEXT -#ifdef CSR_SUPPORT_WEXT_AP -#include "csr_wifi_nme_ap_prim.h" -#include "csr_wifi_nme_ap_sef.h" -#include "csr_wifi_nme_ap_converter_init.h" -#endif -#endif - -static unifi_priv_t *drvpriv = NULL; -void CsrWifiRouterTransportInit(unifi_priv_t *priv) -{ - unifi_trace(priv, UDBG1, "CsrWifiRouterTransportInit: \n"); - - drvpriv = priv; - (void)CsrMsgConvInit(); - CsrWifiRouterConverterInit(); - CsrWifiRouterCtrlConverterInit(); - CsrWifiSmeConverterInit(); -#ifdef CSR_SUPPORT_WEXT -#ifdef CSR_SUPPORT_WEXT_AP - CsrWifiNmeApConverterInit(); -#endif -#endif -} - -void CsrWifiRouterTransportRecv(unifi_priv_t *priv, u8* buffer, size_t bufferLength) -{ - CsrMsgConvMsgEntry* msgEntry; - u16 primType; - CsrSchedQid src; - CsrSchedQid dest; - u16 msgType; - size_t offset = 0; - CsrWifiFsmEvent* msg; - - /* Decode the prim and message type */ - CsrUint16Des(&primType, buffer, &offset); - CsrUint16Des(&src, buffer, &offset); - CsrUint16Des(&dest, buffer, &offset); - CsrUint16Des(&msgType, buffer, &offset); - offset -= 2; /* Adjust as the Deserialise Function will read this as well */ - - unifi_trace(priv, UDBG4, "CsrWifiRouterTransportRecv: primType=0x%.4X, msgType=0x%.4X, bufferLength=%d\n", - primType, msgType, bufferLength); - - /* Special handling for HOSTIO messages.... */ - if (primType == CSR_WIFI_HOSTIO_PRIM) - { - CsrWifiRouterCtrlHipReq req = {{CSR_WIFI_ROUTER_CTRL_HIP_REQ, CSR_WIFI_ROUTER_CTRL_PRIM, dest, src, NULL}, 0, NULL, 0, NULL, 0, NULL}; - - req.mlmeCommandLength = bufferLength; - req.mlmeCommand = buffer; - - offset += 8;/* Skip the id, src, dest and slot number */ - CsrUint16Des(&req.dataRef1Length, buffer, &offset); - offset += 2; /* Skip the slot number */ - CsrUint16Des(&req.dataRef2Length, buffer, &offset); - - if (req.dataRef1Length) - { - u16 dr1Offset = (bufferLength - req.dataRef2Length) - req.dataRef1Length; - req.dataRef1 = &buffer[dr1Offset]; - } - - if (req.dataRef2Length) - { - u16 dr2Offset = bufferLength - req.dataRef2Length; - req.dataRef2 = &buffer[dr2Offset]; - } - - /* Copy the hip data but strip off the prim type */ - req.mlmeCommandLength -= (req.dataRef1Length + req.dataRef2Length + 6); - req.mlmeCommand = &buffer[6]; - - CsrWifiRouterCtrlHipReqHandler(priv, &req.common); - return; - } - - msgEntry = CsrMsgConvFindEntry(primType, msgType); - if (!msgEntry) - { - unifi_error(priv, "CsrWifiRouterTransportDeserialiseAndSend can not process the message. primType=0x%.4X, msgType=0x%.4X\n", - primType, msgType); - dump(buffer, bufferLength); - return; - } - - msg = (CsrWifiFsmEvent*)(msgEntry->deserFunc)(&buffer[offset], bufferLength - offset); - - msg->primtype = primType; - msg->type = msgType; - msg->source = src; - msg->destination = dest; - - switch(primType) - { - case CSR_WIFI_ROUTER_CTRL_PRIM: - CsrWifiRouterCtrlDownstreamStateHandlers[msg->type - CSR_WIFI_ROUTER_CTRL_PRIM_DOWNSTREAM_LOWEST](priv, msg); - CsrWifiRouterCtrlFreeDownstreamMessageContents(CSR_WIFI_ROUTER_CTRL_PRIM, msg); - break; - case CSR_WIFI_ROUTER_PRIM: - CsrWifiRouterDownstreamStateHandlers[msg->type - CSR_WIFI_ROUTER_PRIM_DOWNSTREAM_LOWEST](priv, msg); - CsrWifiRouterFreeDownstreamMessageContents(CSR_WIFI_ROUTER_PRIM, msg); - break; - case CSR_WIFI_SME_PRIM: - CsrWifiSmeUpstreamStateHandlers[msg->type - CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST](priv, msg); - CsrWifiSmeFreeUpstreamMessageContents(CSR_WIFI_SME_PRIM, msg); - break; -#ifdef CSR_SUPPORT_WEXT -#ifdef CSR_SUPPORT_WEXT_AP - case CSR_WIFI_NME_AP_PRIM: - CsrWifiNmeApUpstreamStateHandlers(priv, msg); - CsrWifiNmeApFreeUpstreamMessageContents(CSR_WIFI_NME_AP_PRIM, msg); - break; -#endif -#endif - default: - unifi_error(priv, "CsrWifiRouterTransportDeserialiseAndSend unhandled prim type 0x%.4X\n", primType); - break; - } - kfree(msg); -} - -static void CsrWifiRouterTransportSerialiseAndSend(u16 primType, void* msg) -{ - CsrWifiFsmEvent* evt = (CsrWifiFsmEvent*)msg; - CsrMsgConvMsgEntry* msgEntry; - size_t msgSize; - size_t encodeBufferLen = 0; - size_t offset = 0; - u8* encodeBuffer; - - unifi_trace(drvpriv, UDBG4, "CsrWifiRouterTransportSerialiseAndSend: primType=0x%.4X, msgType=0x%.4X\n", - primType, evt->type); - - msgEntry = CsrMsgConvFindEntry(primType, evt->type); - if (!msgEntry) - { - unifi_error(drvpriv, "CsrWifiRouterTransportSerialiseAndSend can not process the message. primType=0x%.4X, msgType=0x%.4X\n", - primType, evt->type); - return; - } - - msgSize = 6 + (msgEntry->sizeofFunc)((void*)msg); - - encodeBuffer = kmalloc(msgSize, GFP_KERNEL); - - /* Encode PrimType */ - CsrUint16Ser(encodeBuffer, &encodeBufferLen, primType); - CsrUint16Ser(encodeBuffer, &encodeBufferLen, evt->source); - CsrUint16Ser(encodeBuffer, &encodeBufferLen, evt->destination); - - (void)(msgEntry->serFunc)(&encodeBuffer[encodeBufferLen], &offset, msg); - encodeBufferLen += offset; - - uf_sme_queue_message(drvpriv, encodeBuffer, encodeBufferLen); - - /* Do not use msgEntry->freeFunc because the memory is owned by the driver */ - kfree(msg); -} - -#if defined(CSR_LOG_ENABLE) && defined(CSR_LOG_INCLUDE_FILE_NAME_AND_LINE_NUMBER) -void CsrSchedMessagePutStringLog(CsrSchedQid q, u16 mi, void *mv, u32 line, char *file) -#else -void CsrSchedMessagePut(CsrSchedQid q, u16 mi, void *mv) -#endif -{ - CsrWifiFsmEvent* evt = (CsrWifiFsmEvent*)mv; - evt->destination = q; - CsrWifiRouterTransportSerialiseAndSend(mi, mv); -} - diff --git a/drivers/staging/csr/csr_wifi_serialize_primitive_types.c b/drivers/staging/csr/csr_wifi_serialize_primitive_types.c deleted file mode 100644 index dd93d00..0000000 --- a/drivers/staging/csr/csr_wifi_serialize_primitive_types.c +++ /dev/null @@ -1,256 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#include <linux/module.h> -#include <linux/slab.h> -#include "csr_macro.h" -#include "csr_msgconv.h" -#include "csr_wifi_msgconv.h" -#include "csr_wifi_lib.h" - -void CsrUint24Des(u32 *v, u8 *buffer, size_t *offset) -{ - u32 val; - - val = ((buffer[(*offset) + 2] << 16) | - (buffer[(*offset) + 1] << 8) | - (buffer[(*offset)])); - - *offset += 3; - *v = val; -} - - -/* Big endian :e.g WSC, TCLAS */ -void CsrUint16DesBigEndian(u16 *v, u8 *buffer, size_t *offset) -{ - u16 val; - - val = (buffer[(*offset)] << 8) | (buffer[(*offset) + 1]); - *offset += 2; - - *v = val; -} - - -void CsrUint24DesBigEndian(u32 *v, u8 *buffer, size_t *offset) -{ - u32 val; - - val = ((buffer[(*offset)] << 16) | - (buffer[(*offset) + 1] << 8) | - (buffer[(*offset) + 2])); - - *offset += 3; - *v = val; -} - - -void CsrUint32DesBigEndian(u32 *v, u8 *buffer, size_t *offset) -{ - u32 val; - - val = ((buffer[(*offset)] << 24) | - (buffer[(*offset) + 1] << 16) | - (buffer[(*offset) + 2] << 8) | - (buffer[(*offset) + 3])); - - *offset += 4; - *v = val; -} - - -void CsrUint24Ser(u8 *ptr, size_t *len, u32 v) -{ - ptr[(*len) + 2] = (u8)((v & 0x00ff0000) >> 16); - ptr[(*len) + 1] = (u8)((v & 0x0000ff00) >> 8); - ptr[(*len)] = (u8)((v & 0x000000ff)); - - *len += 3; -} - - -/* Big endian :e.g WSC, TCLAS */ -void CsrUint16SerBigEndian(u8 *ptr, size_t *len, u16 v) -{ - ptr[(*len)] = (u8)((v & 0xff00) >> 8); - ptr[(*len) + 1] = (u8)((v & 0x00ff)); - - *len += 2; -} - - -void CsrUint32SerBigEndian(u8 *ptr, size_t *len, u32 v) -{ - ptr[(*len)] = (u8)((v & 0xff000000) >> 24); - ptr[(*len) + 1] = (u8)((v & 0x00ff0000) >> 16); - ptr[(*len) + 2] = (u8)((v & 0x0000ff00) >> 8); - ptr[(*len) + 3] = (u8)((v & 0x000000ff)); - - *len += 4; -} - - -void CsrUint24SerBigEndian(u8 *ptr, size_t *len, u32 v) -{ - ptr[(*len)] = (u8)((v & 0x00ff0000) >> 16); - ptr[(*len) + 1] = (u8)((v & 0x0000ff00) >> 8); - ptr[(*len) + 2] = (u8)((v & 0x000000ff)); - - *len += 3; -} - - -size_t CsrWifiEventSizeof(void *msg) -{ - return 2; -} -EXPORT_SYMBOL_GPL(CsrWifiEventSizeof); - -u8* CsrWifiEventSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiFsmEvent *primitive = (CsrWifiFsmEvent *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->type); - return(ptr); -} -EXPORT_SYMBOL_GPL(CsrWifiEventSer); - -void* CsrWifiEventDes(u8 *buffer, size_t length) -{ - CsrWifiFsmEvent *primitive = kmalloc(sizeof(CsrWifiFsmEvent), GFP_KERNEL); - size_t offset = 0; - CsrUint16Des(&primitive->type, buffer, &offset); - - return primitive; -} -EXPORT_SYMBOL_GPL(CsrWifiEventDes); - -size_t CsrWifiEventCsrUint8Sizeof(void *msg) -{ - return 3; -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint8Sizeof); - -u8* CsrWifiEventCsrUint8Ser(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiEventCsrUint8 *primitive = (CsrWifiEventCsrUint8 *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint8Ser(ptr, len, primitive->value); - return(ptr); -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint8Ser); - - -void* CsrWifiEventCsrUint8Des(u8 *buffer, size_t length) -{ - CsrWifiEventCsrUint8 *primitive = kmalloc(sizeof(CsrWifiEventCsrUint8), GFP_KERNEL); - - size_t offset = 0; - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint8Des(&primitive->value, buffer, &offset); - - return primitive; -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint8Des); - - -size_t CsrWifiEventCsrUint16Sizeof(void *msg) -{ - return 4; -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint16Sizeof); - - -u8* CsrWifiEventCsrUint16Ser(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiEventCsrUint16 *primitive = (CsrWifiEventCsrUint16 *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, primitive->value); - return(ptr); -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint16Ser); - -void* CsrWifiEventCsrUint16Des(u8 *buffer, size_t length) -{ - CsrWifiEventCsrUint16 *primitive = kmalloc(sizeof(CsrWifiEventCsrUint16), GFP_KERNEL); - - size_t offset = 0; - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des(&primitive->value, buffer, &offset); - - return primitive; -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint16Des); - - -size_t CsrWifiEventCsrUint32Sizeof(void *msg) -{ - return 6; -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint32Sizeof); - -u8* CsrWifiEventCsrUint32Ser(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiEventCsrUint32 *primitive = (CsrWifiEventCsrUint32 *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint32Ser(ptr, len, primitive->value); - return(ptr); -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint32Ser); - - -void* CsrWifiEventCsrUint32Des(u8 *buffer, size_t length) -{ - CsrWifiEventCsrUint32 *primitive = kmalloc(sizeof(CsrWifiEventCsrUint32), GFP_KERNEL); - - size_t offset = 0; - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint32Des(&primitive->value, buffer, &offset); - - return primitive; -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint32Des); - -size_t CsrWifiEventCsrUint16CsrUint8Sizeof(void *msg) -{ - return 5; -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint16CsrUint8Sizeof); - -u8* CsrWifiEventCsrUint16CsrUint8Ser(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiEventCsrUint16CsrUint8 *primitive = (CsrWifiEventCsrUint16CsrUint8 *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, primitive->value16); - CsrUint8Ser(ptr, len, primitive->value8); - return(ptr); -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint16CsrUint8Ser); - - -void* CsrWifiEventCsrUint16CsrUint8Des(u8 *buffer, size_t length) -{ - CsrWifiEventCsrUint16CsrUint8 *primitive = kmalloc(sizeof(CsrWifiEventCsrUint16CsrUint8), GFP_KERNEL); - - size_t offset = 0; - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des(&primitive->value16, buffer, &offset); - CsrUint8Des(&primitive->value8, buffer, &offset); - - return primitive; -} -EXPORT_SYMBOL_GPL(CsrWifiEventCsrUint16CsrUint8Des); - - diff --git a/drivers/staging/csr/csr_wifi_sme_ap_lib.h b/drivers/staging/csr/csr_wifi_sme_ap_lib.h deleted file mode 100644 index 48ea914..0000000 --- a/drivers/staging/csr/csr_wifi_sme_ap_lib.h +++ /dev/null @@ -1,774 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_SME_AP_LIB_H__ -#define CSR_WIFI_SME_AP_LIB_H__ - -#include "csr_sched.h" -#include "csr_macro.h" -#include "csr_msg_transport.h" - -#include "csr_wifi_lib.h" - -#include "csr_wifi_sme_ap_prim.h" -#include "csr_wifi_sme_task.h" - -#ifndef CSR_WIFI_AP_ENABLE -#error CSR_WIFI_AP_ENABLE MUST be defined inorder to use csr_wifi_sme_ap_lib.h -#endif - -/*----------------------------------------------------------------------------* - * CsrWifiSmeApFreeUpstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_SME_AP upstream message. Does not - * free the message itself, and can only be used for upstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_SME_AP upstream message - *----------------------------------------------------------------------------*/ -void CsrWifiSmeApFreeUpstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * CsrWifiSmeApFreeDownstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_SME_AP downstream message. Does not - * free the message itself, and can only be used for downstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_SME_AP downstream message - *----------------------------------------------------------------------------*/ -void CsrWifiSmeApFreeDownstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * Enum to string functions - *----------------------------------------------------------------------------*/ -const char* CsrWifiSmeApAccessTypeToString(CsrWifiSmeApAccessType value); -const char* CsrWifiSmeApAuthSupportToString(CsrWifiSmeApAuthSupport value); -const char* CsrWifiSmeApAuthTypeToString(CsrWifiSmeApAuthType value); -const char* CsrWifiSmeApDirectionToString(CsrWifiSmeApDirection value); -const char* CsrWifiSmeApPhySupportToString(CsrWifiSmeApPhySupport value); -const char* CsrWifiSmeApTypeToString(CsrWifiSmeApType value); - - -/*----------------------------------------------------------------------------* - * CsrPrim Type toString function. - * Converts a message type to the String name of the Message - *----------------------------------------------------------------------------*/ -const char* CsrWifiSmeApPrimTypeToString(CsrPrim msgType); - -/*----------------------------------------------------------------------------* - * Lookup arrays for PrimType name Strings - *----------------------------------------------------------------------------*/ -extern const char *CsrWifiSmeApUpstreamPrimNames[CSR_WIFI_SME_AP_PRIM_UPSTREAM_COUNT]; -extern const char *CsrWifiSmeApDownstreamPrimNames[CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_COUNT]; - -/******************************************************************************* - - NAME - CsrWifiSmeApActiveBaGetReqSend - - DESCRIPTION - This primitive used to retrieve information related to the active block - ack sessions - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - -*******************************************************************************/ -#define CsrWifiSmeApActiveBaGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApActiveBaGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_ACTIVE_BA_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeApActiveBaGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeApActiveBaGetReq *msg__; \ - CsrWifiSmeApActiveBaGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApActiveBaGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeApActiveBaGetReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeApActiveBaGetCfmSend - - DESCRIPTION - This primitive carries the information related to the active ba sessions - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - status - Reports the result of the request - activeBaCount - Number of active block ack session - activeBaSessions - Points to a buffer containing an array of - CsrWifiSmeApBaSession structures. - -*******************************************************************************/ -#define CsrWifiSmeApActiveBaGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, activeBaCount__, activeBaSessions__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApActiveBaGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_ACTIVE_BA_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->activeBaCount = (activeBaCount__); \ - msg__->activeBaSessions = (activeBaSessions__); - -#define CsrWifiSmeApActiveBaGetCfmSendTo(dst__, src__, interfaceTag__, status__, activeBaCount__, activeBaSessions__) \ - { \ - CsrWifiSmeApActiveBaGetCfm *msg__; \ - CsrWifiSmeApActiveBaGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, activeBaCount__, activeBaSessions__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApActiveBaGetCfmSend(dst__, interfaceTag__, status__, activeBaCount__, activeBaSessions__) \ - CsrWifiSmeApActiveBaGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, activeBaCount__, activeBaSessions__) - -/******************************************************************************* - - NAME - CsrWifiSmeApBaDeleteReqSend - - DESCRIPTION - This primitive is used to delete an active block ack session - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - reason - - baSession - BA session to be deleted - -*******************************************************************************/ -#define CsrWifiSmeApBaDeleteReqCreate(msg__, dst__, src__, interfaceTag__, reason__, baSession__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApBaDeleteReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_BA_DELETE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->reason = (reason__); \ - msg__->baSession = (baSession__); - -#define CsrWifiSmeApBaDeleteReqSendTo(dst__, src__, interfaceTag__, reason__, baSession__) \ - { \ - CsrWifiSmeApBaDeleteReq *msg__; \ - CsrWifiSmeApBaDeleteReqCreate(msg__, dst__, src__, interfaceTag__, reason__, baSession__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApBaDeleteReqSend(src__, interfaceTag__, reason__, baSession__) \ - CsrWifiSmeApBaDeleteReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, interfaceTag__, reason__, baSession__) - -/******************************************************************************* - - NAME - CsrWifiSmeApBaDeleteCfmSend - - DESCRIPTION - This primitive confirms the BA is deleted - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - status - Reports the result of the request - baSession - deleted BA session - -*******************************************************************************/ -#define CsrWifiSmeApBaDeleteCfmCreate(msg__, dst__, src__, interfaceTag__, status__, baSession__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApBaDeleteCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_BA_DELETE_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->baSession = (baSession__); - -#define CsrWifiSmeApBaDeleteCfmSendTo(dst__, src__, interfaceTag__, status__, baSession__) \ - { \ - CsrWifiSmeApBaDeleteCfm *msg__; \ - CsrWifiSmeApBaDeleteCfmCreate(msg__, dst__, src__, interfaceTag__, status__, baSession__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApBaDeleteCfmSend(dst__, interfaceTag__, status__, baSession__) \ - CsrWifiSmeApBaDeleteCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, baSession__) - -/******************************************************************************* - - NAME - CsrWifiSmeApBeaconingStartReqSend - - DESCRIPTION - This primitive requests the SME to start AP or GO functionality - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - initialPresence - Set to 0, if Not in a group fomration phase, set to 1 , - during group formation phase - apType - apType : Legacy AP or P2PGO - cloakSsid - cloakSsid flag. - ssid - ssid. - ifIndex - Radio Interface - channel - channel. - maxConnections - Maximum Stations + P2PClients allowed - apCredentials - AP security credeitals used to advertise in beacon /probe - response - smeApConfig - AP configuration - p2pGoParam - P2P specific GO parameters. Ignored if it is a leagacy AP - -*******************************************************************************/ -#define CsrWifiSmeApBeaconingStartReqCreate(msg__, dst__, src__, interfaceTag__, initialPresence__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, maxConnections__, apCredentials__, smeApConfig__, p2pGoParam__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApBeaconingStartReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_BEACONING_START_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->initialPresence = (initialPresence__); \ - msg__->apType = (apType__); \ - msg__->cloakSsid = (cloakSsid__); \ - msg__->ssid = (ssid__); \ - msg__->ifIndex = (ifIndex__); \ - msg__->channel = (channel__); \ - msg__->maxConnections = (maxConnections__); \ - msg__->apCredentials = (apCredentials__); \ - msg__->smeApConfig = (smeApConfig__); \ - msg__->p2pGoParam = (p2pGoParam__); - -#define CsrWifiSmeApBeaconingStartReqSendTo(dst__, src__, interfaceTag__, initialPresence__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, maxConnections__, apCredentials__, smeApConfig__, p2pGoParam__) \ - { \ - CsrWifiSmeApBeaconingStartReq *msg__; \ - CsrWifiSmeApBeaconingStartReqCreate(msg__, dst__, src__, interfaceTag__, initialPresence__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, maxConnections__, apCredentials__, smeApConfig__, p2pGoParam__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApBeaconingStartReqSend(src__, interfaceTag__, initialPresence__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, maxConnections__, apCredentials__, smeApConfig__, p2pGoParam__) \ - CsrWifiSmeApBeaconingStartReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, interfaceTag__, initialPresence__, apType__, cloakSsid__, ssid__, ifIndex__, channel__, maxConnections__, apCredentials__, smeApConfig__, p2pGoParam__) - -/******************************************************************************* - - NAME - CsrWifiSmeApBeaconingStartCfmSend - - DESCRIPTION - This primitive confirms the completion of the request along with the - status - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - status - - secIeLength - - secIe - - -*******************************************************************************/ -#define CsrWifiSmeApBeaconingStartCfmCreate(msg__, dst__, src__, interfaceTag__, status__, secIeLength__, secIe__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApBeaconingStartCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_BEACONING_START_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->secIeLength = (secIeLength__); \ - msg__->secIe = (secIe__); - -#define CsrWifiSmeApBeaconingStartCfmSendTo(dst__, src__, interfaceTag__, status__, secIeLength__, secIe__) \ - { \ - CsrWifiSmeApBeaconingStartCfm *msg__; \ - CsrWifiSmeApBeaconingStartCfmCreate(msg__, dst__, src__, interfaceTag__, status__, secIeLength__, secIe__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApBeaconingStartCfmSend(dst__, interfaceTag__, status__, secIeLength__, secIe__) \ - CsrWifiSmeApBeaconingStartCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, secIeLength__, secIe__) - -/******************************************************************************* - - NAME - CsrWifiSmeApBeaconingStopReqSend - - DESCRIPTION - This primitive requests the SME to STOP AP or P2PGO operation - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - -*******************************************************************************/ -#define CsrWifiSmeApBeaconingStopReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApBeaconingStopReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_BEACONING_STOP_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeApBeaconingStopReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeApBeaconingStopReq *msg__; \ - CsrWifiSmeApBeaconingStopReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApBeaconingStopReqSend(src__, interfaceTag__) \ - CsrWifiSmeApBeaconingStopReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeApBeaconingStopCfmSend - - DESCRIPTION - This primitive confirms AP or P2PGO operation is terminated - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiSmeApBeaconingStopCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApBeaconingStopCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_BEACONING_STOP_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeApBeaconingStopCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeApBeaconingStopCfm *msg__; \ - CsrWifiSmeApBeaconingStopCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApBeaconingStopCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeApBeaconingStopCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeApErrorIndSend - - DESCRIPTION - This primitve is sent by SME to indicate some error in AP operationi - after AP operations were started successfully and continuing the AP - operation may lead to undesired behaviour. It is the responsibility of - the upper layers to stop AP operation if needed - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Range 0-1 - apType - - status - Contains the error status - -*******************************************************************************/ -#define CsrWifiSmeApErrorIndCreate(msg__, dst__, src__, interfaceTag__, apType__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApErrorInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_ERROR_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->apType = (apType__); \ - msg__->status = (status__); - -#define CsrWifiSmeApErrorIndSendTo(dst__, src__, interfaceTag__, apType__, status__) \ - { \ - CsrWifiSmeApErrorInd *msg__; \ - CsrWifiSmeApErrorIndCreate(msg__, dst__, src__, interfaceTag__, apType__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApErrorIndSend(dst__, interfaceTag__, apType__, status__) \ - CsrWifiSmeApErrorIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, apType__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeApStaConnectStartIndSend - - DESCRIPTION - This primitive indicates that a stations request to join the group/BSS is - accepted - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - peerMacAddress - - -*******************************************************************************/ -#define CsrWifiSmeApStaConnectStartIndCreate(msg__, dst__, src__, interfaceTag__, peerMacAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApStaConnectStartInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_STA_CONNECT_START_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->peerMacAddress = (peerMacAddress__); - -#define CsrWifiSmeApStaConnectStartIndSendTo(dst__, src__, interfaceTag__, peerMacAddress__) \ - { \ - CsrWifiSmeApStaConnectStartInd *msg__; \ - CsrWifiSmeApStaConnectStartIndCreate(msg__, dst__, src__, interfaceTag__, peerMacAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApStaConnectStartIndSend(dst__, interfaceTag__, peerMacAddress__) \ - CsrWifiSmeApStaConnectStartIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, peerMacAddress__) - -/******************************************************************************* - - NAME - CsrWifiSmeApStaDisconnectReqSend - - DESCRIPTION - This primitive tells SME to deauth ot disassociate a particular station - within BSS - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - deauthReason - - disassocReason - - peerMacaddress - - keepBlocking - If TRUE, the station is blocked. If FALSE and the station - is connected, disconnect the station. If FALSE and the - station is not connected, no action is taken. - -*******************************************************************************/ -#define CsrWifiSmeApStaDisconnectReqCreate(msg__, dst__, src__, interfaceTag__, deauthReason__, disassocReason__, peerMacaddress__, keepBlocking__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApStaDisconnectReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_STA_DISCONNECT_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->deauthReason = (deauthReason__); \ - msg__->disassocReason = (disassocReason__); \ - msg__->peerMacaddress = (peerMacaddress__); \ - msg__->keepBlocking = (keepBlocking__); - -#define CsrWifiSmeApStaDisconnectReqSendTo(dst__, src__, interfaceTag__, deauthReason__, disassocReason__, peerMacaddress__, keepBlocking__) \ - { \ - CsrWifiSmeApStaDisconnectReq *msg__; \ - CsrWifiSmeApStaDisconnectReqCreate(msg__, dst__, src__, interfaceTag__, deauthReason__, disassocReason__, peerMacaddress__, keepBlocking__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApStaDisconnectReqSend(src__, interfaceTag__, deauthReason__, disassocReason__, peerMacaddress__, keepBlocking__) \ - CsrWifiSmeApStaDisconnectReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, interfaceTag__, deauthReason__, disassocReason__, peerMacaddress__, keepBlocking__) - -/******************************************************************************* - - NAME - CsrWifiSmeApStaDisconnectCfmSend - - DESCRIPTION - This primitive confirms the station is disconnected - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - status - - peerMacaddress - - -*******************************************************************************/ -#define CsrWifiSmeApStaDisconnectCfmCreate(msg__, dst__, src__, interfaceTag__, status__, peerMacaddress__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApStaDisconnectCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_STA_DISCONNECT_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->peerMacaddress = (peerMacaddress__); - -#define CsrWifiSmeApStaDisconnectCfmSendTo(dst__, src__, interfaceTag__, status__, peerMacaddress__) \ - { \ - CsrWifiSmeApStaDisconnectCfm *msg__; \ - CsrWifiSmeApStaDisconnectCfmCreate(msg__, dst__, src__, interfaceTag__, status__, peerMacaddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApStaDisconnectCfmSend(dst__, interfaceTag__, status__, peerMacaddress__) \ - CsrWifiSmeApStaDisconnectCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, peerMacaddress__) - -/******************************************************************************* - - NAME - CsrWifiSmeApStaNotifyIndSend - - DESCRIPTION - This primitive indicates that a station has joined or a previously joined - station has left the BSS/group - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - mediaStatus - - peerMacAddress - - peerDeviceAddress - - disassocReason - - deauthReason - - WpsRegistration - - secIeLength - - secIe - - groupKeyId - - seqNumber - - -*******************************************************************************/ -#define CsrWifiSmeApStaNotifyIndCreate(msg__, dst__, src__, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__, disassocReason__, deauthReason__, WpsRegistration__, secIeLength__, secIe__, groupKeyId__, seqNumber__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApStaNotifyInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_STA_NOTIFY_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->mediaStatus = (mediaStatus__); \ - msg__->peerMacAddress = (peerMacAddress__); \ - msg__->peerDeviceAddress = (peerDeviceAddress__); \ - msg__->disassocReason = (disassocReason__); \ - msg__->deauthReason = (deauthReason__); \ - msg__->WpsRegistration = (WpsRegistration__); \ - msg__->secIeLength = (secIeLength__); \ - msg__->secIe = (secIe__); \ - msg__->groupKeyId = (groupKeyId__); \ - memcpy(msg__->seqNumber, (seqNumber__), sizeof(u16) * 8); - -#define CsrWifiSmeApStaNotifyIndSendTo(dst__, src__, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__, disassocReason__, deauthReason__, WpsRegistration__, secIeLength__, secIe__, groupKeyId__, seqNumber__) \ - { \ - CsrWifiSmeApStaNotifyInd *msg__; \ - CsrWifiSmeApStaNotifyIndCreate(msg__, dst__, src__, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__, disassocReason__, deauthReason__, WpsRegistration__, secIeLength__, secIe__, groupKeyId__, seqNumber__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApStaNotifyIndSend(dst__, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__, disassocReason__, deauthReason__, WpsRegistration__, secIeLength__, secIe__, groupKeyId__, seqNumber__) \ - CsrWifiSmeApStaNotifyIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, mediaStatus__, peerMacAddress__, peerDeviceAddress__, disassocReason__, deauthReason__, WpsRegistration__, secIeLength__, secIe__, groupKeyId__, seqNumber__) - -/******************************************************************************* - - NAME - CsrWifiSmeApWmmParamUpdateReqSend - - DESCRIPTION - Application uses this primitive to update the WMM parameters on the fly - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - wmmApParams - WMM parameters to be used for local firmware queue - configuration - wmmApBcParams - WMM parameters to be advertised in beacon/probe response - -*******************************************************************************/ -#define CsrWifiSmeApWmmParamUpdateReqCreate(msg__, dst__, src__, interfaceTag__, wmmApParams__, wmmApBcParams__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApWmmParamUpdateReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_WMM_PARAM_UPDATE_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - memcpy(msg__->wmmApParams, (wmmApParams__), sizeof(CsrWifiSmeWmmAcParams) * 4); \ - memcpy(msg__->wmmApBcParams, (wmmApBcParams__), sizeof(CsrWifiSmeWmmAcParams) * 4); - -#define CsrWifiSmeApWmmParamUpdateReqSendTo(dst__, src__, interfaceTag__, wmmApParams__, wmmApBcParams__) \ - { \ - CsrWifiSmeApWmmParamUpdateReq *msg__; \ - CsrWifiSmeApWmmParamUpdateReqCreate(msg__, dst__, src__, interfaceTag__, wmmApParams__, wmmApBcParams__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApWmmParamUpdateReqSend(src__, interfaceTag__, wmmApParams__, wmmApBcParams__) \ - CsrWifiSmeApWmmParamUpdateReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, interfaceTag__, wmmApParams__, wmmApBcParams__) - -/******************************************************************************* - - NAME - CsrWifiSmeApWmmParamUpdateCfmSend - - DESCRIPTION - A confirm for CSR_WIFI_SME_AP_WMM_PARAM_UPDATE.request - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiSmeApWmmParamUpdateCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApWmmParamUpdateCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_WMM_PARAM_UPDATE_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeApWmmParamUpdateCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeApWmmParamUpdateCfm *msg__; \ - CsrWifiSmeApWmmParamUpdateCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApWmmParamUpdateCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeApWmmParamUpdateCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsConfigurationReqSend - - DESCRIPTION - This primitive passes the WPS information for the device to SME. This may - be accepted only if no interface is active. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - wpsConfig - WPS config. - -*******************************************************************************/ -#define CsrWifiSmeApWpsConfigurationReqCreate(msg__, dst__, src__, wpsConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApWpsConfigurationReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_WPS_CONFIGURATION_REQ, dst__, src__); \ - msg__->wpsConfig = (wpsConfig__); - -#define CsrWifiSmeApWpsConfigurationReqSendTo(dst__, src__, wpsConfig__) \ - { \ - CsrWifiSmeApWpsConfigurationReq *msg__; \ - CsrWifiSmeApWpsConfigurationReqCreate(msg__, dst__, src__, wpsConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApWpsConfigurationReqSend(src__, wpsConfig__) \ - CsrWifiSmeApWpsConfigurationReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, wpsConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsConfigurationCfmSend - - DESCRIPTION - Confirm. - - PARAMETERS - queue - Destination Task Queue - status - Status of the request. - -*******************************************************************************/ -#define CsrWifiSmeApWpsConfigurationCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApWpsConfigurationCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_WPS_CONFIGURATION_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeApWpsConfigurationCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeApWpsConfigurationCfm *msg__; \ - CsrWifiSmeApWpsConfigurationCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApWpsConfigurationCfmSend(dst__, status__) \ - CsrWifiSmeApWpsConfigurationCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsRegistrationFinishedReqSend - - DESCRIPTION - This primitive tells SME that WPS registration procedure has finished - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - -*******************************************************************************/ -#define CsrWifiSmeApWpsRegistrationFinishedReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApWpsRegistrationFinishedReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_WPS_REGISTRATION_FINISHED_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeApWpsRegistrationFinishedReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeApWpsRegistrationFinishedReq *msg__; \ - CsrWifiSmeApWpsRegistrationFinishedReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApWpsRegistrationFinishedReqSend(src__, interfaceTag__) \ - CsrWifiSmeApWpsRegistrationFinishedReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsRegistrationFinishedCfmSend - - DESCRIPTION - A confirm for UNIFI_MGT_AP_WPS_REGISTRATION_FINISHED.request - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiSmeApWpsRegistrationFinishedCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApWpsRegistrationFinishedCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_WPS_REGISTRATION_FINISHED_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeApWpsRegistrationFinishedCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeApWpsRegistrationFinishedCfm *msg__; \ - CsrWifiSmeApWpsRegistrationFinishedCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApWpsRegistrationFinishedCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeApWpsRegistrationFinishedCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsRegistrationStartedReqSend - - DESCRIPTION - This primitive tells SME that WPS registration procedure has started - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - - SelectedDevicePasswordId - - SelectedconfigMethod - - -*******************************************************************************/ -#define CsrWifiSmeApWpsRegistrationStartedReqCreate(msg__, dst__, src__, interfaceTag__, SelectedDevicePasswordId__, SelectedconfigMethod__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApWpsRegistrationStartedReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_WPS_REGISTRATION_STARTED_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->SelectedDevicePasswordId = (SelectedDevicePasswordId__); \ - msg__->SelectedconfigMethod = (SelectedconfigMethod__); - -#define CsrWifiSmeApWpsRegistrationStartedReqSendTo(dst__, src__, interfaceTag__, SelectedDevicePasswordId__, SelectedconfigMethod__) \ - { \ - CsrWifiSmeApWpsRegistrationStartedReq *msg__; \ - CsrWifiSmeApWpsRegistrationStartedReqCreate(msg__, dst__, src__, interfaceTag__, SelectedDevicePasswordId__, SelectedconfigMethod__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApWpsRegistrationStartedReqSend(src__, interfaceTag__, SelectedDevicePasswordId__, SelectedconfigMethod__) \ - CsrWifiSmeApWpsRegistrationStartedReqSendTo(CSR_WIFI_SME_IFACEQUEUE, src__, interfaceTag__, SelectedDevicePasswordId__, SelectedconfigMethod__) - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsRegistrationStartedCfmSend - - DESCRIPTION - A confirm for UNIFI_MGT_AP_WPS_REGISTRATION_STARTED.request - - PARAMETERS - queue - Destination Task Queue - interfaceTag - - status - - -*******************************************************************************/ -#define CsrWifiSmeApWpsRegistrationStartedCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeApWpsRegistrationStartedCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_AP_PRIM, CSR_WIFI_SME_AP_WPS_REGISTRATION_STARTED_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeApWpsRegistrationStartedCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeApWpsRegistrationStartedCfm *msg__; \ - CsrWifiSmeApWpsRegistrationStartedCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_AP_PRIM, msg__); \ - } - -#define CsrWifiSmeApWpsRegistrationStartedCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeApWpsRegistrationStartedCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - - -#endif /* CSR_WIFI_SME_AP_LIB_H__ */ diff --git a/drivers/staging/csr/csr_wifi_sme_ap_prim.h b/drivers/staging/csr/csr_wifi_sme_ap_prim.h deleted file mode 100644 index 3c4bcbc..0000000 --- a/drivers/staging/csr/csr_wifi_sme_ap_prim.h +++ /dev/null @@ -1,1030 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_SME_AP_PRIM_H__ -#define CSR_WIFI_SME_AP_PRIM_H__ - -#include "csr_prim_defs.h" -#include "csr_sched.h" -#include "csr_wifi_common.h" -#include "csr_result.h" -#include "csr_wifi_fsm_event.h" -#include "csr_wifi_sme_prim.h" - -#ifndef CSR_WIFI_AP_ENABLE -#error CSR_WIFI_AP_ENABLE MUST be defined inorder to use csr_wifi_sme_ap_prim.h -#endif - -#define CSR_WIFI_SME_AP_PRIM (0x0407) - -typedef CsrPrim CsrWifiSmeApPrim; - - -/******************************************************************************* - - NAME - CsrWifiSmeApAccessType - - DESCRIPTION - Allow or deny STAs based on MAC address - - VALUES - CSR_WIFI_AP_ACCESS_TYPE_NONE - None - CSR_WIFI_AP_ACCESS_TYPE_ALLOW - Allow only if MAC address is from the list - CSR_WIFI_AP_ACCESS_TYPE_DENY - Disallow if MAC address is from the list - -*******************************************************************************/ -typedef u8 CsrWifiSmeApAccessType; -#define CSR_WIFI_AP_ACCESS_TYPE_NONE ((CsrWifiSmeApAccessType) 0x00) -#define CSR_WIFI_AP_ACCESS_TYPE_ALLOW ((CsrWifiSmeApAccessType) 0x01) -#define CSR_WIFI_AP_ACCESS_TYPE_DENY ((CsrWifiSmeApAccessType) 0x02) - -/******************************************************************************* - - NAME - CsrWifiSmeApAuthSupport - - DESCRIPTION - Define bits for AP authentication support - - VALUES - CSR_WIFI_SME_RSN_AUTH_WPAPSK - RSN WPA-PSK Support - CSR_WIFI_SME_RSN_AUTH_WPA2PSK - RSN WPA2-PSK Support - CSR_WIFI_SME_AUTH_WAPIPSK - WAPI-PSK Support - -*******************************************************************************/ -typedef u8 CsrWifiSmeApAuthSupport; -#define CSR_WIFI_SME_RSN_AUTH_WPAPSK ((CsrWifiSmeApAuthSupport) 0x01) -#define CSR_WIFI_SME_RSN_AUTH_WPA2PSK ((CsrWifiSmeApAuthSupport) 0x02) -#define CSR_WIFI_SME_AUTH_WAPIPSK ((CsrWifiSmeApAuthSupport) 0x04) - -/******************************************************************************* - - NAME - CsrWifiSmeApAuthType - - DESCRIPTION - Definition of the SME AP Authentication Options - - VALUES - CSR_WIFI_SME_AP_AUTH_TYPE_OPEN_SYSTEM - - Open authentication - CSR_WIFI_SME_AP_AUTH_TYPE_PERSONAL - - Personal authentication using a passphrase or a pre-shared - key. - CSR_WIFI_SME_AP_AUTH_TYPE_WEP - - WEP authentication. This can be either open or shared key - -*******************************************************************************/ -typedef u8 CsrWifiSmeApAuthType; -#define CSR_WIFI_SME_AP_AUTH_TYPE_OPEN_SYSTEM ((CsrWifiSmeApAuthType) 0x00) -#define CSR_WIFI_SME_AP_AUTH_TYPE_PERSONAL ((CsrWifiSmeApAuthType) 0x01) -#define CSR_WIFI_SME_AP_AUTH_TYPE_WEP ((CsrWifiSmeApAuthType) 0x02) - -/******************************************************************************* - - NAME - CsrWifiSmeApDirection - - DESCRIPTION - Definition of Direction - - VALUES - CSR_WIFI_AP_DIRECTION_RECEIPIENT - Receipient - CSR_WIFI_AP_DIRECTION_ORIGINATOR - Originator - -*******************************************************************************/ -typedef u8 CsrWifiSmeApDirection; -#define CSR_WIFI_AP_DIRECTION_RECEIPIENT ((CsrWifiSmeApDirection) 0x00) -#define CSR_WIFI_AP_DIRECTION_ORIGINATOR ((CsrWifiSmeApDirection) 0x01) - -/******************************************************************************* - - NAME - CsrWifiSmeApPhySupport - - DESCRIPTION - Define bits for CsrWifiSmeApPhySupportMask - - VALUES - CSR_WIFI_SME_AP_PHY_SUPPORT_A - 802.11a. It is not supported in the current - release. - CSR_WIFI_SME_AP_PHY_SUPPORT_B - 802.11b - CSR_WIFI_SME_AP_PHY_SUPPORT_G - 802.11g - CSR_WIFI_SME_AP_PHY_SUPPORT_N - 802.11n - -*******************************************************************************/ -typedef u8 CsrWifiSmeApPhySupport; -#define CSR_WIFI_SME_AP_PHY_SUPPORT_A ((CsrWifiSmeApPhySupport) 0x01) -#define CSR_WIFI_SME_AP_PHY_SUPPORT_B ((CsrWifiSmeApPhySupport) 0x02) -#define CSR_WIFI_SME_AP_PHY_SUPPORT_G ((CsrWifiSmeApPhySupport) 0x04) -#define CSR_WIFI_SME_AP_PHY_SUPPORT_N ((CsrWifiSmeApPhySupport) 0x08) - -/******************************************************************************* - - NAME - CsrWifiSmeApType - - DESCRIPTION - Definition of AP types - - VALUES - CSR_WIFI_AP_TYPE_LEGACY - Legacy AP - CSR_WIFI_AP_TYPE_P2P - P2P Group Owner(GO) - -*******************************************************************************/ -typedef u8 CsrWifiSmeApType; -#define CSR_WIFI_AP_TYPE_LEGACY ((CsrWifiSmeApType) 0x00) -#define CSR_WIFI_AP_TYPE_P2P ((CsrWifiSmeApType) 0x01) - - -/******************************************************************************* - - NAME - CsrWifiSmeApAuthSupportMask - - DESCRIPTION - See CsrWifiSmeApAuthSupport for bit definitions - -*******************************************************************************/ -typedef u8 CsrWifiSmeApAuthSupportMask; -/******************************************************************************* - - NAME - CsrWifiSmeApPhySupportMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeApPhySupport - -*******************************************************************************/ -typedef u8 CsrWifiSmeApPhySupportMask; -/******************************************************************************* - - NAME - CsrWifiSmeApRsnCapabilities - - DESCRIPTION - Set to 0 for the current release - -*******************************************************************************/ -typedef u16 CsrWifiSmeApRsnCapabilities; -/******************************************************************************* - - NAME - CsrWifiSmeApRsnCapabilitiesMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeApRsnCapabilities - -*******************************************************************************/ -typedef u16 CsrWifiSmeApRsnCapabilitiesMask; -/******************************************************************************* - - NAME - CsrWifiSmeApWapiCapabilities - - DESCRIPTION - Ignored by the stack as WAPI is not supported for AP operations in the - current release - -*******************************************************************************/ -typedef u16 CsrWifiSmeApWapiCapabilities; -/******************************************************************************* - - NAME - CsrWifiSmeApWapiCapabilitiesMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeApWapiCapabilities - -*******************************************************************************/ -typedef u16 CsrWifiSmeApWapiCapabilitiesMask; - - -/******************************************************************************* - - NAME - CsrWifiSmeApHtParams - - DESCRIPTION - Structure holding HT parameters - - MEMBERS - greenfieldSupported - Indicates if the AP supports Htgreenfield operation - subject to the chip capability. If the chip does not - support Htgreenfield operation, this parameter will be - ignored. - NOTE: if shortGi20MHz is set to TRUE and the chip - supports short GI operation for 20MHz this field will - be be ignored and the AP will not support Htgreenfield - operation. - NOTE: This field is ignored by the Wi-Fi stack for the - current release. It implies that AP does not support - greenfield operation. - shortGi20MHz - Indicates if the AP support short GI operation for - 20MHz subject to the chip capability.If the chip does - not support short GI for 20MHz, this parameter is - ignored - rxStbc - Support for STBC for receive. 0 => No support for STBC - , 1=> Use STBC for Rx - rifsModeAllowed - RIFS Mode is allowed to protect overlapping non-HT BSS - htProtection - Deprecated - dualCtsProtection - Dual CTS Protection enabled - -*******************************************************************************/ -typedef struct -{ - u8 greenfieldSupported; - u8 shortGi20MHz; - u8 rxStbc; - u8 rifsModeAllowed; - u8 htProtection; - u8 dualCtsProtection; -} CsrWifiSmeApHtParams; - -/******************************************************************************* - - NAME - CsrWifiSmeApP2pOperatingChanEntry - - DESCRIPTION - - MEMBERS - operatingClass - Channel operating class - operatingChannelCount - Number of channels in this entry - operatingChannel - List of channels - -*******************************************************************************/ -typedef struct -{ - u8 operatingClass; - u8 operatingChannelCount; - u8 *operatingChannel; -} CsrWifiSmeApP2pOperatingChanEntry; - -/******************************************************************************* - - NAME - CsrWifiSmeApP2pOperatingChanList - - DESCRIPTION - This structure contains the lists of P2P operating channels - - MEMBERS - country - Country - channelEntryListCount - Number of entries - channelEntryList - List of entries - -*******************************************************************************/ -typedef struct -{ - u8 country[3]; - u8 channelEntryListCount; - CsrWifiSmeApP2pOperatingChanEntry *channelEntryList; -} CsrWifiSmeApP2pOperatingChanList; - -/******************************************************************************* - - NAME - CsrWifiSmeApAuthPers - - DESCRIPTION - - MEMBERS - authSupport - - encryptionModeMask - - rsnCapabilities - - wapiCapabilities - - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeApAuthSupportMask authSupport; - CsrWifiSmeEncryptionMask encryptionModeMask; - CsrWifiSmeApRsnCapabilitiesMask rsnCapabilities; - CsrWifiSmeApWapiCapabilitiesMask wapiCapabilities; -} CsrWifiSmeApAuthPers; - -/******************************************************************************* - - NAME - CsrWifiSmeApBaSession - - DESCRIPTION - - MEMBERS - peerMacAddress - Indicates MAC address of the peer station - tid - Specifies the TID of the MSDUs for which this Block Ack has - been set up. Range: 0-15 - direction - Specifies if the AP is the originator or the recipient of - the data stream that uses the Block Ack. - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress peerMacAddress; - u8 tid; - CsrWifiSmeApDirection direction; -} CsrWifiSmeApBaSession; - -/******************************************************************************* - - NAME - CsrWifiSmeApMacConfig - - DESCRIPTION - Structure holding AP MAC configuration. - - MEMBERS - phySupportedBitmap - Indicates supported physical layers - beaconInterval - Beacon interval in terms of TUs - dtimPeriod - DTIM period in terms of number of beacon intervals - maxListenInterval - Maximum allowed listen interval as number of beacon - intervals - supportedRatesCount - Number of supported rates. Range : 0 to 20 - supportedRates - List of supportedRates. A rate is specied in the - units of 500kbps. An entry for a basic rate shall - have the MSB set to 1. - preamble - Preamble to be advertised in beacons and probe - responses - shortSlotTimeEnabled - TRUE indicates the AP shall use short slot time if - all the stations use short slot operation. - ctsProtectionType - CTS protection to be used - wmmEnabled - Indicate whether WMM is enabled or not. If set to - FALSE,the WMM parameters shall be ignored by the - receiver. - wmmApParams - WMM parameters to be used for local firmware queue - configuration. Array index corresponds to the ACI. - wmmApBcParams - WMM parameters to be advertised in beacon/probe - response. Array index corresponds to the ACI - accessType - Specifies whether the MAC addresses from the list - should be allowed or denied - macAddressListCount - Number of MAC addresses - macAddressList - List of MAC addresses - apHtParams - AP HT parameters. The stack shall use these - parameters only if phySupportedBitmap indicates - support for IEEE 802.11n - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeApPhySupportMask phySupportedBitmap; - u16 beaconInterval; - u8 dtimPeriod; - u16 maxListenInterval; - u8 supportedRatesCount; - u8 supportedRates[20]; - CsrWifiSmePreambleType preamble; - u8 shortSlotTimeEnabled; - CsrWifiSmeCtsProtectionType ctsProtectionType; - u8 wmmEnabled; - CsrWifiSmeWmmAcParams wmmApParams[4]; - CsrWifiSmeWmmAcParams wmmApBcParams[4]; - CsrWifiSmeApAccessType accessType; - u8 macAddressListCount; - CsrWifiMacAddress *macAddressList; - CsrWifiSmeApHtParams apHtParams; -} CsrWifiSmeApMacConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeApP2pGoConfig - - DESCRIPTION - - MEMBERS - groupCapability - Indicates the P2P group capabilities - operatingChanList - List of operating channels in the order of - decreasing priority. It may contain channel - entry/entries not supported by the wifi stack. - These shall be filtered out by the wifi stack - opPsEnabled - Indicates whether opportunistic power save can - be used. - Note: This parameter is ignored by the WiFi - stack for the current release - ctWindow - Define Client Traffic window to be used in terms - of number of TUs. Range: 0 to 127. - Note: This parameter is ignored by the WiFi - stack for the current release. - noaConfigMethod - Notice of Absence configuration method. - Note: This parameter is ignored by the WiFi - stack for the current release. - allowNoaWithNonP2pDevices - Indicates if NOA should be allowed if non P2P - devices are connected. If allowed the non P2P - devices may suffer in throughput. - Note: This parameter is ignored by the WiFi - stack for the current release. - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeP2pGroupCapabilityMask groupCapability; - CsrWifiSmeApP2pOperatingChanList operatingChanList; - u8 opPsEnabled; - u8 ctWindow; - CsrWifiSmeP2pNoaConfigMethod noaConfigMethod; - u8 allowNoaWithNonP2pDevices; -} CsrWifiSmeApP2pGoConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeApCredentials - - DESCRIPTION - - MEMBERS - authType - - smeAuthType - - smeAuthTypeopenSystemEmpty - - smeAuthTypeauthwep - - smeAuthTypeauthPers - - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeApAuthType authType; - union { - CsrWifiSmeEmpty openSystemEmpty; - CsrWifiSmeWepAuth authwep; - CsrWifiSmeApAuthPers authPers; - } smeAuthType; -} CsrWifiSmeApCredentials; - -/******************************************************************************* - - NAME - CsrWifiSmeApSecConfig - - DESCRIPTION - - MEMBERS - apCredentials - - wpsEnabled - - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeApCredentials apCredentials; - u8 wpsEnabled; -} CsrWifiSmeApSecConfig; - - -/* Downstream */ -#define CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST (0x0000) - -#define CSR_WIFI_SME_AP_BEACONING_START_REQ ((CsrWifiSmeApPrim) (0x0000 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_BEACONING_STOP_REQ ((CsrWifiSmeApPrim) (0x0001 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_WPS_REGISTRATION_STARTED_REQ ((CsrWifiSmeApPrim) (0x0002 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_WPS_REGISTRATION_FINISHED_REQ ((CsrWifiSmeApPrim) (0x0003 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_WMM_PARAM_UPDATE_REQ ((CsrWifiSmeApPrim) (0x0004 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_STA_DISCONNECT_REQ ((CsrWifiSmeApPrim) (0x0005 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_WPS_CONFIGURATION_REQ ((CsrWifiSmeApPrim) (0x0006 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_ACTIVE_BA_GET_REQ ((CsrWifiSmeApPrim) (0x0007 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_BA_DELETE_REQ ((CsrWifiSmeApPrim) (0x0008 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST)) - - -#define CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_HIGHEST (0x0008 + CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST) - -/* Upstream */ -#define CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST (0x0000 + CSR_PRIM_UPSTREAM) - -#define CSR_WIFI_SME_AP_BEACONING_START_CFM ((CsrWifiSmeApPrim)(0x0000 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_BEACONING_STOP_CFM ((CsrWifiSmeApPrim)(0x0001 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_STA_NOTIFY_IND ((CsrWifiSmeApPrim)(0x0002 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_STA_CONNECT_START_IND ((CsrWifiSmeApPrim)(0x0003 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_WPS_REGISTRATION_STARTED_CFM ((CsrWifiSmeApPrim)(0x0004 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_WPS_REGISTRATION_FINISHED_CFM ((CsrWifiSmeApPrim)(0x0005 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_WMM_PARAM_UPDATE_CFM ((CsrWifiSmeApPrim)(0x0006 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_STA_DISCONNECT_CFM ((CsrWifiSmeApPrim)(0x0007 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_WPS_CONFIGURATION_CFM ((CsrWifiSmeApPrim)(0x0008 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_ERROR_IND ((CsrWifiSmeApPrim)(0x0009 + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_ACTIVE_BA_GET_CFM ((CsrWifiSmeApPrim)(0x000A + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AP_BA_DELETE_CFM ((CsrWifiSmeApPrim)(0x000B + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST)) - -#define CSR_WIFI_SME_AP_PRIM_UPSTREAM_HIGHEST (0x000B + CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST) - -#define CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_COUNT (CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_HIGHEST + 1 - CSR_WIFI_SME_AP_PRIM_DOWNSTREAM_LOWEST) -#define CSR_WIFI_SME_AP_PRIM_UPSTREAM_COUNT (CSR_WIFI_SME_AP_PRIM_UPSTREAM_HIGHEST + 1 - CSR_WIFI_SME_AP_PRIM_UPSTREAM_LOWEST) - -/******************************************************************************* - - NAME - CsrWifiSmeApBeaconingStartReq - - DESCRIPTION - This primitive requests the SME to start AP or GO functionality - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - initialPresence - Set to 0, if Not in a group fomration phase, set to 1 , - during group formation phase - apType - apType : Legacy AP or P2PGO - cloakSsid - cloakSsid flag. - ssid - ssid. - ifIndex - Radio Interface - channel - channel. - maxConnections - Maximum Stations + P2PClients allowed - apCredentials - AP security credeitals used to advertise in beacon /probe - response - smeApConfig - AP configuration - p2pGoParam - P2P specific GO parameters. Ignored if it is a leagacy AP - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 initialPresence; - CsrWifiSmeApType apType; - u8 cloakSsid; - CsrWifiSsid ssid; - CsrWifiSmeRadioIF ifIndex; - u8 channel; - u8 maxConnections; - CsrWifiSmeApSecConfig apCredentials; - CsrWifiSmeApMacConfig smeApConfig; - CsrWifiSmeApP2pGoConfig p2pGoParam; -} CsrWifiSmeApBeaconingStartReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApBeaconingStopReq - - DESCRIPTION - This primitive requests the SME to STOP AP or P2PGO operation - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeApBeaconingStopReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsRegistrationStartedReq - - DESCRIPTION - This primitive tells SME that WPS registration procedure has started - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - SelectedDevicePasswordId - - SelectedconfigMethod - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeWpsDpid SelectedDevicePasswordId; - CsrWifiSmeWpsConfigType SelectedconfigMethod; -} CsrWifiSmeApWpsRegistrationStartedReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsRegistrationFinishedReq - - DESCRIPTION - This primitive tells SME that WPS registration procedure has finished - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeApWpsRegistrationFinishedReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApWmmParamUpdateReq - - DESCRIPTION - Application uses this primitive to update the WMM parameters on the fly - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - wmmApParams - WMM parameters to be used for local firmware queue - configuration - wmmApBcParams - WMM parameters to be advertised in beacon/probe response - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeWmmAcParams wmmApParams[4]; - CsrWifiSmeWmmAcParams wmmApBcParams[4]; -} CsrWifiSmeApWmmParamUpdateReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApStaDisconnectReq - - DESCRIPTION - This primitive tells SME to deauth ot disassociate a particular station - within BSS - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - deauthReason - - disassocReason - - peerMacaddress - - keepBlocking - If TRUE, the station is blocked. If FALSE and the station - is connected, disconnect the station. If FALSE and the - station is not connected, no action is taken. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeIEEE80211Reason deauthReason; - CsrWifiSmeIEEE80211Reason disassocReason; - CsrWifiMacAddress peerMacaddress; - u8 keepBlocking; -} CsrWifiSmeApStaDisconnectReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsConfigurationReq - - DESCRIPTION - This primitive passes the WPS information for the device to SME. This may - be accepted only if no interface is active. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - wpsConfig - WPS config. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeWpsConfig wpsConfig; -} CsrWifiSmeApWpsConfigurationReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApActiveBaGetReq - - DESCRIPTION - This primitive used to retrieve information related to the active block - ack sessions - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeApActiveBaGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApBaDeleteReq - - DESCRIPTION - This primitive is used to delete an active block ack session - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - reason - - baSession - BA session to be deleted - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeIEEE80211Reason reason; - CsrWifiSmeApBaSession baSession; -} CsrWifiSmeApBaDeleteReq; - -/******************************************************************************* - - NAME - CsrWifiSmeApBeaconingStartCfm - - DESCRIPTION - This primitive confirms the completion of the request along with the - status - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - - secIeLength - - secIe - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - u16 secIeLength; - u8 *secIe; -} CsrWifiSmeApBeaconingStartCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeApBeaconingStopCfm - - DESCRIPTION - This primitive confirms AP or P2PGO operation is terminated - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeApBeaconingStopCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeApStaNotifyInd - - DESCRIPTION - This primitive indicates that a station has joined or a previously joined - station has left the BSS/group - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - mediaStatus - - peerMacAddress - - peerDeviceAddress - - disassocReason - - deauthReason - - WpsRegistration - - secIeLength - - secIe - - groupKeyId - - seqNumber - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeMediaStatus mediaStatus; - CsrWifiMacAddress peerMacAddress; - CsrWifiMacAddress peerDeviceAddress; - CsrWifiSmeIEEE80211Reason disassocReason; - CsrWifiSmeIEEE80211Reason deauthReason; - CsrWifiSmeWpsRegistration WpsRegistration; - u8 secIeLength; - u8 *secIe; - u8 groupKeyId; - u16 seqNumber[8]; -} CsrWifiSmeApStaNotifyInd; - -/******************************************************************************* - - NAME - CsrWifiSmeApStaConnectStartInd - - DESCRIPTION - This primitive indicates that a stations request to join the group/BSS is - accepted - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - peerMacAddress - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiMacAddress peerMacAddress; -} CsrWifiSmeApStaConnectStartInd; - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsRegistrationStartedCfm - - DESCRIPTION - A confirm for UNIFI_MGT_AP_WPS_REGISTRATION_STARTED.request - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeApWpsRegistrationStartedCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsRegistrationFinishedCfm - - DESCRIPTION - A confirm for UNIFI_MGT_AP_WPS_REGISTRATION_FINISHED.request - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeApWpsRegistrationFinishedCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeApWmmParamUpdateCfm - - DESCRIPTION - A confirm for CSR_WIFI_SME_AP_WMM_PARAM_UPDATE.request - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeApWmmParamUpdateCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeApStaDisconnectCfm - - DESCRIPTION - This primitive confirms the station is disconnected - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - - peerMacaddress - - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiMacAddress peerMacaddress; -} CsrWifiSmeApStaDisconnectCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeApWpsConfigurationCfm - - DESCRIPTION - Confirm. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Status of the request. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeApWpsConfigurationCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeApErrorInd - - DESCRIPTION - This primitve is sent by SME to indicate some error in AP operationi - after AP operations were started successfully and continuing the AP - operation may lead to undesired behaviour. It is the responsibility of - the upper layers to stop AP operation if needed - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Range 0-1 - apType - - status - Contains the error status - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeApType apType; - CsrResult status; -} CsrWifiSmeApErrorInd; - -/******************************************************************************* - - NAME - CsrWifiSmeApActiveBaGetCfm - - DESCRIPTION - This primitive carries the information related to the active ba sessions - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - Reports the result of the request - activeBaCount - Number of active block ack session - activeBaSessions - Points to a buffer containing an array of - CsrWifiSmeApBaSession structures. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - u16 activeBaCount; - CsrWifiSmeApBaSession *activeBaSessions; -} CsrWifiSmeApActiveBaGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeApBaDeleteCfm - - DESCRIPTION - This primitive confirms the BA is deleted - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - - status - Reports the result of the request - baSession - deleted BA session - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeApBaSession baSession; -} CsrWifiSmeApBaDeleteCfm; - - -#endif /* CSR_WIFI_SME_AP_PRIM_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_sme_converter_init.c b/drivers/staging/csr/csr_wifi_sme_converter_init.c deleted file mode 100644 index 31835f0..0000000 --- a/drivers/staging/csr/csr_wifi_sme_converter_init.c +++ /dev/null @@ -1,201 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#include "csr_msgconv.h" -#include "csr_macro.h" - - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" -#endif - -#ifndef EXCLUDE_CSR_WIFI_SME_MODULE -#include "csr_wifi_sme_serialize.h" -#include "csr_wifi_sme_prim.h" - -static CsrMsgConvMsgEntry csrwifisme_conv_lut[] = { - { CSR_WIFI_SME_ACTIVATE_REQ, CsrWifiSmeActivateReqSizeof, CsrWifiSmeActivateReqSer, CsrWifiSmeActivateReqDes, CsrWifiSmeActivateReqSerFree }, - { CSR_WIFI_SME_ADHOC_CONFIG_GET_REQ, CsrWifiSmeAdhocConfigGetReqSizeof, CsrWifiSmeAdhocConfigGetReqSer, CsrWifiSmeAdhocConfigGetReqDes, CsrWifiSmeAdhocConfigGetReqSerFree }, - { CSR_WIFI_SME_ADHOC_CONFIG_SET_REQ, CsrWifiSmeAdhocConfigSetReqSizeof, CsrWifiSmeAdhocConfigSetReqSer, CsrWifiSmeAdhocConfigSetReqDes, CsrWifiSmeAdhocConfigSetReqSerFree }, - { CSR_WIFI_SME_BLACKLIST_REQ, CsrWifiSmeBlacklistReqSizeof, CsrWifiSmeBlacklistReqSer, CsrWifiSmeBlacklistReqDes, CsrWifiSmeBlacklistReqSerFree }, - { CSR_WIFI_SME_CALIBRATION_DATA_GET_REQ, CsrWifiSmeCalibrationDataGetReqSizeof, CsrWifiSmeCalibrationDataGetReqSer, CsrWifiSmeCalibrationDataGetReqDes, CsrWifiSmeCalibrationDataGetReqSerFree }, - { CSR_WIFI_SME_CALIBRATION_DATA_SET_REQ, CsrWifiSmeCalibrationDataSetReqSizeof, CsrWifiSmeCalibrationDataSetReqSer, CsrWifiSmeCalibrationDataSetReqDes, CsrWifiSmeCalibrationDataSetReqSerFree }, - { CSR_WIFI_SME_CCX_CONFIG_GET_REQ, CsrWifiSmeCcxConfigGetReqSizeof, CsrWifiSmeCcxConfigGetReqSer, CsrWifiSmeCcxConfigGetReqDes, CsrWifiSmeCcxConfigGetReqSerFree }, - { CSR_WIFI_SME_CCX_CONFIG_SET_REQ, CsrWifiSmeCcxConfigSetReqSizeof, CsrWifiSmeCcxConfigSetReqSer, CsrWifiSmeCcxConfigSetReqDes, CsrWifiSmeCcxConfigSetReqSerFree }, - { CSR_WIFI_SME_COEX_CONFIG_GET_REQ, CsrWifiSmeCoexConfigGetReqSizeof, CsrWifiSmeCoexConfigGetReqSer, CsrWifiSmeCoexConfigGetReqDes, CsrWifiSmeCoexConfigGetReqSerFree }, - { CSR_WIFI_SME_COEX_CONFIG_SET_REQ, CsrWifiSmeCoexConfigSetReqSizeof, CsrWifiSmeCoexConfigSetReqSer, CsrWifiSmeCoexConfigSetReqDes, CsrWifiSmeCoexConfigSetReqSerFree }, - { CSR_WIFI_SME_COEX_INFO_GET_REQ, CsrWifiSmeCoexInfoGetReqSizeof, CsrWifiSmeCoexInfoGetReqSer, CsrWifiSmeCoexInfoGetReqDes, CsrWifiSmeCoexInfoGetReqSerFree }, - { CSR_WIFI_SME_CONNECT_REQ, CsrWifiSmeConnectReqSizeof, CsrWifiSmeConnectReqSer, CsrWifiSmeConnectReqDes, CsrWifiSmeConnectReqSerFree }, - { CSR_WIFI_SME_CONNECTION_CONFIG_GET_REQ, CsrWifiSmeConnectionConfigGetReqSizeof, CsrWifiSmeConnectionConfigGetReqSer, CsrWifiSmeConnectionConfigGetReqDes, CsrWifiSmeConnectionConfigGetReqSerFree }, - { CSR_WIFI_SME_CONNECTION_INFO_GET_REQ, CsrWifiSmeConnectionInfoGetReqSizeof, CsrWifiSmeConnectionInfoGetReqSer, CsrWifiSmeConnectionInfoGetReqDes, CsrWifiSmeConnectionInfoGetReqSerFree }, - { CSR_WIFI_SME_CONNECTION_STATS_GET_REQ, CsrWifiSmeConnectionStatsGetReqSizeof, CsrWifiSmeConnectionStatsGetReqSer, CsrWifiSmeConnectionStatsGetReqDes, CsrWifiSmeConnectionStatsGetReqSerFree }, - { CSR_WIFI_SME_DEACTIVATE_REQ, CsrWifiSmeDeactivateReqSizeof, CsrWifiSmeDeactivateReqSer, CsrWifiSmeDeactivateReqDes, CsrWifiSmeDeactivateReqSerFree }, - { CSR_WIFI_SME_DISCONNECT_REQ, CsrWifiSmeDisconnectReqSizeof, CsrWifiSmeDisconnectReqSer, CsrWifiSmeDisconnectReqDes, CsrWifiSmeDisconnectReqSerFree }, - { CSR_WIFI_SME_EVENT_MASK_SET_REQ, CsrWifiSmeEventMaskSetReqSizeof, CsrWifiSmeEventMaskSetReqSer, CsrWifiSmeEventMaskSetReqDes, CsrWifiSmeEventMaskSetReqSerFree }, - { CSR_WIFI_SME_HOST_CONFIG_GET_REQ, CsrWifiSmeHostConfigGetReqSizeof, CsrWifiSmeHostConfigGetReqSer, CsrWifiSmeHostConfigGetReqDes, CsrWifiSmeHostConfigGetReqSerFree }, - { CSR_WIFI_SME_HOST_CONFIG_SET_REQ, CsrWifiSmeHostConfigSetReqSizeof, CsrWifiSmeHostConfigSetReqSer, CsrWifiSmeHostConfigSetReqDes, CsrWifiSmeHostConfigSetReqSerFree }, - { CSR_WIFI_SME_KEY_REQ, CsrWifiSmeKeyReqSizeof, CsrWifiSmeKeyReqSer, CsrWifiSmeKeyReqDes, CsrWifiSmeKeyReqSerFree }, - { CSR_WIFI_SME_LINK_QUALITY_GET_REQ, CsrWifiSmeLinkQualityGetReqSizeof, CsrWifiSmeLinkQualityGetReqSer, CsrWifiSmeLinkQualityGetReqDes, CsrWifiSmeLinkQualityGetReqSerFree }, - { CSR_WIFI_SME_MIB_CONFIG_GET_REQ, CsrWifiSmeMibConfigGetReqSizeof, CsrWifiSmeMibConfigGetReqSer, CsrWifiSmeMibConfigGetReqDes, CsrWifiSmeMibConfigGetReqSerFree }, - { CSR_WIFI_SME_MIB_CONFIG_SET_REQ, CsrWifiSmeMibConfigSetReqSizeof, CsrWifiSmeMibConfigSetReqSer, CsrWifiSmeMibConfigSetReqDes, CsrWifiSmeMibConfigSetReqSerFree }, - { CSR_WIFI_SME_MIB_GET_NEXT_REQ, CsrWifiSmeMibGetNextReqSizeof, CsrWifiSmeMibGetNextReqSer, CsrWifiSmeMibGetNextReqDes, CsrWifiSmeMibGetNextReqSerFree }, - { CSR_WIFI_SME_MIB_GET_REQ, CsrWifiSmeMibGetReqSizeof, CsrWifiSmeMibGetReqSer, CsrWifiSmeMibGetReqDes, CsrWifiSmeMibGetReqSerFree }, - { CSR_WIFI_SME_MIB_SET_REQ, CsrWifiSmeMibSetReqSizeof, CsrWifiSmeMibSetReqSer, CsrWifiSmeMibSetReqDes, CsrWifiSmeMibSetReqSerFree }, - { CSR_WIFI_SME_MULTICAST_ADDRESS_REQ, CsrWifiSmeMulticastAddressReqSizeof, CsrWifiSmeMulticastAddressReqSer, CsrWifiSmeMulticastAddressReqDes, CsrWifiSmeMulticastAddressReqSerFree }, - { CSR_WIFI_SME_PACKET_FILTER_SET_REQ, CsrWifiSmePacketFilterSetReqSizeof, CsrWifiSmePacketFilterSetReqSer, CsrWifiSmePacketFilterSetReqDes, CsrWifiSmePacketFilterSetReqSerFree }, - { CSR_WIFI_SME_PERMANENT_MAC_ADDRESS_GET_REQ, CsrWifiSmePermanentMacAddressGetReqSizeof, CsrWifiSmePermanentMacAddressGetReqSer, CsrWifiSmePermanentMacAddressGetReqDes, CsrWifiSmePermanentMacAddressGetReqSerFree }, - { CSR_WIFI_SME_PMKID_REQ, CsrWifiSmePmkidReqSizeof, CsrWifiSmePmkidReqSer, CsrWifiSmePmkidReqDes, CsrWifiSmePmkidReqSerFree }, - { CSR_WIFI_SME_POWER_CONFIG_GET_REQ, CsrWifiSmePowerConfigGetReqSizeof, CsrWifiSmePowerConfigGetReqSer, CsrWifiSmePowerConfigGetReqDes, CsrWifiSmePowerConfigGetReqSerFree }, - { CSR_WIFI_SME_POWER_CONFIG_SET_REQ, CsrWifiSmePowerConfigSetReqSizeof, CsrWifiSmePowerConfigSetReqSer, CsrWifiSmePowerConfigSetReqDes, CsrWifiSmePowerConfigSetReqSerFree }, - { CSR_WIFI_SME_REGULATORY_DOMAIN_INFO_GET_REQ, CsrWifiSmeRegulatoryDomainInfoGetReqSizeof, CsrWifiSmeRegulatoryDomainInfoGetReqSer, CsrWifiSmeRegulatoryDomainInfoGetReqDes, CsrWifiSmeRegulatoryDomainInfoGetReqSerFree }, - { CSR_WIFI_SME_ROAMING_CONFIG_GET_REQ, CsrWifiSmeRoamingConfigGetReqSizeof, CsrWifiSmeRoamingConfigGetReqSer, CsrWifiSmeRoamingConfigGetReqDes, CsrWifiSmeRoamingConfigGetReqSerFree }, - { CSR_WIFI_SME_ROAMING_CONFIG_SET_REQ, CsrWifiSmeRoamingConfigSetReqSizeof, CsrWifiSmeRoamingConfigSetReqSer, CsrWifiSmeRoamingConfigSetReqDes, CsrWifiSmeRoamingConfigSetReqSerFree }, - { CSR_WIFI_SME_SCAN_CONFIG_GET_REQ, CsrWifiSmeScanConfigGetReqSizeof, CsrWifiSmeScanConfigGetReqSer, CsrWifiSmeScanConfigGetReqDes, CsrWifiSmeScanConfigGetReqSerFree }, - { CSR_WIFI_SME_SCAN_CONFIG_SET_REQ, CsrWifiSmeScanConfigSetReqSizeof, CsrWifiSmeScanConfigSetReqSer, CsrWifiSmeScanConfigSetReqDes, CsrWifiSmeScanConfigSetReqSerFree }, - { CSR_WIFI_SME_SCAN_FULL_REQ, CsrWifiSmeScanFullReqSizeof, CsrWifiSmeScanFullReqSer, CsrWifiSmeScanFullReqDes, CsrWifiSmeScanFullReqSerFree }, - { CSR_WIFI_SME_SCAN_RESULTS_FLUSH_REQ, CsrWifiSmeScanResultsFlushReqSizeof, CsrWifiSmeScanResultsFlushReqSer, CsrWifiSmeScanResultsFlushReqDes, CsrWifiSmeScanResultsFlushReqSerFree }, - { CSR_WIFI_SME_SCAN_RESULTS_GET_REQ, CsrWifiSmeScanResultsGetReqSizeof, CsrWifiSmeScanResultsGetReqSer, CsrWifiSmeScanResultsGetReqDes, CsrWifiSmeScanResultsGetReqSerFree }, - { CSR_WIFI_SME_SME_STA_CONFIG_GET_REQ, CsrWifiSmeSmeStaConfigGetReqSizeof, CsrWifiSmeSmeStaConfigGetReqSer, CsrWifiSmeSmeStaConfigGetReqDes, CsrWifiSmeSmeStaConfigGetReqSerFree }, - { CSR_WIFI_SME_SME_STA_CONFIG_SET_REQ, CsrWifiSmeSmeStaConfigSetReqSizeof, CsrWifiSmeSmeStaConfigSetReqSer, CsrWifiSmeSmeStaConfigSetReqDes, CsrWifiSmeSmeStaConfigSetReqSerFree }, - { CSR_WIFI_SME_STATION_MAC_ADDRESS_GET_REQ, CsrWifiSmeStationMacAddressGetReqSizeof, CsrWifiSmeStationMacAddressGetReqSer, CsrWifiSmeStationMacAddressGetReqDes, CsrWifiSmeStationMacAddressGetReqSerFree }, - { CSR_WIFI_SME_TSPEC_REQ, CsrWifiSmeTspecReqSizeof, CsrWifiSmeTspecReqSer, CsrWifiSmeTspecReqDes, CsrWifiSmeTspecReqSerFree }, - { CSR_WIFI_SME_VERSIONS_GET_REQ, CsrWifiSmeVersionsGetReqSizeof, CsrWifiSmeVersionsGetReqSer, CsrWifiSmeVersionsGetReqDes, CsrWifiSmeVersionsGetReqSerFree }, - { CSR_WIFI_SME_WIFI_FLIGHTMODE_REQ, CsrWifiSmeWifiFlightmodeReqSizeof, CsrWifiSmeWifiFlightmodeReqSer, CsrWifiSmeWifiFlightmodeReqDes, CsrWifiSmeWifiFlightmodeReqSerFree }, - { CSR_WIFI_SME_WIFI_OFF_REQ, CsrWifiSmeWifiOffReqSizeof, CsrWifiSmeWifiOffReqSer, CsrWifiSmeWifiOffReqDes, CsrWifiSmeWifiOffReqSerFree }, - { CSR_WIFI_SME_WIFI_ON_REQ, CsrWifiSmeWifiOnReqSizeof, CsrWifiSmeWifiOnReqSer, CsrWifiSmeWifiOnReqDes, CsrWifiSmeWifiOnReqSerFree }, - { CSR_WIFI_SME_CLOAKED_SSIDS_SET_REQ, CsrWifiSmeCloakedSsidsSetReqSizeof, CsrWifiSmeCloakedSsidsSetReqSer, CsrWifiSmeCloakedSsidsSetReqDes, CsrWifiSmeCloakedSsidsSetReqSerFree }, - { CSR_WIFI_SME_CLOAKED_SSIDS_GET_REQ, CsrWifiSmeCloakedSsidsGetReqSizeof, CsrWifiSmeCloakedSsidsGetReqSer, CsrWifiSmeCloakedSsidsGetReqDes, CsrWifiSmeCloakedSsidsGetReqSerFree }, - { CSR_WIFI_SME_SME_COMMON_CONFIG_GET_REQ, CsrWifiSmeSmeCommonConfigGetReqSizeof, CsrWifiSmeSmeCommonConfigGetReqSer, CsrWifiSmeSmeCommonConfigGetReqDes, CsrWifiSmeSmeCommonConfigGetReqSerFree }, - { CSR_WIFI_SME_SME_COMMON_CONFIG_SET_REQ, CsrWifiSmeSmeCommonConfigSetReqSizeof, CsrWifiSmeSmeCommonConfigSetReqSer, CsrWifiSmeSmeCommonConfigSetReqDes, CsrWifiSmeSmeCommonConfigSetReqSerFree }, - { CSR_WIFI_SME_INTERFACE_CAPABILITY_GET_REQ, CsrWifiSmeInterfaceCapabilityGetReqSizeof, CsrWifiSmeInterfaceCapabilityGetReqSer, CsrWifiSmeInterfaceCapabilityGetReqDes, CsrWifiSmeInterfaceCapabilityGetReqSerFree }, - { CSR_WIFI_SME_WPS_CONFIGURATION_REQ, CsrWifiSmeWpsConfigurationReqSizeof, CsrWifiSmeWpsConfigurationReqSer, CsrWifiSmeWpsConfigurationReqDes, CsrWifiSmeWpsConfigurationReqSerFree }, - { CSR_WIFI_SME_SET_REQ, CsrWifiSmeSetReqSizeof, CsrWifiSmeSetReqSer, CsrWifiSmeSetReqDes, CsrWifiSmeSetReqSerFree }, - { CSR_WIFI_SME_ACTIVATE_CFM, CsrWifiSmeActivateCfmSizeof, CsrWifiSmeActivateCfmSer, CsrWifiSmeActivateCfmDes, CsrWifiSmeActivateCfmSerFree }, - { CSR_WIFI_SME_ADHOC_CONFIG_GET_CFM, CsrWifiSmeAdhocConfigGetCfmSizeof, CsrWifiSmeAdhocConfigGetCfmSer, CsrWifiSmeAdhocConfigGetCfmDes, CsrWifiSmeAdhocConfigGetCfmSerFree }, - { CSR_WIFI_SME_ADHOC_CONFIG_SET_CFM, CsrWifiSmeAdhocConfigSetCfmSizeof, CsrWifiSmeAdhocConfigSetCfmSer, CsrWifiSmeAdhocConfigSetCfmDes, CsrWifiSmeAdhocConfigSetCfmSerFree }, - { CSR_WIFI_SME_ASSOCIATION_COMPLETE_IND, CsrWifiSmeAssociationCompleteIndSizeof, CsrWifiSmeAssociationCompleteIndSer, CsrWifiSmeAssociationCompleteIndDes, CsrWifiSmeAssociationCompleteIndSerFree }, - { CSR_WIFI_SME_ASSOCIATION_START_IND, CsrWifiSmeAssociationStartIndSizeof, CsrWifiSmeAssociationStartIndSer, CsrWifiSmeAssociationStartIndDes, CsrWifiSmeAssociationStartIndSerFree }, - { CSR_WIFI_SME_BLACKLIST_CFM, CsrWifiSmeBlacklistCfmSizeof, CsrWifiSmeBlacklistCfmSer, CsrWifiSmeBlacklistCfmDes, CsrWifiSmeBlacklistCfmSerFree }, - { CSR_WIFI_SME_CALIBRATION_DATA_GET_CFM, CsrWifiSmeCalibrationDataGetCfmSizeof, CsrWifiSmeCalibrationDataGetCfmSer, CsrWifiSmeCalibrationDataGetCfmDes, CsrWifiSmeCalibrationDataGetCfmSerFree }, - { CSR_WIFI_SME_CALIBRATION_DATA_SET_CFM, CsrWifiSmeCalibrationDataSetCfmSizeof, CsrWifiSmeCalibrationDataSetCfmSer, CsrWifiSmeCalibrationDataSetCfmDes, CsrWifiSmeCalibrationDataSetCfmSerFree }, - { CSR_WIFI_SME_CCX_CONFIG_GET_CFM, CsrWifiSmeCcxConfigGetCfmSizeof, CsrWifiSmeCcxConfigGetCfmSer, CsrWifiSmeCcxConfigGetCfmDes, CsrWifiSmeCcxConfigGetCfmSerFree }, - { CSR_WIFI_SME_CCX_CONFIG_SET_CFM, CsrWifiSmeCcxConfigSetCfmSizeof, CsrWifiSmeCcxConfigSetCfmSer, CsrWifiSmeCcxConfigSetCfmDes, CsrWifiSmeCcxConfigSetCfmSerFree }, - { CSR_WIFI_SME_COEX_CONFIG_GET_CFM, CsrWifiSmeCoexConfigGetCfmSizeof, CsrWifiSmeCoexConfigGetCfmSer, CsrWifiSmeCoexConfigGetCfmDes, CsrWifiSmeCoexConfigGetCfmSerFree }, - { CSR_WIFI_SME_COEX_CONFIG_SET_CFM, CsrWifiSmeCoexConfigSetCfmSizeof, CsrWifiSmeCoexConfigSetCfmSer, CsrWifiSmeCoexConfigSetCfmDes, CsrWifiSmeCoexConfigSetCfmSerFree }, - { CSR_WIFI_SME_COEX_INFO_GET_CFM, CsrWifiSmeCoexInfoGetCfmSizeof, CsrWifiSmeCoexInfoGetCfmSer, CsrWifiSmeCoexInfoGetCfmDes, CsrWifiSmeCoexInfoGetCfmSerFree }, - { CSR_WIFI_SME_CONNECT_CFM, CsrWifiSmeConnectCfmSizeof, CsrWifiSmeConnectCfmSer, CsrWifiSmeConnectCfmDes, CsrWifiSmeConnectCfmSerFree }, - { CSR_WIFI_SME_CONNECTION_CONFIG_GET_CFM, CsrWifiSmeConnectionConfigGetCfmSizeof, CsrWifiSmeConnectionConfigGetCfmSer, CsrWifiSmeConnectionConfigGetCfmDes, CsrWifiSmeConnectionConfigGetCfmSerFree }, - { CSR_WIFI_SME_CONNECTION_INFO_GET_CFM, CsrWifiSmeConnectionInfoGetCfmSizeof, CsrWifiSmeConnectionInfoGetCfmSer, CsrWifiSmeConnectionInfoGetCfmDes, CsrWifiSmeConnectionInfoGetCfmSerFree }, - { CSR_WIFI_SME_CONNECTION_QUALITY_IND, CsrWifiSmeConnectionQualityIndSizeof, CsrWifiSmeConnectionQualityIndSer, CsrWifiSmeConnectionQualityIndDes, CsrWifiSmeConnectionQualityIndSerFree }, - { CSR_WIFI_SME_CONNECTION_STATS_GET_CFM, CsrWifiSmeConnectionStatsGetCfmSizeof, CsrWifiSmeConnectionStatsGetCfmSer, CsrWifiSmeConnectionStatsGetCfmDes, CsrWifiSmeConnectionStatsGetCfmSerFree }, - { CSR_WIFI_SME_DEACTIVATE_CFM, CsrWifiSmeDeactivateCfmSizeof, CsrWifiSmeDeactivateCfmSer, CsrWifiSmeDeactivateCfmDes, CsrWifiSmeDeactivateCfmSerFree }, - { CSR_WIFI_SME_DISCONNECT_CFM, CsrWifiSmeDisconnectCfmSizeof, CsrWifiSmeDisconnectCfmSer, CsrWifiSmeDisconnectCfmDes, CsrWifiSmeDisconnectCfmSerFree }, - { CSR_WIFI_SME_EVENT_MASK_SET_CFM, CsrWifiSmeEventMaskSetCfmSizeof, CsrWifiSmeEventMaskSetCfmSer, CsrWifiSmeEventMaskSetCfmDes, CsrWifiSmeEventMaskSetCfmSerFree }, - { CSR_WIFI_SME_HOST_CONFIG_GET_CFM, CsrWifiSmeHostConfigGetCfmSizeof, CsrWifiSmeHostConfigGetCfmSer, CsrWifiSmeHostConfigGetCfmDes, CsrWifiSmeHostConfigGetCfmSerFree }, - { CSR_WIFI_SME_HOST_CONFIG_SET_CFM, CsrWifiSmeHostConfigSetCfmSizeof, CsrWifiSmeHostConfigSetCfmSer, CsrWifiSmeHostConfigSetCfmDes, CsrWifiSmeHostConfigSetCfmSerFree }, - { CSR_WIFI_SME_IBSS_STATION_IND, CsrWifiSmeIbssStationIndSizeof, CsrWifiSmeIbssStationIndSer, CsrWifiSmeIbssStationIndDes, CsrWifiSmeIbssStationIndSerFree }, - { CSR_WIFI_SME_KEY_CFM, CsrWifiSmeKeyCfmSizeof, CsrWifiSmeKeyCfmSer, CsrWifiSmeKeyCfmDes, CsrWifiSmeKeyCfmSerFree }, - { CSR_WIFI_SME_LINK_QUALITY_GET_CFM, CsrWifiSmeLinkQualityGetCfmSizeof, CsrWifiSmeLinkQualityGetCfmSer, CsrWifiSmeLinkQualityGetCfmDes, CsrWifiSmeLinkQualityGetCfmSerFree }, - { CSR_WIFI_SME_MEDIA_STATUS_IND, CsrWifiSmeMediaStatusIndSizeof, CsrWifiSmeMediaStatusIndSer, CsrWifiSmeMediaStatusIndDes, CsrWifiSmeMediaStatusIndSerFree }, - { CSR_WIFI_SME_MIB_CONFIG_GET_CFM, CsrWifiSmeMibConfigGetCfmSizeof, CsrWifiSmeMibConfigGetCfmSer, CsrWifiSmeMibConfigGetCfmDes, CsrWifiSmeMibConfigGetCfmSerFree }, - { CSR_WIFI_SME_MIB_CONFIG_SET_CFM, CsrWifiSmeMibConfigSetCfmSizeof, CsrWifiSmeMibConfigSetCfmSer, CsrWifiSmeMibConfigSetCfmDes, CsrWifiSmeMibConfigSetCfmSerFree }, - { CSR_WIFI_SME_MIB_GET_CFM, CsrWifiSmeMibGetCfmSizeof, CsrWifiSmeMibGetCfmSer, CsrWifiSmeMibGetCfmDes, CsrWifiSmeMibGetCfmSerFree }, - { CSR_WIFI_SME_MIB_GET_NEXT_CFM, CsrWifiSmeMibGetNextCfmSizeof, CsrWifiSmeMibGetNextCfmSer, CsrWifiSmeMibGetNextCfmDes, CsrWifiSmeMibGetNextCfmSerFree }, - { CSR_WIFI_SME_MIB_SET_CFM, CsrWifiSmeMibSetCfmSizeof, CsrWifiSmeMibSetCfmSer, CsrWifiSmeMibSetCfmDes, CsrWifiSmeMibSetCfmSerFree }, - { CSR_WIFI_SME_MIC_FAILURE_IND, CsrWifiSmeMicFailureIndSizeof, CsrWifiSmeMicFailureIndSer, CsrWifiSmeMicFailureIndDes, CsrWifiSmeMicFailureIndSerFree }, - { CSR_WIFI_SME_MULTICAST_ADDRESS_CFM, CsrWifiSmeMulticastAddressCfmSizeof, CsrWifiSmeMulticastAddressCfmSer, CsrWifiSmeMulticastAddressCfmDes, CsrWifiSmeMulticastAddressCfmSerFree }, - { CSR_WIFI_SME_PACKET_FILTER_SET_CFM, CsrWifiSmePacketFilterSetCfmSizeof, CsrWifiSmePacketFilterSetCfmSer, CsrWifiSmePacketFilterSetCfmDes, CsrWifiSmePacketFilterSetCfmSerFree }, - { CSR_WIFI_SME_PERMANENT_MAC_ADDRESS_GET_CFM, CsrWifiSmePermanentMacAddressGetCfmSizeof, CsrWifiSmePermanentMacAddressGetCfmSer, CsrWifiSmePermanentMacAddressGetCfmDes, CsrWifiSmePermanentMacAddressGetCfmSerFree }, - { CSR_WIFI_SME_PMKID_CANDIDATE_LIST_IND, CsrWifiSmePmkidCandidateListIndSizeof, CsrWifiSmePmkidCandidateListIndSer, CsrWifiSmePmkidCandidateListIndDes, CsrWifiSmePmkidCandidateListIndSerFree }, - { CSR_WIFI_SME_PMKID_CFM, CsrWifiSmePmkidCfmSizeof, CsrWifiSmePmkidCfmSer, CsrWifiSmePmkidCfmDes, CsrWifiSmePmkidCfmSerFree }, - { CSR_WIFI_SME_POWER_CONFIG_GET_CFM, CsrWifiSmePowerConfigGetCfmSizeof, CsrWifiSmePowerConfigGetCfmSer, CsrWifiSmePowerConfigGetCfmDes, CsrWifiSmePowerConfigGetCfmSerFree }, - { CSR_WIFI_SME_POWER_CONFIG_SET_CFM, CsrWifiSmePowerConfigSetCfmSizeof, CsrWifiSmePowerConfigSetCfmSer, CsrWifiSmePowerConfigSetCfmDes, CsrWifiSmePowerConfigSetCfmSerFree }, - { CSR_WIFI_SME_REGULATORY_DOMAIN_INFO_GET_CFM, CsrWifiSmeRegulatoryDomainInfoGetCfmSizeof, CsrWifiSmeRegulatoryDomainInfoGetCfmSer, CsrWifiSmeRegulatoryDomainInfoGetCfmDes, CsrWifiSmeRegulatoryDomainInfoGetCfmSerFree }, - { CSR_WIFI_SME_ROAM_COMPLETE_IND, CsrWifiSmeRoamCompleteIndSizeof, CsrWifiSmeRoamCompleteIndSer, CsrWifiSmeRoamCompleteIndDes, CsrWifiSmeRoamCompleteIndSerFree }, - { CSR_WIFI_SME_ROAM_START_IND, CsrWifiSmeRoamStartIndSizeof, CsrWifiSmeRoamStartIndSer, CsrWifiSmeRoamStartIndDes, CsrWifiSmeRoamStartIndSerFree }, - { CSR_WIFI_SME_ROAMING_CONFIG_GET_CFM, CsrWifiSmeRoamingConfigGetCfmSizeof, CsrWifiSmeRoamingConfigGetCfmSer, CsrWifiSmeRoamingConfigGetCfmDes, CsrWifiSmeRoamingConfigGetCfmSerFree }, - { CSR_WIFI_SME_ROAMING_CONFIG_SET_CFM, CsrWifiSmeRoamingConfigSetCfmSizeof, CsrWifiSmeRoamingConfigSetCfmSer, CsrWifiSmeRoamingConfigSetCfmDes, CsrWifiSmeRoamingConfigSetCfmSerFree }, - { CSR_WIFI_SME_SCAN_CONFIG_GET_CFM, CsrWifiSmeScanConfigGetCfmSizeof, CsrWifiSmeScanConfigGetCfmSer, CsrWifiSmeScanConfigGetCfmDes, CsrWifiSmeScanConfigGetCfmSerFree }, - { CSR_WIFI_SME_SCAN_CONFIG_SET_CFM, CsrWifiSmeScanConfigSetCfmSizeof, CsrWifiSmeScanConfigSetCfmSer, CsrWifiSmeScanConfigSetCfmDes, CsrWifiSmeScanConfigSetCfmSerFree }, - { CSR_WIFI_SME_SCAN_FULL_CFM, CsrWifiSmeScanFullCfmSizeof, CsrWifiSmeScanFullCfmSer, CsrWifiSmeScanFullCfmDes, CsrWifiSmeScanFullCfmSerFree }, - { CSR_WIFI_SME_SCAN_RESULT_IND, CsrWifiSmeScanResultIndSizeof, CsrWifiSmeScanResultIndSer, CsrWifiSmeScanResultIndDes, CsrWifiSmeScanResultIndSerFree }, - { CSR_WIFI_SME_SCAN_RESULTS_FLUSH_CFM, CsrWifiSmeScanResultsFlushCfmSizeof, CsrWifiSmeScanResultsFlushCfmSer, CsrWifiSmeScanResultsFlushCfmDes, CsrWifiSmeScanResultsFlushCfmSerFree }, - { CSR_WIFI_SME_SCAN_RESULTS_GET_CFM, CsrWifiSmeScanResultsGetCfmSizeof, CsrWifiSmeScanResultsGetCfmSer, CsrWifiSmeScanResultsGetCfmDes, CsrWifiSmeScanResultsGetCfmSerFree }, - { CSR_WIFI_SME_SME_STA_CONFIG_GET_CFM, CsrWifiSmeSmeStaConfigGetCfmSizeof, CsrWifiSmeSmeStaConfigGetCfmSer, CsrWifiSmeSmeStaConfigGetCfmDes, CsrWifiSmeSmeStaConfigGetCfmSerFree }, - { CSR_WIFI_SME_SME_STA_CONFIG_SET_CFM, CsrWifiSmeSmeStaConfigSetCfmSizeof, CsrWifiSmeSmeStaConfigSetCfmSer, CsrWifiSmeSmeStaConfigSetCfmDes, CsrWifiSmeSmeStaConfigSetCfmSerFree }, - { CSR_WIFI_SME_STATION_MAC_ADDRESS_GET_CFM, CsrWifiSmeStationMacAddressGetCfmSizeof, CsrWifiSmeStationMacAddressGetCfmSer, CsrWifiSmeStationMacAddressGetCfmDes, CsrWifiSmeStationMacAddressGetCfmSerFree }, - { CSR_WIFI_SME_TSPEC_IND, CsrWifiSmeTspecIndSizeof, CsrWifiSmeTspecIndSer, CsrWifiSmeTspecIndDes, CsrWifiSmeTspecIndSerFree }, - { CSR_WIFI_SME_TSPEC_CFM, CsrWifiSmeTspecCfmSizeof, CsrWifiSmeTspecCfmSer, CsrWifiSmeTspecCfmDes, CsrWifiSmeTspecCfmSerFree }, - { CSR_WIFI_SME_VERSIONS_GET_CFM, CsrWifiSmeVersionsGetCfmSizeof, CsrWifiSmeVersionsGetCfmSer, CsrWifiSmeVersionsGetCfmDes, CsrWifiSmeVersionsGetCfmSerFree }, - { CSR_WIFI_SME_WIFI_FLIGHTMODE_CFM, CsrWifiSmeWifiFlightmodeCfmSizeof, CsrWifiSmeWifiFlightmodeCfmSer, CsrWifiSmeWifiFlightmodeCfmDes, CsrWifiSmeWifiFlightmodeCfmSerFree }, - { CSR_WIFI_SME_WIFI_OFF_IND, CsrWifiSmeWifiOffIndSizeof, CsrWifiSmeWifiOffIndSer, CsrWifiSmeWifiOffIndDes, CsrWifiSmeWifiOffIndSerFree }, - { CSR_WIFI_SME_WIFI_OFF_CFM, CsrWifiSmeWifiOffCfmSizeof, CsrWifiSmeWifiOffCfmSer, CsrWifiSmeWifiOffCfmDes, CsrWifiSmeWifiOffCfmSerFree }, - { CSR_WIFI_SME_WIFI_ON_CFM, CsrWifiSmeWifiOnCfmSizeof, CsrWifiSmeWifiOnCfmSer, CsrWifiSmeWifiOnCfmDes, CsrWifiSmeWifiOnCfmSerFree }, - { CSR_WIFI_SME_CLOAKED_SSIDS_SET_CFM, CsrWifiSmeCloakedSsidsSetCfmSizeof, CsrWifiSmeCloakedSsidsSetCfmSer, CsrWifiSmeCloakedSsidsSetCfmDes, CsrWifiSmeCloakedSsidsSetCfmSerFree }, - { CSR_WIFI_SME_CLOAKED_SSIDS_GET_CFM, CsrWifiSmeCloakedSsidsGetCfmSizeof, CsrWifiSmeCloakedSsidsGetCfmSer, CsrWifiSmeCloakedSsidsGetCfmDes, CsrWifiSmeCloakedSsidsGetCfmSerFree }, - { CSR_WIFI_SME_WIFI_ON_IND, CsrWifiSmeWifiOnIndSizeof, CsrWifiSmeWifiOnIndSer, CsrWifiSmeWifiOnIndDes, CsrWifiSmeWifiOnIndSerFree }, - { CSR_WIFI_SME_SME_COMMON_CONFIG_GET_CFM, CsrWifiSmeSmeCommonConfigGetCfmSizeof, CsrWifiSmeSmeCommonConfigGetCfmSer, CsrWifiSmeSmeCommonConfigGetCfmDes, CsrWifiSmeSmeCommonConfigGetCfmSerFree }, - { CSR_WIFI_SME_SME_COMMON_CONFIG_SET_CFM, CsrWifiSmeSmeCommonConfigSetCfmSizeof, CsrWifiSmeSmeCommonConfigSetCfmSer, CsrWifiSmeSmeCommonConfigSetCfmDes, CsrWifiSmeSmeCommonConfigSetCfmSerFree }, - { CSR_WIFI_SME_INTERFACE_CAPABILITY_GET_CFM, CsrWifiSmeInterfaceCapabilityGetCfmSizeof, CsrWifiSmeInterfaceCapabilityGetCfmSer, CsrWifiSmeInterfaceCapabilityGetCfmDes, CsrWifiSmeInterfaceCapabilityGetCfmSerFree }, - { CSR_WIFI_SME_ERROR_IND, CsrWifiSmeErrorIndSizeof, CsrWifiSmeErrorIndSer, CsrWifiSmeErrorIndDes, CsrWifiSmeErrorIndSerFree }, - { CSR_WIFI_SME_INFO_IND, CsrWifiSmeInfoIndSizeof, CsrWifiSmeInfoIndSer, CsrWifiSmeInfoIndDes, CsrWifiSmeInfoIndSerFree }, - { CSR_WIFI_SME_CORE_DUMP_IND, CsrWifiSmeCoreDumpIndSizeof, CsrWifiSmeCoreDumpIndSer, CsrWifiSmeCoreDumpIndDes, CsrWifiSmeCoreDumpIndSerFree }, - { CSR_WIFI_SME_AMP_STATUS_CHANGE_IND, CsrWifiSmeAmpStatusChangeIndSizeof, CsrWifiSmeAmpStatusChangeIndSer, CsrWifiSmeAmpStatusChangeIndDes, CsrWifiSmeAmpStatusChangeIndSerFree }, - { CSR_WIFI_SME_WPS_CONFIGURATION_CFM, CsrWifiSmeWpsConfigurationCfmSizeof, CsrWifiSmeWpsConfigurationCfmSer, CsrWifiSmeWpsConfigurationCfmDes, CsrWifiSmeWpsConfigurationCfmSerFree }, - - { 0, NULL, NULL, NULL, NULL }, -}; - -CsrMsgConvMsgEntry* CsrWifiSmeConverterLookup(CsrMsgConvMsgEntry *ce, u16 msgType) -{ - if (msgType & CSR_PRIM_UPSTREAM) - { - u16 idx = (msgType & ~CSR_PRIM_UPSTREAM) + CSR_WIFI_SME_PRIM_DOWNSTREAM_COUNT; - if (idx < (CSR_WIFI_SME_PRIM_UPSTREAM_COUNT + CSR_WIFI_SME_PRIM_DOWNSTREAM_COUNT) && - csrwifisme_conv_lut[idx].msgType == msgType) - { - return &csrwifisme_conv_lut[idx]; - } - } - else - { - if (msgType < CSR_WIFI_SME_PRIM_DOWNSTREAM_COUNT && - csrwifisme_conv_lut[msgType].msgType == msgType) - { - return &csrwifisme_conv_lut[msgType]; - } - } - return NULL; -} - - -void CsrWifiSmeConverterInit(void) -{ - CsrMsgConvInsert(CSR_WIFI_SME_PRIM, csrwifisme_conv_lut); - CsrMsgConvCustomLookupRegister(CSR_WIFI_SME_PRIM, CsrWifiSmeConverterLookup); -} - - -#ifdef CSR_LOG_ENABLE -static const CsrLogPrimitiveInformation csrwifisme_conv_info = { - CSR_WIFI_SME_PRIM, - (char *)"CSR_WIFI_SME_PRIM", - csrwifisme_conv_lut -}; -const CsrLogPrimitiveInformation* CsrWifiSmeTechInfoGet(void) -{ - return &csrwifisme_conv_info; -} - - -#endif /* CSR_LOG_ENABLE */ -#endif /* EXCLUDE_CSR_WIFI_SME_MODULE */ diff --git a/drivers/staging/csr/csr_wifi_sme_converter_init.h b/drivers/staging/csr/csr_wifi_sme_converter_init.h deleted file mode 100644 index ba5e4b4..0000000 --- a/drivers/staging/csr/csr_wifi_sme_converter_init.h +++ /dev/null @@ -1,34 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_SME_CONVERTER_INIT_H__ -#define CSR_WIFI_SME_CONVERTER_INIT_H__ - -#ifndef EXCLUDE_CSR_WIFI_SME_MODULE - -#include "csr_msgconv.h" - -#ifdef CSR_LOG_ENABLE -#include "csr_log.h" - -extern const CsrLogPrimitiveInformation* CsrWifiSmeTechInfoGet(void); -#endif /* CSR_LOG_ENABLE */ - -extern void CsrWifiSmeConverterInit(void); - -#else /* EXCLUDE_CSR_WIFI_SME_MODULE */ - -#define CsrWifiSmeConverterInit() - -#endif /* EXCLUDE_CSR_WIFI_SME_MODULE */ - -#endif /* CSR_WIFI_SME_CONVERTER_INIT_H__ */ diff --git a/drivers/staging/csr/csr_wifi_sme_free_downstream_contents.c b/drivers/staging/csr/csr_wifi_sme_free_downstream_contents.c deleted file mode 100644 index 03b5ddb..0000000 --- a/drivers/staging/csr/csr_wifi_sme_free_downstream_contents.c +++ /dev/null @@ -1,187 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/slab.h> -#include "csr_wifi_sme_prim.h" -#include "csr_wifi_sme_lib.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrWifiSmeFreeDownstreamMessageContents - * - * DESCRIPTION - * - * - * PARAMETERS - * eventClass: only the value CSR_WIFI_SME_PRIM will be handled - * message: the message to free - *----------------------------------------------------------------------------*/ -void CsrWifiSmeFreeDownstreamMessageContents(u16 eventClass, void *message) -{ - if (eventClass != CSR_WIFI_SME_PRIM) - { - return; - } - if (NULL == message) - { - return; - } - - switch (*((CsrWifiSmePrim *) message)) - { - case CSR_WIFI_SME_BLACKLIST_REQ: - { - CsrWifiSmeBlacklistReq *p = (CsrWifiSmeBlacklistReq *)message; - kfree(p->setAddresses); - p->setAddresses = NULL; - break; - } - case CSR_WIFI_SME_CALIBRATION_DATA_SET_REQ: - { - CsrWifiSmeCalibrationDataSetReq *p = (CsrWifiSmeCalibrationDataSetReq *)message; - kfree(p->calibrationData); - p->calibrationData = NULL; - break; - } - case CSR_WIFI_SME_CONNECT_REQ: - { - CsrWifiSmeConnectReq *p = (CsrWifiSmeConnectReq *)message; - kfree(p->connectionConfig.mlmeAssociateReqInformationElements); - p->connectionConfig.mlmeAssociateReqInformationElements = NULL; - break; - } - case CSR_WIFI_SME_MIB_GET_NEXT_REQ: - { - CsrWifiSmeMibGetNextReq *p = (CsrWifiSmeMibGetNextReq *)message; - kfree(p->mibAttribute); - p->mibAttribute = NULL; - break; - } - case CSR_WIFI_SME_MIB_GET_REQ: - { - CsrWifiSmeMibGetReq *p = (CsrWifiSmeMibGetReq *)message; - kfree(p->mibAttribute); - p->mibAttribute = NULL; - break; - } - case CSR_WIFI_SME_MIB_SET_REQ: - { - CsrWifiSmeMibSetReq *p = (CsrWifiSmeMibSetReq *)message; - kfree(p->mibAttribute); - p->mibAttribute = NULL; - break; - } - case CSR_WIFI_SME_MULTICAST_ADDRESS_REQ: - { - CsrWifiSmeMulticastAddressReq *p = (CsrWifiSmeMulticastAddressReq *)message; - kfree(p->setAddresses); - p->setAddresses = NULL; - break; - } - case CSR_WIFI_SME_PACKET_FILTER_SET_REQ: - { - CsrWifiSmePacketFilterSetReq *p = (CsrWifiSmePacketFilterSetReq *)message; - kfree(p->filter); - p->filter = NULL; - break; - } - case CSR_WIFI_SME_PMKID_REQ: - { - CsrWifiSmePmkidReq *p = (CsrWifiSmePmkidReq *)message; - kfree(p->setPmkids); - p->setPmkids = NULL; - break; - } - case CSR_WIFI_SME_SCAN_CONFIG_SET_REQ: - { - CsrWifiSmeScanConfigSetReq *p = (CsrWifiSmeScanConfigSetReq *)message; - kfree(p->scanConfig.passiveChannelList); - p->scanConfig.passiveChannelList = NULL; - break; - } - case CSR_WIFI_SME_SCAN_FULL_REQ: - { - CsrWifiSmeScanFullReq *p = (CsrWifiSmeScanFullReq *)message; - kfree(p->ssid); - p->ssid = NULL; - kfree(p->channelList); - p->channelList = NULL; - kfree(p->probeIe); - p->probeIe = NULL; - break; - } - case CSR_WIFI_SME_TSPEC_REQ: - { - CsrWifiSmeTspecReq *p = (CsrWifiSmeTspecReq *)message; - kfree(p->tspec); - p->tspec = NULL; - kfree(p->tclas); - p->tclas = NULL; - break; - } - case CSR_WIFI_SME_WIFI_FLIGHTMODE_REQ: - { - CsrWifiSmeWifiFlightmodeReq *p = (CsrWifiSmeWifiFlightmodeReq *)message; - { - u16 i1; - for (i1 = 0; i1 < p->mibFilesCount; i1++) - { - kfree(p->mibFiles[i1].data); - p->mibFiles[i1].data = NULL; - } - } - kfree(p->mibFiles); - p->mibFiles = NULL; - break; - } - case CSR_WIFI_SME_WIFI_ON_REQ: - { - CsrWifiSmeWifiOnReq *p = (CsrWifiSmeWifiOnReq *)message; - { - u16 i1; - for (i1 = 0; i1 < p->mibFilesCount; i1++) - { - kfree(p->mibFiles[i1].data); - p->mibFiles[i1].data = NULL; - } - } - kfree(p->mibFiles); - p->mibFiles = NULL; - break; - } - case CSR_WIFI_SME_CLOAKED_SSIDS_SET_REQ: - { - CsrWifiSmeCloakedSsidsSetReq *p = (CsrWifiSmeCloakedSsidsSetReq *)message; - kfree(p->cloakedSsids.cloakedSsids); - p->cloakedSsids.cloakedSsids = NULL; - break; - } - case CSR_WIFI_SME_WPS_CONFIGURATION_REQ: - { - CsrWifiSmeWpsConfigurationReq *p = (CsrWifiSmeWpsConfigurationReq *)message; - kfree(p->wpsConfig.secondaryDeviceType); - p->wpsConfig.secondaryDeviceType = NULL; - break; - } - case CSR_WIFI_SME_SET_REQ: - { - CsrWifiSmeSetReq *p = (CsrWifiSmeSetReq *)message; - kfree(p->data); - p->data = NULL; - break; - } - - default: - break; - } -} - - diff --git a/drivers/staging/csr/csr_wifi_sme_free_upstream_contents.c b/drivers/staging/csr/csr_wifi_sme_free_upstream_contents.c deleted file mode 100644 index c04767b..0000000 --- a/drivers/staging/csr/csr_wifi_sme_free_upstream_contents.c +++ /dev/null @@ -1,275 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/slab.h> -#include "csr_wifi_sme_prim.h" -#include "csr_wifi_sme_lib.h" - -/*----------------------------------------------------------------------------* - * NAME - * CsrWifiSmeFreeUpstreamMessageContents - * - * DESCRIPTION - * - * - * PARAMETERS - * eventClass: only the value CSR_WIFI_SME_PRIM will be handled - * message: the message to free - *----------------------------------------------------------------------------*/ -void CsrWifiSmeFreeUpstreamMessageContents(u16 eventClass, void *message) -{ - if (eventClass != CSR_WIFI_SME_PRIM) - { - return; - } - if (NULL == message) - { - return; - } - - switch (*((CsrWifiSmePrim *) message)) - { - case CSR_WIFI_SME_ASSOCIATION_COMPLETE_IND: - { - CsrWifiSmeAssociationCompleteInd *p = (CsrWifiSmeAssociationCompleteInd *)message; - kfree(p->connectionInfo.beaconFrame); - p->connectionInfo.beaconFrame = NULL; - kfree(p->connectionInfo.associationReqFrame); - p->connectionInfo.associationReqFrame = NULL; - kfree(p->connectionInfo.associationRspFrame); - p->connectionInfo.associationRspFrame = NULL; - kfree(p->connectionInfo.assocScanInfoElements); - p->connectionInfo.assocScanInfoElements = NULL; - kfree(p->connectionInfo.assocReqInfoElements); - p->connectionInfo.assocReqInfoElements = NULL; - kfree(p->connectionInfo.assocRspInfoElements); - p->connectionInfo.assocRspInfoElements = NULL; - break; - } - case CSR_WIFI_SME_BLACKLIST_CFM: - { - CsrWifiSmeBlacklistCfm *p = (CsrWifiSmeBlacklistCfm *)message; - kfree(p->getAddresses); - p->getAddresses = NULL; - break; - } - case CSR_WIFI_SME_CALIBRATION_DATA_GET_CFM: - { - CsrWifiSmeCalibrationDataGetCfm *p = (CsrWifiSmeCalibrationDataGetCfm *)message; - kfree(p->calibrationData); - p->calibrationData = NULL; - break; - } - case CSR_WIFI_SME_CONNECTION_CONFIG_GET_CFM: - { - CsrWifiSmeConnectionConfigGetCfm *p = (CsrWifiSmeConnectionConfigGetCfm *)message; - kfree(p->connectionConfig.mlmeAssociateReqInformationElements); - p->connectionConfig.mlmeAssociateReqInformationElements = NULL; - break; - } - case CSR_WIFI_SME_CONNECTION_INFO_GET_CFM: - { - CsrWifiSmeConnectionInfoGetCfm *p = (CsrWifiSmeConnectionInfoGetCfm *)message; - kfree(p->connectionInfo.beaconFrame); - p->connectionInfo.beaconFrame = NULL; - kfree(p->connectionInfo.associationReqFrame); - p->connectionInfo.associationReqFrame = NULL; - kfree(p->connectionInfo.associationRspFrame); - p->connectionInfo.associationRspFrame = NULL; - kfree(p->connectionInfo.assocScanInfoElements); - p->connectionInfo.assocScanInfoElements = NULL; - kfree(p->connectionInfo.assocReqInfoElements); - p->connectionInfo.assocReqInfoElements = NULL; - kfree(p->connectionInfo.assocRspInfoElements); - p->connectionInfo.assocRspInfoElements = NULL; - break; - } - case CSR_WIFI_SME_MEDIA_STATUS_IND: - { - CsrWifiSmeMediaStatusInd *p = (CsrWifiSmeMediaStatusInd *)message; - kfree(p->connectionInfo.beaconFrame); - p->connectionInfo.beaconFrame = NULL; - kfree(p->connectionInfo.associationReqFrame); - p->connectionInfo.associationReqFrame = NULL; - kfree(p->connectionInfo.associationRspFrame); - p->connectionInfo.associationRspFrame = NULL; - kfree(p->connectionInfo.assocScanInfoElements); - p->connectionInfo.assocScanInfoElements = NULL; - kfree(p->connectionInfo.assocReqInfoElements); - p->connectionInfo.assocReqInfoElements = NULL; - kfree(p->connectionInfo.assocRspInfoElements); - p->connectionInfo.assocRspInfoElements = NULL; - break; - } - case CSR_WIFI_SME_MIB_GET_CFM: - { - CsrWifiSmeMibGetCfm *p = (CsrWifiSmeMibGetCfm *)message; - kfree(p->mibAttribute); - p->mibAttribute = NULL; - break; - } - case CSR_WIFI_SME_MIB_GET_NEXT_CFM: - { - CsrWifiSmeMibGetNextCfm *p = (CsrWifiSmeMibGetNextCfm *)message; - kfree(p->mibAttribute); - p->mibAttribute = NULL; - break; - } - case CSR_WIFI_SME_MULTICAST_ADDRESS_CFM: - { - CsrWifiSmeMulticastAddressCfm *p = (CsrWifiSmeMulticastAddressCfm *)message; - kfree(p->getAddresses); - p->getAddresses = NULL; - break; - } - case CSR_WIFI_SME_PMKID_CANDIDATE_LIST_IND: - { - CsrWifiSmePmkidCandidateListInd *p = (CsrWifiSmePmkidCandidateListInd *)message; - kfree(p->pmkidCandidates); - p->pmkidCandidates = NULL; - break; - } - case CSR_WIFI_SME_PMKID_CFM: - { - CsrWifiSmePmkidCfm *p = (CsrWifiSmePmkidCfm *)message; - kfree(p->getPmkids); - p->getPmkids = NULL; - break; - } - case CSR_WIFI_SME_SCAN_CONFIG_GET_CFM: - { - CsrWifiSmeScanConfigGetCfm *p = (CsrWifiSmeScanConfigGetCfm *)message; - kfree(p->scanConfig.passiveChannelList); - p->scanConfig.passiveChannelList = NULL; - break; - } - case CSR_WIFI_SME_SCAN_RESULT_IND: - { - CsrWifiSmeScanResultInd *p = (CsrWifiSmeScanResultInd *)message; - kfree(p->result.informationElements); - p->result.informationElements = NULL; - switch (p->result.p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_GO: - { - u16 i4; - for (i4 = 0; i4 < p->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - kfree(p->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType); - p->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = NULL; - } - } - kfree(p->result.deviceInfo.groupInfo.p2PClientInfo); - p->result.deviceInfo.groupInfo.p2PClientInfo = NULL; - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - kfree(p->result.deviceInfo.standalonedevInfo.secDeviceType); - p->result.deviceInfo.standalonedevInfo.secDeviceType = NULL; - break; - default: - break; - } - break; - } - case CSR_WIFI_SME_SCAN_RESULTS_GET_CFM: - { - CsrWifiSmeScanResultsGetCfm *p = (CsrWifiSmeScanResultsGetCfm *)message; - { - u16 i1; - for (i1 = 0; i1 < p->scanResultsCount; i1++) - { - kfree(p->scanResults[i1].informationElements); - p->scanResults[i1].informationElements = NULL; - switch (p->scanResults[i1].p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_GO: - { - u16 i4; - for (i4 = 0; i4 < p->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - kfree(p->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType); - p->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = NULL; - } - } - kfree(p->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo); - p->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo = NULL; - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - kfree(p->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType); - p->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType = NULL; - break; - default: - break; - } - } - } - kfree(p->scanResults); - p->scanResults = NULL; - break; - } - case CSR_WIFI_SME_TSPEC_IND: - { - CsrWifiSmeTspecInd *p = (CsrWifiSmeTspecInd *)message; - kfree(p->tspec); - p->tspec = NULL; - break; - } - case CSR_WIFI_SME_TSPEC_CFM: - { - CsrWifiSmeTspecCfm *p = (CsrWifiSmeTspecCfm *)message; - kfree(p->tspec); - p->tspec = NULL; - break; - } - case CSR_WIFI_SME_VERSIONS_GET_CFM: - { - CsrWifiSmeVersionsGetCfm *p = (CsrWifiSmeVersionsGetCfm *)message; - kfree(p->versions.routerBuild); - p->versions.routerBuild = NULL; - kfree(p->versions.smeBuild); - p->versions.smeBuild = NULL; - break; - } - case CSR_WIFI_SME_CLOAKED_SSIDS_GET_CFM: - { - CsrWifiSmeCloakedSsidsGetCfm *p = (CsrWifiSmeCloakedSsidsGetCfm *)message; - kfree(p->cloakedSsids.cloakedSsids); - p->cloakedSsids.cloakedSsids = NULL; - break; - } - case CSR_WIFI_SME_ERROR_IND: - { - CsrWifiSmeErrorInd *p = (CsrWifiSmeErrorInd *)message; - kfree(p->errorMessage); - p->errorMessage = NULL; - break; - } - case CSR_WIFI_SME_INFO_IND: - { - CsrWifiSmeInfoInd *p = (CsrWifiSmeInfoInd *)message; - kfree(p->infoMessage); - p->infoMessage = NULL; - break; - } - case CSR_WIFI_SME_CORE_DUMP_IND: - { - CsrWifiSmeCoreDumpInd *p = (CsrWifiSmeCoreDumpInd *)message; - kfree(p->data); - p->data = NULL; - break; - } - - default: - break; - } -} - - diff --git a/drivers/staging/csr/csr_wifi_sme_lib.h b/drivers/staging/csr/csr_wifi_sme_lib.h deleted file mode 100644 index 53cf126..0000000 --- a/drivers/staging/csr/csr_wifi_sme_lib.h +++ /dev/null @@ -1,4303 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_SME_LIB_H__ -#define CSR_WIFI_SME_LIB_H__ - -#include "csr_sched.h" -#include "csr_macro.h" -#include "csr_msg_transport.h" - -#include "csr_wifi_lib.h" - -#include "csr_wifi_sme_prim.h" -#include "csr_wifi_sme_task.h" - - -#ifndef CSR_WIFI_SME_LIB_DESTINATION_QUEUE -# ifdef CSR_WIFI_NME_ENABLE -# include "csr_wifi_nme_task.h" -# define CSR_WIFI_SME_LIB_DESTINATION_QUEUE CSR_WIFI_NME_IFACEQUEUE -# else -# define CSR_WIFI_SME_LIB_DESTINATION_QUEUE CSR_WIFI_SME_IFACEQUEUE -# endif -#endif - -/*----------------------------------------------------------------------------* - * CsrWifiSmeFreeUpstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_SME upstream message. Does not - * free the message itself, and can only be used for upstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_SME upstream message - *----------------------------------------------------------------------------*/ -void CsrWifiSmeFreeUpstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * CsrWifiSmeFreeDownstreamMessageContents - * - * DESCRIPTION - * Free the allocated memory in a CSR_WIFI_SME downstream message. Does not - * free the message itself, and can only be used for downstream messages. - * - * PARAMETERS - * Deallocates the resources in a CSR_WIFI_SME downstream message - *----------------------------------------------------------------------------*/ -void CsrWifiSmeFreeDownstreamMessageContents(u16 eventClass, void *message); - -/*----------------------------------------------------------------------------* - * Enum to string functions - *----------------------------------------------------------------------------*/ -const char* CsrWifiSme80211NetworkTypeToString(CsrWifiSme80211NetworkType value); -const char* CsrWifiSme80211PrivacyModeToString(CsrWifiSme80211PrivacyMode value); -const char* CsrWifiSme80211dTrustLevelToString(CsrWifiSme80211dTrustLevel value); -const char* CsrWifiSmeAmpStatusToString(CsrWifiSmeAmpStatus value); -const char* CsrWifiSmeAuthModeToString(CsrWifiSmeAuthMode value); -const char* CsrWifiSmeBasicUsabilityToString(CsrWifiSmeBasicUsability value); -const char* CsrWifiSmeBssTypeToString(CsrWifiSmeBssType value); -const char* CsrWifiSmeCoexSchemeToString(CsrWifiSmeCoexScheme value); -const char* CsrWifiSmeControlIndicationToString(CsrWifiSmeControlIndication value); -const char* CsrWifiSmeCtsProtectionTypeToString(CsrWifiSmeCtsProtectionType value); -const char* CsrWifiSmeD3AutoScanModeToString(CsrWifiSmeD3AutoScanMode value); -const char* CsrWifiSmeEncryptionToString(CsrWifiSmeEncryption value); -const char* CsrWifiSmeFirmwareDriverInterfaceToString(CsrWifiSmeFirmwareDriverInterface value); -const char* CsrWifiSmeHostPowerModeToString(CsrWifiSmeHostPowerMode value); -const char* CsrWifiSmeIEEE80211ReasonToString(CsrWifiSmeIEEE80211Reason value); -const char* CsrWifiSmeIEEE80211ResultToString(CsrWifiSmeIEEE80211Result value); -const char* CsrWifiSmeIndicationsToString(CsrWifiSmeIndications value); -const char* CsrWifiSmeKeyTypeToString(CsrWifiSmeKeyType value); -const char* CsrWifiSmeListActionToString(CsrWifiSmeListAction value); -const char* CsrWifiSmeMediaStatusToString(CsrWifiSmeMediaStatus value); -const char* CsrWifiSmeP2pCapabilityToString(CsrWifiSmeP2pCapability value); -const char* CsrWifiSmeP2pGroupCapabilityToString(CsrWifiSmeP2pGroupCapability value); -const char* CsrWifiSmeP2pNoaConfigMethodToString(CsrWifiSmeP2pNoaConfigMethod value); -const char* CsrWifiSmeP2pRoleToString(CsrWifiSmeP2pRole value); -const char* CsrWifiSmeP2pStatusToString(CsrWifiSmeP2pStatus value); -const char* CsrWifiSmePacketFilterModeToString(CsrWifiSmePacketFilterMode value); -const char* CsrWifiSmePowerSaveLevelToString(CsrWifiSmePowerSaveLevel value); -const char* CsrWifiSmePreambleTypeToString(CsrWifiSmePreambleType value); -const char* CsrWifiSmeRadioIFToString(CsrWifiSmeRadioIF value); -const char* CsrWifiSmeRegulatoryDomainToString(CsrWifiSmeRegulatoryDomain value); -const char* CsrWifiSmeRoamReasonToString(CsrWifiSmeRoamReason value); -const char* CsrWifiSmeScanTypeToString(CsrWifiSmeScanType value); -const char* CsrWifiSmeTrafficTypeToString(CsrWifiSmeTrafficType value); -const char* CsrWifiSmeTspecCtrlToString(CsrWifiSmeTspecCtrl value); -const char* CsrWifiSmeTspecResultCodeToString(CsrWifiSmeTspecResultCode value); -const char* CsrWifiSmeWepAuthModeToString(CsrWifiSmeWepAuthMode value); -const char* CsrWifiSmeWepCredentialTypeToString(CsrWifiSmeWepCredentialType value); -const char* CsrWifiSmeWmmModeToString(CsrWifiSmeWmmMode value); -const char* CsrWifiSmeWmmQosInfoToString(CsrWifiSmeWmmQosInfo value); -const char* CsrWifiSmeWpsConfigTypeToString(CsrWifiSmeWpsConfigType value); -const char* CsrWifiSmeWpsDeviceCategoryToString(CsrWifiSmeWpsDeviceCategory value); -const char* CsrWifiSmeWpsDeviceSubCategoryToString(CsrWifiSmeWpsDeviceSubCategory value); -const char* CsrWifiSmeWpsDpidToString(CsrWifiSmeWpsDpid value); -const char* CsrWifiSmeWpsRegistrationToString(CsrWifiSmeWpsRegistration value); - - -/*----------------------------------------------------------------------------* - * CsrPrim Type toString function. - * Converts a message type to the String name of the Message - *----------------------------------------------------------------------------*/ -const char* CsrWifiSmePrimTypeToString(CsrPrim msgType); - -/*----------------------------------------------------------------------------* - * Lookup arrays for PrimType name Strings - *----------------------------------------------------------------------------*/ -extern const char *CsrWifiSmeUpstreamPrimNames[CSR_WIFI_SME_PRIM_UPSTREAM_COUNT]; -extern const char *CsrWifiSmeDownstreamPrimNames[CSR_WIFI_SME_PRIM_DOWNSTREAM_COUNT]; - -/******************************************************************************* - - NAME - CsrWifiSmeActivateReqSend - - DESCRIPTION - The WMA sends this primitive to activate the SME. - The WMA must activate the SME before it can send any other primitive. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeActivateReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeActivateReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ACTIVATE_REQ, dst__, src__); - -#define CsrWifiSmeActivateReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeActivateReq *msg__; \ - CsrWifiSmeActivateReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeActivateReqSend(src__) \ - CsrWifiSmeActivateReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeActivateCfmSend - - DESCRIPTION - The SME sends this primitive when the activation is complete. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeActivateCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeActivateCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ACTIVATE_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeActivateCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeActivateCfm *msg__; \ - CsrWifiSmeActivateCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeActivateCfmSend(dst__, status__) \ - CsrWifiSmeActivateCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeAdhocConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the adHocConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeAdhocConfigGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeAdhocConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ADHOC_CONFIG_GET_REQ, dst__, src__); - -#define CsrWifiSmeAdhocConfigGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeAdhocConfigGetReq *msg__; \ - CsrWifiSmeAdhocConfigGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeAdhocConfigGetReqSend(src__) \ - CsrWifiSmeAdhocConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeAdhocConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - adHocConfig - Contains the values used when starting an Ad-hoc (IBSS) - connection. - -*******************************************************************************/ -#define CsrWifiSmeAdhocConfigGetCfmCreate(msg__, dst__, src__, status__, adHocConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeAdhocConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ADHOC_CONFIG_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->adHocConfig = (adHocConfig__); - -#define CsrWifiSmeAdhocConfigGetCfmSendTo(dst__, src__, status__, adHocConfig__) \ - { \ - CsrWifiSmeAdhocConfigGetCfm *msg__; \ - CsrWifiSmeAdhocConfigGetCfmCreate(msg__, dst__, src__, status__, adHocConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeAdhocConfigGetCfmSend(dst__, status__, adHocConfig__) \ - CsrWifiSmeAdhocConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, adHocConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeAdhocConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the adHocConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - adHocConfig - Sets the values to use when starting an ad hoc network. - -*******************************************************************************/ -#define CsrWifiSmeAdhocConfigSetReqCreate(msg__, dst__, src__, adHocConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeAdhocConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ADHOC_CONFIG_SET_REQ, dst__, src__); \ - msg__->adHocConfig = (adHocConfig__); - -#define CsrWifiSmeAdhocConfigSetReqSendTo(dst__, src__, adHocConfig__) \ - { \ - CsrWifiSmeAdhocConfigSetReq *msg__; \ - CsrWifiSmeAdhocConfigSetReqCreate(msg__, dst__, src__, adHocConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeAdhocConfigSetReqSend(src__, adHocConfig__) \ - CsrWifiSmeAdhocConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, adHocConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeAdhocConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeAdhocConfigSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeAdhocConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ADHOC_CONFIG_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeAdhocConfigSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeAdhocConfigSetCfm *msg__; \ - CsrWifiSmeAdhocConfigSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeAdhocConfigSetCfmSend(dst__, status__) \ - CsrWifiSmeAdhocConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeAmpStatusChangeIndSend - - DESCRIPTION - Indication of change to AMP activity. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface on which the AMP activity changed. - ampStatus - The new status of AMP activity.Range: {AMP_ACTIVE, - AMP_INACTIVE}. - -*******************************************************************************/ -#define CsrWifiSmeAmpStatusChangeIndCreate(msg__, dst__, src__, interfaceTag__, ampStatus__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeAmpStatusChangeInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_AMP_STATUS_CHANGE_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->ampStatus = (ampStatus__); - -#define CsrWifiSmeAmpStatusChangeIndSendTo(dst__, src__, interfaceTag__, ampStatus__) \ - { \ - CsrWifiSmeAmpStatusChangeInd *msg__; \ - CsrWifiSmeAmpStatusChangeIndCreate(msg__, dst__, src__, interfaceTag__, ampStatus__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeAmpStatusChangeIndSend(dst__, interfaceTag__, ampStatus__) \ - CsrWifiSmeAmpStatusChangeIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, ampStatus__) - -/******************************************************************************* - - NAME - CsrWifiSmeAssociationCompleteIndSend - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it whenever it completes an attempt to associate with an AP. If - the association was successful, status will be set to - CSR_WIFI_SME_STATUS_SUCCESS, otherwise status and deauthReason shall be - set to appropriate error codes. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the association procedure - connectionInfo - This parameter is relevant only if result is - CSR_WIFI_SME_STATUS_SUCCESS: - it points to the connection information for the new network - deauthReason - This parameter is relevant only if result is not - CSR_WIFI_SME_STATUS_SUCCESS: - if the AP deauthorised the station, it gives the reason of - the deauthorization - -*******************************************************************************/ -#define CsrWifiSmeAssociationCompleteIndCreate(msg__, dst__, src__, interfaceTag__, status__, connectionInfo__, deauthReason__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeAssociationCompleteInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ASSOCIATION_COMPLETE_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->connectionInfo = (connectionInfo__); \ - msg__->deauthReason = (deauthReason__); - -#define CsrWifiSmeAssociationCompleteIndSendTo(dst__, src__, interfaceTag__, status__, connectionInfo__, deauthReason__) \ - { \ - CsrWifiSmeAssociationCompleteInd *msg__; \ - CsrWifiSmeAssociationCompleteIndCreate(msg__, dst__, src__, interfaceTag__, status__, connectionInfo__, deauthReason__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeAssociationCompleteIndSend(dst__, interfaceTag__, status__, connectionInfo__, deauthReason__) \ - CsrWifiSmeAssociationCompleteIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, connectionInfo__, deauthReason__) - -/******************************************************************************* - - NAME - CsrWifiSmeAssociationStartIndSend - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it whenever it begins an attempt to associate with an AP. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - address - BSSID of the associating network - ssid - Service Set identifier of the associating network - -*******************************************************************************/ -#define CsrWifiSmeAssociationStartIndCreate(msg__, dst__, src__, interfaceTag__, address__, ssid__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeAssociationStartInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ASSOCIATION_START_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->address = (address__); \ - msg__->ssid = (ssid__); - -#define CsrWifiSmeAssociationStartIndSendTo(dst__, src__, interfaceTag__, address__, ssid__) \ - { \ - CsrWifiSmeAssociationStartInd *msg__; \ - CsrWifiSmeAssociationStartIndCreate(msg__, dst__, src__, interfaceTag__, address__, ssid__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeAssociationStartIndSend(dst__, interfaceTag__, address__, ssid__) \ - CsrWifiSmeAssociationStartIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, address__, ssid__) - -/******************************************************************************* - - NAME - CsrWifiSmeBlacklistReqSend - - DESCRIPTION - The wireless manager application should call this primitive to notify the - driver of any networks that should not be connected to. The interface - allows the wireless manager application to query, add, remove, and flush - the BSSIDs that the driver may not connect or roam to. - When this primitive adds to the black list the BSSID to which the SME is - currently connected, the SME will try to roam, if applicable, to another - BSSID in the same ESS; if the roaming procedure fails, the SME will - disconnect. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - action - The value of the CsrWifiSmeListAction parameter instructs - the driver to modify or provide the list of blacklisted - networks. - setAddressCount - Number of BSSIDs sent with this primitive - setAddresses - Pointer to the list of BBSIDs sent with the primitive, set - to NULL if none is sent. - -*******************************************************************************/ -#define CsrWifiSmeBlacklistReqCreate(msg__, dst__, src__, interfaceTag__, action__, setAddressCount__, setAddresses__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeBlacklistReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_BLACKLIST_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->action = (action__); \ - msg__->setAddressCount = (setAddressCount__); \ - msg__->setAddresses = (setAddresses__); - -#define CsrWifiSmeBlacklistReqSendTo(dst__, src__, interfaceTag__, action__, setAddressCount__, setAddresses__) \ - { \ - CsrWifiSmeBlacklistReq *msg__; \ - CsrWifiSmeBlacklistReqCreate(msg__, dst__, src__, interfaceTag__, action__, setAddressCount__, setAddresses__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeBlacklistReqSend(src__, interfaceTag__, action__, setAddressCount__, setAddresses__) \ - CsrWifiSmeBlacklistReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, action__, setAddressCount__, setAddresses__) - -/******************************************************************************* - - NAME - CsrWifiSmeBlacklistCfmSend - - DESCRIPTION - The SME will call this primitive when the action on the blacklist has - completed. For a GET action, this primitive also reports the list of - BBSIDs in the blacklist. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - action - Action in the request - getAddressCount - This parameter is only relevant if action is - CSR_WIFI_SME_LIST_ACTION_GET: - number of BSSIDs sent with this primitive - getAddresses - Pointer to the list of BBSIDs sent with the primitive, set - to NULL if none is sent. - -*******************************************************************************/ -#define CsrWifiSmeBlacklistCfmCreate(msg__, dst__, src__, interfaceTag__, status__, action__, getAddressCount__, getAddresses__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeBlacklistCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_BLACKLIST_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->action = (action__); \ - msg__->getAddressCount = (getAddressCount__); \ - msg__->getAddresses = (getAddresses__); - -#define CsrWifiSmeBlacklistCfmSendTo(dst__, src__, interfaceTag__, status__, action__, getAddressCount__, getAddresses__) \ - { \ - CsrWifiSmeBlacklistCfm *msg__; \ - CsrWifiSmeBlacklistCfmCreate(msg__, dst__, src__, interfaceTag__, status__, action__, getAddressCount__, getAddresses__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeBlacklistCfmSend(dst__, interfaceTag__, status__, action__, getAddressCount__, getAddresses__) \ - CsrWifiSmeBlacklistCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, action__, getAddressCount__, getAddresses__) - -/******************************************************************************* - - NAME - CsrWifiSmeCalibrationDataGetReqSend - - DESCRIPTION - This primitive retrieves the Wi-Fi radio calibration data. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeCalibrationDataGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCalibrationDataGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CALIBRATION_DATA_GET_REQ, dst__, src__); - -#define CsrWifiSmeCalibrationDataGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeCalibrationDataGetReq *msg__; \ - CsrWifiSmeCalibrationDataGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCalibrationDataGetReqSend(src__) \ - CsrWifiSmeCalibrationDataGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeCalibrationDataGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - calibrationDataLength - Number of bytes in the buffer pointed by - calibrationData - calibrationData - Pointer to a buffer of length calibrationDataLength - containing the calibration data - -*******************************************************************************/ -#define CsrWifiSmeCalibrationDataGetCfmCreate(msg__, dst__, src__, status__, calibrationDataLength__, calibrationData__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCalibrationDataGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CALIBRATION_DATA_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->calibrationDataLength = (calibrationDataLength__); \ - msg__->calibrationData = (calibrationData__); - -#define CsrWifiSmeCalibrationDataGetCfmSendTo(dst__, src__, status__, calibrationDataLength__, calibrationData__) \ - { \ - CsrWifiSmeCalibrationDataGetCfm *msg__; \ - CsrWifiSmeCalibrationDataGetCfmCreate(msg__, dst__, src__, status__, calibrationDataLength__, calibrationData__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCalibrationDataGetCfmSend(dst__, status__, calibrationDataLength__, calibrationData__) \ - CsrWifiSmeCalibrationDataGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, calibrationDataLength__, calibrationData__) - -/******************************************************************************* - - NAME - CsrWifiSmeCalibrationDataSetReqSend - - DESCRIPTION - This primitive sets the Wi-Fi radio calibration data. - The usage of the primitive with proper calibration data will avoid - time-consuming configuration after power-up. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - calibrationDataLength - Number of bytes in the buffer pointed by - calibrationData - calibrationData - Pointer to a buffer of length calibrationDataLength - containing the calibration data - -*******************************************************************************/ -#define CsrWifiSmeCalibrationDataSetReqCreate(msg__, dst__, src__, calibrationDataLength__, calibrationData__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCalibrationDataSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CALIBRATION_DATA_SET_REQ, dst__, src__); \ - msg__->calibrationDataLength = (calibrationDataLength__); \ - msg__->calibrationData = (calibrationData__); - -#define CsrWifiSmeCalibrationDataSetReqSendTo(dst__, src__, calibrationDataLength__, calibrationData__) \ - { \ - CsrWifiSmeCalibrationDataSetReq *msg__; \ - CsrWifiSmeCalibrationDataSetReqCreate(msg__, dst__, src__, calibrationDataLength__, calibrationData__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCalibrationDataSetReqSend(src__, calibrationDataLength__, calibrationData__) \ - CsrWifiSmeCalibrationDataSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, calibrationDataLength__, calibrationData__) - -/******************************************************************************* - - NAME - CsrWifiSmeCalibrationDataSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeCalibrationDataSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCalibrationDataSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CALIBRATION_DATA_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeCalibrationDataSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeCalibrationDataSetCfm *msg__; \ - CsrWifiSmeCalibrationDataSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCalibrationDataSetCfmSend(dst__, status__) \ - CsrWifiSmeCalibrationDataSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the CcxConfig parameter. - CURRENTLY NOT SUPPORTED. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeCcxConfigGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCcxConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CCX_CONFIG_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeCcxConfigGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeCcxConfigGetReq *msg__; \ - CsrWifiSmeCcxConfigGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCcxConfigGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeCcxConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - ccxConfig - Currently not supported - -*******************************************************************************/ -#define CsrWifiSmeCcxConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, ccxConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCcxConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CCX_CONFIG_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->ccxConfig = (ccxConfig__); - -#define CsrWifiSmeCcxConfigGetCfmSendTo(dst__, src__, interfaceTag__, status__, ccxConfig__) \ - { \ - CsrWifiSmeCcxConfigGetCfm *msg__; \ - CsrWifiSmeCcxConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, ccxConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCcxConfigGetCfmSend(dst__, interfaceTag__, status__, ccxConfig__) \ - CsrWifiSmeCcxConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, ccxConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the CcxConfig parameter. - CURRENTLY NOT SUPPORTED. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - ccxConfig - Currently not supported - -*******************************************************************************/ -#define CsrWifiSmeCcxConfigSetReqCreate(msg__, dst__, src__, interfaceTag__, ccxConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCcxConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CCX_CONFIG_SET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->ccxConfig = (ccxConfig__); - -#define CsrWifiSmeCcxConfigSetReqSendTo(dst__, src__, interfaceTag__, ccxConfig__) \ - { \ - CsrWifiSmeCcxConfigSetReq *msg__; \ - CsrWifiSmeCcxConfigSetReqCreate(msg__, dst__, src__, interfaceTag__, ccxConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCcxConfigSetReqSend(src__, interfaceTag__, ccxConfig__) \ - CsrWifiSmeCcxConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, ccxConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeCcxConfigSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCcxConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CCX_CONFIG_SET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeCcxConfigSetCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeCcxConfigSetCfm *msg__; \ - CsrWifiSmeCcxConfigSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCcxConfigSetCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeCcxConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidsGetReqSend - - DESCRIPTION - This primitive gets the value of the CloakedSsids parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeCloakedSsidsGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCloakedSsidsGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CLOAKED_SSIDS_GET_REQ, dst__, src__); - -#define CsrWifiSmeCloakedSsidsGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeCloakedSsidsGetReq *msg__; \ - CsrWifiSmeCloakedSsidsGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCloakedSsidsGetReqSend(src__) \ - CsrWifiSmeCloakedSsidsGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidsGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - cloakedSsids - Reports list of cloaked SSIDs that are explicitly scanned for - by the driver - -*******************************************************************************/ -#define CsrWifiSmeCloakedSsidsGetCfmCreate(msg__, dst__, src__, status__, cloakedSsids__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCloakedSsidsGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CLOAKED_SSIDS_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->cloakedSsids = (cloakedSsids__); - -#define CsrWifiSmeCloakedSsidsGetCfmSendTo(dst__, src__, status__, cloakedSsids__) \ - { \ - CsrWifiSmeCloakedSsidsGetCfm *msg__; \ - CsrWifiSmeCloakedSsidsGetCfmCreate(msg__, dst__, src__, status__, cloakedSsids__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCloakedSsidsGetCfmSend(dst__, status__, cloakedSsids__) \ - CsrWifiSmeCloakedSsidsGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, cloakedSsids__) - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidsSetReqSend - - DESCRIPTION - This primitive sets the list of cloaked SSIDs for which the WMA possesses - profiles. - When the driver detects a cloaked AP, the SME will explicitly scan for it - using the list of cloaked SSIDs provided it, and, if the scan succeeds, - it will report the AP to the WMA either via CSR_WIFI_SME_SCAN_RESULT_IND - (if registered) or via CSR_WIFI_SCAN_RESULT_GET_CFM. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - cloakedSsids - Sets the list of cloaked SSIDs - -*******************************************************************************/ -#define CsrWifiSmeCloakedSsidsSetReqCreate(msg__, dst__, src__, cloakedSsids__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCloakedSsidsSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CLOAKED_SSIDS_SET_REQ, dst__, src__); \ - msg__->cloakedSsids = (cloakedSsids__); - -#define CsrWifiSmeCloakedSsidsSetReqSendTo(dst__, src__, cloakedSsids__) \ - { \ - CsrWifiSmeCloakedSsidsSetReq *msg__; \ - CsrWifiSmeCloakedSsidsSetReqCreate(msg__, dst__, src__, cloakedSsids__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCloakedSsidsSetReqSend(src__, cloakedSsids__) \ - CsrWifiSmeCloakedSsidsSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, cloakedSsids__) - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidsSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeCloakedSsidsSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCloakedSsidsSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CLOAKED_SSIDS_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeCloakedSsidsSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeCloakedSsidsSetCfm *msg__; \ - CsrWifiSmeCloakedSsidsSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCloakedSsidsSetCfmSend(dst__, status__) \ - CsrWifiSmeCloakedSsidsSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the CoexConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeCoexConfigGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCoexConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_COEX_CONFIG_GET_REQ, dst__, src__); - -#define CsrWifiSmeCoexConfigGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeCoexConfigGetReq *msg__; \ - CsrWifiSmeCoexConfigGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCoexConfigGetReqSend(src__) \ - CsrWifiSmeCoexConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - coexConfig - Reports the parameters used to configure the coexistence - behaviour - -*******************************************************************************/ -#define CsrWifiSmeCoexConfigGetCfmCreate(msg__, dst__, src__, status__, coexConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCoexConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_COEX_CONFIG_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->coexConfig = (coexConfig__); - -#define CsrWifiSmeCoexConfigGetCfmSendTo(dst__, src__, status__, coexConfig__) \ - { \ - CsrWifiSmeCoexConfigGetCfm *msg__; \ - CsrWifiSmeCoexConfigGetCfmCreate(msg__, dst__, src__, status__, coexConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCoexConfigGetCfmSend(dst__, status__, coexConfig__) \ - CsrWifiSmeCoexConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, coexConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the CoexConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - coexConfig - Configures the coexistence behaviour - -*******************************************************************************/ -#define CsrWifiSmeCoexConfigSetReqCreate(msg__, dst__, src__, coexConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCoexConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_COEX_CONFIG_SET_REQ, dst__, src__); \ - msg__->coexConfig = (coexConfig__); - -#define CsrWifiSmeCoexConfigSetReqSendTo(dst__, src__, coexConfig__) \ - { \ - CsrWifiSmeCoexConfigSetReq *msg__; \ - CsrWifiSmeCoexConfigSetReqCreate(msg__, dst__, src__, coexConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCoexConfigSetReqSend(src__, coexConfig__) \ - CsrWifiSmeCoexConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, coexConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeCoexConfigSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCoexConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_COEX_CONFIG_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeCoexConfigSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeCoexConfigSetCfm *msg__; \ - CsrWifiSmeCoexConfigSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCoexConfigSetCfmSend(dst__, status__) \ - CsrWifiSmeCoexConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeCoexInfoGetReqSend - - DESCRIPTION - This primitive gets the value of the CoexInfo parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeCoexInfoGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCoexInfoGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_COEX_INFO_GET_REQ, dst__, src__); - -#define CsrWifiSmeCoexInfoGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeCoexInfoGetReq *msg__; \ - CsrWifiSmeCoexInfoGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCoexInfoGetReqSend(src__) \ - CsrWifiSmeCoexInfoGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeCoexInfoGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - coexInfo - Reports information and state related to coexistence. - -*******************************************************************************/ -#define CsrWifiSmeCoexInfoGetCfmCreate(msg__, dst__, src__, status__, coexInfo__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCoexInfoGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_COEX_INFO_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->coexInfo = (coexInfo__); - -#define CsrWifiSmeCoexInfoGetCfmSendTo(dst__, src__, status__, coexInfo__) \ - { \ - CsrWifiSmeCoexInfoGetCfm *msg__; \ - CsrWifiSmeCoexInfoGetCfmCreate(msg__, dst__, src__, status__, coexInfo__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCoexInfoGetCfmSend(dst__, status__, coexInfo__) \ - CsrWifiSmeCoexInfoGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, coexInfo__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectReqSend - - DESCRIPTION - The wireless manager application calls this primitive to start the - process of joining an 802.11 wireless network or to start an ad hoc - network. - The structure pointed by connectionConfig contains parameters describing - the network to join or, in case of an ad hoc network, to host or join. - The SME will select a network, perform the IEEE 802.11 Join, Authenticate - and Associate exchanges. - The SME selects the networks from the current scan list that match both - the SSID and BSSID, however either or both of these may be the wildcard - value. Using this rule, the following operations are possible: - * To connect to a network by name, specify the SSID and set the BSSID to - 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF. If there are two or more networks visible, - the SME will select the one with the strongest signal. - * To connect to a specific network, specify the BSSID. The SSID is - optional, but if given it must match the SSID of the network. An empty - SSID may be specified by setting the SSID length to zero. Please note - that if the BSSID is specified (i.e. not equal to 0xFF 0xFF 0xFF 0xFF - 0xFF 0xFF), the SME will not attempt to roam if signal conditions become - poor, even if there is an alternative AP with an SSID that matches the - current network SSID. - * To connect to any network matching the other parameters (i.e. security, - etc), set the SSID length to zero and set the BSSID to 0xFF 0xFF 0xFF - 0xFF 0xFF 0xFF. In this case, the SME will order all available networks - by their signal strengths and will iterate through this list until it - successfully connects. - NOTE: Specifying the BSSID will restrict the selection to one specific - network. If SSID and BSSID are given, they must both match the network - for it to be selected. To select a network based on the SSID only, the - wireless manager application must set the BSSID to 0xFF 0xFF 0xFF 0xFF - 0xFF 0xFF. - The SME will try to connect to each network that matches the provided - parameters, one by one, until it succeeds or has tried unsuccessfully - with all the matching networks. - If there is no network that matches the parameters and the request allows - to host an ad hoc network, the SME will advertise a new ad hoc network - instead. - If the SME cannot connect, it will notify the failure in the confirm. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - connectionConfig - Describes the candidate network to join or to host. - -*******************************************************************************/ -#define CsrWifiSmeConnectReqCreate(msg__, dst__, src__, interfaceTag__, connectionConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECT_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->connectionConfig = (connectionConfig__); - -#define CsrWifiSmeConnectReqSendTo(dst__, src__, interfaceTag__, connectionConfig__) \ - { \ - CsrWifiSmeConnectReq *msg__; \ - CsrWifiSmeConnectReqCreate(msg__, dst__, src__, interfaceTag__, connectionConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectReqSend(src__, interfaceTag__, connectionConfig__) \ - CsrWifiSmeConnectReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, connectionConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectCfmSend - - DESCRIPTION - The SME calls this primitive when the connection exchange is complete or - all connection attempts fail. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request. - CSR_WIFI_SME_STATUS_NOT_FOUND: all attempts by the SME to - locate the requested AP failed - -*******************************************************************************/ -#define CsrWifiSmeConnectCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECT_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeConnectCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeConnectCfm *msg__; \ - CsrWifiSmeConnectCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeConnectCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the ConnectionConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeConnectionConfigGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectionConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECTION_CONFIG_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeConnectionConfigGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeConnectionConfigGetReq *msg__; \ - CsrWifiSmeConnectionConfigGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectionConfigGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeConnectionConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - connectionConfig - Parameters used by the SME for selecting a network - -*******************************************************************************/ -#define CsrWifiSmeConnectionConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectionConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectionConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECTION_CONFIG_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->connectionConfig = (connectionConfig__); - -#define CsrWifiSmeConnectionConfigGetCfmSendTo(dst__, src__, interfaceTag__, status__, connectionConfig__) \ - { \ - CsrWifiSmeConnectionConfigGetCfm *msg__; \ - CsrWifiSmeConnectionConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectionConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectionConfigGetCfmSend(dst__, interfaceTag__, status__, connectionConfig__) \ - CsrWifiSmeConnectionConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, connectionConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionInfoGetReqSend - - DESCRIPTION - This primitive gets the value of the ConnectionInfo parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeConnectionInfoGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectionInfoGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECTION_INFO_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeConnectionInfoGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeConnectionInfoGetReq *msg__; \ - CsrWifiSmeConnectionInfoGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectionInfoGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeConnectionInfoGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionInfoGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - connectionInfo - Information about the current connection - -*******************************************************************************/ -#define CsrWifiSmeConnectionInfoGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectionInfo__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectionInfoGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECTION_INFO_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->connectionInfo = (connectionInfo__); - -#define CsrWifiSmeConnectionInfoGetCfmSendTo(dst__, src__, interfaceTag__, status__, connectionInfo__) \ - { \ - CsrWifiSmeConnectionInfoGetCfm *msg__; \ - CsrWifiSmeConnectionInfoGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectionInfo__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectionInfoGetCfmSend(dst__, interfaceTag__, status__, connectionInfo__) \ - CsrWifiSmeConnectionInfoGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, connectionInfo__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionQualityIndSend - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it whenever the value of the current connection quality - parameters change by more than a certain configurable amount. - The wireless manager application may configure the trigger thresholds for - this indication using the field in smeConfig parameter of - CSR_WIFI_SME_SME_CONFIG_SET_REQ. - Connection quality messages can be suppressed by setting both thresholds - to zero. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - linkQuality - Indicates the quality of the link - -*******************************************************************************/ -#define CsrWifiSmeConnectionQualityIndCreate(msg__, dst__, src__, interfaceTag__, linkQuality__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectionQualityInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECTION_QUALITY_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->linkQuality = (linkQuality__); - -#define CsrWifiSmeConnectionQualityIndSendTo(dst__, src__, interfaceTag__, linkQuality__) \ - { \ - CsrWifiSmeConnectionQualityInd *msg__; \ - CsrWifiSmeConnectionQualityIndCreate(msg__, dst__, src__, interfaceTag__, linkQuality__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectionQualityIndSend(dst__, interfaceTag__, linkQuality__) \ - CsrWifiSmeConnectionQualityIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, linkQuality__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionStatsGetReqSend - - DESCRIPTION - This primitive gets the value of the ConnectionStats parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeConnectionStatsGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectionStatsGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECTION_STATS_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeConnectionStatsGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeConnectionStatsGetReq *msg__; \ - CsrWifiSmeConnectionStatsGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectionStatsGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeConnectionStatsGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionStatsGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - connectionStats - Statistics for current connection. - -*******************************************************************************/ -#define CsrWifiSmeConnectionStatsGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectionStats__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeConnectionStatsGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CONNECTION_STATS_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->connectionStats = (connectionStats__); - -#define CsrWifiSmeConnectionStatsGetCfmSendTo(dst__, src__, interfaceTag__, status__, connectionStats__) \ - { \ - CsrWifiSmeConnectionStatsGetCfm *msg__; \ - CsrWifiSmeConnectionStatsGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, connectionStats__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeConnectionStatsGetCfmSend(dst__, interfaceTag__, status__, connectionStats__) \ - CsrWifiSmeConnectionStatsGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, connectionStats__) - -/******************************************************************************* - - NAME - CsrWifiSmeCoreDumpIndSend - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive Wi-Fi Chip core dump data. - The core dump data may be fragmented and sent using more than one - indication. - To indicate that all the data has been sent, the last indication contains - a 'length' of 0 and 'data' of NULL. - - PARAMETERS - queue - Destination Task Queue - dataLength - Number of bytes in the buffer pointed to by 'data' - data - Pointer to the buffer containing 'dataLength' bytes of core - dump data - -*******************************************************************************/ -#define CsrWifiSmeCoreDumpIndCreate(msg__, dst__, src__, dataLength__, data__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeCoreDumpInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_CORE_DUMP_IND, dst__, src__); \ - msg__->dataLength = (dataLength__); \ - msg__->data = (data__); - -#define CsrWifiSmeCoreDumpIndSendTo(dst__, src__, dataLength__, data__) \ - { \ - CsrWifiSmeCoreDumpInd *msg__; \ - CsrWifiSmeCoreDumpIndCreate(msg__, dst__, src__, dataLength__, data__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeCoreDumpIndSend(dst__, dataLength__, data__) \ - CsrWifiSmeCoreDumpIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, dataLength__, data__) - -/******************************************************************************* - - NAME - CsrWifiSmeDeactivateReqSend - - DESCRIPTION - The WMA sends this primitive to deactivate the SME. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeDeactivateReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeDeactivateReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_DEACTIVATE_REQ, dst__, src__); - -#define CsrWifiSmeDeactivateReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeDeactivateReq *msg__; \ - CsrWifiSmeDeactivateReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeDeactivateReqSend(src__) \ - CsrWifiSmeDeactivateReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeDeactivateCfmSend - - DESCRIPTION - The SME sends this primitive when the deactivation is complete. - The WMA cannot send any more primitives until it actives the SME again - sending another CSR_WIFI_SME_ACTIVATE_REQ. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeDeactivateCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeDeactivateCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_DEACTIVATE_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeDeactivateCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeDeactivateCfm *msg__; \ - CsrWifiSmeDeactivateCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeDeactivateCfmSend(dst__, status__) \ - CsrWifiSmeDeactivateCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeDisconnectReqSend - - DESCRIPTION - The wireless manager application may disconnect from the current network - by calling this primitive - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeDisconnectReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeDisconnectReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_DISCONNECT_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeDisconnectReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeDisconnectReq *msg__; \ - CsrWifiSmeDisconnectReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeDisconnectReqSend(src__, interfaceTag__) \ - CsrWifiSmeDisconnectReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeDisconnectCfmSend - - DESCRIPTION - On reception of CSR_WIFI_SME_DISCONNECT_REQ the SME will perform a - disconnect operation, sending a CsrWifiSmeMediaStatusInd with - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED and then call this primitive when - disconnection is complete. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeDisconnectCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeDisconnectCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_DISCONNECT_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeDisconnectCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeDisconnectCfm *msg__; \ - CsrWifiSmeDisconnectCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeDisconnectCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeDisconnectCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeErrorIndSend - - DESCRIPTION - Important error message indicating a error of some importance - - PARAMETERS - queue - Destination Task Queue - errorMessage - Contains the error message. - -*******************************************************************************/ -#define CsrWifiSmeErrorIndCreate(msg__, dst__, src__, errorMessage__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeErrorInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ERROR_IND, dst__, src__); \ - msg__->errorMessage = (errorMessage__); - -#define CsrWifiSmeErrorIndSendTo(dst__, src__, errorMessage__) \ - { \ - CsrWifiSmeErrorInd *msg__; \ - CsrWifiSmeErrorIndCreate(msg__, dst__, src__, errorMessage__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeErrorIndSend(dst__, errorMessage__) \ - CsrWifiSmeErrorIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, errorMessage__) - -/******************************************************************************* - - NAME - CsrWifiSmeEventMaskSetReqSend - - DESCRIPTION - The wireless manager application may register with the SME to receive - notification of interesting events. Indications will be sent only if the - wireless manager explicitly registers to be notified of that event. - indMask is a bit mask of values defined in CsrWifiSmeIndicationsMask. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - indMask - Set mask with values from CsrWifiSmeIndications - -*******************************************************************************/ -#define CsrWifiSmeEventMaskSetReqCreate(msg__, dst__, src__, indMask__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeEventMaskSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_EVENT_MASK_SET_REQ, dst__, src__); \ - msg__->indMask = (indMask__); - -#define CsrWifiSmeEventMaskSetReqSendTo(dst__, src__, indMask__) \ - { \ - CsrWifiSmeEventMaskSetReq *msg__; \ - CsrWifiSmeEventMaskSetReqCreate(msg__, dst__, src__, indMask__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeEventMaskSetReqSend(src__, indMask__) \ - CsrWifiSmeEventMaskSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, indMask__) - -/******************************************************************************* - - NAME - CsrWifiSmeEventMaskSetCfmSend - - DESCRIPTION - The SME calls the primitive to report the result of the request - primitive. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeEventMaskSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeEventMaskSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_EVENT_MASK_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeEventMaskSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeEventMaskSetCfm *msg__; \ - CsrWifiSmeEventMaskSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeEventMaskSetCfmSend(dst__, status__) \ - CsrWifiSmeEventMaskSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the hostConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeHostConfigGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeHostConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_HOST_CONFIG_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeHostConfigGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeHostConfigGetReq *msg__; \ - CsrWifiSmeHostConfigGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeHostConfigGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeHostConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - hostConfig - Current host power state. - -*******************************************************************************/ -#define CsrWifiSmeHostConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, hostConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeHostConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_HOST_CONFIG_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->hostConfig = (hostConfig__); - -#define CsrWifiSmeHostConfigGetCfmSendTo(dst__, src__, interfaceTag__, status__, hostConfig__) \ - { \ - CsrWifiSmeHostConfigGetCfm *msg__; \ - CsrWifiSmeHostConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, hostConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeHostConfigGetCfmSend(dst__, interfaceTag__, status__, hostConfig__) \ - CsrWifiSmeHostConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, hostConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the hostConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - hostConfig - Communicates a change of host power state (for example, on - mains power, on battery power etc) and of the periodicity of - traffic data - -*******************************************************************************/ -#define CsrWifiSmeHostConfigSetReqCreate(msg__, dst__, src__, interfaceTag__, hostConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeHostConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_HOST_CONFIG_SET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->hostConfig = (hostConfig__); - -#define CsrWifiSmeHostConfigSetReqSendTo(dst__, src__, interfaceTag__, hostConfig__) \ - { \ - CsrWifiSmeHostConfigSetReq *msg__; \ - CsrWifiSmeHostConfigSetReqCreate(msg__, dst__, src__, interfaceTag__, hostConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeHostConfigSetReqSend(src__, interfaceTag__, hostConfig__) \ - CsrWifiSmeHostConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, hostConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeHostConfigSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeHostConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_HOST_CONFIG_SET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeHostConfigSetCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeHostConfigSetCfm *msg__; \ - CsrWifiSmeHostConfigSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeHostConfigSetCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeHostConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeIbssStationIndSend - - DESCRIPTION - The SME will send this primitive to indicate that a station has joined or - left the ad-hoc network. - - PARAMETERS - queue - Destination Task Queue - address - MAC address of the station that has joined or left - isconnected - TRUE if the station joined, FALSE if the station left - -*******************************************************************************/ -#define CsrWifiSmeIbssStationIndCreate(msg__, dst__, src__, address__, isconnected__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeIbssStationInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_IBSS_STATION_IND, dst__, src__); \ - msg__->address = (address__); \ - msg__->isconnected = (isconnected__); - -#define CsrWifiSmeIbssStationIndSendTo(dst__, src__, address__, isconnected__) \ - { \ - CsrWifiSmeIbssStationInd *msg__; \ - CsrWifiSmeIbssStationIndCreate(msg__, dst__, src__, address__, isconnected__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeIbssStationIndSend(dst__, address__, isconnected__) \ - CsrWifiSmeIbssStationIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, address__, isconnected__) - -/******************************************************************************* - - NAME - CsrWifiSmeInfoIndSend - - DESCRIPTION - Message indicating a some info about current activity. Mostly of interest - in testing but may be useful in the field. - - PARAMETERS - queue - Destination Task Queue - infoMessage - Contains the message. - -*******************************************************************************/ -#define CsrWifiSmeInfoIndCreate(msg__, dst__, src__, infoMessage__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeInfoInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_INFO_IND, dst__, src__); \ - msg__->infoMessage = (infoMessage__); - -#define CsrWifiSmeInfoIndSendTo(dst__, src__, infoMessage__) \ - { \ - CsrWifiSmeInfoInd *msg__; \ - CsrWifiSmeInfoIndCreate(msg__, dst__, src__, infoMessage__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeInfoIndSend(dst__, infoMessage__) \ - CsrWifiSmeInfoIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, infoMessage__) - -/******************************************************************************* - - NAME - CsrWifiSmeInterfaceCapabilityGetReqSend - - DESCRIPTION - The Wireless Manager calls this primitive to ask the SME for the - capabilities of the supported interfaces - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeInterfaceCapabilityGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeInterfaceCapabilityGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_INTERFACE_CAPABILITY_GET_REQ, dst__, src__); - -#define CsrWifiSmeInterfaceCapabilityGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeInterfaceCapabilityGetReq *msg__; \ - CsrWifiSmeInterfaceCapabilityGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeInterfaceCapabilityGetReqSend(src__) \ - CsrWifiSmeInterfaceCapabilityGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeInterfaceCapabilityGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Result of the request - numInterfaces - Number of the interfaces supported - capBitmap - Points to the list of capabilities bitmaps provided for each - interface. - The bits represent the following capabilities: - -bits 7 to 4-Reserved - -bit 3-AMP - -bit 2-P2P - -bit 1-AP - -bit 0-STA - -*******************************************************************************/ -#define CsrWifiSmeInterfaceCapabilityGetCfmCreate(msg__, dst__, src__, status__, numInterfaces__, capBitmap__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeInterfaceCapabilityGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_INTERFACE_CAPABILITY_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->numInterfaces = (numInterfaces__); \ - memcpy(msg__->capBitmap, (capBitmap__), sizeof(u8) * 2); - -#define CsrWifiSmeInterfaceCapabilityGetCfmSendTo(dst__, src__, status__, numInterfaces__, capBitmap__) \ - { \ - CsrWifiSmeInterfaceCapabilityGetCfm *msg__; \ - CsrWifiSmeInterfaceCapabilityGetCfmCreate(msg__, dst__, src__, status__, numInterfaces__, capBitmap__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeInterfaceCapabilityGetCfmSend(dst__, status__, numInterfaces__, capBitmap__) \ - CsrWifiSmeInterfaceCapabilityGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, numInterfaces__, capBitmap__) - -/******************************************************************************* - - NAME - CsrWifiSmeKeyReqSend - - DESCRIPTION - The wireless manager application calls this primitive to add or remove - keys that the chip should use for encryption of data. - The interface allows the wireless manager application to add and remove - keys according to the specified action. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - action - The value of the CsrWifiSmeListAction parameter instructs the - driver to modify or provide the list of keys. - CSR_WIFI_SME_LIST_ACTION_GET is not supported here. - key - Key to be added or removed - -*******************************************************************************/ -#define CsrWifiSmeKeyReqCreate(msg__, dst__, src__, interfaceTag__, action__, key__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeKeyReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_KEY_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->action = (action__); \ - msg__->key = (key__); - -#define CsrWifiSmeKeyReqSendTo(dst__, src__, interfaceTag__, action__, key__) \ - { \ - CsrWifiSmeKeyReq *msg__; \ - CsrWifiSmeKeyReqCreate(msg__, dst__, src__, interfaceTag__, action__, key__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeKeyReqSend(src__, interfaceTag__, action__, key__) \ - CsrWifiSmeKeyReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, action__, key__) - -/******************************************************************************* - - NAME - CsrWifiSmeKeyCfmSend - - DESCRIPTION - The SME calls the primitive to report the result of the request - primitive. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - action - Action in the request - keyType - Type of the key added/deleted - peerMacAddress - Peer MAC Address of the key added/deleted - -*******************************************************************************/ -#define CsrWifiSmeKeyCfmCreate(msg__, dst__, src__, interfaceTag__, status__, action__, keyType__, peerMacAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeKeyCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_KEY_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->action = (action__); \ - msg__->keyType = (keyType__); \ - msg__->peerMacAddress = (peerMacAddress__); - -#define CsrWifiSmeKeyCfmSendTo(dst__, src__, interfaceTag__, status__, action__, keyType__, peerMacAddress__) \ - { \ - CsrWifiSmeKeyCfm *msg__; \ - CsrWifiSmeKeyCfmCreate(msg__, dst__, src__, interfaceTag__, status__, action__, keyType__, peerMacAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeKeyCfmSend(dst__, interfaceTag__, status__, action__, keyType__, peerMacAddress__) \ - CsrWifiSmeKeyCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, action__, keyType__, peerMacAddress__) - -/******************************************************************************* - - NAME - CsrWifiSmeLinkQualityGetReqSend - - DESCRIPTION - This primitive gets the value of the LinkQuality parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeLinkQualityGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeLinkQualityGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_LINK_QUALITY_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeLinkQualityGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeLinkQualityGetReq *msg__; \ - CsrWifiSmeLinkQualityGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeLinkQualityGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeLinkQualityGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeLinkQualityGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - linkQuality - Indicates the quality of the link - -*******************************************************************************/ -#define CsrWifiSmeLinkQualityGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, linkQuality__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeLinkQualityGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_LINK_QUALITY_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->linkQuality = (linkQuality__); - -#define CsrWifiSmeLinkQualityGetCfmSendTo(dst__, src__, interfaceTag__, status__, linkQuality__) \ - { \ - CsrWifiSmeLinkQualityGetCfm *msg__; \ - CsrWifiSmeLinkQualityGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, linkQuality__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeLinkQualityGetCfmSend(dst__, interfaceTag__, status__, linkQuality__) \ - CsrWifiSmeLinkQualityGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, linkQuality__) - -/******************************************************************************* - - NAME - CsrWifiSmeMediaStatusIndSend - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it when a network connection is established, lost or has moved to - another AP. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - mediaStatus - Indicates the media status - connectionInfo - This parameter is relevant only if the mediaStatus is - CSR_WIFI_SME_MEDIA_STATUS_CONNECTED: - it points to the connection information for the new network - disassocReason - This parameter is relevant only if the mediaStatus is - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED: - if a disassociation has occurred it gives the reason of the - disassociation - deauthReason - This parameter is relevant only if the mediaStatus is - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED: - if a deauthentication has occurred it gives the reason of - the deauthentication - -*******************************************************************************/ -#define CsrWifiSmeMediaStatusIndCreate(msg__, dst__, src__, interfaceTag__, mediaStatus__, connectionInfo__, disassocReason__, deauthReason__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMediaStatusInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MEDIA_STATUS_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->mediaStatus = (mediaStatus__); \ - msg__->connectionInfo = (connectionInfo__); \ - msg__->disassocReason = (disassocReason__); \ - msg__->deauthReason = (deauthReason__); - -#define CsrWifiSmeMediaStatusIndSendTo(dst__, src__, interfaceTag__, mediaStatus__, connectionInfo__, disassocReason__, deauthReason__) \ - { \ - CsrWifiSmeMediaStatusInd *msg__; \ - CsrWifiSmeMediaStatusIndCreate(msg__, dst__, src__, interfaceTag__, mediaStatus__, connectionInfo__, disassocReason__, deauthReason__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMediaStatusIndSend(dst__, interfaceTag__, mediaStatus__, connectionInfo__, disassocReason__, deauthReason__) \ - CsrWifiSmeMediaStatusIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, mediaStatus__, connectionInfo__, disassocReason__, deauthReason__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the MibConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeMibConfigGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_CONFIG_GET_REQ, dst__, src__); - -#define CsrWifiSmeMibConfigGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeMibConfigGetReq *msg__; \ - CsrWifiSmeMibConfigGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibConfigGetReqSend(src__) \ - CsrWifiSmeMibConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - mibConfig - Reports various IEEE 802.11 attributes as currently configured - -*******************************************************************************/ -#define CsrWifiSmeMibConfigGetCfmCreate(msg__, dst__, src__, status__, mibConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_CONFIG_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->mibConfig = (mibConfig__); - -#define CsrWifiSmeMibConfigGetCfmSendTo(dst__, src__, status__, mibConfig__) \ - { \ - CsrWifiSmeMibConfigGetCfm *msg__; \ - CsrWifiSmeMibConfigGetCfmCreate(msg__, dst__, src__, status__, mibConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibConfigGetCfmSend(dst__, status__, mibConfig__) \ - CsrWifiSmeMibConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, mibConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the MibConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - mibConfig - Conveys the desired value of various IEEE 802.11 attributes as - currently configured - -*******************************************************************************/ -#define CsrWifiSmeMibConfigSetReqCreate(msg__, dst__, src__, mibConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_CONFIG_SET_REQ, dst__, src__); \ - msg__->mibConfig = (mibConfig__); - -#define CsrWifiSmeMibConfigSetReqSendTo(dst__, src__, mibConfig__) \ - { \ - CsrWifiSmeMibConfigSetReq *msg__; \ - CsrWifiSmeMibConfigSetReqCreate(msg__, dst__, src__, mibConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibConfigSetReqSend(src__, mibConfig__) \ - CsrWifiSmeMibConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, mibConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeMibConfigSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_CONFIG_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeMibConfigSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeMibConfigSetCfm *msg__; \ - CsrWifiSmeMibConfigSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibConfigSetCfmSend(dst__, status__) \ - CsrWifiSmeMibConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibGetCfmSend - - DESCRIPTION - The SME calls this primitive to return the requested MIB variable values. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to the VarBind or VarBindList containing the - names and values of the MIB variables requested - -*******************************************************************************/ -#define CsrWifiSmeMibGetCfmCreate(msg__, dst__, src__, status__, mibAttributeLength__, mibAttribute__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->mibAttributeLength = (mibAttributeLength__); \ - msg__->mibAttribute = (mibAttribute__); - -#define CsrWifiSmeMibGetCfmSendTo(dst__, src__, status__, mibAttributeLength__, mibAttribute__) \ - { \ - CsrWifiSmeMibGetCfm *msg__; \ - CsrWifiSmeMibGetCfmCreate(msg__, dst__, src__, status__, mibAttributeLength__, mibAttribute__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibGetCfmSend(dst__, status__, mibAttributeLength__, mibAttribute__) \ - CsrWifiSmeMibGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, mibAttributeLength__, mibAttribute__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibGetNextReqSend - - DESCRIPTION - To read a sequence of MIB parameters, for example a table, call this - primitive to find the name of the next MIB variable - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to a VarBind or VarBindList containing the - name(s) of the MIB variable(s) to search from. - -*******************************************************************************/ -#define CsrWifiSmeMibGetNextReqCreate(msg__, dst__, src__, mibAttributeLength__, mibAttribute__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibGetNextReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_GET_NEXT_REQ, dst__, src__); \ - msg__->mibAttributeLength = (mibAttributeLength__); \ - msg__->mibAttribute = (mibAttribute__); - -#define CsrWifiSmeMibGetNextReqSendTo(dst__, src__, mibAttributeLength__, mibAttribute__) \ - { \ - CsrWifiSmeMibGetNextReq *msg__; \ - CsrWifiSmeMibGetNextReqCreate(msg__, dst__, src__, mibAttributeLength__, mibAttribute__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibGetNextReqSend(src__, mibAttributeLength__, mibAttribute__) \ - CsrWifiSmeMibGetNextReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, mibAttributeLength__, mibAttribute__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibGetNextCfmSend - - DESCRIPTION - The SME calls this primitive to return the requested MIB name(s). - The wireless manager application can then read the value of the MIB - variable using CSR_WIFI_SME_MIB_GET_REQ, using the names provided. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to a VarBind or VarBindList containing the - name(s) of the MIB variable(s) lexicographically - following the name(s) given in the request - -*******************************************************************************/ -#define CsrWifiSmeMibGetNextCfmCreate(msg__, dst__, src__, status__, mibAttributeLength__, mibAttribute__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibGetNextCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_GET_NEXT_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->mibAttributeLength = (mibAttributeLength__); \ - msg__->mibAttribute = (mibAttribute__); - -#define CsrWifiSmeMibGetNextCfmSendTo(dst__, src__, status__, mibAttributeLength__, mibAttribute__) \ - { \ - CsrWifiSmeMibGetNextCfm *msg__; \ - CsrWifiSmeMibGetNextCfmCreate(msg__, dst__, src__, status__, mibAttributeLength__, mibAttribute__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibGetNextCfmSend(dst__, status__, mibAttributeLength__, mibAttribute__) \ - CsrWifiSmeMibGetNextCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, mibAttributeLength__, mibAttribute__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibGetReqSend - - DESCRIPTION - The wireless manager application calls this primitive to retrieve one or - more MIB variables. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to the VarBind or VarBindList containing the - names of the MIB variables to be retrieved - -*******************************************************************************/ -#define CsrWifiSmeMibGetReqCreate(msg__, dst__, src__, mibAttributeLength__, mibAttribute__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_GET_REQ, dst__, src__); \ - msg__->mibAttributeLength = (mibAttributeLength__); \ - msg__->mibAttribute = (mibAttribute__); - -#define CsrWifiSmeMibGetReqSendTo(dst__, src__, mibAttributeLength__, mibAttribute__) \ - { \ - CsrWifiSmeMibGetReq *msg__; \ - CsrWifiSmeMibGetReqCreate(msg__, dst__, src__, mibAttributeLength__, mibAttribute__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibGetReqSend(src__, mibAttributeLength__, mibAttribute__) \ - CsrWifiSmeMibGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, mibAttributeLength__, mibAttribute__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibSetReqSend - - DESCRIPTION - The SME provides raw access to the MIB on the chip, which may be used by - some configuration or diagnostic utilities, but is not normally needed by - the wireless manager application. - The MIB access functions use BER encoded names (OID) of the MIB - parameters and BER encoded values, as described in the chip Host - Interface Protocol Specification. - The MIB parameters are described in 'Wi-Fi 5.0.0 Management Information - Base Reference Guide'. - The wireless manager application calls this primitive to set one or more - MIB variables - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to the VarBind or VarBindList containing the - names and values of the MIB variables to set - -*******************************************************************************/ -#define CsrWifiSmeMibSetReqCreate(msg__, dst__, src__, mibAttributeLength__, mibAttribute__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_SET_REQ, dst__, src__); \ - msg__->mibAttributeLength = (mibAttributeLength__); \ - msg__->mibAttribute = (mibAttribute__); - -#define CsrWifiSmeMibSetReqSendTo(dst__, src__, mibAttributeLength__, mibAttribute__) \ - { \ - CsrWifiSmeMibSetReq *msg__; \ - CsrWifiSmeMibSetReqCreate(msg__, dst__, src__, mibAttributeLength__, mibAttribute__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibSetReqSend(src__, mibAttributeLength__, mibAttribute__) \ - CsrWifiSmeMibSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, mibAttributeLength__, mibAttribute__) - -/******************************************************************************* - - NAME - CsrWifiSmeMibSetCfmSend - - DESCRIPTION - The SME calls the primitive to report the result of the set primitive. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeMibSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMibSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIB_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeMibSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeMibSetCfm *msg__; \ - CsrWifiSmeMibSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMibSetCfmSend(dst__, status__) \ - CsrWifiSmeMibSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeMicFailureIndSend - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it whenever the chip firmware reports a MIC failure. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - secondFailure - TRUE if this indication is for a second failure in 60 - seconds - count - The number of MIC failure events since the connection was - established - address - MAC address of the transmitter that caused the MIC failure - keyType - Type of key for which the failure occurred - -*******************************************************************************/ -#define CsrWifiSmeMicFailureIndCreate(msg__, dst__, src__, interfaceTag__, secondFailure__, count__, address__, keyType__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMicFailureInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MIC_FAILURE_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->secondFailure = (secondFailure__); \ - msg__->count = (count__); \ - msg__->address = (address__); \ - msg__->keyType = (keyType__); - -#define CsrWifiSmeMicFailureIndSendTo(dst__, src__, interfaceTag__, secondFailure__, count__, address__, keyType__) \ - { \ - CsrWifiSmeMicFailureInd *msg__; \ - CsrWifiSmeMicFailureIndCreate(msg__, dst__, src__, interfaceTag__, secondFailure__, count__, address__, keyType__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMicFailureIndSend(dst__, interfaceTag__, secondFailure__, count__, address__, keyType__) \ - CsrWifiSmeMicFailureIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, secondFailure__, count__, address__, keyType__) - -/******************************************************************************* - - NAME - CsrWifiSmeMulticastAddressReqSend - - DESCRIPTION - The wireless manager application calls this primitive to specify the - multicast addresses which the chip should recognise. The interface allows - the wireless manager application to query, add, remove and flush the - multicast addresses for the network interface according to the specified - action. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - action - The value of the CsrWifiSmeListAction parameter - instructs the driver to modify or provide the list of - MAC addresses. - setAddressesCount - Number of MAC addresses sent with the primitive - setAddresses - Pointer to the list of MAC Addresses sent with the - primitive, set to NULL if none is sent. - -*******************************************************************************/ -#define CsrWifiSmeMulticastAddressReqCreate(msg__, dst__, src__, interfaceTag__, action__, setAddressesCount__, setAddresses__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMulticastAddressReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MULTICAST_ADDRESS_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->action = (action__); \ - msg__->setAddressesCount = (setAddressesCount__); \ - msg__->setAddresses = (setAddresses__); - -#define CsrWifiSmeMulticastAddressReqSendTo(dst__, src__, interfaceTag__, action__, setAddressesCount__, setAddresses__) \ - { \ - CsrWifiSmeMulticastAddressReq *msg__; \ - CsrWifiSmeMulticastAddressReqCreate(msg__, dst__, src__, interfaceTag__, action__, setAddressesCount__, setAddresses__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMulticastAddressReqSend(src__, interfaceTag__, action__, setAddressesCount__, setAddresses__) \ - CsrWifiSmeMulticastAddressReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, action__, setAddressesCount__, setAddresses__) - -/******************************************************************************* - - NAME - CsrWifiSmeMulticastAddressCfmSend - - DESCRIPTION - The SME will call this primitive when the operation is complete. For a - GET action, this primitive reports the current list of MAC addresses. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - action - Action in the request - getAddressesCount - This parameter is only relevant if action is - CSR_WIFI_SME_LIST_ACTION_GET: - number of MAC addresses sent with the primitive - getAddresses - Pointer to the list of MAC Addresses sent with the - primitive, set to NULL if none is sent. - -*******************************************************************************/ -#define CsrWifiSmeMulticastAddressCfmCreate(msg__, dst__, src__, interfaceTag__, status__, action__, getAddressesCount__, getAddresses__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeMulticastAddressCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_MULTICAST_ADDRESS_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->action = (action__); \ - msg__->getAddressesCount = (getAddressesCount__); \ - msg__->getAddresses = (getAddresses__); - -#define CsrWifiSmeMulticastAddressCfmSendTo(dst__, src__, interfaceTag__, status__, action__, getAddressesCount__, getAddresses__) \ - { \ - CsrWifiSmeMulticastAddressCfm *msg__; \ - CsrWifiSmeMulticastAddressCfmCreate(msg__, dst__, src__, interfaceTag__, status__, action__, getAddressesCount__, getAddresses__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeMulticastAddressCfmSend(dst__, interfaceTag__, status__, action__, getAddressesCount__, getAddresses__) \ - CsrWifiSmeMulticastAddressCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, action__, getAddressesCount__, getAddresses__) - -/******************************************************************************* - - NAME - CsrWifiSmePacketFilterSetReqSend - - DESCRIPTION - The wireless manager application should call this primitive to enable or - disable filtering of broadcast packets: uninteresting broadcast packets - will be dropped by the Wi-Fi chip, instead of passing them up to the - host. - This has the advantage of saving power in the host application processor - as it removes the need to process unwanted packets. - All broadcast packets are filtered according to the filter and the filter - mode provided, except ARP packets, which are filtered using - arpFilterAddress. - Filters are not cumulative: only the parameters specified in the most - recent successful request are significant. - For more information, see 'UniFi Firmware API Specification'. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - filterLength - Length of the filter in bytes. - filterLength=0 disables the filter previously set - filter - Points to the first byte of the filter provided, if any. - This shall include zero or more instance of the - information elements of one of these types - * Traffic Classification (TCLAS) elements - * WMM-SA TCLAS elements - mode - Specifies whether the filter selects or excludes packets - matching the filter - arpFilterAddress - IPv4 address to be used for filtering the ARP packets. - * If the specified address is the IPv4 broadcast address - (255.255.255.255), all ARP packets are reported to the - host, - * If the specified address is NOT the IPv4 broadcast - address, only ARP packets with the specified address in - the Source or Target Protocol Address fields are reported - to the host - -*******************************************************************************/ -#define CsrWifiSmePacketFilterSetReqCreate(msg__, dst__, src__, interfaceTag__, filterLength__, filter__, mode__, arpFilterAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePacketFilterSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_PACKET_FILTER_SET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->filterLength = (filterLength__); \ - msg__->filter = (filter__); \ - msg__->mode = (mode__); \ - msg__->arpFilterAddress = (arpFilterAddress__); - -#define CsrWifiSmePacketFilterSetReqSendTo(dst__, src__, interfaceTag__, filterLength__, filter__, mode__, arpFilterAddress__) \ - { \ - CsrWifiSmePacketFilterSetReq *msg__; \ - CsrWifiSmePacketFilterSetReqCreate(msg__, dst__, src__, interfaceTag__, filterLength__, filter__, mode__, arpFilterAddress__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePacketFilterSetReqSend(src__, interfaceTag__, filterLength__, filter__, mode__, arpFilterAddress__) \ - CsrWifiSmePacketFilterSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, filterLength__, filter__, mode__, arpFilterAddress__) - -/******************************************************************************* - - NAME - CsrWifiSmePacketFilterSetCfmSend - - DESCRIPTION - The SME calls the primitive to report the result of the set primitive. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmePacketFilterSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePacketFilterSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_PACKET_FILTER_SET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmePacketFilterSetCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmePacketFilterSetCfm *msg__; \ - CsrWifiSmePacketFilterSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePacketFilterSetCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmePacketFilterSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmePermanentMacAddressGetReqSend - - DESCRIPTION - This primitive retrieves the MAC address stored in EEPROM - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmePermanentMacAddressGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePermanentMacAddressGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_PERMANENT_MAC_ADDRESS_GET_REQ, dst__, src__); - -#define CsrWifiSmePermanentMacAddressGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmePermanentMacAddressGetReq *msg__; \ - CsrWifiSmePermanentMacAddressGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePermanentMacAddressGetReqSend(src__) \ - CsrWifiSmePermanentMacAddressGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmePermanentMacAddressGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - permanentMacAddress - MAC address stored in the EEPROM - -*******************************************************************************/ -#define CsrWifiSmePermanentMacAddressGetCfmCreate(msg__, dst__, src__, status__, permanentMacAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePermanentMacAddressGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_PERMANENT_MAC_ADDRESS_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->permanentMacAddress = (permanentMacAddress__); - -#define CsrWifiSmePermanentMacAddressGetCfmSendTo(dst__, src__, status__, permanentMacAddress__) \ - { \ - CsrWifiSmePermanentMacAddressGetCfm *msg__; \ - CsrWifiSmePermanentMacAddressGetCfmCreate(msg__, dst__, src__, status__, permanentMacAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePermanentMacAddressGetCfmSend(dst__, status__, permanentMacAddress__) \ - CsrWifiSmePermanentMacAddressGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, permanentMacAddress__) - -/******************************************************************************* - - NAME - CsrWifiSmePmkidCandidateListIndSend - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it when a new network supporting preauthentication and/or PMK - caching is seen. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an - interface - pmkidCandidatesCount - Number of PMKID candidates provided - pmkidCandidates - Points to the first PMKID candidate - -*******************************************************************************/ -#define CsrWifiSmePmkidCandidateListIndCreate(msg__, dst__, src__, interfaceTag__, pmkidCandidatesCount__, pmkidCandidates__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePmkidCandidateListInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_PMKID_CANDIDATE_LIST_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->pmkidCandidatesCount = (pmkidCandidatesCount__); \ - msg__->pmkidCandidates = (pmkidCandidates__); - -#define CsrWifiSmePmkidCandidateListIndSendTo(dst__, src__, interfaceTag__, pmkidCandidatesCount__, pmkidCandidates__) \ - { \ - CsrWifiSmePmkidCandidateListInd *msg__; \ - CsrWifiSmePmkidCandidateListIndCreate(msg__, dst__, src__, interfaceTag__, pmkidCandidatesCount__, pmkidCandidates__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePmkidCandidateListIndSend(dst__, interfaceTag__, pmkidCandidatesCount__, pmkidCandidates__) \ - CsrWifiSmePmkidCandidateListIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, pmkidCandidatesCount__, pmkidCandidates__) - -/******************************************************************************* - - NAME - CsrWifiSmePmkidReqSend - - DESCRIPTION - The wireless manager application calls this primitive to request an - operation on the SME PMKID list. - The action argument specifies the operation to perform. - When the connection is complete, the wireless manager application may - then send and receive EAPOL packets to complete WPA or WPA2 - authentication if appropriate. - The wireless manager application can then pass the resulting encryption - keys using this primitive. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - action - The value of the CsrWifiSmeListAction parameter instructs - the driver to modify or provide the list of PMKIDs. - setPmkidsCount - Number of PMKIDs sent with the primitive - setPmkids - Pointer to the list of PMKIDs sent with the primitive, set - to NULL if none is sent. - -*******************************************************************************/ -#define CsrWifiSmePmkidReqCreate(msg__, dst__, src__, interfaceTag__, action__, setPmkidsCount__, setPmkids__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePmkidReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_PMKID_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->action = (action__); \ - msg__->setPmkidsCount = (setPmkidsCount__); \ - msg__->setPmkids = (setPmkids__); - -#define CsrWifiSmePmkidReqSendTo(dst__, src__, interfaceTag__, action__, setPmkidsCount__, setPmkids__) \ - { \ - CsrWifiSmePmkidReq *msg__; \ - CsrWifiSmePmkidReqCreate(msg__, dst__, src__, interfaceTag__, action__, setPmkidsCount__, setPmkids__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePmkidReqSend(src__, interfaceTag__, action__, setPmkidsCount__, setPmkids__) \ - CsrWifiSmePmkidReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, action__, setPmkidsCount__, setPmkids__) - -/******************************************************************************* - - NAME - CsrWifiSmePmkidCfmSend - - DESCRIPTION - The SME will call this primitive when the operation is complete. For a - GET action, this primitive reports the current list of PMKIDs - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - action - Action in the request - getPmkidsCount - This parameter is only relevant if action is - CSR_WIFI_SME_LIST_ACTION_GET: - number of PMKIDs sent with the primitive - getPmkids - Pointer to the list of PMKIDs sent with the primitive, set - to NULL if none is sent. - -*******************************************************************************/ -#define CsrWifiSmePmkidCfmCreate(msg__, dst__, src__, interfaceTag__, status__, action__, getPmkidsCount__, getPmkids__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePmkidCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_PMKID_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->action = (action__); \ - msg__->getPmkidsCount = (getPmkidsCount__); \ - msg__->getPmkids = (getPmkids__); - -#define CsrWifiSmePmkidCfmSendTo(dst__, src__, interfaceTag__, status__, action__, getPmkidsCount__, getPmkids__) \ - { \ - CsrWifiSmePmkidCfm *msg__; \ - CsrWifiSmePmkidCfmCreate(msg__, dst__, src__, interfaceTag__, status__, action__, getPmkidsCount__, getPmkids__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePmkidCfmSend(dst__, interfaceTag__, status__, action__, getPmkidsCount__, getPmkids__) \ - CsrWifiSmePmkidCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, action__, getPmkidsCount__, getPmkids__) - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the PowerConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmePowerConfigGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePowerConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_POWER_CONFIG_GET_REQ, dst__, src__); - -#define CsrWifiSmePowerConfigGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmePowerConfigGetReq *msg__; \ - CsrWifiSmePowerConfigGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePowerConfigGetReqSend(src__) \ - CsrWifiSmePowerConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - powerConfig - Returns the current parameters for the power configuration of - the firmware - -*******************************************************************************/ -#define CsrWifiSmePowerConfigGetCfmCreate(msg__, dst__, src__, status__, powerConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePowerConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_POWER_CONFIG_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->powerConfig = (powerConfig__); - -#define CsrWifiSmePowerConfigGetCfmSendTo(dst__, src__, status__, powerConfig__) \ - { \ - CsrWifiSmePowerConfigGetCfm *msg__; \ - CsrWifiSmePowerConfigGetCfmCreate(msg__, dst__, src__, status__, powerConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePowerConfigGetCfmSend(dst__, status__, powerConfig__) \ - CsrWifiSmePowerConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, powerConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the PowerConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - powerConfig - Power saving configuration - -*******************************************************************************/ -#define CsrWifiSmePowerConfigSetReqCreate(msg__, dst__, src__, powerConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePowerConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_POWER_CONFIG_SET_REQ, dst__, src__); \ - msg__->powerConfig = (powerConfig__); - -#define CsrWifiSmePowerConfigSetReqSendTo(dst__, src__, powerConfig__) \ - { \ - CsrWifiSmePowerConfigSetReq *msg__; \ - CsrWifiSmePowerConfigSetReqCreate(msg__, dst__, src__, powerConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePowerConfigSetReqSend(src__, powerConfig__) \ - CsrWifiSmePowerConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, powerConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmePowerConfigSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmePowerConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_POWER_CONFIG_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmePowerConfigSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmePowerConfigSetCfm *msg__; \ - CsrWifiSmePowerConfigSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmePowerConfigSetCfmSend(dst__, status__) \ - CsrWifiSmePowerConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeRegulatoryDomainInfoGetReqSend - - DESCRIPTION - This primitive gets the value of the RegulatoryDomainInfo parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeRegulatoryDomainInfoGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeRegulatoryDomainInfoGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_REGULATORY_DOMAIN_INFO_GET_REQ, dst__, src__); - -#define CsrWifiSmeRegulatoryDomainInfoGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeRegulatoryDomainInfoGetReq *msg__; \ - CsrWifiSmeRegulatoryDomainInfoGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeRegulatoryDomainInfoGetReqSend(src__) \ - CsrWifiSmeRegulatoryDomainInfoGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeRegulatoryDomainInfoGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - regDomInfo - Reports information and state related to regulatory domain - operation. - -*******************************************************************************/ -#define CsrWifiSmeRegulatoryDomainInfoGetCfmCreate(msg__, dst__, src__, status__, regDomInfo__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeRegulatoryDomainInfoGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_REGULATORY_DOMAIN_INFO_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->regDomInfo = (regDomInfo__); - -#define CsrWifiSmeRegulatoryDomainInfoGetCfmSendTo(dst__, src__, status__, regDomInfo__) \ - { \ - CsrWifiSmeRegulatoryDomainInfoGetCfm *msg__; \ - CsrWifiSmeRegulatoryDomainInfoGetCfmCreate(msg__, dst__, src__, status__, regDomInfo__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeRegulatoryDomainInfoGetCfmSend(dst__, status__, regDomInfo__) \ - CsrWifiSmeRegulatoryDomainInfoGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, regDomInfo__) - -/******************************************************************************* - - NAME - CsrWifiSmeRoamCompleteIndSend - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it whenever it completes an attempt to roam to an AP. If the roam - attempt was successful, status will be set to CSR_WIFI_SME_SUCCESS, - otherwise it shall be set to the appropriate error code. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the roaming procedure - -*******************************************************************************/ -#define CsrWifiSmeRoamCompleteIndCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeRoamCompleteInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ROAM_COMPLETE_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeRoamCompleteIndSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeRoamCompleteInd *msg__; \ - CsrWifiSmeRoamCompleteIndCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeRoamCompleteIndSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeRoamCompleteIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeRoamStartIndSend - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it whenever it begins an attempt to roam to an AP. - If the wireless manager application connect request specified the SSID - and the BSSID was set to the broadcast address (0xFF 0xFF 0xFF 0xFF 0xFF - 0xFF), the SME monitors the signal quality and maintains a list of - candidates to roam to. When the signal quality of the current connection - falls below a threshold, and there is a candidate with better quality, - the SME will attempt to the candidate AP. - If the roaming procedure succeeds, the SME will also issue a Media - Connect indication to inform the wireless manager application of the - change. - NOTE: to prevent the SME from initiating roaming the WMA must specify the - BSSID in the connection request; this forces the SME to connect only to - that AP. - The wireless manager application can obtain statistics for roaming - purposes using CSR_WIFI_SME_CONNECTION_QUALITY_IND and - CSR_WIFI_SME_CONNECTION_STATS_GET_REQ. - When the wireless manager application wishes to roam to another AP, it - must issue a connection request specifying the BSSID of the desired AP. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - roamReason - Indicates the reason for starting the roaming procedure - reason80211 - Indicates the reason for deauthentication or disassociation - -*******************************************************************************/ -#define CsrWifiSmeRoamStartIndCreate(msg__, dst__, src__, interfaceTag__, roamReason__, reason80211__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeRoamStartInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ROAM_START_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->roamReason = (roamReason__); \ - msg__->reason80211 = (reason80211__); - -#define CsrWifiSmeRoamStartIndSendTo(dst__, src__, interfaceTag__, roamReason__, reason80211__) \ - { \ - CsrWifiSmeRoamStartInd *msg__; \ - CsrWifiSmeRoamStartIndCreate(msg__, dst__, src__, interfaceTag__, roamReason__, reason80211__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeRoamStartIndSend(dst__, interfaceTag__, roamReason__, reason80211__) \ - CsrWifiSmeRoamStartIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, roamReason__, reason80211__) - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the RoamingConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeRoamingConfigGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeRoamingConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ROAMING_CONFIG_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeRoamingConfigGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeRoamingConfigGetReq *msg__; \ - CsrWifiSmeRoamingConfigGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeRoamingConfigGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeRoamingConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - roamingConfig - Reports the roaming behaviour of the driver and firmware - -*******************************************************************************/ -#define CsrWifiSmeRoamingConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, roamingConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeRoamingConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ROAMING_CONFIG_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->roamingConfig = (roamingConfig__); - -#define CsrWifiSmeRoamingConfigGetCfmSendTo(dst__, src__, interfaceTag__, status__, roamingConfig__) \ - { \ - CsrWifiSmeRoamingConfigGetCfm *msg__; \ - CsrWifiSmeRoamingConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, roamingConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeRoamingConfigGetCfmSend(dst__, interfaceTag__, status__, roamingConfig__) \ - CsrWifiSmeRoamingConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, roamingConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the RoamingConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - roamingConfig - Desired roaming behaviour values - -*******************************************************************************/ -#define CsrWifiSmeRoamingConfigSetReqCreate(msg__, dst__, src__, interfaceTag__, roamingConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeRoamingConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ROAMING_CONFIG_SET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->roamingConfig = (roamingConfig__); - -#define CsrWifiSmeRoamingConfigSetReqSendTo(dst__, src__, interfaceTag__, roamingConfig__) \ - { \ - CsrWifiSmeRoamingConfigSetReq *msg__; \ - CsrWifiSmeRoamingConfigSetReqCreate(msg__, dst__, src__, interfaceTag__, roamingConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeRoamingConfigSetReqSend(src__, interfaceTag__, roamingConfig__) \ - CsrWifiSmeRoamingConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, roamingConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfigSetCfmSend - - DESCRIPTION - This primitive sets the value of the RoamingConfig parameter. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeRoamingConfigSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeRoamingConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_ROAMING_CONFIG_SET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeRoamingConfigSetCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeRoamingConfigSetCfm *msg__; \ - CsrWifiSmeRoamingConfigSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeRoamingConfigSetCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeRoamingConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the ScanConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeScanConfigGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_CONFIG_GET_REQ, dst__, src__); - -#define CsrWifiSmeScanConfigGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeScanConfigGetReq *msg__; \ - CsrWifiSmeScanConfigGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanConfigGetReqSend(src__) \ - CsrWifiSmeScanConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - scanConfig - Returns the current parameters for the autonomous scanning - behaviour of the firmware - -*******************************************************************************/ -#define CsrWifiSmeScanConfigGetCfmCreate(msg__, dst__, src__, status__, scanConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_CONFIG_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->scanConfig = (scanConfig__); - -#define CsrWifiSmeScanConfigGetCfmSendTo(dst__, src__, status__, scanConfig__) \ - { \ - CsrWifiSmeScanConfigGetCfm *msg__; \ - CsrWifiSmeScanConfigGetCfmCreate(msg__, dst__, src__, status__, scanConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanConfigGetCfmSend(dst__, status__, scanConfig__) \ - CsrWifiSmeScanConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, scanConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the ScanConfig parameter. - The SME normally configures the firmware to perform autonomous scanning - without involving the host. - The firmware passes beacon / probe response or indicates loss of beacon - on certain changes of state, for example: - * A new AP is seen for the first time - * An AP is no longer visible - * The signal strength of an AP changes by more than a certain amount, as - configured by the thresholds in the scanConfig parameter - In addition to the autonomous scan, the wireless manager application may - request a scan at any time using CSR_WIFI_SME_SCAN_FULL_REQ. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - scanConfig - Reports the configuration for the autonomous scanning behaviour - of the firmware - -*******************************************************************************/ -#define CsrWifiSmeScanConfigSetReqCreate(msg__, dst__, src__, scanConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_CONFIG_SET_REQ, dst__, src__); \ - msg__->scanConfig = (scanConfig__); - -#define CsrWifiSmeScanConfigSetReqSendTo(dst__, src__, scanConfig__) \ - { \ - CsrWifiSmeScanConfigSetReq *msg__; \ - CsrWifiSmeScanConfigSetReqCreate(msg__, dst__, src__, scanConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanConfigSetReqSend(src__, scanConfig__) \ - CsrWifiSmeScanConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, scanConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeScanConfigSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_CONFIG_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeScanConfigSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeScanConfigSetCfm *msg__; \ - CsrWifiSmeScanConfigSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanConfigSetCfmSend(dst__, status__) \ - CsrWifiSmeScanConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanFullReqSend - - DESCRIPTION - The wireless manager application should call this primitive to request a - full scan. - Channels are scanned actively or passively according to the requirement - set by regulatory domain. - If the SME receives this primitive while a full scan is going on, the new - request is buffered and it will be served after the current full scan is - completed. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - ssidCount - Number of SSIDs provided. - If it is 0, the SME will attempt to detect any network - ssid - Points to the first SSID provided, if any. - bssid - BSS identifier. - If it is equal to FF-FF-FF-FF-FF, the SME will listen for - messages from any BSS. - If it is different from FF-FF-FF-FF-FF and any SSID is - provided, one SSID must match the network of the BSS. - forceScan - Forces the scan even if the SME is in a state which would - normally prevent it (e.g. autonomous scan is running). - bssType - Type of BSS to scan for - scanType - Type of scan to perform - channelListCount - Number of channels provided. - If it is 0, the SME will initiate a scan of all the - supported channels that are permitted by the current - regulatory domain. - channelList - Points to the first channel , or NULL if channelListCount - is zero. - probeIeLength - Length of the information element in bytes to be sent - with the probe message. - probeIe - Points to the first byte of the information element to be - sent with the probe message. - -*******************************************************************************/ -#define CsrWifiSmeScanFullReqCreate(msg__, dst__, src__, ssidCount__, ssid__, bssid__, forceScan__, bssType__, scanType__, channelListCount__, channelList__, probeIeLength__, probeIe__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanFullReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_FULL_REQ, dst__, src__); \ - msg__->ssidCount = (ssidCount__); \ - msg__->ssid = (ssid__); \ - msg__->bssid = (bssid__); \ - msg__->forceScan = (forceScan__); \ - msg__->bssType = (bssType__); \ - msg__->scanType = (scanType__); \ - msg__->channelListCount = (channelListCount__); \ - msg__->channelList = (channelList__); \ - msg__->probeIeLength = (probeIeLength__); \ - msg__->probeIe = (probeIe__); - -#define CsrWifiSmeScanFullReqSendTo(dst__, src__, ssidCount__, ssid__, bssid__, forceScan__, bssType__, scanType__, channelListCount__, channelList__, probeIeLength__, probeIe__) \ - { \ - CsrWifiSmeScanFullReq *msg__; \ - CsrWifiSmeScanFullReqCreate(msg__, dst__, src__, ssidCount__, ssid__, bssid__, forceScan__, bssType__, scanType__, channelListCount__, channelList__, probeIeLength__, probeIe__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanFullReqSend(src__, ssidCount__, ssid__, bssid__, forceScan__, bssType__, scanType__, channelListCount__, channelList__, probeIeLength__, probeIe__) \ - CsrWifiSmeScanFullReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, ssidCount__, ssid__, bssid__, forceScan__, bssType__, scanType__, channelListCount__, channelList__, probeIeLength__, probeIe__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanFullCfmSend - - DESCRIPTION - The SME calls this primitive when the results from the scan are - available. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeScanFullCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanFullCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_FULL_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeScanFullCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeScanFullCfm *msg__; \ - CsrWifiSmeScanFullCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanFullCfmSend(dst__, status__) \ - CsrWifiSmeScanFullCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultIndSend - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it whenever a scan indication is received from the firmware. - - PARAMETERS - queue - Destination Task Queue - result - Points to a buffer containing a scan result. - -*******************************************************************************/ -#define CsrWifiSmeScanResultIndCreate(msg__, dst__, src__, result__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanResultInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_RESULT_IND, dst__, src__); \ - msg__->result = (result__); - -#define CsrWifiSmeScanResultIndSendTo(dst__, src__, result__) \ - { \ - CsrWifiSmeScanResultInd *msg__; \ - CsrWifiSmeScanResultIndCreate(msg__, dst__, src__, result__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanResultIndSend(dst__, result__) \ - CsrWifiSmeScanResultIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, result__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultsFlushReqSend - - DESCRIPTION - The Wireless Manager calls this primitive to ask the SME to delete all - scan results from its cache, except for the scan result of any currently - connected network. - As scan results are received by the SME from the firmware, they are - cached in the SME memory. - Any time the Wireless Manager requests scan results, they are returned - from the SME internal cache. - For some applications it may be desirable to clear this cache prior to - requesting that a scan be performed; this will ensure that the cache then - only contains the networks detected in the most recent scan. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeScanResultsFlushReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanResultsFlushReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_RESULTS_FLUSH_REQ, dst__, src__); - -#define CsrWifiSmeScanResultsFlushReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeScanResultsFlushReq *msg__; \ - CsrWifiSmeScanResultsFlushReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanResultsFlushReqSend(src__) \ - CsrWifiSmeScanResultsFlushReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultsFlushCfmSend - - DESCRIPTION - The SME will call this primitive when the cache has been cleared. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeScanResultsFlushCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanResultsFlushCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_RESULTS_FLUSH_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeScanResultsFlushCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeScanResultsFlushCfm *msg__; \ - CsrWifiSmeScanResultsFlushCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanResultsFlushCfmSend(dst__, status__) \ - CsrWifiSmeScanResultsFlushCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultsGetReqSend - - DESCRIPTION - The wireless manager application calls this primitive to retrieve the - current set of scan results, either after receiving a successful - CSR_WIFI_SME_SCAN_FULL_CFM, or to get autonomous scan results. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeScanResultsGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanResultsGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_RESULTS_GET_REQ, dst__, src__); - -#define CsrWifiSmeScanResultsGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeScanResultsGetReq *msg__; \ - CsrWifiSmeScanResultsGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanResultsGetReqSend(src__) \ - CsrWifiSmeScanResultsGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultsGetCfmSend - - DESCRIPTION - The SME sends this primitive to provide the current set of scan results. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - scanResultsCount - Number of scan results - scanResults - Points to a buffer containing an array of - CsrWifiSmeScanResult structures. - -*******************************************************************************/ -#define CsrWifiSmeScanResultsGetCfmCreate(msg__, dst__, src__, status__, scanResultsCount__, scanResults__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeScanResultsGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SCAN_RESULTS_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->scanResultsCount = (scanResultsCount__); \ - msg__->scanResults = (scanResults__); - -#define CsrWifiSmeScanResultsGetCfmSendTo(dst__, src__, status__, scanResultsCount__, scanResults__) \ - { \ - CsrWifiSmeScanResultsGetCfm *msg__; \ - CsrWifiSmeScanResultsGetCfmCreate(msg__, dst__, src__, status__, scanResultsCount__, scanResults__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeScanResultsGetCfmSend(dst__, status__, scanResultsCount__, scanResults__) \ - CsrWifiSmeScanResultsGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, scanResultsCount__, scanResults__) - -/******************************************************************************* - - NAME - CsrWifiSmeSetReqSend - - DESCRIPTION - Used to pass custom data to the SME. Format is the same as 802.11 Info - Elements => | Id | Length | Data - 1) Cmanr Test Mode "Id:0 Length:1 Data:0x00 = OFF 0x01 = ON" "0x00 0x01 - (0x00|0x01)" - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - dataLength - Number of bytes in the buffer pointed to by 'data' - data - Pointer to the buffer containing 'dataLength' bytes - -*******************************************************************************/ -#define CsrWifiSmeSetReqCreate(msg__, dst__, src__, dataLength__, data__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SET_REQ, dst__, src__); \ - msg__->dataLength = (dataLength__); \ - msg__->data = (data__); - -#define CsrWifiSmeSetReqSendTo(dst__, src__, dataLength__, data__) \ - { \ - CsrWifiSmeSetReq *msg__; \ - CsrWifiSmeSetReqCreate(msg__, dst__, src__, dataLength__, data__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSetReqSend(src__, dataLength__, data__) \ - CsrWifiSmeSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, dataLength__, data__) - -/******************************************************************************* - - NAME - CsrWifiSmeSmeCommonConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the Sme common parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeSmeCommonConfigGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSmeCommonConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SME_COMMON_CONFIG_GET_REQ, dst__, src__); - -#define CsrWifiSmeSmeCommonConfigGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeSmeCommonConfigGetReq *msg__; \ - CsrWifiSmeSmeCommonConfigGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSmeCommonConfigGetReqSend(src__) \ - CsrWifiSmeSmeCommonConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeSmeCommonConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - deviceConfig - Configuration options in the SME - -*******************************************************************************/ -#define CsrWifiSmeSmeCommonConfigGetCfmCreate(msg__, dst__, src__, status__, deviceConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSmeCommonConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SME_COMMON_CONFIG_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->deviceConfig = (deviceConfig__); - -#define CsrWifiSmeSmeCommonConfigGetCfmSendTo(dst__, src__, status__, deviceConfig__) \ - { \ - CsrWifiSmeSmeCommonConfigGetCfm *msg__; \ - CsrWifiSmeSmeCommonConfigGetCfmCreate(msg__, dst__, src__, status__, deviceConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSmeCommonConfigGetCfmSend(dst__, status__, deviceConfig__) \ - CsrWifiSmeSmeCommonConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, deviceConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeSmeCommonConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the Sme common. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - deviceConfig - Configuration options in the SME - -*******************************************************************************/ -#define CsrWifiSmeSmeCommonConfigSetReqCreate(msg__, dst__, src__, deviceConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSmeCommonConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SME_COMMON_CONFIG_SET_REQ, dst__, src__); \ - msg__->deviceConfig = (deviceConfig__); - -#define CsrWifiSmeSmeCommonConfigSetReqSendTo(dst__, src__, deviceConfig__) \ - { \ - CsrWifiSmeSmeCommonConfigSetReq *msg__; \ - CsrWifiSmeSmeCommonConfigSetReqCreate(msg__, dst__, src__, deviceConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSmeCommonConfigSetReqSend(src__, deviceConfig__) \ - CsrWifiSmeSmeCommonConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, deviceConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeSmeCommonConfigSetCfmSend - - DESCRIPTION - Reports the result of the request - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeSmeCommonConfigSetCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSmeCommonConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SME_COMMON_CONFIG_SET_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeSmeCommonConfigSetCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeSmeCommonConfigSetCfm *msg__; \ - CsrWifiSmeSmeCommonConfigSetCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSmeCommonConfigSetCfmSend(dst__, status__) \ - CsrWifiSmeSmeCommonConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeSmeStaConfigGetReqSend - - DESCRIPTION - This primitive gets the value of the SmeStaConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -#define CsrWifiSmeSmeStaConfigGetReqCreate(msg__, dst__, src__, interfaceTag__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSmeStaConfigGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SME_STA_CONFIG_GET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); - -#define CsrWifiSmeSmeStaConfigGetReqSendTo(dst__, src__, interfaceTag__) \ - { \ - CsrWifiSmeSmeStaConfigGetReq *msg__; \ - CsrWifiSmeSmeStaConfigGetReqCreate(msg__, dst__, src__, interfaceTag__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSmeStaConfigGetReqSend(src__, interfaceTag__) \ - CsrWifiSmeSmeStaConfigGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__) - -/******************************************************************************* - - NAME - CsrWifiSmeSmeStaConfigGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - smeConfig - Current SME Station Parameters - -*******************************************************************************/ -#define CsrWifiSmeSmeStaConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, smeConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSmeStaConfigGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SME_STA_CONFIG_GET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->smeConfig = (smeConfig__); - -#define CsrWifiSmeSmeStaConfigGetCfmSendTo(dst__, src__, interfaceTag__, status__, smeConfig__) \ - { \ - CsrWifiSmeSmeStaConfigGetCfm *msg__; \ - CsrWifiSmeSmeStaConfigGetCfmCreate(msg__, dst__, src__, interfaceTag__, status__, smeConfig__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSmeStaConfigGetCfmSend(dst__, interfaceTag__, status__, smeConfig__) \ - CsrWifiSmeSmeStaConfigGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, smeConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeSmeStaConfigSetReqSend - - DESCRIPTION - This primitive sets the value of the SmeConfig parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - smeConfig - SME Station Parameters to be set - -*******************************************************************************/ -#define CsrWifiSmeSmeStaConfigSetReqCreate(msg__, dst__, src__, interfaceTag__, smeConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSmeStaConfigSetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SME_STA_CONFIG_SET_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->smeConfig = (smeConfig__); - -#define CsrWifiSmeSmeStaConfigSetReqSendTo(dst__, src__, interfaceTag__, smeConfig__) \ - { \ - CsrWifiSmeSmeStaConfigSetReq *msg__; \ - CsrWifiSmeSmeStaConfigSetReqCreate(msg__, dst__, src__, interfaceTag__, smeConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSmeStaConfigSetReqSend(src__, interfaceTag__, smeConfig__) \ - CsrWifiSmeSmeStaConfigSetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, smeConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeSmeStaConfigSetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeSmeStaConfigSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeSmeStaConfigSetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_SME_STA_CONFIG_SET_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); - -#define CsrWifiSmeSmeStaConfigSetCfmSendTo(dst__, src__, interfaceTag__, status__) \ - { \ - CsrWifiSmeSmeStaConfigSetCfm *msg__; \ - CsrWifiSmeSmeStaConfigSetCfmCreate(msg__, dst__, src__, interfaceTag__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeSmeStaConfigSetCfmSend(dst__, interfaceTag__, status__) \ - CsrWifiSmeSmeStaConfigSetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeStationMacAddressGetReqSend - - DESCRIPTION - This primitives is used to retrieve the current MAC address used by the - station. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeStationMacAddressGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeStationMacAddressGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_STATION_MAC_ADDRESS_GET_REQ, dst__, src__); - -#define CsrWifiSmeStationMacAddressGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeStationMacAddressGetReq *msg__; \ - CsrWifiSmeStationMacAddressGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeStationMacAddressGetReqSend(src__) \ - CsrWifiSmeStationMacAddressGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeStationMacAddressGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - stationMacAddress - Current MAC address of the station. - -*******************************************************************************/ -#define CsrWifiSmeStationMacAddressGetCfmCreate(msg__, dst__, src__, status__, stationMacAddress__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeStationMacAddressGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_STATION_MAC_ADDRESS_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - memcpy(msg__->stationMacAddress, (stationMacAddress__), sizeof(CsrWifiMacAddress) * 2); - -#define CsrWifiSmeStationMacAddressGetCfmSendTo(dst__, src__, status__, stationMacAddress__) \ - { \ - CsrWifiSmeStationMacAddressGetCfm *msg__; \ - CsrWifiSmeStationMacAddressGetCfmCreate(msg__, dst__, src__, status__, stationMacAddress__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeStationMacAddressGetCfmSend(dst__, status__, stationMacAddress__) \ - CsrWifiSmeStationMacAddressGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, stationMacAddress__) - -/******************************************************************************* - - NAME - CsrWifiSmeTspecReqSend - - DESCRIPTION - The wireless manager application should call this primitive to use the - TSPEC feature. - The chip supports the use of TSPECs and TCLAS for the use of IEEE - 802.11/WMM Quality of Service features. - The API allows the wireless manager application to supply a correctly - formatted TSPEC and TCLAS pair to the driver. - After performing basic validation, the driver negotiates the installation - of the TSPEC with the AP as defined by the 802.11 specification. - The driver retains all TSPEC and TCLAS pairs until they are specifically - removed. - It is not compulsory for a TSPEC to have a TCLAS (NULL is used to - indicate that no TCLAS is supplied), while a TCLASS always require a - TSPEC. - The format of the TSPEC element is specified in 'WMM (including WMM Power - Save) Specification - Version 1.1' and 'ANSI/IEEE Std 802.11-REVmb/D3.0'. - For more information, see 'UniFi Configuring WMM and WMM-PS'. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - interfaceTag - Interface Identifier; unique identifier of an interface - action - Specifies the action to be carried out on the list of TSPECs. - CSR_WIFI_SME_LIST_ACTION_FLUSH is not applicable here. - transactionId - Unique Transaction ID for the TSPEC, as assigned by the - driver - strict - If it set to false, allows the SME to perform automatic - TSPEC negotiation - ctrlMask - Additional TSPEC configuration for CCX. - Set mask with values from CsrWifiSmeTspecCtrl. - CURRENTLY NOT SUPPORTED - tspecLength - Length of the TSPEC. - tspec - Points to the first byte of the TSPEC - tclasLength - Length of the TCLAS. - If it is equal to 0, no TCLASS is provided for the TSPEC - tclas - Points to the first byte of the TCLAS, if any. - -*******************************************************************************/ -#define CsrWifiSmeTspecReqCreate(msg__, dst__, src__, interfaceTag__, action__, transactionId__, strict__, ctrlMask__, tspecLength__, tspec__, tclasLength__, tclas__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeTspecReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_TSPEC_REQ, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->action = (action__); \ - msg__->transactionId = (transactionId__); \ - msg__->strict = (strict__); \ - msg__->ctrlMask = (ctrlMask__); \ - msg__->tspecLength = (tspecLength__); \ - msg__->tspec = (tspec__); \ - msg__->tclasLength = (tclasLength__); \ - msg__->tclas = (tclas__); - -#define CsrWifiSmeTspecReqSendTo(dst__, src__, interfaceTag__, action__, transactionId__, strict__, ctrlMask__, tspecLength__, tspec__, tclasLength__, tclas__) \ - { \ - CsrWifiSmeTspecReq *msg__; \ - CsrWifiSmeTspecReqCreate(msg__, dst__, src__, interfaceTag__, action__, transactionId__, strict__, ctrlMask__, tspecLength__, tspec__, tclasLength__, tclas__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeTspecReqSend(src__, interfaceTag__, action__, transactionId__, strict__, ctrlMask__, tspecLength__, tspec__, tclasLength__, tclas__) \ - CsrWifiSmeTspecReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, interfaceTag__, action__, transactionId__, strict__, ctrlMask__, tspecLength__, tspec__, tclasLength__, tclas__) - -/******************************************************************************* - - NAME - CsrWifiSmeTspecIndSend - - DESCRIPTION - The SME will send this primitive to all the task that have registered to - receive it when a status change in the TSPEC occurs. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - transactionId - Unique Transaction ID for the TSPEC, as assigned by the - driver - tspecResultCode - Specifies the TSPEC operation requested by the peer - station - tspecLength - Length of the TSPEC. - tspec - Points to the first byte of the TSPEC - -*******************************************************************************/ -#define CsrWifiSmeTspecIndCreate(msg__, dst__, src__, interfaceTag__, transactionId__, tspecResultCode__, tspecLength__, tspec__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeTspecInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_TSPEC_IND, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->transactionId = (transactionId__); \ - msg__->tspecResultCode = (tspecResultCode__); \ - msg__->tspecLength = (tspecLength__); \ - msg__->tspec = (tspec__); - -#define CsrWifiSmeTspecIndSendTo(dst__, src__, interfaceTag__, transactionId__, tspecResultCode__, tspecLength__, tspec__) \ - { \ - CsrWifiSmeTspecInd *msg__; \ - CsrWifiSmeTspecIndCreate(msg__, dst__, src__, interfaceTag__, transactionId__, tspecResultCode__, tspecLength__, tspec__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeTspecIndSend(dst__, interfaceTag__, transactionId__, tspecResultCode__, tspecLength__, tspec__) \ - CsrWifiSmeTspecIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, transactionId__, tspecResultCode__, tspecLength__, tspec__) - -/******************************************************************************* - - NAME - CsrWifiSmeTspecCfmSend - - DESCRIPTION - The SME calls the primitive to report the result of the TSpec primitive - request. - - PARAMETERS - queue - Destination Task Queue - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - transactionId - Unique Transaction ID for the TSPEC, as assigned by the - driver - tspecResultCode - Specifies the result of the negotiated TSPEC operation - tspecLength - Length of the TSPEC. - tspec - Points to the first byte of the TSPEC - -*******************************************************************************/ -#define CsrWifiSmeTspecCfmCreate(msg__, dst__, src__, interfaceTag__, status__, transactionId__, tspecResultCode__, tspecLength__, tspec__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeTspecCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_TSPEC_CFM, dst__, src__); \ - msg__->interfaceTag = (interfaceTag__); \ - msg__->status = (status__); \ - msg__->transactionId = (transactionId__); \ - msg__->tspecResultCode = (tspecResultCode__); \ - msg__->tspecLength = (tspecLength__); \ - msg__->tspec = (tspec__); - -#define CsrWifiSmeTspecCfmSendTo(dst__, src__, interfaceTag__, status__, transactionId__, tspecResultCode__, tspecLength__, tspec__) \ - { \ - CsrWifiSmeTspecCfm *msg__; \ - CsrWifiSmeTspecCfmCreate(msg__, dst__, src__, interfaceTag__, status__, transactionId__, tspecResultCode__, tspecLength__, tspec__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeTspecCfmSend(dst__, interfaceTag__, status__, transactionId__, tspecResultCode__, tspecLength__, tspec__) \ - CsrWifiSmeTspecCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, interfaceTag__, status__, transactionId__, tspecResultCode__, tspecLength__, tspec__) - -/******************************************************************************* - - NAME - CsrWifiSmeVersionsGetReqSend - - DESCRIPTION - This primitive gets the value of the Versions parameter. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeVersionsGetReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeVersionsGetReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_VERSIONS_GET_REQ, dst__, src__); - -#define CsrWifiSmeVersionsGetReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeVersionsGetReq *msg__; \ - CsrWifiSmeVersionsGetReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeVersionsGetReqSend(src__) \ - CsrWifiSmeVersionsGetReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeVersionsGetCfmSend - - DESCRIPTION - This primitive reports the result of the request. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - versions - Version IDs of the product - -*******************************************************************************/ -#define CsrWifiSmeVersionsGetCfmCreate(msg__, dst__, src__, status__, versions__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeVersionsGetCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_VERSIONS_GET_CFM, dst__, src__); \ - msg__->status = (status__); \ - msg__->versions = (versions__); - -#define CsrWifiSmeVersionsGetCfmSendTo(dst__, src__, status__, versions__) \ - { \ - CsrWifiSmeVersionsGetCfm *msg__; \ - CsrWifiSmeVersionsGetCfmCreate(msg__, dst__, src__, status__, versions__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeVersionsGetCfmSend(dst__, status__, versions__) \ - CsrWifiSmeVersionsGetCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__, versions__) - -/******************************************************************************* - - NAME - CsrWifiSmeWifiFlightmodeReqSend - - DESCRIPTION - The wireless manager application may call this primitive on boot-up of - the platform to ensure that the chip is placed in a mode that prevents - any emission of RF energy. - This primitive is an alternative to CSR_WIFI_SME_WIFI_ON_REQ. - As in CSR_WIFI_SME_WIFI_ON_REQ, it causes the download of the patch file - (if any) and the programming of the initial MIB settings (if supplied by - the WMA), but it also ensures that the chip is left in its lowest - possible power-mode with the radio subsystems disabled. - This feature is useful on platforms where power cannot be removed from - the chip (leaving the chip not initialised will cause it to consume more - power so calling this function ensures that the chip is initialised into - a low power mode but without entering a state where it could emit any RF - energy). - NOTE: this primitive does not cause the Wi-Fi to change state: Wi-Fi - stays conceptually off. Configuration primitives can be sent after - CSR_WIFI_SME_WIFI_FLIGHTMODE_REQ and the configuration will be maintained. - Requests that require the state of the Wi-Fi to be ON will return - CSR_WIFI_SME_STATUS_WIFI_OFF in their confirms. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - address - Optionally specifies a station MAC address. - In normal use, the manager should set the address to 0xFF - 0xFF 0xFF 0xFF 0xFF 0xFF, which will cause the chip to use - the MAC address in the MIB. - mibFilesCount - Number of provided data blocks with initial MIB values - mibFiles - Points to the first data block with initial MIB values. - These data blocks are typically the contents of the provided - files ufmib.dat and localmib.dat, available from the host - file system, if they exist. - These files typically contain radio tuning and calibration - values. - More values can be created using the Host Tools. - -*******************************************************************************/ -#define CsrWifiSmeWifiFlightmodeReqCreate(msg__, dst__, src__, address__, mibFilesCount__, mibFiles__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWifiFlightmodeReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WIFI_FLIGHTMODE_REQ, dst__, src__); \ - msg__->address = (address__); \ - msg__->mibFilesCount = (mibFilesCount__); \ - msg__->mibFiles = (mibFiles__); - -#define CsrWifiSmeWifiFlightmodeReqSendTo(dst__, src__, address__, mibFilesCount__, mibFiles__) \ - { \ - CsrWifiSmeWifiFlightmodeReq *msg__; \ - CsrWifiSmeWifiFlightmodeReqCreate(msg__, dst__, src__, address__, mibFilesCount__, mibFiles__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWifiFlightmodeReqSend(src__, address__, mibFilesCount__, mibFiles__) \ - CsrWifiSmeWifiFlightmodeReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, address__, mibFilesCount__, mibFiles__) - -/******************************************************************************* - - NAME - CsrWifiSmeWifiFlightmodeCfmSend - - DESCRIPTION - The SME calls this primitive when the chip is initialised for low power - mode and with the radio subsystem disabled. To leave flight mode, and - enable Wi-Fi, the wireless manager application should call - CSR_WIFI_SME_WIFI_ON_REQ. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeWifiFlightmodeCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWifiFlightmodeCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WIFI_FLIGHTMODE_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeWifiFlightmodeCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeWifiFlightmodeCfm *msg__; \ - CsrWifiSmeWifiFlightmodeCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWifiFlightmodeCfmSend(dst__, status__) \ - CsrWifiSmeWifiFlightmodeCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOffReqSend - - DESCRIPTION - The wireless manager application calls this primitive to turn off the - chip, thus saving power when Wi-Fi is not in use. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - -*******************************************************************************/ -#define CsrWifiSmeWifiOffReqCreate(msg__, dst__, src__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWifiOffReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WIFI_OFF_REQ, dst__, src__); - -#define CsrWifiSmeWifiOffReqSendTo(dst__, src__) \ - { \ - CsrWifiSmeWifiOffReq *msg__; \ - CsrWifiSmeWifiOffReqCreate(msg__, dst__, src__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWifiOffReqSend(src__) \ - CsrWifiSmeWifiOffReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__) - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOffIndSend - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it to report that the chip has been turned off. - - PARAMETERS - queue - Destination Task Queue - reason - Indicates the reason why the Wi-Fi has been switched off. - -*******************************************************************************/ -#define CsrWifiSmeWifiOffIndCreate(msg__, dst__, src__, reason__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWifiOffInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WIFI_OFF_IND, dst__, src__); \ - msg__->reason = (reason__); - -#define CsrWifiSmeWifiOffIndSendTo(dst__, src__, reason__) \ - { \ - CsrWifiSmeWifiOffInd *msg__; \ - CsrWifiSmeWifiOffIndCreate(msg__, dst__, src__, reason__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWifiOffIndSend(dst__, reason__) \ - CsrWifiSmeWifiOffIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, reason__) - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOffCfmSend - - DESCRIPTION - After receiving CSR_WIFI_SME_WIFI_OFF_REQ, if the chip is connected to a - network, the SME will perform a disconnect operation, will send a - CSR_WIFI_SME_MEDIA_STATUS_IND with - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED, and then will call - CSR_WIFI_SME_WIFI_OFF_CFM when the chip is off. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeWifiOffCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWifiOffCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WIFI_OFF_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeWifiOffCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeWifiOffCfm *msg__; \ - CsrWifiSmeWifiOffCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWifiOffCfmSend(dst__, status__) \ - CsrWifiSmeWifiOffCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOnReqSend - - DESCRIPTION - The wireless manager application calls this primitive to turn on the - Wi-Fi chip. - If the Wi-Fi chip is currently off, the SME turns the Wi-Fi chip on, - downloads the patch file (if any), and programs the initial MIB settings - (if supplied by the WMA). - The patch file is not provided with the SME API; its downloading is - automatic and handled internally by the system. - The MIB settings, when provided, override the default values that the - firmware loads from EEPROM. - If the Wi-Fi chip is already on, the SME takes no action and returns a - successful status in the confirm. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - address - Optionally specifies a station MAC address. - In normal use, the manager should set the address to 0xFF - 0xFF 0xFF 0xFF 0xFF 0xFF, which will cause the chip to use - the MAC address in the MIB - mibFilesCount - Number of provided data blocks with initial MIB values - mibFiles - Points to the first data block with initial MIB values. - These data blocks are typically the contents of the provided - files ufmib.dat and localmib.dat, available from the host - file system, if they exist. - These files typically contain radio tuning and calibration - values. - More values can be created using the Host Tools. - -*******************************************************************************/ -#define CsrWifiSmeWifiOnReqCreate(msg__, dst__, src__, address__, mibFilesCount__, mibFiles__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWifiOnReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WIFI_ON_REQ, dst__, src__); \ - msg__->address = (address__); \ - msg__->mibFilesCount = (mibFilesCount__); \ - msg__->mibFiles = (mibFiles__); - -#define CsrWifiSmeWifiOnReqSendTo(dst__, src__, address__, mibFilesCount__, mibFiles__) \ - { \ - CsrWifiSmeWifiOnReq *msg__; \ - CsrWifiSmeWifiOnReqCreate(msg__, dst__, src__, address__, mibFilesCount__, mibFiles__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWifiOnReqSend(src__, address__, mibFilesCount__, mibFiles__) \ - CsrWifiSmeWifiOnReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, address__, mibFilesCount__, mibFiles__) - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOnIndSend - - DESCRIPTION - The SME sends this primitive to all tasks that have registered to receive - it once the chip becomes available and ready to use. - - PARAMETERS - queue - Destination Task Queue - address - Current MAC address - -*******************************************************************************/ -#define CsrWifiSmeWifiOnIndCreate(msg__, dst__, src__, address__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWifiOnInd), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WIFI_ON_IND, dst__, src__); \ - msg__->address = (address__); - -#define CsrWifiSmeWifiOnIndSendTo(dst__, src__, address__) \ - { \ - CsrWifiSmeWifiOnInd *msg__; \ - CsrWifiSmeWifiOnIndCreate(msg__, dst__, src__, address__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWifiOnIndSend(dst__, address__) \ - CsrWifiSmeWifiOnIndSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, address__) - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOnCfmSend - - DESCRIPTION - The SME sends this primitive to the task that has sent the request once - the chip has been initialised and is available for use. - - PARAMETERS - queue - Destination Task Queue - status - Reports the result of the request - -*******************************************************************************/ -#define CsrWifiSmeWifiOnCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWifiOnCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WIFI_ON_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeWifiOnCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeWifiOnCfm *msg__; \ - CsrWifiSmeWifiOnCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWifiOnCfmSend(dst__, status__) \ - CsrWifiSmeWifiOnCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -/******************************************************************************* - - NAME - CsrWifiSmeWpsConfigurationReqSend - - DESCRIPTION - This primitive passes the WPS information for the device to SME. This may - be accepted only if no interface is active. - - PARAMETERS - queue - Message Source Task Queue (Cfm's will be sent to this Queue) - wpsConfig - WPS config. - -*******************************************************************************/ -#define CsrWifiSmeWpsConfigurationReqCreate(msg__, dst__, src__, wpsConfig__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWpsConfigurationReq), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WPS_CONFIGURATION_REQ, dst__, src__); \ - msg__->wpsConfig = (wpsConfig__); - -#define CsrWifiSmeWpsConfigurationReqSendTo(dst__, src__, wpsConfig__) \ - { \ - CsrWifiSmeWpsConfigurationReq *msg__; \ - CsrWifiSmeWpsConfigurationReqCreate(msg__, dst__, src__, wpsConfig__); \ - CsrMsgTransport(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWpsConfigurationReqSend(src__, wpsConfig__) \ - CsrWifiSmeWpsConfigurationReqSendTo(CSR_WIFI_SME_LIB_DESTINATION_QUEUE, src__, wpsConfig__) - -/******************************************************************************* - - NAME - CsrWifiSmeWpsConfigurationCfmSend - - DESCRIPTION - Confirm. - - PARAMETERS - queue - Destination Task Queue - status - Status of the request. - -*******************************************************************************/ -#define CsrWifiSmeWpsConfigurationCfmCreate(msg__, dst__, src__, status__) \ - msg__ = kmalloc(sizeof(CsrWifiSmeWpsConfigurationCfm), GFP_KERNEL); \ - CsrWifiFsmEventInit(&msg__->common, CSR_WIFI_SME_PRIM, CSR_WIFI_SME_WPS_CONFIGURATION_CFM, dst__, src__); \ - msg__->status = (status__); - -#define CsrWifiSmeWpsConfigurationCfmSendTo(dst__, src__, status__) \ - { \ - CsrWifiSmeWpsConfigurationCfm *msg__; \ - CsrWifiSmeWpsConfigurationCfmCreate(msg__, dst__, src__, status__); \ - CsrSchedMessagePut(dst__, CSR_WIFI_SME_PRIM, msg__); \ - } - -#define CsrWifiSmeWpsConfigurationCfmSend(dst__, status__) \ - CsrWifiSmeWpsConfigurationCfmSendTo(dst__, CSR_WIFI_SME_IFACEQUEUE, status__) - -#endif /* CSR_WIFI_SME_LIB_H__ */ diff --git a/drivers/staging/csr/csr_wifi_sme_prim.h b/drivers/staging/csr/csr_wifi_sme_prim.h deleted file mode 100644 index 17ec79c..0000000 --- a/drivers/staging/csr/csr_wifi_sme_prim.h +++ /dev/null @@ -1,6510 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_SME_PRIM_H__ -#define CSR_WIFI_SME_PRIM_H__ - -#include <linux/types.h> -#include "csr_prim_defs.h" -#include "csr_sched.h" -#include "csr_wifi_common.h" -#include "csr_result.h" -#include "csr_wifi_fsm_event.h" - -#define CSR_WIFI_SME_PRIM (0x0404) - -typedef CsrPrim CsrWifiSmePrim; - - -/******************************************************************************* - - NAME - CsrWifiSme80211NetworkType - - DESCRIPTION - Indicates the physical layer of the network - - VALUES - CSR_WIFI_SME_80211_NETWORK_TYPE_DS - - Direct-sequence spread spectrum - CSR_WIFI_SME_80211_NETWORK_TYPE_OFDM24 - - Orthogonal Frequency Division Multiplexing at 2.4 GHz - CSR_WIFI_SME_80211_NETWORK_TYPE_OFDM5 - - Orthogonal Frequency Division Multiplexing at 5 GHz - CSR_WIFI_SME_80211_NETWORK_TYPE_AUTO - - Automatic - -*******************************************************************************/ -typedef u8 CsrWifiSme80211NetworkType; -#define CSR_WIFI_SME_80211_NETWORK_TYPE_DS ((CsrWifiSme80211NetworkType) 0x00) -#define CSR_WIFI_SME_80211_NETWORK_TYPE_OFDM24 ((CsrWifiSme80211NetworkType) 0x01) -#define CSR_WIFI_SME_80211_NETWORK_TYPE_OFDM5 ((CsrWifiSme80211NetworkType) 0x02) -#define CSR_WIFI_SME_80211_NETWORK_TYPE_AUTO ((CsrWifiSme80211NetworkType) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSme80211PrivacyMode - - DESCRIPTION - Bits to enable or disable the privacy mode - - VALUES - CSR_WIFI_SME_80211_PRIVACY_MODE_DISABLED - - Privacy mode is enabled: use of WEP for confidentiality is - required. - CSR_WIFI_SME_80211_PRIVACY_MODE_ENABLED - - Privacy mode is disabled - -*******************************************************************************/ -typedef u8 CsrWifiSme80211PrivacyMode; -#define CSR_WIFI_SME_80211_PRIVACY_MODE_DISABLED ((CsrWifiSme80211PrivacyMode) 0x00) -#define CSR_WIFI_SME_80211_PRIVACY_MODE_ENABLED ((CsrWifiSme80211PrivacyMode) 0x01) - -/******************************************************************************* - - NAME - CsrWifiSme80211dTrustLevel - - DESCRIPTION - Level of trust for the information coming from the network - - VALUES - CSR_WIFI_SME_80211D_TRUST_LEVEL_STRICT - - Start with passive scanning and only accept country IE for - updating channel lists - CSR_WIFI_SME_80211D_TRUST_LEVEL_ADJUNCT - - As above plus accept adjunct technology location - information - CSR_WIFI_SME_80211D_TRUST_LEVEL_BSS - - As above accept plus receiving channel from infrastructure - networks - CSR_WIFI_SME_80211D_TRUST_LEVEL_IBSS - - As above accept plus receiving channel from the ad hoc - networks - CSR_WIFI_SME_80211D_TRUST_LEVEL_MIB - - Start with active scanning with list of active channels - from the MIB and accept as above - CSR_WIFI_SME_80211D_TRUST_LEVEL_DISABLED - - Start with active scanning with list of active channels - from the MIB and ignore any channel information from the - network - -*******************************************************************************/ -typedef u8 CsrWifiSme80211dTrustLevel; -#define CSR_WIFI_SME_80211D_TRUST_LEVEL_STRICT ((CsrWifiSme80211dTrustLevel) 0x01) -#define CSR_WIFI_SME_80211D_TRUST_LEVEL_ADJUNCT ((CsrWifiSme80211dTrustLevel) 0x02) -#define CSR_WIFI_SME_80211D_TRUST_LEVEL_BSS ((CsrWifiSme80211dTrustLevel) 0x03) -#define CSR_WIFI_SME_80211D_TRUST_LEVEL_IBSS ((CsrWifiSme80211dTrustLevel) 0x04) -#define CSR_WIFI_SME_80211D_TRUST_LEVEL_MIB ((CsrWifiSme80211dTrustLevel) 0x05) -#define CSR_WIFI_SME_80211D_TRUST_LEVEL_DISABLED ((CsrWifiSme80211dTrustLevel) 0x06) - -/******************************************************************************* - - NAME - CsrWifiSmeAmpStatus - - DESCRIPTION - AMP Current Status - - VALUES - CSR_WIFI_SME_AMP_ACTIVE - AMP ACTIVE. - CSR_WIFI_SME_AMP_INACTIVE - AMP INACTIVE - -*******************************************************************************/ -typedef u8 CsrWifiSmeAmpStatus; -#define CSR_WIFI_SME_AMP_ACTIVE ((CsrWifiSmeAmpStatus) 0x00) -#define CSR_WIFI_SME_AMP_INACTIVE ((CsrWifiSmeAmpStatus) 0x01) - -/******************************************************************************* - - NAME - CsrWifiSmeAuthMode - - DESCRIPTION - Define bits for CsrWifiSmeAuthMode - - VALUES - CSR_WIFI_SME_AUTH_MODE_80211_OPEN - - Connects to an open system network (i.e. no authentication, - no encryption) or to a WEP enabled network. - CSR_WIFI_SME_AUTH_MODE_80211_SHARED - - Connect to a WEP enabled network. - CSR_WIFI_SME_AUTH_MODE_8021X_WPA - - Connects to a WPA Enterprise enabled network. - CSR_WIFI_SME_AUTH_MODE_8021X_WPAPSK - - Connects to a WPA with Pre-Shared Key enabled network. - CSR_WIFI_SME_AUTH_MODE_8021X_WPA2 - - Connects to a WPA2 Enterprise enabled network. - CSR_WIFI_SME_AUTH_MODE_8021X_WPA2PSK - - Connects to a WPA2 with Pre-Shared Key enabled network. - CSR_WIFI_SME_AUTH_MODE_8021X_CCKM - - Connects to a CCKM enabled network. - CSR_WIFI_SME_AUTH_MODE_WAPI_WAI - - Connects to a WAPI Enterprise enabled network. - CSR_WIFI_SME_AUTH_MODE_WAPI_WAIPSK - - Connects to a WAPI with Pre-Shared Key enabled network. - CSR_WIFI_SME_AUTH_MODE_8021X_OTHER1X - - For future use. - -*******************************************************************************/ -typedef u16 CsrWifiSmeAuthMode; -#define CSR_WIFI_SME_AUTH_MODE_80211_OPEN ((CsrWifiSmeAuthMode) 0x0001) -#define CSR_WIFI_SME_AUTH_MODE_80211_SHARED ((CsrWifiSmeAuthMode) 0x0002) -#define CSR_WIFI_SME_AUTH_MODE_8021X_WPA ((CsrWifiSmeAuthMode) 0x0004) -#define CSR_WIFI_SME_AUTH_MODE_8021X_WPAPSK ((CsrWifiSmeAuthMode) 0x0008) -#define CSR_WIFI_SME_AUTH_MODE_8021X_WPA2 ((CsrWifiSmeAuthMode) 0x0010) -#define CSR_WIFI_SME_AUTH_MODE_8021X_WPA2PSK ((CsrWifiSmeAuthMode) 0x0020) -#define CSR_WIFI_SME_AUTH_MODE_8021X_CCKM ((CsrWifiSmeAuthMode) 0x0040) -#define CSR_WIFI_SME_AUTH_MODE_WAPI_WAI ((CsrWifiSmeAuthMode) 0x0080) -#define CSR_WIFI_SME_AUTH_MODE_WAPI_WAIPSK ((CsrWifiSmeAuthMode) 0x0100) -#define CSR_WIFI_SME_AUTH_MODE_8021X_OTHER1X ((CsrWifiSmeAuthMode) 0x0200) - -/******************************************************************************* - - NAME - CsrWifiSmeBasicUsability - - DESCRIPTION - Indicates the usability level of a channel - - VALUES - CSR_WIFI_SME_BASIC_USABILITY_UNUSABLE - - Not usable; connection not recommended - CSR_WIFI_SME_BASIC_USABILITY_POOR - - Poor quality; connect only if nothing better is available - CSR_WIFI_SME_BASIC_USABILITY_SATISFACTORY - - Quality is satisfactory - CSR_WIFI_SME_BASIC_USABILITY_NOT_CONNECTED - - Not connected - -*******************************************************************************/ -typedef u8 CsrWifiSmeBasicUsability; -#define CSR_WIFI_SME_BASIC_USABILITY_UNUSABLE ((CsrWifiSmeBasicUsability) 0x00) -#define CSR_WIFI_SME_BASIC_USABILITY_POOR ((CsrWifiSmeBasicUsability) 0x01) -#define CSR_WIFI_SME_BASIC_USABILITY_SATISFACTORY ((CsrWifiSmeBasicUsability) 0x02) -#define CSR_WIFI_SME_BASIC_USABILITY_NOT_CONNECTED ((CsrWifiSmeBasicUsability) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeBssType - - DESCRIPTION - Indicates the BSS type - - VALUES - CSR_WIFI_SME_BSS_TYPE_INFRASTRUCTURE - - Infrastructure BSS. - CSR_WIFI_SME_BSS_TYPE_ADHOC - - Ad hoc or Independent BSS. - CSR_WIFI_SME_BSS_TYPE_ANY_BSS - - Specifies any type of BSS - CSR_WIFI_SME_BSS_TYPE_P2P - - Specifies P2P - -*******************************************************************************/ -typedef u8 CsrWifiSmeBssType; -#define CSR_WIFI_SME_BSS_TYPE_INFRASTRUCTURE ((CsrWifiSmeBssType) 0x00) -#define CSR_WIFI_SME_BSS_TYPE_ADHOC ((CsrWifiSmeBssType) 0x01) -#define CSR_WIFI_SME_BSS_TYPE_ANY_BSS ((CsrWifiSmeBssType) 0x02) -#define CSR_WIFI_SME_BSS_TYPE_P2P ((CsrWifiSmeBssType) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeCoexScheme - - DESCRIPTION - Options for the coexistence signalling - Same as MibValues - - VALUES - CSR_WIFI_SME_COEX_SCHEME_DISABLED - - The coexistence signalling is disabled - CSR_WIFI_SME_COEX_SCHEME_CSR - - Basic CSR coexistence signalling - CSR_WIFI_SME_COEX_SCHEME_CSR_CHANNEL - - Full CSR coexistence signalling - CSR_WIFI_SME_COEX_SCHEME_PTA - - Packet Traffic Arbitrator coexistence signalling - -*******************************************************************************/ -typedef u8 CsrWifiSmeCoexScheme; -#define CSR_WIFI_SME_COEX_SCHEME_DISABLED ((CsrWifiSmeCoexScheme) 0x00) -#define CSR_WIFI_SME_COEX_SCHEME_CSR ((CsrWifiSmeCoexScheme) 0x01) -#define CSR_WIFI_SME_COEX_SCHEME_CSR_CHANNEL ((CsrWifiSmeCoexScheme) 0x02) -#define CSR_WIFI_SME_COEX_SCHEME_PTA ((CsrWifiSmeCoexScheme) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeControlIndication - - DESCRIPTION - Indicates the reason why the Wi-Fi has been switched off. - The values of this type are used across the NME/SME/Router API's and they - must be kept consistent with the corresponding types in the .xml of the - ottherinterfaces - - VALUES - CSR_WIFI_SME_CONTROL_INDICATION_ERROR - - An unrecoverable error (for example, an unrecoverable SDIO - error) has occurred. - The wireless manager application should reinitialise the - chip by calling CSR_WIFI_SME_WIFI_ON_REQ. - CSR_WIFI_SME_CONTROL_INDICATION_EXIT - - The chip became unavailable due to an external action, for - example, when a plug-in card is ejected or the driver is - unloaded. - CSR_WIFI_SME_CONTROL_INDICATION_USER_REQUESTED - - The Wi-Fi has been switched off as the wireless manager - application has sent CSR_WIFI_SME_WIFI_OFF_REQ - -*******************************************************************************/ -typedef u8 CsrWifiSmeControlIndication; -#define CSR_WIFI_SME_CONTROL_INDICATION_ERROR ((CsrWifiSmeControlIndication) 0x01) -#define CSR_WIFI_SME_CONTROL_INDICATION_EXIT ((CsrWifiSmeControlIndication) 0x02) -#define CSR_WIFI_SME_CONTROL_INDICATION_USER_REQUESTED ((CsrWifiSmeControlIndication) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeCtsProtectionType - - DESCRIPTION - SME CTS Protection Types - - VALUES - CSR_WIFI_SME_CTS_PROTECTION_AUTOMATIC - - AP CTS Protection automatic based on non-ERP station in own - BSS or neighbouring BSS on the same channel based on OLBC. - This requires monitoring of beacons from other APs. - CSR_WIFI_SME_CTS_PROTECTION_FORCE_ENABLED - - AP CTS Protection Force enabled - CSR_WIFI_SME_CTS_PROTECTION_FORCE_DISABLED - - AP CTS Protection Force disabled. - CSR_WIFI_SME_CTS_PROTECTION_AUTOMATIC_NO_OLBC - - AP CTS Protection automatic without considering OLBC but - considering non-ERP station in the own BSS Valid only if AP - is configured to work in 802.11bg or 802.11g mode otherwise - this option specifies the same behaviour as AUTOMATIC - -*******************************************************************************/ -typedef u8 CsrWifiSmeCtsProtectionType; -#define CSR_WIFI_SME_CTS_PROTECTION_AUTOMATIC ((CsrWifiSmeCtsProtectionType) 0x00) -#define CSR_WIFI_SME_CTS_PROTECTION_FORCE_ENABLED ((CsrWifiSmeCtsProtectionType) 0x01) -#define CSR_WIFI_SME_CTS_PROTECTION_FORCE_DISABLED ((CsrWifiSmeCtsProtectionType) 0x02) -#define CSR_WIFI_SME_CTS_PROTECTION_AUTOMATIC_NO_OLBC ((CsrWifiSmeCtsProtectionType) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeD3AutoScanMode - - DESCRIPTION - Autonomous scan status while in D3 suspended period - - VALUES - CSR_WIFI_SME_D3AUTO_SCAN_MODE_PSON - - Autonomous scan stays on - CSR_WIFI_SME_D3AUTO_SCAN_MODE_PSOFF - - Autonomous scan is switched off - CSR_WIFI_SME_D3AUTO_SCAN_MODE_PSAUTO - - Automatically select autoscanning behaviour. - CURRENTLY NOT SUPPORTED - -*******************************************************************************/ -typedef u8 CsrWifiSmeD3AutoScanMode; -#define CSR_WIFI_SME_D3AUTO_SCAN_MODE_PSON ((CsrWifiSmeD3AutoScanMode) 0x00) -#define CSR_WIFI_SME_D3AUTO_SCAN_MODE_PSOFF ((CsrWifiSmeD3AutoScanMode) 0x01) -#define CSR_WIFI_SME_D3AUTO_SCAN_MODE_PSAUTO ((CsrWifiSmeD3AutoScanMode) 0x02) - -/******************************************************************************* - - NAME - CsrWifiSmeEncryption - - DESCRIPTION - Defines bits for CsrWifiSmeEncryption - For a WEP enabled network, the caller must specify the correct - combination of flags in the encryptionModeMask. - - VALUES - CSR_WIFI_SME_ENCRYPTION_CIPHER_NONE - - No encryption set - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_WEP40 - - Selects 40 byte key WEP for unicast communication - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_WEP104 - - Selects 104 byte key WEP for unicast communication - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_TKIP - - Selects TKIP for unicast communication - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_CCMP - - Selects CCMP for unicast communication - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_SMS4 - - Selects SMS4 for unicast communication - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP40 - - Selects 40 byte key WEP for broadcast messages - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP104 - - Selects 104 byte key WEP for broadcast messages - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_TKIP - - Selects a TKIP for broadcast messages - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_CCMP - - Selects CCMP for broadcast messages - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_SMS4 - - Selects SMS4 for broadcast messages - -*******************************************************************************/ -typedef u16 CsrWifiSmeEncryption; -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_NONE ((CsrWifiSmeEncryption) 0x0000) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_WEP40 ((CsrWifiSmeEncryption) 0x0001) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_WEP104 ((CsrWifiSmeEncryption) 0x0002) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_TKIP ((CsrWifiSmeEncryption) 0x0004) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_CCMP ((CsrWifiSmeEncryption) 0x0008) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_SMS4 ((CsrWifiSmeEncryption) 0x0010) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP40 ((CsrWifiSmeEncryption) 0x0020) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP104 ((CsrWifiSmeEncryption) 0x0040) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_TKIP ((CsrWifiSmeEncryption) 0x0080) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_CCMP ((CsrWifiSmeEncryption) 0x0100) -#define CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_SMS4 ((CsrWifiSmeEncryption) 0x0200) - -/******************************************************************************* - - NAME - CsrWifiSmeFirmwareDriverInterface - - DESCRIPTION - Type of communication between Host and Firmware - - VALUES - CSR_WIFI_SME_FIRMWARE_DRIVER_INTERFACE_UNIT_DATA_INTERFACE - - No preformated header. NOT SUPPORTED in the current release - CSR_WIFI_SME_FIRMWARE_DRIVER_INTERFACE_PACKET_INTERFACE - - Preformated IEEE 802.11 header for user plane - -*******************************************************************************/ -typedef u8 CsrWifiSmeFirmwareDriverInterface; -#define CSR_WIFI_SME_FIRMWARE_DRIVER_INTERFACE_UNIT_DATA_INTERFACE ((CsrWifiSmeFirmwareDriverInterface) 0x00) -#define CSR_WIFI_SME_FIRMWARE_DRIVER_INTERFACE_PACKET_INTERFACE ((CsrWifiSmeFirmwareDriverInterface) 0x01) - -/******************************************************************************* - - NAME - CsrWifiSmeHostPowerMode - - DESCRIPTION - Defines the power mode - - VALUES - CSR_WIFI_SME_HOST_POWER_MODE_ACTIVE - - Host device is running on external power. - CSR_WIFI_SME_HOST_POWER_MODE_POWER_SAVE - - Host device is running on (internal) battery power. - CSR_WIFI_SME_HOST_POWER_MODE_FULL_POWER_SAVE - - For future use. - -*******************************************************************************/ -typedef u8 CsrWifiSmeHostPowerMode; -#define CSR_WIFI_SME_HOST_POWER_MODE_ACTIVE ((CsrWifiSmeHostPowerMode) 0x00) -#define CSR_WIFI_SME_HOST_POWER_MODE_POWER_SAVE ((CsrWifiSmeHostPowerMode) 0x01) -#define CSR_WIFI_SME_HOST_POWER_MODE_FULL_POWER_SAVE ((CsrWifiSmeHostPowerMode) 0x02) - -/******************************************************************************* - - NAME - CsrWifiSmeIEEE80211Reason - - DESCRIPTION - As definined in the IEEE 802.11 standards - - VALUES - CSR_WIFI_SME_IEEE80211_REASON_SUCCESS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_UNSPECIFIED_REASON - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_AUTHENTICATION_NOT_VALID - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_DEAUTHENTICATED_LEAVE_BSS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_DISASSOCIATED_INACTIVITY - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_AP_OVERLOAD - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_CLASS_2FRAME_ERROR - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_CLASS_3FRAME_ERROR - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_DISASSOCIATED_LEAVE_BSS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_ASSOCIATION_NOT_AUTHENTICATED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_DISASSOCIATED_POWER_CAPABILITY - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_DISASSOCIATED_SUPPORTED_CHANNELS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INVALID_INFORMATION_ELEMENT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_MICHAEL_MIC_FAILURE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_FOURWAY_HANDSHAKE_TIMEOUT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_GROUP_KEY_UPDATE_TIMEOUT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_HANDSHAKE_ELEMENT_DIFFERENT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INVALID_GROUP_CIPHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INVALID_PAIRWISE_CIPHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INVALID_AKMP - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_UNSUPPORTED_RSN_IEVERSION - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INVALID_RSN_IECAPABILITIES - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_DOT1X_AUTH_FAILED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_CIPHER_REJECTED_BY_POLICY - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_SERVICE_CHANGE_PRECLUDES_TS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_QOS_UNSPECIFIED_REASON - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_QOS_INSUFFICIENT_BANDWIDTH - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_QOS_EXCESSIVE_NOT_ACK - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_QOS_TXOPLIMIT_EXCEEDED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_QSTA_LEAVING - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_END_TS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_END_DLS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_END_BA - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_UNKNOWN_TS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_UNKNOWN_BA - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_UNKNOWN_DLS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_TIMEOUT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_STAKEY_MISMATCH - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_UNICAST_KEY_NEGOTIATION_TIMEOUT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_MULTICAST_KEY_ANNOUNCEMENT_TIMEOUT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INCOMPATIBLE_UNICAST_KEY_NEGOTIATION_IE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INVALID_MULTICAST_CIPHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INVALID_UNICAST_CIPHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_UNSUPPORTED_WAPI_IE_VERSION - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_INVALID_WAPI_CAPABILITY_IE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_REASON_WAI_CERTIFICATE_AUTHENTICATION_FAILED - - See IEEE 802.11 Standard - -*******************************************************************************/ -typedef u16 CsrWifiSmeIEEE80211Reason; -#define CSR_WIFI_SME_IEEE80211_REASON_SUCCESS ((CsrWifiSmeIEEE80211Reason) 0x0000) -#define CSR_WIFI_SME_IEEE80211_REASON_UNSPECIFIED_REASON ((CsrWifiSmeIEEE80211Reason) 0x0001) -#define CSR_WIFI_SME_IEEE80211_REASON_AUTHENTICATION_NOT_VALID ((CsrWifiSmeIEEE80211Reason) 0x0002) -#define CSR_WIFI_SME_IEEE80211_REASON_DEAUTHENTICATED_LEAVE_BSS ((CsrWifiSmeIEEE80211Reason) 0x0003) -#define CSR_WIFI_SME_IEEE80211_REASON_DISASSOCIATED_INACTIVITY ((CsrWifiSmeIEEE80211Reason) 0x0004) -#define CSR_WIFI_SME_IEEE80211_REASON_AP_OVERLOAD ((CsrWifiSmeIEEE80211Reason) 0x0005) -#define CSR_WIFI_SME_IEEE80211_REASON_CLASS_2FRAME_ERROR ((CsrWifiSmeIEEE80211Reason) 0x0006) -#define CSR_WIFI_SME_IEEE80211_REASON_CLASS_3FRAME_ERROR ((CsrWifiSmeIEEE80211Reason) 0x0007) -#define CSR_WIFI_SME_IEEE80211_REASON_DISASSOCIATED_LEAVE_BSS ((CsrWifiSmeIEEE80211Reason) 0x0008) -#define CSR_WIFI_SME_IEEE80211_REASON_ASSOCIATION_NOT_AUTHENTICATED ((CsrWifiSmeIEEE80211Reason) 0x0009) -#define CSR_WIFI_SME_IEEE80211_REASON_DISASSOCIATED_POWER_CAPABILITY ((CsrWifiSmeIEEE80211Reason) 0x000a) -#define CSR_WIFI_SME_IEEE80211_REASON_DISASSOCIATED_SUPPORTED_CHANNELS ((CsrWifiSmeIEEE80211Reason) 0x000b) -#define CSR_WIFI_SME_IEEE80211_REASON_INVALID_INFORMATION_ELEMENT ((CsrWifiSmeIEEE80211Reason) 0x000d) -#define CSR_WIFI_SME_IEEE80211_REASON_MICHAEL_MIC_FAILURE ((CsrWifiSmeIEEE80211Reason) 0x000e) -#define CSR_WIFI_SME_IEEE80211_REASON_FOURWAY_HANDSHAKE_TIMEOUT ((CsrWifiSmeIEEE80211Reason) 0x000f) -#define CSR_WIFI_SME_IEEE80211_REASON_GROUP_KEY_UPDATE_TIMEOUT ((CsrWifiSmeIEEE80211Reason) 0x0010) -#define CSR_WIFI_SME_IEEE80211_REASON_HANDSHAKE_ELEMENT_DIFFERENT ((CsrWifiSmeIEEE80211Reason) 0x0011) -#define CSR_WIFI_SME_IEEE80211_REASON_INVALID_GROUP_CIPHER ((CsrWifiSmeIEEE80211Reason) 0x0012) -#define CSR_WIFI_SME_IEEE80211_REASON_INVALID_PAIRWISE_CIPHER ((CsrWifiSmeIEEE80211Reason) 0x0013) -#define CSR_WIFI_SME_IEEE80211_REASON_INVALID_AKMP ((CsrWifiSmeIEEE80211Reason) 0x0014) -#define CSR_WIFI_SME_IEEE80211_REASON_UNSUPPORTED_RSN_IEVERSION ((CsrWifiSmeIEEE80211Reason) 0x0015) -#define CSR_WIFI_SME_IEEE80211_REASON_INVALID_RSN_IECAPABILITIES ((CsrWifiSmeIEEE80211Reason) 0x0016) -#define CSR_WIFI_SME_IEEE80211_REASON_DOT1X_AUTH_FAILED ((CsrWifiSmeIEEE80211Reason) 0x0017) -#define CSR_WIFI_SME_IEEE80211_REASON_CIPHER_REJECTED_BY_POLICY ((CsrWifiSmeIEEE80211Reason) 0x0018) -#define CSR_WIFI_SME_IEEE80211_REASON_SERVICE_CHANGE_PRECLUDES_TS ((CsrWifiSmeIEEE80211Reason) 0x001F) -#define CSR_WIFI_SME_IEEE80211_REASON_QOS_UNSPECIFIED_REASON ((CsrWifiSmeIEEE80211Reason) 0x0020) -#define CSR_WIFI_SME_IEEE80211_REASON_QOS_INSUFFICIENT_BANDWIDTH ((CsrWifiSmeIEEE80211Reason) 0x0021) -#define CSR_WIFI_SME_IEEE80211_REASON_QOS_EXCESSIVE_NOT_ACK ((CsrWifiSmeIEEE80211Reason) 0x0022) -#define CSR_WIFI_SME_IEEE80211_REASON_QOS_TXOPLIMIT_EXCEEDED ((CsrWifiSmeIEEE80211Reason) 0x0023) -#define CSR_WIFI_SME_IEEE80211_REASON_QSTA_LEAVING ((CsrWifiSmeIEEE80211Reason) 0x0024) -#define CSR_WIFI_SME_IEEE80211_REASON_END_TS ((CsrWifiSmeIEEE80211Reason) 0x0025) -#define CSR_WIFI_SME_IEEE80211_REASON_END_DLS ((CsrWifiSmeIEEE80211Reason) 0x0025) -#define CSR_WIFI_SME_IEEE80211_REASON_END_BA ((CsrWifiSmeIEEE80211Reason) 0x0025) -#define CSR_WIFI_SME_IEEE80211_REASON_UNKNOWN_TS ((CsrWifiSmeIEEE80211Reason) 0x0026) -#define CSR_WIFI_SME_IEEE80211_REASON_UNKNOWN_BA ((CsrWifiSmeIEEE80211Reason) 0x0026) -#define CSR_WIFI_SME_IEEE80211_REASON_UNKNOWN_DLS ((CsrWifiSmeIEEE80211Reason) 0x0026) -#define CSR_WIFI_SME_IEEE80211_REASON_TIMEOUT ((CsrWifiSmeIEEE80211Reason) 0x0027) -#define CSR_WIFI_SME_IEEE80211_REASON_STAKEY_MISMATCH ((CsrWifiSmeIEEE80211Reason) 0x002d) -#define CSR_WIFI_SME_IEEE80211_REASON_UNICAST_KEY_NEGOTIATION_TIMEOUT ((CsrWifiSmeIEEE80211Reason) 0xf019) -#define CSR_WIFI_SME_IEEE80211_REASON_MULTICAST_KEY_ANNOUNCEMENT_TIMEOUT ((CsrWifiSmeIEEE80211Reason) 0xf01a) -#define CSR_WIFI_SME_IEEE80211_REASON_INCOMPATIBLE_UNICAST_KEY_NEGOTIATION_IE ((CsrWifiSmeIEEE80211Reason) 0xf01b) -#define CSR_WIFI_SME_IEEE80211_REASON_INVALID_MULTICAST_CIPHER ((CsrWifiSmeIEEE80211Reason) 0xf01c) -#define CSR_WIFI_SME_IEEE80211_REASON_INVALID_UNICAST_CIPHER ((CsrWifiSmeIEEE80211Reason) 0xf01d) -#define CSR_WIFI_SME_IEEE80211_REASON_UNSUPPORTED_WAPI_IE_VERSION ((CsrWifiSmeIEEE80211Reason) 0xf01e) -#define CSR_WIFI_SME_IEEE80211_REASON_INVALID_WAPI_CAPABILITY_IE ((CsrWifiSmeIEEE80211Reason) 0xf01f) -#define CSR_WIFI_SME_IEEE80211_REASON_WAI_CERTIFICATE_AUTHENTICATION_FAILED ((CsrWifiSmeIEEE80211Reason) 0xf020) - -/******************************************************************************* - - NAME - CsrWifiSmeIEEE80211Result - - DESCRIPTION - As definined in the IEEE 802.11 standards - - VALUES - CSR_WIFI_SME_IEEE80211_RESULT_SUCCESS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_UNSPECIFIED_FAILURE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_CAPABILITIES_MISMATCH - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REASSOCIATION_DENIED_NO_ASSOCIATION - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_EXTERNAL_REASON - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_AUTHENTICATION_MISMATCH - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_INVALID_AUTHENTICATION_SEQUENCE_NUMBER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_CHALLENGE_FAILURE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_AUTHENTICATION_TIMEOUT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_AP_OUT_OF_MEMORY - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_BASIC_RATES_MISMATCH - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_SHORT_PREAMBLE_REQUIRED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_PBCC_MODULATION_REQUIRED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_CHANNEL_AGILITY_REQUIRED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_SPECTRUM_MANAGEMENT_REQUIRED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_POWER_CAPABILITY_UNACCEPTABLE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_SUPPORTED_CHANNELS_UNACCEPTABLE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_SHORT_SLOT_REQUIRED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_DSSS_OFDMREQUIRED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_NO_HT_SUPPORT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_R0KH_UNREACHABLE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_PCO_TRANSITION_SUPPORT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_ASSOCIATION_REQUEST_REJECTED_TEMPORARILY - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_ROBUST_MANAGEMENT_FRAME_POLICY_VIOLATION - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_FAILURE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_AP_BANDWIDTH_INSUFFICIENT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_POOR_OPERATING_CHANNEL - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_QOS_REQUIRED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_REASON_UNSPECIFIED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_PARAMETERS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_WITH_SUGGESTED_TSPEC_CHANGES - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_IE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_GROUP_CIPHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_PAIRWISE_CIPHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_AKMP - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_UNSUPPORTED_RSN_VERSION - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_RSN_CAPABILITY - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_SECURITY_POLICY - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_FOR_DELAY_PERIOD - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_NOT_ALLOWED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_NOT_PRESENT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_NOT_QSTA - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_LISTEN_INTERVAL_TOO_LARGE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_FT_ACTION_FRAME_COUNT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_PMKID - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_MDIE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_FTIE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_UNSPECIFIED_QOS_FAILURE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_WRONG_POLICY - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INSUFFICIENT_BANDWIDTH - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_TSPEC_PARAMETERS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_TIMEOUT - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_TOO_MANY_SIMULTANEOUS_REQUESTS - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_BSS_ALREADY_STARTED_OR_JOINED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_NOT_SUPPORTED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_TRANSMISSION_FAILURE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_NOT_AUTHENTICATED - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_RESET_REQUIRED_BEFORE_START - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_LM_INFO_UNAVAILABLE - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_UNICAST_CIPHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_MULTICAST_CIPHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_UNSUPPORTED_WAPI_IE_VERSION - - See IEEE 802.11 Standard - CSR_WIFI_SME_IEEE80211_RESULT_INVALID_WAPI_CAPABILITY_IE - - See IEEE 802.11 Standard - -*******************************************************************************/ -typedef u16 CsrWifiSmeIEEE80211Result; -#define CSR_WIFI_SME_IEEE80211_RESULT_SUCCESS ((CsrWifiSmeIEEE80211Result) 0x0000) -#define CSR_WIFI_SME_IEEE80211_RESULT_UNSPECIFIED_FAILURE ((CsrWifiSmeIEEE80211Result) 0x0001) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_CAPABILITIES_MISMATCH ((CsrWifiSmeIEEE80211Result) 0x000a) -#define CSR_WIFI_SME_IEEE80211_RESULT_REASSOCIATION_DENIED_NO_ASSOCIATION ((CsrWifiSmeIEEE80211Result) 0x000b) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_EXTERNAL_REASON ((CsrWifiSmeIEEE80211Result) 0x000c) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_AUTHENTICATION_MISMATCH ((CsrWifiSmeIEEE80211Result) 0x000d) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_INVALID_AUTHENTICATION_SEQUENCE_NUMBER ((CsrWifiSmeIEEE80211Result) 0x000e) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_CHALLENGE_FAILURE ((CsrWifiSmeIEEE80211Result) 0x000f) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_AUTHENTICATION_TIMEOUT ((CsrWifiSmeIEEE80211Result) 0x0010) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_AP_OUT_OF_MEMORY ((CsrWifiSmeIEEE80211Result) 0x0011) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_BASIC_RATES_MISMATCH ((CsrWifiSmeIEEE80211Result) 0x0012) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_SHORT_PREAMBLE_REQUIRED ((CsrWifiSmeIEEE80211Result) 0x0013) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_PBCC_MODULATION_REQUIRED ((CsrWifiSmeIEEE80211Result) 0x0014) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_CHANNEL_AGILITY_REQUIRED ((CsrWifiSmeIEEE80211Result) 0x0015) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_SPECTRUM_MANAGEMENT_REQUIRED ((CsrWifiSmeIEEE80211Result) 0x0016) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_POWER_CAPABILITY_UNACCEPTABLE ((CsrWifiSmeIEEE80211Result) 0x0017) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_SUPPORTED_CHANNELS_UNACCEPTABLE ((CsrWifiSmeIEEE80211Result) 0x0018) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_SHORT_SLOT_REQUIRED ((CsrWifiSmeIEEE80211Result) 0x0019) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_DSSS_OFDMREQUIRED ((CsrWifiSmeIEEE80211Result) 0x001a) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_NO_HT_SUPPORT ((CsrWifiSmeIEEE80211Result) 0x001b) -#define CSR_WIFI_SME_IEEE80211_RESULT_R0KH_UNREACHABLE ((CsrWifiSmeIEEE80211Result) 0x001c) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_PCO_TRANSITION_SUPPORT ((CsrWifiSmeIEEE80211Result) 0x001d) -#define CSR_WIFI_SME_IEEE80211_RESULT_ASSOCIATION_REQUEST_REJECTED_TEMPORARILY ((CsrWifiSmeIEEE80211Result) 0x001e) -#define CSR_WIFI_SME_IEEE80211_RESULT_ROBUST_MANAGEMENT_FRAME_POLICY_VIOLATION ((CsrWifiSmeIEEE80211Result) 0x001f) -#define CSR_WIFI_SME_IEEE80211_RESULT_FAILURE ((CsrWifiSmeIEEE80211Result) 0x0020) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_AP_BANDWIDTH_INSUFFICIENT ((CsrWifiSmeIEEE80211Result) 0x0021) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_POOR_OPERATING_CHANNEL ((CsrWifiSmeIEEE80211Result) 0x0022) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_QOS_REQUIRED ((CsrWifiSmeIEEE80211Result) 0x0023) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_REASON_UNSPECIFIED ((CsrWifiSmeIEEE80211Result) 0x0025) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED ((CsrWifiSmeIEEE80211Result) 0x0025) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_PARAMETERS ((CsrWifiSmeIEEE80211Result) 0x0026) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_WITH_SUGGESTED_TSPEC_CHANGES ((CsrWifiSmeIEEE80211Result) 0x0027) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_IE ((CsrWifiSmeIEEE80211Result) 0x0028) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_GROUP_CIPHER ((CsrWifiSmeIEEE80211Result) 0x0029) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_PAIRWISE_CIPHER ((CsrWifiSmeIEEE80211Result) 0x002a) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_AKMP ((CsrWifiSmeIEEE80211Result) 0x002b) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_UNSUPPORTED_RSN_VERSION ((CsrWifiSmeIEEE80211Result) 0x002c) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_INVALID_RSN_CAPABILITY ((CsrWifiSmeIEEE80211Result) 0x002d) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_SECURITY_POLICY ((CsrWifiSmeIEEE80211Result) 0x002e) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_FOR_DELAY_PERIOD ((CsrWifiSmeIEEE80211Result) 0x002f) -#define CSR_WIFI_SME_IEEE80211_RESULT_NOT_ALLOWED ((CsrWifiSmeIEEE80211Result) 0x0030) -#define CSR_WIFI_SME_IEEE80211_RESULT_NOT_PRESENT ((CsrWifiSmeIEEE80211Result) 0x0031) -#define CSR_WIFI_SME_IEEE80211_RESULT_NOT_QSTA ((CsrWifiSmeIEEE80211Result) 0x0032) -#define CSR_WIFI_SME_IEEE80211_RESULT_REJECTED_LISTEN_INTERVAL_TOO_LARGE ((CsrWifiSmeIEEE80211Result) 0x0033) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_FT_ACTION_FRAME_COUNT ((CsrWifiSmeIEEE80211Result) 0x0034) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_PMKID ((CsrWifiSmeIEEE80211Result) 0x0035) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_MDIE ((CsrWifiSmeIEEE80211Result) 0x0036) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_FTIE ((CsrWifiSmeIEEE80211Result) 0x0037) -#define CSR_WIFI_SME_IEEE80211_RESULT_UNSPECIFIED_QOS_FAILURE ((CsrWifiSmeIEEE80211Result) 0x00c8) -#define CSR_WIFI_SME_IEEE80211_RESULT_WRONG_POLICY ((CsrWifiSmeIEEE80211Result) 0x00c9) -#define CSR_WIFI_SME_IEEE80211_RESULT_INSUFFICIENT_BANDWIDTH ((CsrWifiSmeIEEE80211Result) 0x00ca) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_TSPEC_PARAMETERS ((CsrWifiSmeIEEE80211Result) 0x00cb) -#define CSR_WIFI_SME_IEEE80211_RESULT_TIMEOUT ((CsrWifiSmeIEEE80211Result) 0x8000) -#define CSR_WIFI_SME_IEEE80211_RESULT_TOO_MANY_SIMULTANEOUS_REQUESTS ((CsrWifiSmeIEEE80211Result) 0x8001) -#define CSR_WIFI_SME_IEEE80211_RESULT_BSS_ALREADY_STARTED_OR_JOINED ((CsrWifiSmeIEEE80211Result) 0x8002) -#define CSR_WIFI_SME_IEEE80211_RESULT_NOT_SUPPORTED ((CsrWifiSmeIEEE80211Result) 0x8003) -#define CSR_WIFI_SME_IEEE80211_RESULT_TRANSMISSION_FAILURE ((CsrWifiSmeIEEE80211Result) 0x8004) -#define CSR_WIFI_SME_IEEE80211_RESULT_REFUSED_NOT_AUTHENTICATED ((CsrWifiSmeIEEE80211Result) 0x8005) -#define CSR_WIFI_SME_IEEE80211_RESULT_RESET_REQUIRED_BEFORE_START ((CsrWifiSmeIEEE80211Result) 0x8006) -#define CSR_WIFI_SME_IEEE80211_RESULT_LM_INFO_UNAVAILABLE ((CsrWifiSmeIEEE80211Result) 0x8007) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_UNICAST_CIPHER ((CsrWifiSmeIEEE80211Result) 0xf02f) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_MULTICAST_CIPHER ((CsrWifiSmeIEEE80211Result) 0xf030) -#define CSR_WIFI_SME_IEEE80211_RESULT_UNSUPPORTED_WAPI_IE_VERSION ((CsrWifiSmeIEEE80211Result) 0xf031) -#define CSR_WIFI_SME_IEEE80211_RESULT_INVALID_WAPI_CAPABILITY_IE ((CsrWifiSmeIEEE80211Result) 0xf032) - -/******************************************************************************* - - NAME - CsrWifiSmeIndications - - DESCRIPTION - Defines bits for CsrWifiSmeIndicationsMask - - VALUES - CSR_WIFI_SME_INDICATIONS_NONE - - Used to cancel the registrations for receiving indications - CSR_WIFI_SME_INDICATIONS_WIFIOFF - - Used to register for CSR_WIFI_SME_WIFI_OFF_IND events - CSR_WIFI_SME_INDICATIONS_SCANRESULT - - Used to register for CSR_WIFI_SME_SCAN_RESULT_IND events - CSR_WIFI_SME_INDICATIONS_CONNECTIONQUALITY - - Used to register for CSR_WIFI_SME_CONNECTION_QUALITY_IND - events - CSR_WIFI_SME_INDICATIONS_MEDIASTATUS - - Used to register for CSR_WIFI_SME_MEDIA_STATUS_IND events - CSR_WIFI_SME_INDICATIONS_MICFAILURE - - Used to register for CSR_WIFI_SME_MICFAILURE_IND events - CSR_WIFI_SME_INDICATIONS_PMKIDCANDIDATELIST - - Used to register for CSR_WIFI_SME_PMKIDCANDIDATE_LIST_IND - events - CSR_WIFI_SME_INDICATIONS_TSPEC - - Used to register for CSR_WIFI_SME_TSPEC_IND events - CSR_WIFI_SME_INDICATIONS_ROAMSTART - - Used to register for CSR_WIFI_SME_ROAM_START_IND events - CSR_WIFI_SME_INDICATIONS_ROAMCOMPLETE - - Used to register for CSR_WIFI_SME_ROAM_COMPLETE_IND events - CSR_WIFI_SME_INDICATIONS_ASSOCIATIONSTART - - Used to register for CSR_WIFI_SME_ASSOCIATION_START_IND - events - CSR_WIFI_SME_INDICATIONS_ASSOCIATIONCOMPLETE - - Used to register for CSR_WIFI_SME_ASSOCIATION_COMPLETE_IND - events - CSR_WIFI_SME_INDICATIONS_IBSSSTATION - - Used to register for CSR_WIFI_SME_IBSS_STATION_IND events - CSR_WIFI_SME_INDICATIONS_WIFION - - Used to register for CSR_WIFI_SME_WIFI_ON_IND events - CSR_WIFI_SME_INDICATIONS_ERROR - - Used to register for CSR_WIFI_SME_ERROR_IND events - CSR_WIFI_SME_INDICATIONS_INFO - - Used to register for CSR_WIFI_SME_INFO_IND events - CSR_WIFI_SME_INDICATIONS_COREDUMP - - Used to register for CSR_WIFI_SME_CORE_DUMP_IND events - CSR_WIFI_SME_INDICATIONS_ALL - - Used to register for all available indications - -*******************************************************************************/ -typedef u32 CsrWifiSmeIndications; -#define CSR_WIFI_SME_INDICATIONS_NONE ((CsrWifiSmeIndications) 0x00000000) -#define CSR_WIFI_SME_INDICATIONS_WIFIOFF ((CsrWifiSmeIndications) 0x00000001) -#define CSR_WIFI_SME_INDICATIONS_SCANRESULT ((CsrWifiSmeIndications) 0x00000002) -#define CSR_WIFI_SME_INDICATIONS_CONNECTIONQUALITY ((CsrWifiSmeIndications) 0x00000004) -#define CSR_WIFI_SME_INDICATIONS_MEDIASTATUS ((CsrWifiSmeIndications) 0x00000008) -#define CSR_WIFI_SME_INDICATIONS_MICFAILURE ((CsrWifiSmeIndications) 0x00000010) -#define CSR_WIFI_SME_INDICATIONS_PMKIDCANDIDATELIST ((CsrWifiSmeIndications) 0x00000020) -#define CSR_WIFI_SME_INDICATIONS_TSPEC ((CsrWifiSmeIndications) 0x00000040) -#define CSR_WIFI_SME_INDICATIONS_ROAMSTART ((CsrWifiSmeIndications) 0x00000080) -#define CSR_WIFI_SME_INDICATIONS_ROAMCOMPLETE ((CsrWifiSmeIndications) 0x00000100) -#define CSR_WIFI_SME_INDICATIONS_ASSOCIATIONSTART ((CsrWifiSmeIndications) 0x00000200) -#define CSR_WIFI_SME_INDICATIONS_ASSOCIATIONCOMPLETE ((CsrWifiSmeIndications) 0x00000400) -#define CSR_WIFI_SME_INDICATIONS_IBSSSTATION ((CsrWifiSmeIndications) 0x00000800) -#define CSR_WIFI_SME_INDICATIONS_WIFION ((CsrWifiSmeIndications) 0x00001000) -#define CSR_WIFI_SME_INDICATIONS_ERROR ((CsrWifiSmeIndications) 0x00002000) -#define CSR_WIFI_SME_INDICATIONS_INFO ((CsrWifiSmeIndications) 0x00004000) -#define CSR_WIFI_SME_INDICATIONS_COREDUMP ((CsrWifiSmeIndications) 0x00008000) -#define CSR_WIFI_SME_INDICATIONS_ALL ((CsrWifiSmeIndications) 0xFFFFFFFF) - -/******************************************************************************* - - NAME - CsrWifiSmeKeyType - - DESCRIPTION - Indicates the type of the key - - VALUES - CSR_WIFI_SME_KEY_TYPE_GROUP - Key for broadcast communication - CSR_WIFI_SME_KEY_TYPE_PAIRWISE - Key for unicast communication - CSR_WIFI_SME_KEY_TYPE_STAKEY - Key for direct link communication to - another station in infrastructure networks - CSR_WIFI_SME_KEY_TYPE_IGTK - Integrity Group Temporal Key - CSR_WIFI_SME_KEY_TYPE_CCKM - Key for Cisco Centralized Key Management - -*******************************************************************************/ -typedef u8 CsrWifiSmeKeyType; -#define CSR_WIFI_SME_KEY_TYPE_GROUP ((CsrWifiSmeKeyType) 0x00) -#define CSR_WIFI_SME_KEY_TYPE_PAIRWISE ((CsrWifiSmeKeyType) 0x01) -#define CSR_WIFI_SME_KEY_TYPE_STAKEY ((CsrWifiSmeKeyType) 0x02) -#define CSR_WIFI_SME_KEY_TYPE_IGTK ((CsrWifiSmeKeyType) 0x03) -#define CSR_WIFI_SME_KEY_TYPE_CCKM ((CsrWifiSmeKeyType) 0x04) - -/******************************************************************************* - - NAME - CsrWifiSmeListAction - - DESCRIPTION - Identifies the type of action to be performed on a list of items - The values of this type are used across the NME/SME/Router API's and they - must be kept consistent with the corresponding types in the .xml of the - ottherinterfaces - - VALUES - CSR_WIFI_SME_LIST_ACTION_GET - Retrieve the current list of items - CSR_WIFI_SME_LIST_ACTION_ADD - Add one or more items - CSR_WIFI_SME_LIST_ACTION_REMOVE - Remove one or more items - CSR_WIFI_SME_LIST_ACTION_FLUSH - Remove all items - -*******************************************************************************/ -typedef u8 CsrWifiSmeListAction; -#define CSR_WIFI_SME_LIST_ACTION_GET ((CsrWifiSmeListAction) 0x00) -#define CSR_WIFI_SME_LIST_ACTION_ADD ((CsrWifiSmeListAction) 0x01) -#define CSR_WIFI_SME_LIST_ACTION_REMOVE ((CsrWifiSmeListAction) 0x02) -#define CSR_WIFI_SME_LIST_ACTION_FLUSH ((CsrWifiSmeListAction) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeMediaStatus - - DESCRIPTION - Indicates the connection status - The values of this type are used across the NME/SME/Router API's and they - must be kept consistent with the corresponding types in the .xml of the - ottherinterfaces - - VALUES - CSR_WIFI_SME_MEDIA_STATUS_CONNECTED - - Value CSR_WIFI_SME_MEDIA_STATUS_CONNECTED can happen in two - situations: - * A network connection is established. Specifically, this is - when the MLME_ASSOCIATION completes or the first peer - relationship is established in an IBSS. In a WPA/WPA2 - network, this indicates that the stack is ready to perform - the 4-way handshake or 802.1x authentication if CSR NME - security library is not used. If CSR NME security library - is used this indicates, completion of 4way handshake or - 802.1x authentication - * The SME roams to another AP on the same ESS - During the AP operation, it indicates that the peer station - is connected to the AP and is ready for data transfer. - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED - - Value CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED can happen in - two situations: - * when the connection to a network is lost and there is no - alternative on the same ESS to roam to - * when a CSR_WIFI_SME_DISCONNECT_REQ request is issued - During AP or P2PGO operation, it indicates that the peer - station has disconnected from the AP - -*******************************************************************************/ -typedef u8 CsrWifiSmeMediaStatus; -#define CSR_WIFI_SME_MEDIA_STATUS_CONNECTED ((CsrWifiSmeMediaStatus) 0x00) -#define CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED ((CsrWifiSmeMediaStatus) 0x01) - -/******************************************************************************* - - NAME - CsrWifiSmeP2pCapability - - DESCRIPTION - Defines P2P Device Capabilities - - VALUES - CSR_WIFI_SME_P2P_SERVICE_DISCOVERY_CAPABILITY - - This field is set to 1 if the P2P Device supports Service - Discovery, and to 0 otherwise - CSR_WIFI_SME_P2P_CLIENT_DISCOVERABILITY_CAPABILITY - - This field is set to 1 when the P2P Device supports P2P - Client Discoverability, and to 0 otherwise. - CSR_WIFI_SME_P2P_CONCURRENT_OPERATION_CAPABILITY - - This field is set to 1 when the P2P Device supports - Concurrent Operation with WLAN, and to 0 otherwise. - CSR_WIFI_SME_P2P_MANAGED_DEVICE_CAPABILITY - - This field is set to 1 when the P2P interface of the P2P - Device is capable of being managed by the WLAN - (infrastructure network) based on P2P coexistence - parameters, and to 0 otherwise - CSR_WIFI_SME_P2P_INVITAION_CAPABILITY - - This field is set to 1 if the P2P Device is capable of - processing P2P Invitation Procedure signaling, and to 0 - otherwise. - -*******************************************************************************/ -typedef u8 CsrWifiSmeP2pCapability; -#define CSR_WIFI_SME_P2P_SERVICE_DISCOVERY_CAPABILITY ((CsrWifiSmeP2pCapability) 0x01) -#define CSR_WIFI_SME_P2P_CLIENT_DISCOVERABILITY_CAPABILITY ((CsrWifiSmeP2pCapability) 0x02) -#define CSR_WIFI_SME_P2P_CONCURRENT_OPERATION_CAPABILITY ((CsrWifiSmeP2pCapability) 0x04) -#define CSR_WIFI_SME_P2P_MANAGED_DEVICE_CAPABILITY ((CsrWifiSmeP2pCapability) 0x08) -#define CSR_WIFI_SME_P2P_INVITAION_CAPABILITY ((CsrWifiSmeP2pCapability) 0x20) - -/******************************************************************************* - - NAME - CsrWifiSmeP2pGroupCapability - - DESCRIPTION - Define bits for P2P Group Capability - - VALUES - CSR_WIFI_P2P_GRP_CAP_GO - - Indicates if the local device has become a GO after GO - negotiation - CSR_WIFI_P2P_GRP_CAP_PERSISTENT - - Persistent group - CSR_WIFI_P2P_GRP_CAP_INTRABSS_DIST - - Intra-BSS data distribution support - CSR_WIFI_P2P_GRP_CAP_CROSS_CONN - - Support of cross connection - CSR_WIFI_P2P_GRP_CAP_PERSISTENT_RECONNECT - - Support of persistent reconnect - -*******************************************************************************/ -typedef u8 CsrWifiSmeP2pGroupCapability; -#define CSR_WIFI_P2P_GRP_CAP_GO ((CsrWifiSmeP2pGroupCapability) 0x01) -#define CSR_WIFI_P2P_GRP_CAP_PERSISTENT ((CsrWifiSmeP2pGroupCapability) 0x02) -#define CSR_WIFI_P2P_GRP_CAP_INTRABSS_DIST ((CsrWifiSmeP2pGroupCapability) 0x08) -#define CSR_WIFI_P2P_GRP_CAP_CROSS_CONN ((CsrWifiSmeP2pGroupCapability) 0x10) -#define CSR_WIFI_P2P_GRP_CAP_PERSISTENT_RECONNECT ((CsrWifiSmeP2pGroupCapability) 0x20) - -/******************************************************************************* - - NAME - CsrWifiSmeP2pNoaConfigMethod - - DESCRIPTION - Notice of Absece Configuration - - VALUES - CSR_WIFI_P2P_NOA_NONE - Do not use NOA - CSR_WIFI_P2P_NOA_AUTONOMOUS - NOA based on the traffic analysis - CSR_WIFI_P2P_NOA_USER_DEFINED - NOA as specified by the user - -*******************************************************************************/ -typedef u8 CsrWifiSmeP2pNoaConfigMethod; -#define CSR_WIFI_P2P_NOA_NONE ((CsrWifiSmeP2pNoaConfigMethod) 0x00) -#define CSR_WIFI_P2P_NOA_AUTONOMOUS ((CsrWifiSmeP2pNoaConfigMethod) 0x01) -#define CSR_WIFI_P2P_NOA_USER_DEFINED ((CsrWifiSmeP2pNoaConfigMethod) 0x02) - -/******************************************************************************* - - NAME - CsrWifiSmeP2pRole - - DESCRIPTION - Definition of roles for a P2P Device - - VALUES - CSR_WIFI_SME_P2P_ROLE_NONE - A non-P2PDevice device - CSR_WIFI_SME_P2P_ROLE_STANDALONE - A Standalone P2P device - CSR_WIFI_SME_P2P_ROLE_GO - Role Assumed is that of a Group Owner - within a P2P Group - CSR_WIFI_SME_P2P_ROLE_CLI - Role Assumed is that of a P2P Client - within a P2P Group - -*******************************************************************************/ -typedef u8 CsrWifiSmeP2pRole; -#define CSR_WIFI_SME_P2P_ROLE_NONE ((CsrWifiSmeP2pRole) 0x00) -#define CSR_WIFI_SME_P2P_ROLE_STANDALONE ((CsrWifiSmeP2pRole) 0x01) -#define CSR_WIFI_SME_P2P_ROLE_GO ((CsrWifiSmeP2pRole) 0x02) -#define CSR_WIFI_SME_P2P_ROLE_CLI ((CsrWifiSmeP2pRole) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeP2pStatus - - DESCRIPTION - This data type enumerates the outcome of P2P procedure - - VALUES - CSR_WIFI_SME_P2P_STATUS_SUCCESS - - Success - CSR_WIFI_SME_P2P_STATUS_FAIL_INFO_UNAVAILABLE - - Fail; information is currently unavailable - CSR_WIFI_SME_P2P_STATUS_FAIL_INCOMPATIBLE_PARAM - - Fail; incompatible parameters - CSR_WIFI_SME_P2P_STATUS_FAIL_LIMIT_REACHED - - Fail; limit reached - CSR_WIFI_SME_P2P_STATUS_FAIL_INVALID_PARAM - - Fail; invalid parameters - CSR_WIFI_SME_P2P_STATUS_FAIL_ACCOMODATE - - Fail; unable to accommodate request - CSR_WIFI_SME_P2P_STATUS_FAIL_PREV_ERROR - - Fail; previous protocol error, or disruptive behavior - CSR_WIFI_SME_P2P_STATUS_FAIL_COMMON_CHANNELS - - Fail; no common channels - CSR_WIFI_SME_P2P_STATUS_FAIL_UNKNOWN_GROUP - - Fail; unknown P2P Group - CSR_WIFI_SME_P2P_STATUS_FAIL_GO_INTENT - - Fail: both P2P Devices indicated an Intent of 15 in Group - Owner Negotiation - CSR_WIFI_SME_P2P_STATUS_FAIL_PROVISION_METHOD_INCOMPATIBLE - - Fail; incompatible provisioning method - CSR_WIFI_SME_P2P_STATUS_FAIL_REJECT - - Fail: rejected by user - CSR_WIFI_SME_P2P_STATUS_FAIL_RESERVED - - Fail; Status Reserved - -*******************************************************************************/ -typedef u8 CsrWifiSmeP2pStatus; -#define CSR_WIFI_SME_P2P_STATUS_SUCCESS ((CsrWifiSmeP2pStatus) 0x00) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_INFO_UNAVAILABLE ((CsrWifiSmeP2pStatus) 0x01) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_INCOMPATIBLE_PARAM ((CsrWifiSmeP2pStatus) 0x02) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_LIMIT_REACHED ((CsrWifiSmeP2pStatus) 0x03) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_INVALID_PARAM ((CsrWifiSmeP2pStatus) 0x04) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_ACCOMODATE ((CsrWifiSmeP2pStatus) 0x05) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_PREV_ERROR ((CsrWifiSmeP2pStatus) 0x06) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_COMMON_CHANNELS ((CsrWifiSmeP2pStatus) 0x07) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_UNKNOWN_GROUP ((CsrWifiSmeP2pStatus) 0x08) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_GO_INTENT ((CsrWifiSmeP2pStatus) 0x09) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_PROVISION_METHOD_INCOMPATIBLE ((CsrWifiSmeP2pStatus) 0x0A) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_REJECT ((CsrWifiSmeP2pStatus) 0x0B) -#define CSR_WIFI_SME_P2P_STATUS_FAIL_RESERVED ((CsrWifiSmeP2pStatus) 0xFF) - -/******************************************************************************* - - NAME - CsrWifiSmePacketFilterMode - - DESCRIPTION - Options for the filter mode parameter. - The Values here match the HIP interface - - VALUES - CSR_WIFI_SME_PACKET_FILTER_MODE_OPT_OUT - - Broadcast packets are always reported to the host unless - they match at least one of the specified TCLAS IEs. - CSR_WIFI_SME_PACKET_FILTER_MODE_OPT_IN - - Broadcast packets are reported to the host only if they - match at least one of the specified TCLAS IEs. - -*******************************************************************************/ -typedef u8 CsrWifiSmePacketFilterMode; -#define CSR_WIFI_SME_PACKET_FILTER_MODE_OPT_OUT ((CsrWifiSmePacketFilterMode) 0x00) -#define CSR_WIFI_SME_PACKET_FILTER_MODE_OPT_IN ((CsrWifiSmePacketFilterMode) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmePowerSaveLevel - - DESCRIPTION - Power Save Level options as defined in the IEEE 802.11 standards - First 3 values are set to match the mlme PowerManagementMode - - VALUES - CSR_WIFI_SME_POWER_SAVE_LEVEL_LOW - No power save: the driver will remain - active at all times - CSR_WIFI_SME_POWER_SAVE_LEVEL_HIGH - Enter power save after all packets in - the queues are transmitted and received - CSR_WIFI_SME_POWER_SAVE_LEVEL_MED - Enter power save after all packets in - the queues are transmitted and received - and a further configurable delay - (default 1s) has elapsed - CSR_WIFI_SME_POWER_SAVE_LEVEL_AUTO - The SME will decide when to enter power - save mode according to the traffic - analysis - -*******************************************************************************/ -typedef u8 CsrWifiSmePowerSaveLevel; -#define CSR_WIFI_SME_POWER_SAVE_LEVEL_LOW ((CsrWifiSmePowerSaveLevel) 0x00) -#define CSR_WIFI_SME_POWER_SAVE_LEVEL_HIGH ((CsrWifiSmePowerSaveLevel) 0x01) -#define CSR_WIFI_SME_POWER_SAVE_LEVEL_MED ((CsrWifiSmePowerSaveLevel) 0x02) -#define CSR_WIFI_SME_POWER_SAVE_LEVEL_AUTO ((CsrWifiSmePowerSaveLevel) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmePreambleType - - DESCRIPTION - SME Preamble Types - - VALUES - CSR_WIFI_SME_USE_LONG_PREAMBLE - Use legacy (long) preamble - CSR_WIFI_SME_USE_SHORT_PREAMBLE - Use short PPDU format - -*******************************************************************************/ -typedef u8 CsrWifiSmePreambleType; -#define CSR_WIFI_SME_USE_LONG_PREAMBLE ((CsrWifiSmePreambleType) 0x00) -#define CSR_WIFI_SME_USE_SHORT_PREAMBLE ((CsrWifiSmePreambleType) 0x01) - -/******************************************************************************* - - NAME - CsrWifiSmeRadioIF - - DESCRIPTION - Indicates the frequency - - VALUES - CSR_WIFI_SME_RADIO_IF_GHZ_2_4 - Indicates the 2.4 GHZ frequency - CSR_WIFI_SME_RADIO_IF_GHZ_5_0 - Future use: currently not supported - CSR_WIFI_SME_RADIO_IF_BOTH - Future use: currently not supported - -*******************************************************************************/ -typedef u8 CsrWifiSmeRadioIF; -#define CSR_WIFI_SME_RADIO_IF_GHZ_2_4 ((CsrWifiSmeRadioIF) 0x01) -#define CSR_WIFI_SME_RADIO_IF_GHZ_5_0 ((CsrWifiSmeRadioIF) 0x02) -#define CSR_WIFI_SME_RADIO_IF_BOTH ((CsrWifiSmeRadioIF) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeRegulatoryDomain - - DESCRIPTION - Indicates the regulatory domain as defined in IEEE 802.11 standards - - VALUES - CSR_WIFI_SME_REGULATORY_DOMAIN_OTHER - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_FCC - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_IC - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_ETSI - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_SPAIN - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_FRANCE - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_JAPAN - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_JAPANBIS - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_CHINA - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_CHINABIS - - See IEEE 802.11 Standard - CSR_WIFI_SME_REGULATORY_DOMAIN_NONE - - See IEEE 802.11 Standard - -*******************************************************************************/ -typedef u8 CsrWifiSmeRegulatoryDomain; -#define CSR_WIFI_SME_REGULATORY_DOMAIN_OTHER ((CsrWifiSmeRegulatoryDomain) 0x00) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_FCC ((CsrWifiSmeRegulatoryDomain) 0x10) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_IC ((CsrWifiSmeRegulatoryDomain) 0x20) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_ETSI ((CsrWifiSmeRegulatoryDomain) 0x30) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_SPAIN ((CsrWifiSmeRegulatoryDomain) 0x31) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_FRANCE ((CsrWifiSmeRegulatoryDomain) 0x32) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_JAPAN ((CsrWifiSmeRegulatoryDomain) 0x40) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_JAPANBIS ((CsrWifiSmeRegulatoryDomain) 0x41) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_CHINA ((CsrWifiSmeRegulatoryDomain) 0x50) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_CHINABIS ((CsrWifiSmeRegulatoryDomain) 0x51) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_NONE ((CsrWifiSmeRegulatoryDomain) 0xFF) - -/******************************************************************************* - - NAME - CsrWifiSmeRoamReason - - DESCRIPTION - Indicates the reason for roaming - - VALUES - CSR_WIFI_SME_ROAM_REASON_BEACONLOST - - The station cannot receive the beacon signal any more - CSR_WIFI_SME_ROAM_REASON_DISASSOCIATED - - The station has been disassociated - CSR_WIFI_SME_ROAM_REASON_DEAUTHENTICATED - - The station has been deauthenticated - CSR_WIFI_SME_ROAM_REASON_BETTERAPFOUND - - A better AP has been found - -*******************************************************************************/ -typedef u8 CsrWifiSmeRoamReason; -#define CSR_WIFI_SME_ROAM_REASON_BEACONLOST ((CsrWifiSmeRoamReason) 0x00) -#define CSR_WIFI_SME_ROAM_REASON_DISASSOCIATED ((CsrWifiSmeRoamReason) 0x01) -#define CSR_WIFI_SME_ROAM_REASON_DEAUTHENTICATED ((CsrWifiSmeRoamReason) 0x02) -#define CSR_WIFI_SME_ROAM_REASON_BETTERAPFOUND ((CsrWifiSmeRoamReason) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeScanType - - DESCRIPTION - Identifies the type of scan to be performed - - VALUES - CSR_WIFI_SME_SCAN_TYPE_ALL - Scan actively or passively according to the - regulatory domain restrictions - CSR_WIFI_SME_SCAN_TYPE_ACTIVE - Scan actively only: send probes and listen - for answers - CSR_WIFI_SME_SCAN_TYPE_PASSIVE - Scan passively only: listen for beacon - messages - -*******************************************************************************/ -typedef u8 CsrWifiSmeScanType; -#define CSR_WIFI_SME_SCAN_TYPE_ALL ((CsrWifiSmeScanType) 0x00) -#define CSR_WIFI_SME_SCAN_TYPE_ACTIVE ((CsrWifiSmeScanType) 0x01) -#define CSR_WIFI_SME_SCAN_TYPE_PASSIVE ((CsrWifiSmeScanType) 0x02) - -/******************************************************************************* - - NAME - CsrWifiSmeTrafficType - - DESCRIPTION - Identifies the type of traffic going on on the connection. - The values of this type are used across the NME/SME/Router API's and they - must be kept consistent with the corresponding types in the .xml of the - ottherinterfaces - - VALUES - CSR_WIFI_SME_TRAFFIC_TYPE_OCCASIONAL - - During the last 30 seconds there were fewer than 20 packets - per seconds in each second in both directions - CSR_WIFI_SME_TRAFFIC_TYPE_BURSTY - - During the last 30 seconds there was at least one second - during which more than 20 packets were received in either - direction - CSR_WIFI_SME_TRAFFIC_TYPE_PERIODIC - - During the last 5 seconds there were at least 10 packets - received each second and a defined period for the traffic - can be recognized - CSR_WIFI_SME_TRAFFIC_TYPE_CONTINUOUS - - During the last 5 seconds there were at least 20 packets - received each second in either direction - -*******************************************************************************/ -typedef u8 CsrWifiSmeTrafficType; -#define CSR_WIFI_SME_TRAFFIC_TYPE_OCCASIONAL ((CsrWifiSmeTrafficType) 0x00) -#define CSR_WIFI_SME_TRAFFIC_TYPE_BURSTY ((CsrWifiSmeTrafficType) 0x01) -#define CSR_WIFI_SME_TRAFFIC_TYPE_PERIODIC ((CsrWifiSmeTrafficType) 0x02) -#define CSR_WIFI_SME_TRAFFIC_TYPE_CONTINUOUS ((CsrWifiSmeTrafficType) 0x03) - -/******************************************************************************* - - NAME - CsrWifiSmeTspecCtrl - - DESCRIPTION - Defines bits for CsrWifiSmeTspecCtrlMask for additional CCX configuration. - CURRENTLY NOT SUPPORTED. - - VALUES - CSR_WIFI_SME_TSPEC_CTRL_STRICT - - No automatic negotiation - CSR_WIFI_SME_TSPEC_CTRL_CCX_SIGNALLING - - Signalling TSPEC - CSR_WIFI_SME_TSPEC_CTRL_CCX_VOICE - - Voice traffic TSPEC - -*******************************************************************************/ -typedef u8 CsrWifiSmeTspecCtrl; -#define CSR_WIFI_SME_TSPEC_CTRL_STRICT ((CsrWifiSmeTspecCtrl) 0x01) -#define CSR_WIFI_SME_TSPEC_CTRL_CCX_SIGNALLING ((CsrWifiSmeTspecCtrl) 0x02) -#define CSR_WIFI_SME_TSPEC_CTRL_CCX_VOICE ((CsrWifiSmeTspecCtrl) 0x04) - -/******************************************************************************* - - NAME - CsrWifiSmeTspecResultCode - - DESCRIPTION - Defines the result of the TSPEC exchanges with the AP - - VALUES - CSR_WIFI_SME_TSPEC_RESULT_SUCCESS - - TSPEC command has been processed correctly - CSR_WIFI_SME_TSPEC_RESULT_UNSPECIFIED_QOS_FAILURE - - The Access Point reported a failure - CSR_WIFI_SME_TSPEC_RESULT_FAILURE - - Internal failure in the SME - CSR_WIFI_SME_TSPEC_RESULT_INVALID_TSPEC_PARAMETERS - - The TSPEC parameters are invalid - CSR_WIFI_SME_TSPEC_RESULT_INVALID_TCLAS_PARAMETERS - - The TCLASS parameters are invalid - CSR_WIFI_SME_TSPEC_RESULT_INSUFFICIENT_BANDWIDTH - - As specified by the WMM Spec - CSR_WIFI_SME_TSPEC_RESULT_WRONG_POLICY - - As specified by the WMM Spec - CSR_WIFI_SME_TSPEC_RESULT_REJECTED_WITH_SUGGESTED_CHANGES - - As specified by the WMM Spec - CSR_WIFI_SME_TSPEC_RESULT_TIMEOUT - - The TSPEC negotiation timed out - CSR_WIFI_SME_TSPEC_RESULT_NOT_SUPPORTED - - The Access Point does not support the TSPEC - CSR_WIFI_SME_TSPEC_RESULT_IE_LENGTH_INCORRECT - - The length of the TSPEC is not correct - CSR_WIFI_SME_TSPEC_RESULT_INVALID_TRANSACTION_ID - - The TSPEC transaction id is not in the list - CSR_WIFI_SME_TSPEC_RESULT_INSTALLED - - The TSPEC has been installed and it is now active. - CSR_WIFI_SME_TSPEC_RESULT_TID_ALREADY_INSTALLED - - The Traffic ID has already been installed - CSR_WIFI_SME_TSPEC_RESULT_TSPEC_REMOTELY_DELETED - - The AP has deleted the TSPEC - -*******************************************************************************/ -typedef u8 CsrWifiSmeTspecResultCode; -#define CSR_WIFI_SME_TSPEC_RESULT_SUCCESS ((CsrWifiSmeTspecResultCode) 0x00) -#define CSR_WIFI_SME_TSPEC_RESULT_UNSPECIFIED_QOS_FAILURE ((CsrWifiSmeTspecResultCode) 0x01) -#define CSR_WIFI_SME_TSPEC_RESULT_FAILURE ((CsrWifiSmeTspecResultCode) 0x02) -#define CSR_WIFI_SME_TSPEC_RESULT_INVALID_TSPEC_PARAMETERS ((CsrWifiSmeTspecResultCode) 0x05) -#define CSR_WIFI_SME_TSPEC_RESULT_INVALID_TCLAS_PARAMETERS ((CsrWifiSmeTspecResultCode) 0x06) -#define CSR_WIFI_SME_TSPEC_RESULT_INSUFFICIENT_BANDWIDTH ((CsrWifiSmeTspecResultCode) 0x07) -#define CSR_WIFI_SME_TSPEC_RESULT_WRONG_POLICY ((CsrWifiSmeTspecResultCode) 0x08) -#define CSR_WIFI_SME_TSPEC_RESULT_REJECTED_WITH_SUGGESTED_CHANGES ((CsrWifiSmeTspecResultCode) 0x09) -#define CSR_WIFI_SME_TSPEC_RESULT_TIMEOUT ((CsrWifiSmeTspecResultCode) 0x0D) -#define CSR_WIFI_SME_TSPEC_RESULT_NOT_SUPPORTED ((CsrWifiSmeTspecResultCode) 0x0E) -#define CSR_WIFI_SME_TSPEC_RESULT_IE_LENGTH_INCORRECT ((CsrWifiSmeTspecResultCode) 0x10) -#define CSR_WIFI_SME_TSPEC_RESULT_INVALID_TRANSACTION_ID ((CsrWifiSmeTspecResultCode) 0x11) -#define CSR_WIFI_SME_TSPEC_RESULT_INSTALLED ((CsrWifiSmeTspecResultCode) 0x12) -#define CSR_WIFI_SME_TSPEC_RESULT_TID_ALREADY_INSTALLED ((CsrWifiSmeTspecResultCode) 0x13) -#define CSR_WIFI_SME_TSPEC_RESULT_TSPEC_REMOTELY_DELETED ((CsrWifiSmeTspecResultCode) 0x14) - -/******************************************************************************* - - NAME - CsrWifiSmeWepAuthMode - - DESCRIPTION - Define bits for CsrWifiSmeWepAuthMode - - VALUES - CSR_WIFI_SME_WEP_AUTH_MODE_OPEN - Open-WEP enabled network - CSR_WIFI_SME_WEP_AUTH_MODE_SHARED - Shared-key WEP enabled network. - -*******************************************************************************/ -typedef u8 CsrWifiSmeWepAuthMode; -#define CSR_WIFI_SME_WEP_AUTH_MODE_OPEN ((CsrWifiSmeWepAuthMode) 0x00) -#define CSR_WIFI_SME_WEP_AUTH_MODE_SHARED ((CsrWifiSmeWepAuthMode) 0x01) - -/******************************************************************************* - - NAME - CsrWifiSmeWepCredentialType - - DESCRIPTION - Definition of types of WEP Credentials - - VALUES - CSR_WIFI_SME_CREDENTIAL_TYPE_WEP64 - - WEP 64 credential - CSR_WIFI_SME_CREDENTIAL_TYPE_WEP128 - - WEP 128 credential - -*******************************************************************************/ -typedef u8 CsrWifiSmeWepCredentialType; -#define CSR_WIFI_SME_CREDENTIAL_TYPE_WEP64 ((CsrWifiSmeWepCredentialType) 0x00) -#define CSR_WIFI_SME_CREDENTIAL_TYPE_WEP128 ((CsrWifiSmeWepCredentialType) 0x01) - -/******************************************************************************* - - NAME - CsrWifiSmeWmmMode - - DESCRIPTION - Defines bits for CsrWifiSmeWmmModeMask: enable/disable WMM features. - - VALUES - CSR_WIFI_SME_WMM_MODE_DISABLED - Disables the WMM features. - CSR_WIFI_SME_WMM_MODE_AC_ENABLED - Enables support for WMM-AC. - CSR_WIFI_SME_WMM_MODE_PS_ENABLED - Enables support for WMM Power Save. - CSR_WIFI_SME_WMM_MODE_SA_ENABLED - Currently not supported - CSR_WIFI_SME_WMM_MODE_ENABLED - Enables support for all currently - available WMM features. - -*******************************************************************************/ -typedef u8 CsrWifiSmeWmmMode; -#define CSR_WIFI_SME_WMM_MODE_DISABLED ((CsrWifiSmeWmmMode) 0x00) -#define CSR_WIFI_SME_WMM_MODE_AC_ENABLED ((CsrWifiSmeWmmMode) 0x01) -#define CSR_WIFI_SME_WMM_MODE_PS_ENABLED ((CsrWifiSmeWmmMode) 0x02) -#define CSR_WIFI_SME_WMM_MODE_SA_ENABLED ((CsrWifiSmeWmmMode) 0x04) -#define CSR_WIFI_SME_WMM_MODE_ENABLED ((CsrWifiSmeWmmMode) 0xFF) - -/******************************************************************************* - - NAME - CsrWifiSmeWmmQosInfo - - DESCRIPTION - Defines bits for the QoS Info Octect as defined in the WMM specification. - The first four values define one bit each that can be set or cleared. - Each of the last four values define all the remaining 4 bits and only one - of them at the time shall be used. - For more information, see 'WMM (including WMM Power Save) Specification - - Version 1.1' and 'UniFi Configuring WMM and WMM-PS, Application Note'. - - VALUES - CSR_WIFI_SME_WMM_QOS_INFO_AC_MAX_SP_ALL - - WMM AP may deliver all buffered frames - CSR_WIFI_SME_WMM_QOS_INFO_AC_VO - - Enable UAPSD(both trigger and delivery) for Voice Access - Category - CSR_WIFI_SME_WMM_QOS_INFO_AC_VI - - Enable UAPSD(both trigger and delivery) for Video Access - Category - CSR_WIFI_SME_WMM_QOS_INFO_AC_BK - - Enable UAPSD(both trigger and delivery) for Background - Access Category - CSR_WIFI_SME_WMM_QOS_INFO_AC_BE - - Enable UAPSD(both trigger and delivery) for Best Effort - Access Category - CSR_WIFI_SME_WMM_QOS_INFO_AC_MAX_SP_TWO - - WMM AP may deliver a maximum of 2 buffered frames (MSDUs - and MMPDUs) per USP - CSR_WIFI_SME_WMM_QOS_INFO_AC_MAX_SP_FOUR - - WMM AP may deliver a maximum of 4 buffered frames (MSDUs - and MMPDUs) per USP - CSR_WIFI_SME_WMM_QOS_INFO_AC_MAX_SP_SIX - - WMM AP may deliver a maximum of 6 buffered frames (MSDUs - and MMPDUs) per USP - -*******************************************************************************/ -typedef u8 CsrWifiSmeWmmQosInfo; -#define CSR_WIFI_SME_WMM_QOS_INFO_AC_MAX_SP_ALL ((CsrWifiSmeWmmQosInfo) 0x00) -#define CSR_WIFI_SME_WMM_QOS_INFO_AC_VO ((CsrWifiSmeWmmQosInfo) 0x01) -#define CSR_WIFI_SME_WMM_QOS_INFO_AC_VI ((CsrWifiSmeWmmQosInfo) 0x02) -#define CSR_WIFI_SME_WMM_QOS_INFO_AC_BK ((CsrWifiSmeWmmQosInfo) 0x04) -#define CSR_WIFI_SME_WMM_QOS_INFO_AC_BE ((CsrWifiSmeWmmQosInfo) 0x08) -#define CSR_WIFI_SME_WMM_QOS_INFO_AC_MAX_SP_TWO ((CsrWifiSmeWmmQosInfo) 0x20) -#define CSR_WIFI_SME_WMM_QOS_INFO_AC_MAX_SP_FOUR ((CsrWifiSmeWmmQosInfo) 0x40) -#define CSR_WIFI_SME_WMM_QOS_INFO_AC_MAX_SP_SIX ((CsrWifiSmeWmmQosInfo) 0x60) - -/******************************************************************************* - - NAME - CsrWifiSmeWpsConfigType - - DESCRIPTION - WPS config methods supported/used by a device - - VALUES - CSR_WIFI_WPS_CONFIG_LABEL - - Label - CSR_WIFI_WPS_CONFIG_DISPLAY - - Display - CSR_WIFI_WPS_CONFIG_EXT_NFC - - External NFC : Not supported in this release - CSR_WIFI_WPS_CONFIG_INT_NFC - - Internal NFC : Not supported in this release - CSR_WIFI_WPS_CONFIG_NFC_IFACE - - NFC interface : Not supported in this release - CSR_WIFI_WPS_CONFIG_PBC - - PBC - CSR_WIFI_WPS_CONFIG_KEYPAD - - KeyPad - CSR_WIFI_WPS_CONFIG_VIRTUAL_PBC - - PBC through software user interface - CSR_WIFI_WPS_CONFIG_PHYSICAL_PBC - - Physical PBC - CSR_WIFI_WPS_CONFIG_VIRTUAL_DISPLAY - - Virtual Display : via html config page etc - CSR_WIFI_WPS_CONFIG_PHYSICAL_DISPLAY - - Physical Display : Attached to the device - -*******************************************************************************/ -typedef u16 CsrWifiSmeWpsConfigType; -#define CSR_WIFI_WPS_CONFIG_LABEL ((CsrWifiSmeWpsConfigType) 0x0004) -#define CSR_WIFI_WPS_CONFIG_DISPLAY ((CsrWifiSmeWpsConfigType) 0x0008) -#define CSR_WIFI_WPS_CONFIG_EXT_NFC ((CsrWifiSmeWpsConfigType) 0x0010) -#define CSR_WIFI_WPS_CONFIG_INT_NFC ((CsrWifiSmeWpsConfigType) 0x0020) -#define CSR_WIFI_WPS_CONFIG_NFC_IFACE ((CsrWifiSmeWpsConfigType) 0x0040) -#define CSR_WIFI_WPS_CONFIG_PBC ((CsrWifiSmeWpsConfigType) 0x0080) -#define CSR_WIFI_WPS_CONFIG_KEYPAD ((CsrWifiSmeWpsConfigType) 0x0100) -#define CSR_WIFI_WPS_CONFIG_VIRTUAL_PBC ((CsrWifiSmeWpsConfigType) 0x0280) -#define CSR_WIFI_WPS_CONFIG_PHYSICAL_PBC ((CsrWifiSmeWpsConfigType) 0x0480) -#define CSR_WIFI_WPS_CONFIG_VIRTUAL_DISPLAY ((CsrWifiSmeWpsConfigType) 0x2008) -#define CSR_WIFI_WPS_CONFIG_PHYSICAL_DISPLAY ((CsrWifiSmeWpsConfigType) 0x4008) - -/******************************************************************************* - - NAME - CsrWifiSmeWpsDeviceCategory - - DESCRIPTION - Wps Primary Device Types - - VALUES - CSR_WIFI_SME_WPS_CATEGORY_UNSPECIFIED - - Unspecified. - CSR_WIFI_SME_WPS_CATEGORY_COMPUTER - - Computer. - CSR_WIFI_SME_WPS_CATEGORY_INPUT_DEV - - Input device - CSR_WIFI_SME_WPS_CATEGORY_PRT_SCAN_FX_CP - - Printer Scanner Fax Copier etc - CSR_WIFI_SME_WPS_CATEGORY_CAMERA - - Camera - CSR_WIFI_SME_WPS_CATEGORY_STORAGE - - Storage - CSR_WIFI_SME_WPS_CATEGORY_NET_INFRA - - Net Infra - CSR_WIFI_SME_WPS_CATEGORY_DISPLAY - - Display - CSR_WIFI_SME_WPS_CATEGORY_MULTIMEDIA - - Multimedia - CSR_WIFI_SME_WPS_CATEGORY_GAMING - - Gaming. - CSR_WIFI_SME_WPS_CATEGORY_TELEPHONE - - Telephone. - CSR_WIFI_SME_WPS_CATEGORY_AUDIO - - Audio - CSR_WIFI_SME_WPS_CATEOARY_OTHERS - - Others. - -*******************************************************************************/ -typedef u8 CsrWifiSmeWpsDeviceCategory; -#define CSR_WIFI_SME_WPS_CATEGORY_UNSPECIFIED ((CsrWifiSmeWpsDeviceCategory) 0x00) -#define CSR_WIFI_SME_WPS_CATEGORY_COMPUTER ((CsrWifiSmeWpsDeviceCategory) 0x01) -#define CSR_WIFI_SME_WPS_CATEGORY_INPUT_DEV ((CsrWifiSmeWpsDeviceCategory) 0x02) -#define CSR_WIFI_SME_WPS_CATEGORY_PRT_SCAN_FX_CP ((CsrWifiSmeWpsDeviceCategory) 0x03) -#define CSR_WIFI_SME_WPS_CATEGORY_CAMERA ((CsrWifiSmeWpsDeviceCategory) 0x04) -#define CSR_WIFI_SME_WPS_CATEGORY_STORAGE ((CsrWifiSmeWpsDeviceCategory) 0x05) -#define CSR_WIFI_SME_WPS_CATEGORY_NET_INFRA ((CsrWifiSmeWpsDeviceCategory) 0x06) -#define CSR_WIFI_SME_WPS_CATEGORY_DISPLAY ((CsrWifiSmeWpsDeviceCategory) 0x07) -#define CSR_WIFI_SME_WPS_CATEGORY_MULTIMEDIA ((CsrWifiSmeWpsDeviceCategory) 0x08) -#define CSR_WIFI_SME_WPS_CATEGORY_GAMING ((CsrWifiSmeWpsDeviceCategory) 0x09) -#define CSR_WIFI_SME_WPS_CATEGORY_TELEPHONE ((CsrWifiSmeWpsDeviceCategory) 0x0A) -#define CSR_WIFI_SME_WPS_CATEGORY_AUDIO ((CsrWifiSmeWpsDeviceCategory) 0x0B) -#define CSR_WIFI_SME_WPS_CATEOARY_OTHERS ((CsrWifiSmeWpsDeviceCategory) 0xFF) - -/******************************************************************************* - - NAME - CsrWifiSmeWpsDeviceSubCategory - - DESCRIPTION - Wps Secondary Device Types - - VALUES - CSR_WIFI_SME_WPS_SUB_CATEGORY_UNSPECIFIED - - Unspecied - CSR_WIFI_SME_WPS_STORAGE_SUB_CATEGORY_NAS - - Network Associated Storage - CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_PRNTR - - Printer or print server - CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_WM - - Windows mobile - CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_TUNER - - Audio tuner/receiver - CSR_WIFI_SME_WPS_CAMERA_SUB_CATEGORY_DIG_STL - - Digital still camera - CSR_WIFI_SME_WPS_NET_INFRA_SUB_CATEGORY_AP - - Access Point - CSR_WIFI_SME_WPS_DISPLAY_SUB_CATEGORY_TV - - TV. - CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_DAR - - DAR. - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_KEYBD - - Keyboard. - CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_PC - - PC. - CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_XBOX - - Xbox. - CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_SCNR - - Scanner - CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_SERVER - - Server - CSR_WIFI_SME_WPS_NET_INFRA_SUB_CATEGORY_ROUTER - - Router - CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_PVR - - PVR - CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_SPEAKER - - Speaker - CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_FP_SM - - Feature phone - Single mode - CSR_WIFI_SME_WPS_CAMERA_SUB_CATEGORY_VIDEO - - Video camera - CSR_WIFI_SME_WPS_DISPLAY_SUB_CATEGORY_PIC_FRM - - Picture frame - CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_XBOX_360 - - Xbox360 - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_MOUSE - - Mouse - CSR_WIFI_SME_WPS_NET_INFRA_SUB_CATEGORY_SWITCH - - Switch - CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_PMP - - Portable music player - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_JOYSTK - - Joy stick - CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_PLAY_STN - - Play-station - CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_MED_CENT - - Media Center - CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_MCX - - MCX - CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_FP_DM - - Feature phone - Dual mode - CSR_WIFI_SME_WPS_CAMERA_SUB_CATEGORY_WEB - - Web camera - CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_FAX - - Fax - CSR_WIFI_SME_WPS_DISPLAY_SUB_CATEGORY_PROJECTOR - - Projector - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_TRKBL - - Track Ball - CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_ST_BOX - - Set-Top-Box - CSR_WIFI_SME_WPS_NET_INFRA_SUB_CATEGORY_GATEWAY - - GateWay. - CSR_WIFI_SME_WPS_CAMERA_SUB_CATEGORY_SECURITY - - Security camera - CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_ULTRA_MOB_PC - - Ultra mobile PC. - CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_CONSOLE - - Game console/Game console adapter - CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_CPR - - Copier - CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_HEADSET - - Headset(headphones + microphone) - CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_SP_SM - - Smart phone - Single mode - CSR_WIFI_SME_WPS_DISPLAY_SUB_CATEGORY_MONITOR - - Monitor. - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_GAME_CTRL - - Game control. - CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_ALL - - All-in-One - CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_MEDIA - - Media Server/Media Adapter/Media Extender - CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_SP_DM - - Smart phone - Dual mode - CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_PORT_DEV - - Portable gaming device - CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_HEADPHONE - - Headphone. - CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_NOTEBOOK - - Notebook. - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_REMOTE - - Remote control - CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_MIC - - Microphone - CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_DESKTOP - - Desktop. - CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_VP - - Portable video player - CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_MID - - Mobile internet device - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_TOUCH_SCRN - - Touch screen - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_BIOMET_RDR - - Biometric reader - CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_NETBOOK - - Netbook - CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_BRCD_RDR - - Bar code reader. - -*******************************************************************************/ -typedef u8 CsrWifiSmeWpsDeviceSubCategory; -#define CSR_WIFI_SME_WPS_SUB_CATEGORY_UNSPECIFIED ((CsrWifiSmeWpsDeviceSubCategory) 0x00) -#define CSR_WIFI_SME_WPS_STORAGE_SUB_CATEGORY_NAS ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_PRNTR ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_WM ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_TUNER ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_CAMERA_SUB_CATEGORY_DIG_STL ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_NET_INFRA_SUB_CATEGORY_AP ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_DISPLAY_SUB_CATEGORY_TV ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_DAR ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_KEYBD ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_PC ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_XBOX ((CsrWifiSmeWpsDeviceSubCategory) 0x01) -#define CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_SCNR ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_SERVER ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_NET_INFRA_SUB_CATEGORY_ROUTER ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_PVR ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_SPEAKER ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_FP_SM ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_CAMERA_SUB_CATEGORY_VIDEO ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_DISPLAY_SUB_CATEGORY_PIC_FRM ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_XBOX_360 ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_MOUSE ((CsrWifiSmeWpsDeviceSubCategory) 0x02) -#define CSR_WIFI_SME_WPS_NET_INFRA_SUB_CATEGORY_SWITCH ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_PMP ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_JOYSTK ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_PLAY_STN ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_MED_CENT ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_MCX ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_FP_DM ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_CAMERA_SUB_CATEGORY_WEB ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_FAX ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_DISPLAY_SUB_CATEGORY_PROJECTOR ((CsrWifiSmeWpsDeviceSubCategory) 0x03) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_TRKBL ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_ST_BOX ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_NET_INFRA_SUB_CATEGORY_GATEWAY ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_CAMERA_SUB_CATEGORY_SECURITY ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_ULTRA_MOB_PC ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_CONSOLE ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_CPR ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_HEADSET ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_SP_SM ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_DISPLAY_SUB_CATEGORY_MONITOR ((CsrWifiSmeWpsDeviceSubCategory) 0x04) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_GAME_CTRL ((CsrWifiSmeWpsDeviceSubCategory) 0x05) -#define CSR_WIFI_SME_WPS_PSFC_SUB_CATEGORY_ALL ((CsrWifiSmeWpsDeviceSubCategory) 0x05) -#define CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_MEDIA ((CsrWifiSmeWpsDeviceSubCategory) 0x05) -#define CSR_WIFI_SME_WPS_TELEPHONE_SUB_CATEGORY_SP_DM ((CsrWifiSmeWpsDeviceSubCategory) 0x05) -#define CSR_WIFI_SME_WPS_GAMING_SUB_CATEGORY_PORT_DEV ((CsrWifiSmeWpsDeviceSubCategory) 0x05) -#define CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_HEADPHONE ((CsrWifiSmeWpsDeviceSubCategory) 0x05) -#define CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_NOTEBOOK ((CsrWifiSmeWpsDeviceSubCategory) 0x05) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_REMOTE ((CsrWifiSmeWpsDeviceSubCategory) 0x06) -#define CSR_WIFI_SME_WPS_AUDIO_SUB_CATEGORY_MIC ((CsrWifiSmeWpsDeviceSubCategory) 0x06) -#define CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_DESKTOP ((CsrWifiSmeWpsDeviceSubCategory) 0x06) -#define CSR_WIFI_SME_WPS_MM_SUB_CATEGORY_VP ((CsrWifiSmeWpsDeviceSubCategory) 0x06) -#define CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_MID ((CsrWifiSmeWpsDeviceSubCategory) 0x07) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_TOUCH_SCRN ((CsrWifiSmeWpsDeviceSubCategory) 0x07) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_BIOMET_RDR ((CsrWifiSmeWpsDeviceSubCategory) 0x08) -#define CSR_WIFI_SME_WPS_COMPUTER_SUB_CATEGORY_NETBOOK ((CsrWifiSmeWpsDeviceSubCategory) 0x08) -#define CSR_WIFI_SME_WPS_INPUT_DEV_SUB_CATEGORY_BRCD_RDR ((CsrWifiSmeWpsDeviceSubCategory) 0x09) - -/******************************************************************************* - - NAME - CsrWifiSmeWpsDpid - - DESCRIPTION - Device Password ID for the chosen config method - - VALUES - CSR_WIFI_SME_WPS_DPID_PIN - PIN - CSR_WIFI_SME_WPS_DPID_USER - User specified : Used only during P2P GO - negotiation procedure - CSR_WIFI_SME_WPS_DPID_MACHINE - Machine specified i: Not used in this - release - CSR_WIFI_SME_WPS_DPID_REKEY - Rekey : Not used in this release - CSR_WIFI_SME_WPS_DPID_PBC - PBC - CSR_WIFI_SME_WPS_DPID_REGISTRAR - Registrar specified : Used only in P2P Go - negotiation procedure - -*******************************************************************************/ -typedef u16 CsrWifiSmeWpsDpid; -#define CSR_WIFI_SME_WPS_DPID_PIN ((CsrWifiSmeWpsDpid) 0x0000) -#define CSR_WIFI_SME_WPS_DPID_USER ((CsrWifiSmeWpsDpid) 0x0001) -#define CSR_WIFI_SME_WPS_DPID_MACHINE ((CsrWifiSmeWpsDpid) 0x0002) -#define CSR_WIFI_SME_WPS_DPID_REKEY ((CsrWifiSmeWpsDpid) 0x0003) -#define CSR_WIFI_SME_WPS_DPID_PBC ((CsrWifiSmeWpsDpid) 0x0004) -#define CSR_WIFI_SME_WPS_DPID_REGISTRAR ((CsrWifiSmeWpsDpid) 0x0005) - -/******************************************************************************* - - NAME - CsrWifiSmeWpsRegistration - - DESCRIPTION - - VALUES - CSR_WIFI_SME_WPS_REG_NOT_REQUIRED - No encryption set - CSR_WIFI_SME_WPS_REG_REQUIRED - No encryption set - CSR_WIFI_SME_WPS_REG_UNKNOWN - No encryption set - -*******************************************************************************/ -typedef u8 CsrWifiSmeWpsRegistration; -#define CSR_WIFI_SME_WPS_REG_NOT_REQUIRED ((CsrWifiSmeWpsRegistration) 0x00) -#define CSR_WIFI_SME_WPS_REG_REQUIRED ((CsrWifiSmeWpsRegistration) 0x01) -#define CSR_WIFI_SME_WPS_REG_UNKNOWN ((CsrWifiSmeWpsRegistration) 0x02) - - -/******************************************************************************* - - NAME - CsrWifiSmeAuthModeMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeAuthMode - -*******************************************************************************/ -typedef u16 CsrWifiSmeAuthModeMask; -/******************************************************************************* - - NAME - CsrWifiSmeEncryptionMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeEncryption - -*******************************************************************************/ -typedef u16 CsrWifiSmeEncryptionMask; -/******************************************************************************* - - NAME - CsrWifiSmeIndicationsMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeIndications - -*******************************************************************************/ -typedef u32 CsrWifiSmeIndicationsMask; -/******************************************************************************* - - NAME - CsrWifiSmeP2pCapabilityMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeP2pCapability - -*******************************************************************************/ -typedef u8 CsrWifiSmeP2pCapabilityMask; -/******************************************************************************* - - NAME - CsrWifiSmeP2pGroupCapabilityMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeP2pGroupCapability - -*******************************************************************************/ -typedef u8 CsrWifiSmeP2pGroupCapabilityMask; -/******************************************************************************* - - NAME - CsrWifiSmeTspecCtrlMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeTspecCtrl - -*******************************************************************************/ -typedef u8 CsrWifiSmeTspecCtrlMask; -/******************************************************************************* - - NAME - CsrWifiSmeWmmModeMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeWmmMode - -*******************************************************************************/ -typedef u8 CsrWifiSmeWmmModeMask; -/******************************************************************************* - - NAME - CsrWifiSmeWmmQosInfoMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeWmmQosInfo - -*******************************************************************************/ -typedef u8 CsrWifiSmeWmmQosInfoMask; -/******************************************************************************* - - NAME - CsrWifiSmeWpsConfigTypeMask - - DESCRIPTION - Mask type for use with the values defined by CsrWifiSmeWpsConfigType - -*******************************************************************************/ -typedef u16 CsrWifiSmeWpsConfigTypeMask; - - -/******************************************************************************* - - NAME - CsrWifiSmeAdHocConfig - - DESCRIPTION - Defines values to use when starting an Ad-hoc (IBSS) network. - - MEMBERS - atimWindowTu - ATIM window specified for IBSS - beaconPeriodTu - Interval between beacon packets - joinOnlyAttempts - Maximum number of attempts to join an ad-hoc network. - The default value is 1. - Set to 0 for infinite attempts. - joinAttemptIntervalMs - Time between scans for joining the requested IBSS. - -*******************************************************************************/ -typedef struct -{ - u16 atimWindowTu; - u16 beaconPeriodTu; - u16 joinOnlyAttempts; - u16 joinAttemptIntervalMs; -} CsrWifiSmeAdHocConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeAvailabilityConfig - - DESCRIPTION - - MEMBERS - listenChannel - - availabilityDuration - - avalabilityPeriod - - -*******************************************************************************/ -typedef struct -{ - u8 listenChannel; - u16 availabilityDuration; - u16 avalabilityPeriod; -} CsrWifiSmeAvailabilityConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfig - - DESCRIPTION - This type is reserved for future use and should not be used. - - MEMBERS - keepAliveTimeMs - NOT USED - apRoamingEnabled - NOT USED - measurementsMask - NOT USED - ccxRadioMgtEnabled - NOT USED - -*******************************************************************************/ -typedef struct -{ - u8 keepAliveTimeMs; - u8 apRoamingEnabled; - u8 measurementsMask; - u8 ccxRadioMgtEnabled; -} CsrWifiSmeCcxConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfig - - DESCRIPTION - Parameters for the coexistence behaviour. - - MEMBERS - coexEnableSchemeManagement - Enables the Coexistence Management Scheme - coexPeriodicWakeHost - If TRUE the firmware wakes up the host - periodically according to the traffic - period and latency parameters; the host - will then send the data to transmit only - when woken up. - If FALSE, the firmware does not wake up the - host and the host will send the data to - transmit to the firmware whenever there is - data to transmit - coexTrafficBurstyLatencyMs - Period of awakening for the firmware used - when bursty traffic is detected - coexTrafficContinuousLatencyMs - Period of awakening for the firmware used - when continuous traffic is detected - coexObexBlackoutDurationMs - Blackout Duration when a Obex Connection is - used - coexObexBlackoutPeriodMs - Blackout Period when a Obex Connection is - used - coexA2dpBrBlackoutDurationMs - Blackout Duration when a Basic Rate A2DP - Connection streaming data - coexA2dpBrBlackoutPeriodMs - Blackout Period when a Basic Rate A2DP - Connection streaming data - coexA2dpEdrBlackoutDurationMs - Blackout Duration when an Enhanced Data - Rate A2DP Connection streaming data - coexA2dpEdrBlackoutPeriodMs - Blackout Period when an Enhanced Data Rate - A2DP Connection streaming data - coexPagingBlackoutDurationMs - Blackout Duration when a BT page is active - coexPagingBlackoutPeriodMs - Blackout Period when a BT page is active - coexInquiryBlackoutDurationMs - Blackout Duration when a BT inquiry is - active - coexInquiryBlackoutPeriodMs - Blackout Period when a BT inquiry is active - -*******************************************************************************/ -typedef struct -{ - u8 coexEnableSchemeManagement; - u8 coexPeriodicWakeHost; - u16 coexTrafficBurstyLatencyMs; - u16 coexTrafficContinuousLatencyMs; - u16 coexObexBlackoutDurationMs; - u16 coexObexBlackoutPeriodMs; - u16 coexA2dpBrBlackoutDurationMs; - u16 coexA2dpBrBlackoutPeriodMs; - u16 coexA2dpEdrBlackoutDurationMs; - u16 coexA2dpEdrBlackoutPeriodMs; - u16 coexPagingBlackoutDurationMs; - u16 coexPagingBlackoutPeriodMs; - u16 coexInquiryBlackoutDurationMs; - u16 coexInquiryBlackoutPeriodMs; -} CsrWifiSmeCoexConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionStats - - DESCRIPTION - Indicates the statistics of the connection. - The dot11 fields are defined in the Annex D of the IEEE 802.11 standard. - - MEMBERS - unifiTxDataRate - - The bit rate currently in use for transmissions of unicast - data frames; a data rate in units of 500kbit/s. - On an infrastructure BSS, this is the data rate used in - communicating with the associated access point; if there is - none, an error is returned. - On an IBSS, this is the data rate used for the last - transmission of a unicast data frame to any station in the - IBSS. If no such transmission has been made, an error is - returned. - unifiRxDataRate - - As above for receiving data - dot11RetryCount - - See IEEE 802.11 Standard - dot11MultipleRetryCount - - See IEEE 802.11 Standard - dot11AckFailureCount - - See IEEE 802.11 Standard - dot11FrameDuplicateCount - - See IEEE 802.11 Standard - dot11FcsErrorCount - - See IEEE 802.11 Standard - dot11RtsSuccessCount - - See IEEE 802.11 Standard - dot11RtsFailureCount - - See IEEE 802.11 Standard - dot11FailedCount - - See IEEE 802.11 Standard - dot11TransmittedFragmentCount - - See IEEE 802.11 Standard - dot11TransmittedFrameCount - - See IEEE 802.11 Standard - dot11WepExcludedCount - - See IEEE 802.11 Standard - dot11WepIcvErrorCount - - See IEEE 802.11 Standard - dot11WepUndecryptableCount - - See IEEE 802.11 Standard - dot11MulticastReceivedFrameCount - - See IEEE 802.11 Standard - dot11MulticastTransmittedFrameCount - - See IEEE 802.11 Standard - dot11ReceivedFragmentCount - - See IEEE 802.11 Standard - dot11Rsna4WayHandshakeFailures - - See IEEE 802.11 Standard - dot11RsnaTkipCounterMeasuresInvoked - - See IEEE 802.11 Standard - dot11RsnaStatsTkipLocalMicFailures - - See IEEE 802.11 Standard - dot11RsnaStatsTkipReplays - - See IEEE 802.11 Standard - dot11RsnaStatsTkipIcvErrors - - See IEEE 802.11 Standard - dot11RsnaStatsCcmpReplays - - See IEEE 802.11 Standard - dot11RsnaStatsCcmpDecryptErrors - - See IEEE 802.11 Standard - -*******************************************************************************/ -typedef struct -{ - u8 unifiTxDataRate; - u8 unifiRxDataRate; - u32 dot11RetryCount; - u32 dot11MultipleRetryCount; - u32 dot11AckFailureCount; - u32 dot11FrameDuplicateCount; - u32 dot11FcsErrorCount; - u32 dot11RtsSuccessCount; - u32 dot11RtsFailureCount; - u32 dot11FailedCount; - u32 dot11TransmittedFragmentCount; - u32 dot11TransmittedFrameCount; - u32 dot11WepExcludedCount; - u32 dot11WepIcvErrorCount; - u32 dot11WepUndecryptableCount; - u32 dot11MulticastReceivedFrameCount; - u32 dot11MulticastTransmittedFrameCount; - u32 dot11ReceivedFragmentCount; - u32 dot11Rsna4WayHandshakeFailures; - u32 dot11RsnaTkipCounterMeasuresInvoked; - u32 dot11RsnaStatsTkipLocalMicFailures; - u32 dot11RsnaStatsTkipReplays; - u32 dot11RsnaStatsTkipIcvErrors; - u32 dot11RsnaStatsCcmpReplays; - u32 dot11RsnaStatsCcmpDecryptErrors; -} CsrWifiSmeConnectionStats; - -/******************************************************************************* - - NAME - CsrWifiSmeDataBlock - - DESCRIPTION - Holds a generic data block to be passed through the interface - - MEMBERS - length - Length of the data block - data - Points to the first byte of the data block - -*******************************************************************************/ -typedef struct -{ - u16 length; - u8 *data; -} CsrWifiSmeDataBlock; - -/******************************************************************************* - - NAME - CsrWifiSmeEmpty - - DESCRIPTION - Empty Structure to indicate that no parameters are available. - - MEMBERS - empty - Only element of the empty structure (always set to 0). - -*******************************************************************************/ -typedef struct -{ - u8 empty; -} CsrWifiSmeEmpty; - -/******************************************************************************* - - NAME - CsrWifiSmeLinkQuality - - DESCRIPTION - Indicates the quality of the link - - MEMBERS - unifiRssi - Indicates the received signal strength indication of the link in - dBm - unifiSnr - Indicates the signal to noise ratio of the link in dB - -*******************************************************************************/ -typedef struct -{ - s16 unifiRssi; - s16 unifiSnr; -} CsrWifiSmeLinkQuality; - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfig - - DESCRIPTION - Allows low level configuration in the chip. - - MEMBERS - unifiFixMaxTxDataRate - This attribute is used in combination with - unifiFixTxDataRate. If it is FALSE, then - unifiFixTxDataRate specifies a specific data - rate to use. If it is TRUE, unifiFixTxDataRate - instead specifies a maximum data rate. - unifiFixTxDataRate - Transmit rate for unicast data. - See MIB description for more details - dot11RtsThreshold - See IEEE 802.11 Standard - dot11FragmentationThreshold - See IEEE 802.11 Standard - dot11CurrentTxPowerLevel - See IEEE 802.11 Standard - -*******************************************************************************/ -typedef struct -{ - u8 unifiFixMaxTxDataRate; - u8 unifiFixTxDataRate; - u16 dot11RtsThreshold; - u16 dot11FragmentationThreshold; - u16 dot11CurrentTxPowerLevel; -} CsrWifiSmeMibConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeP2pProfileIdentity - - DESCRIPTION - Details to be filled in - - MEMBERS - listenChannel - - availabilityDuration - - avalabilityPeriod - - -*******************************************************************************/ -typedef struct -{ - u8 listenChannel; - u16 availabilityDuration; - u16 avalabilityPeriod; -} CsrWifiSmeP2pProfileIdentity; - -/******************************************************************************* - - NAME - CsrWifiSmePmkid - - DESCRIPTION - Defines a PMKID association with BSS - - MEMBERS - bssid - BSS identifier - pmkid - PMKID - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress bssid; - u8 pmkid[16]; -} CsrWifiSmePmkid; - -/******************************************************************************* - - NAME - CsrWifiSmePmkidCandidate - - DESCRIPTION - Information for a PMKID candidate - - MEMBERS - bssid - BSS identifier - preAuthAllowed - Indicates whether preauthentication is allowed - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress bssid; - u8 preAuthAllowed; -} CsrWifiSmePmkidCandidate; - -/******************************************************************************* - - NAME - CsrWifiSmePmkidList - - DESCRIPTION - NOT USED - Used in the Sync access API - - MEMBERS - pmkidsCount - Number of PMKIDs in the list - pmkids - Points to the first PMKID in the list - -*******************************************************************************/ -typedef struct -{ - u8 pmkidsCount; - CsrWifiSmePmkid *pmkids; -} CsrWifiSmePmkidList; - -/******************************************************************************* - - NAME - CsrWifiSmeRegulatoryDomainInfo - - DESCRIPTION - Regulatory domain options. - - MEMBERS - dot11MultiDomainCapabilityImplemented - - TRUE is the multi domain capability is implemented - dot11MultiDomainCapabilityEnabled - - TRUE is the multi domain capability is enabled - currentRegulatoryDomain - - Current regulatory domain - currentCountryCode - - Current country code as defined by the IEEE 802.11 - standards - -*******************************************************************************/ -typedef struct -{ - u8 dot11MultiDomainCapabilityImplemented; - u8 dot11MultiDomainCapabilityEnabled; - CsrWifiSmeRegulatoryDomain currentRegulatoryDomain; - u8 currentCountryCode[2]; -} CsrWifiSmeRegulatoryDomainInfo; - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingBandData - - DESCRIPTION - Thresholds to define one usability level category for the received signal - - MEMBERS - rssiHighThreshold - Received Signal Strength Indication upper bound in dBm - for the usability level - rssiLowThreshold - Received Signal Strength Indication lower bound in dBm - for the usability level - snrHighThreshold - Signal to Noise Ratio upper bound in dB for the - usability level - snrLowThreshold - Signal to Noise Ratio lower bound in dB for the - usability level - -*******************************************************************************/ -typedef struct -{ - s16 rssiHighThreshold; - s16 rssiLowThreshold; - s16 snrHighThreshold; - s16 snrLowThreshold; -} CsrWifiSmeRoamingBandData; - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigData - - DESCRIPTION - Configures the scanning behaviour of the driver and firmware - - MEMBERS - intervalSeconds - All the channels will be scanned once in this time - interval. - If connected, the channel scans are spread across - the interval. - If disconnected, all the channels will be scanned - together - validitySeconds - How long the scan result are cached - minActiveChannelTimeTu - Minimum time of listening on a channel being - actively scanned before leaving if no probe - responses or beacon frames have been received - maxActiveChannelTimeTu - Maximum time of listening on a channel being - actively scanned - minPassiveChannelTimeTu - Minimum time of listening on a channel being - passive scanned before leaving if no beacon frames - have been received - maxPassiveChannelTimeTu - Maximum time of listening on a channel being - passively scanned - -*******************************************************************************/ -typedef struct -{ - u16 intervalSeconds; - u16 validitySeconds; - u16 minActiveChannelTimeTu; - u16 maxActiveChannelTimeTu; - u16 minPassiveChannelTimeTu; - u16 maxPassiveChannelTimeTu; -} CsrWifiSmeScanConfigData; - -/******************************************************************************* - - NAME - CsrWifiSmeTsfTime - - DESCRIPTION - Time stamp representation - - MEMBERS - data - TSF Bytes - -*******************************************************************************/ -typedef struct -{ - u8 data[8]; -} CsrWifiSmeTsfTime; - -/******************************************************************************* - - NAME - CsrWifiSmeVersions - - DESCRIPTION - Reports version information for the chip, the firmware and the driver and - the SME. - - MEMBERS - chipId - Chip ID - chipVersion - Chip version ID - firmwareBuild - Firmware Rom build number - firmwarePatch - Firmware Patch build number (if applicable) - firmwareHip - Firmware HIP protocol version number - routerBuild - Router build number - routerHip - Router HIP protocol version number - smeBuild - SME build number - smeHip - SME HIP protocol version number - -*******************************************************************************/ -typedef struct -{ - u32 chipId; - u32 chipVersion; - u32 firmwareBuild; - u32 firmwarePatch; - u32 firmwareHip; - char *routerBuild; - u32 routerHip; - char *smeBuild; - u32 smeHip; -} CsrWifiSmeVersions; - -/******************************************************************************* - - NAME - CsrWifiSmeWmmAcParams - - DESCRIPTION - Structure holding WMM AC params data. - - MEMBERS - cwMin - Exponent for the calculation of CWmin. Range: 0 - to 15 - cwMax - Exponent for the calculation of CWmax. Range: 0 - to15 - aifs - Arbitration Inter Frame Spacing in terms of - number of timeslots. Range 2 to 15 - txopLimit - TXOP Limit in the units of 32 microseconds - admissionControlMandatory - Indicates whether the admission control is - mandatory or not. Current release does not - support admission control , hence shall be set - to FALSE. - -*******************************************************************************/ -typedef struct -{ - u8 cwMin; - u8 cwMax; - u8 aifs; - u16 txopLimit; - u8 admissionControlMandatory; -} CsrWifiSmeWmmAcParams; - -/******************************************************************************* - - NAME - CsrWifiSmeWpsDeviceType - - DESCRIPTION - Structure holding AP WPS device type data. - - MEMBERS - deviceDetails - category , sub category etc - -*******************************************************************************/ -typedef struct -{ - u8 deviceDetails[8]; -} CsrWifiSmeWpsDeviceType; - -/******************************************************************************* - - NAME - CsrWifiSmeWpsDeviceTypeCommon - - DESCRIPTION - - MEMBERS - spportWps - - deviceType - - -*******************************************************************************/ -typedef struct -{ - u8 spportWps; - u8 deviceType; -} CsrWifiSmeWpsDeviceTypeCommon; - -/******************************************************************************* - - NAME - CsrWifiSmeWpsInfo - - DESCRIPTION - - MEMBERS - version - - configMethods - - devicePassworId - - -*******************************************************************************/ -typedef struct -{ - u16 version; - u16 configMethods; - u16 devicePassworId; -} CsrWifiSmeWpsInfo; - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidConfig - - DESCRIPTION - List of cloaked SSIDs . - - MEMBERS - cloakedSsidsCount - Number of cloaked SSID - cloakedSsids - Points to the first byte of the first SSID provided - -*******************************************************************************/ -typedef struct -{ - u8 cloakedSsidsCount; - CsrWifiSsid *cloakedSsids; -} CsrWifiSmeCloakedSsidConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeCoexInfo - - DESCRIPTION - Information and state related to coexistence. - - MEMBERS - hasTrafficData - TRUE if any Wi-Fi traffic is detected - currentTrafficType - Current type of traffic - currentPeriodMs - Period of the traffic as detected by the traffic - analysis. - If the traffic is not periodic, it is set to 0. - currentPowerSave - Current power save level - currentCoexPeriodMs - Period of awakening for the firmware used when - periodic traffic is detected. - If the traffic is not periodic, it is set to 0. - currentCoexLatencyMs - Period of awakening for the firmware used when - non-periodic traffic is detected - hasBtDevice - TRUE if there is a Bluetooth device connected - currentBlackoutDurationUs - Current blackout duration for protecting - Bluetooth - currentBlackoutPeriodUs - Current blackout period - currentCoexScheme - Defines the scheme for the coexistence - signalling - -*******************************************************************************/ -typedef struct -{ - u8 hasTrafficData; - CsrWifiSmeTrafficType currentTrafficType; - u16 currentPeriodMs; - CsrWifiSmePowerSaveLevel currentPowerSave; - u16 currentCoexPeriodMs; - u16 currentCoexLatencyMs; - u8 hasBtDevice; - u32 currentBlackoutDurationUs; - u32 currentBlackoutPeriodUs; - CsrWifiSmeCoexScheme currentCoexScheme; -} CsrWifiSmeCoexInfo; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionConfig - - DESCRIPTION - Specifies the parameters that the SME should use in selecting a network. - - MEMBERS - ssid - - Service Set identifier - bssid - - BSS identifier - bssType - - Indicates the type of BSS - ifIndex - - Indicates the radio interface - privacyMode - - Specifies whether the privacy mode is enabled or disabled. - authModeMask - - Sets the authentication options that the SME can use while - associating to the AP - Set mask with values from CsrWifiSmeAuthMode - encryptionModeMask - - Sets the encryption options that the SME can use while - associating to the AP - Set mask with values from CsrWifiSmeEncryption - mlmeAssociateReqInformationElementsLength - - Length in bytes of information elements to be sent in the - Association Request. - mlmeAssociateReqInformationElements - - Points to the first byte of the information elements, if - any. - wmmQosInfo - - This parameter allows the driver's WMM behaviour to be - configured. - To enable support for WMM, use - CSR_WIFI_SME_SME_CONFIG_SET_REQ with the - CSR_WIFI_SME_WMM_MODE_AC_ENABLED bit set in wmmModeMask - field in smeConfig parameter. - Set mask with values from CsrWifiSmeWmmQosInfo - adhocJoinOnly - - This parameter is relevant only if bssType is NOT set to - CSR_WIFI_SME_BSS_TYPE_INFRASTRUCTURE: - if TRUE the SME will only try to join an ad-hoc network if - there is one already established; - if FALSE the SME will try to join an ad-hoc network if - there is one already established or it will try to - establish a new one - adhocChannel - - This parameter is relevant only if bssType is NOT set to - CSR_WIFI_SME_BSS_TYPE_INFRASTRUCTURE: - it indicates the channel to use joining an ad hoc network. - Setting this to 0 causes the SME to select a channel from - those permitted in the regulatory domain. - -*******************************************************************************/ -typedef struct -{ - CsrWifiSsid ssid; - CsrWifiMacAddress bssid; - CsrWifiSmeBssType bssType; - CsrWifiSmeRadioIF ifIndex; - CsrWifiSme80211PrivacyMode privacyMode; - CsrWifiSmeAuthModeMask authModeMask; - CsrWifiSmeEncryptionMask encryptionModeMask; - u16 mlmeAssociateReqInformationElementsLength; - u8 *mlmeAssociateReqInformationElements; - CsrWifiSmeWmmQosInfoMask wmmQosInfo; - u8 adhocJoinOnly; - u8 adhocChannel; -} CsrWifiSmeConnectionConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionInfo - - DESCRIPTION - Parameters that the SME should use in selecting a network - - MEMBERS - ssid - Service set identifier - bssid - BSS identifier - networkType80211 - Physical layer used for the connection - channelNumber - Channel number - channelFrequency - Channel frequency - authMode - Authentication mode used for the connection - pairwiseCipher - Encryption type for peer to peer communication - groupCipher - Encryption type for broadcast and multicast - communication - ifIndex - Indicates the radio interface - atimWindowTu - ATIM window specified for IBSS - beaconPeriodTu - Interval between beacon packets - reassociation - Indicates whether a reassociation occurred - beaconFrameLength - Indicates the number of bytes of the beacon - frame - beaconFrame - Points at the first byte of the beacon frame - associationReqFrameLength - Indicates the number of bytes of the - association request frame - associationReqFrame - Points at the first byte of the association - request frame - associationRspFrameLength - Indicates the number of bytes of the - association response frame - associationRspFrame - Points at the first byte of the association - response frame - assocScanInfoElementsLength - Indicates the number of bytes in the buffer - pointed by assocScanInfoElements - assocScanInfoElements - Pointer to the buffer containing the - information elements of the probe response - received after the probe requests sent before - attempting to authenticate to the network - assocReqCapabilities - Reports the content of the Capability - information element as specified in the - association request. - assocReqListenIntervalTu - Listen Interval specified in the association - request - assocReqApAddress - AP address to which the association requests - has been sent - assocReqInfoElementsLength - Indicates the number of bytes of the - association request information elements - assocReqInfoElements - Points at the first byte of the association - request information elements - assocRspResult - Result reported in the association response - assocRspCapabilityInfo - Reports the content of the Capability - information element as received in the - association response. - assocRspAssociationId - Reports the association ID received in the - association response. - assocRspInfoElementsLength - Indicates the number of bytes of the - association response information elements - assocRspInfoElements - Points at the first byte of the association - response information elements - -*******************************************************************************/ -typedef struct -{ - CsrWifiSsid ssid; - CsrWifiMacAddress bssid; - CsrWifiSme80211NetworkType networkType80211; - u8 channelNumber; - u16 channelFrequency; - CsrWifiSmeAuthMode authMode; - CsrWifiSmeEncryption pairwiseCipher; - CsrWifiSmeEncryption groupCipher; - CsrWifiSmeRadioIF ifIndex; - u16 atimWindowTu; - u16 beaconPeriodTu; - u8 reassociation; - u16 beaconFrameLength; - u8 *beaconFrame; - u16 associationReqFrameLength; - u8 *associationReqFrame; - u16 associationRspFrameLength; - u8 *associationRspFrame; - u16 assocScanInfoElementsLength; - u8 *assocScanInfoElements; - u16 assocReqCapabilities; - u16 assocReqListenIntervalTu; - CsrWifiMacAddress assocReqApAddress; - u16 assocReqInfoElementsLength; - u8 *assocReqInfoElements; - CsrWifiSmeIEEE80211Result assocRspResult; - u16 assocRspCapabilityInfo; - u16 assocRspAssociationId; - u16 assocRspInfoElementsLength; - u8 *assocRspInfoElements; -} CsrWifiSmeConnectionInfo; - -/******************************************************************************* - - NAME - CsrWifiSmeDeviceConfig - - DESCRIPTION - General configuration options in the SME - - MEMBERS - trustLevel - Level of trust of the information coming from the - network - countryCode - Country code as specified by IEEE 802.11 standard - firmwareDriverInterface - Specifies the type of communication between Host - and Firmware - enableStrictDraftN - If TRUE TKIP is disallowed when connecting to - 802.11n enabled access points - -*******************************************************************************/ -typedef struct -{ - CsrWifiSme80211dTrustLevel trustLevel; - u8 countryCode[2]; - CsrWifiSmeFirmwareDriverInterface firmwareDriverInterface; - u8 enableStrictDraftN; -} CsrWifiSmeDeviceConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeDeviceInfo - - DESCRIPTION - P2P Information for a P2P Device - - MEMBERS - deviceAddress - Device Address of the P2P device - configMethods - Supported WPS configuration methods. - p2PDeviceCap - P2P device capabilities - primDeviceType - Primary WPS device type - secondaryDeviceTypeCount - Number of secondary device types - secDeviceType - list of secondary WPS device types - deviceName - Device name without up to 32 characters'\0'. - deviceNameLength - Number of characters of the device name - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress deviceAddress; - CsrWifiSmeWpsConfigTypeMask configMethods; - CsrWifiSmeP2pCapabilityMask p2PDeviceCap; - CsrWifiSmeWpsDeviceType primDeviceType; - u8 secondaryDeviceTypeCount; - CsrWifiSmeWpsDeviceType *secDeviceType; - u8 deviceName[32]; - u8 deviceNameLength; -} CsrWifiSmeDeviceInfo; - -/******************************************************************************* - - NAME - CsrWifiSmeDeviceInfoCommon - - DESCRIPTION - Structure holding device information. - - MEMBERS - p2pDeviceAddress - - primaryDeviceType - - secondaryDeviceTypesCount - - secondaryDeviceTypes - - deviceNameLength - - deviceName - - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress p2pDeviceAddress; - CsrWifiSmeWpsDeviceTypeCommon primaryDeviceType; - u8 secondaryDeviceTypesCount; - u8 secondaryDeviceTypes[10]; - u8 deviceNameLength; - u8 deviceName[32]; -} CsrWifiSmeDeviceInfoCommon; - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfig - - DESCRIPTION - Defines the host power state (for example, on mains power, on battery - power etc) and the periodicity of the traffic data. - - MEMBERS - powerMode - The wireless manager application should use the - powerMode parameter to inform the SME of the host - power state. - applicationDataPeriodMs - The applicationDataPeriodMs parameter allows a - wireless manager application to inform the SME - that an application is running that generates - periodic network traffic and the period of the - traffic. - An example of such an application is a VoIP client. - The wireless manager application should set - applicationDataPeriodMs to the period in - milliseconds between data packets or zero if no - periodic application is running. - Voip etc 0 = No Periodic Data - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeHostPowerMode powerMode; - u16 applicationDataPeriodMs; -} CsrWifiSmeHostConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeKey - - DESCRIPTION - Information for a key to be used for encryption - - MEMBERS - keyType - Specifies whether the key is a pairwise or group key; it - should be set to CSR_WIFI_SME_GROUP_KEY or - CSR_WIFI_SME_PAIRWISE_KEY, as required. - keyIndex - Specifies which WEP key (0-3) to set; it should be set to 0 - for a WPA/WPA2 pairwise key and non-zero for a WPA/WPA2 - group key. - wepTxKey - If wepTxKey is TRUE, and the key is a WEP key, the key will - be selected for encrypting transmitted packets. - To select a previously defined key as the transmit - encryption key, set keyIndex to the required key, wepTxKey - to TRUE and the keyLength to 0. - keyRsc - Key Receive Sequence Counter - authenticator - If TRUE the WMA will act as authenticator. - CURRENTLY NOT SUPPORTED - address - BSS identifier of the AP - keyLength - Length of the key in bytes - key - Points to the first byte of the key - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeKeyType keyType; - u8 keyIndex; - u8 wepTxKey; - u16 keyRsc[8]; - u8 authenticator; - CsrWifiMacAddress address; - u8 keyLength; - u8 key[32]; -} CsrWifiSmeKey; - -/******************************************************************************* - - NAME - CsrWifiSmeP2pClientInfoType - - DESCRIPTION - P2P Information for a P2P Client - - MEMBERS - p2PClientInterfaceAddress - MAC address of the P2P Client - clientDeviceInfo - Device Information - -*******************************************************************************/ -typedef struct -{ - CsrWifiMacAddress p2PClientInterfaceAddress; - CsrWifiSmeDeviceInfo clientDeviceInfo; -} CsrWifiSmeP2pClientInfoType; - -/******************************************************************************* - - NAME - CsrWifiSmeP2pGroupInfo - - DESCRIPTION - P2P Information for a P2P Group - - MEMBERS - groupCapability - P2P group capabilities - p2pDeviceAddress - Device Address of the GO - p2pClientInfoCount - Number of P2P Clients that belong to the group. - p2PClientInfo - Pointer to the list containing client information for - each client in the group - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeP2pGroupCapabilityMask groupCapability; - CsrWifiMacAddress p2pDeviceAddress; - u8 p2pClientInfoCount; - CsrWifiSmeP2pClientInfoType *p2PClientInfo; -} CsrWifiSmeP2pGroupInfo; - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfig - - DESCRIPTION - Configures the power-save behaviour of the driver and firmware. - - MEMBERS - powerSaveLevel - Power Save Level option - listenIntervalTu - Interval for waking to receive beacon frames - rxDtims - If TRUE, wake for DTIM every beacon period, to - allow the reception broadcast packets - d3AutoScanMode - Defines whether the autonomous scanning will be - turned off or will stay on during a D3 suspended - period - clientTrafficWindow - Deprecated - opportunisticPowerSave - Deprecated - noticeOfAbsence - Deprecated - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmePowerSaveLevel powerSaveLevel; - u16 listenIntervalTu; - u8 rxDtims; - CsrWifiSmeD3AutoScanMode d3AutoScanMode; - u8 clientTrafficWindow; - u8 opportunisticPowerSave; - u8 noticeOfAbsence; -} CsrWifiSmePowerConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfig - - DESCRIPTION - Configures the roaming behaviour of the driver and firmware - - MEMBERS - roamingBands - Defines the thresholds to determine the usability - level of the current connection. - roamingBands is indexed by the first 3 entries of - the CsrWifiSmeBasicUsability enum - disableSmoothRoaming - Disable the RSSI/SNR triggers from the Firmware - that the SME uses to detect the quality of the - connection. - This implicitly disables disableRoamScans - disableRoamScans - Disables the scanning for the roaming operation - reconnectLimit - Maximum number of times SME may reconnect in the - given interval - reconnectLimitIntervalMs - Interval for maximum number of times SME may - reconnect to the same Access Point - roamScanCfg - Scanning behaviour for the specifically aimed at - improving roaming performance. - roamScanCfg is indexed by the first 3 entries of - the CsrWifiSmeBasicUsability enum - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeRoamingBandData roamingBands[3]; - u8 disableSmoothRoaming; - u8 disableRoamScans; - u8 reconnectLimit; - u16 reconnectLimitIntervalMs; - CsrWifiSmeScanConfigData roamScanCfg[3]; -} CsrWifiSmeRoamingConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfig - - DESCRIPTION - Parameters for the autonomous scanning behaviour of the system - - MEMBERS - scanCfg - Scan configuration data. - Indexed by the CsrWifiSmeBasicUsability enum - disableAutonomousScans - Enables or disables the autonomous scan - maxResults - Maximum number of results to be cached in the SME - highRssiThreshold - High received signal strength indication threshold - in dBm for an AP above which the system will - report scan indications - lowRssiThreshold - Low received signal strength indication threshold - in dBm for an AP below which the system will - report scan indications - deltaRssiThreshold - Minimum difference for received signal strength - indication in dBm for an AP which trigger a scan - indication to be sent. - highSnrThreshold - High Signal to Noise Ratio threshold in dB for an - AP above which the system will report scan - indications - lowSnrThreshold - Low Signal to Noise Ratio threshold in dB for an - AP below which the system will report scan - indications - deltaSnrThreshold - Minimum difference for Signal to Noise Ratio in dB - for an AP which trigger a scan indication to be - sent. - passiveChannelListCount - Number of channels to be scanned passively. - passiveChannelList - Points to the first channel to be scanned - passively , if any. - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeScanConfigData scanCfg[4]; - u8 disableAutonomousScans; - u16 maxResults; - s8 highRssiThreshold; - s8 lowRssiThreshold; - s8 deltaRssiThreshold; - s8 highSnrThreshold; - s8 lowSnrThreshold; - s8 deltaSnrThreshold; - u16 passiveChannelListCount; - u8 *passiveChannelList; -} CsrWifiSmeScanConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeScanResult - - DESCRIPTION - This structure defines the scan result for each BSS found - - MEMBERS - ssid - Service set identifier - bssid - BSS identifier - rssi - Received signal strength indication in dBm - snr - Signal to noise ratio in dB - ifIndex - Indicates the radio interface - beaconPeriodTu - Interval between beacon frames - timeStamp - Timestamp in the BSS - localTime - Timestamp in the Access Point - channelFrequency - Channel frequency - capabilityInformation - Capabilities of the BSS. - channelNumber - Channel number - usability - Indicates the usability level. - bssType - Type of BSS. - informationElementsLength - Number of bytes of the information elements - received as part of the beacon or probe - response. - informationElements - Points to the first byte of the IEs received - as part of the beacon or probe response. - The format of the IEs is as specified in the - IEEE 802.11 specification. - p2pDeviceRole - Role of the P2P device. - Relevant only if bssType is - CSR_WIFI_SME_BSS_TYPE_P2P - deviceInfo - Union containing P2P device info which - depends on p2pDeviceRole parameter. - deviceInforeservedCli - - deviceInfogroupInfo - - deviceInforeservedNone - - deviceInfostandalonedevInfo - - -*******************************************************************************/ -typedef struct -{ - CsrWifiSsid ssid; - CsrWifiMacAddress bssid; - s16 rssi; - s16 snr; - CsrWifiSmeRadioIF ifIndex; - u16 beaconPeriodTu; - CsrWifiSmeTsfTime timeStamp; - CsrWifiSmeTsfTime localTime; - u16 channelFrequency; - u16 capabilityInformation; - u8 channelNumber; - CsrWifiSmeBasicUsability usability; - CsrWifiSmeBssType bssType; - u16 informationElementsLength; - u8 *informationElements; - CsrWifiSmeP2pRole p2pDeviceRole; - union { - CsrWifiSmeEmpty reservedCli; - CsrWifiSmeP2pGroupInfo groupInfo; - CsrWifiSmeEmpty reservedNone; - CsrWifiSmeDeviceInfo standalonedevInfo; - } deviceInfo; -} CsrWifiSmeScanResult; - -/******************************************************************************* - - NAME - CsrWifiSmeStaConfig - - DESCRIPTION - Station configuration options in the SME - - MEMBERS - connectionQualityRssiChangeTrigger - Sets the difference of RSSI - measurements which triggers reports - from the Firmware - connectionQualitySnrChangeTrigger - Sets the difference of SNR measurements - which triggers reports from the - Firmware - wmmModeMask - Mask containing one or more values from - CsrWifiSmeWmmMode - ifIndex - Indicates the band of frequencies used - allowUnicastUseGroupCipher - If TRUE, it allows to use groupwise - keys if no pairwise key is specified - enableOpportunisticKeyCaching - If TRUE, enables the Opportunistic Key - Caching feature - -*******************************************************************************/ -typedef struct -{ - u8 connectionQualityRssiChangeTrigger; - u8 connectionQualitySnrChangeTrigger; - CsrWifiSmeWmmModeMask wmmModeMask; - CsrWifiSmeRadioIF ifIndex; - u8 allowUnicastUseGroupCipher; - u8 enableOpportunisticKeyCaching; -} CsrWifiSmeStaConfig; - -/******************************************************************************* - - NAME - CsrWifiSmeWep128Keys - - DESCRIPTION - Structure holding WEP Authentication Type and WEP keys that can be used - when using WEP128. - - MEMBERS - wepAuthType - Mask to select the WEP authentication type (Open or Shared) - selectedWepKey - Index to one of the four keys below indicating the - currently used WEP key. Mapping From SME/User -> firmware. - Key 1 -> Index 0. Key 2 -> Index 1. key 3 -> Index 2. Key - 4-> Index 3. - key1 - Value for key number 1. - key2 - Value for key number 2. - key3 - Value for key number 3. - key4 - Value for key number 4. - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeWepAuthMode wepAuthType; - u8 selectedWepKey; - u8 key1[13]; - u8 key2[13]; - u8 key3[13]; - u8 key4[13]; -} CsrWifiSmeWep128Keys; - -/******************************************************************************* - - NAME - CsrWifiSmeWep64Keys - - DESCRIPTION - Structure holding WEP Authentication Type and WEP keys that can be used - when using WEP64. - - MEMBERS - wepAuthType - Mask to select the WEP authentication type (Open or Shared) - selectedWepKey - Index to one of the four keys below indicating the - currently used WEP key. Mapping From SME/User -> firmware. - Key 1 -> Index 0. Key 2 -> Index 1. key 3 -> Index 2. Key - 4-> Index 3. - key1 - Value for key number 1. - key2 - Value for key number 2. - key3 - Value for key number 3. - key4 - Value for key number 4. - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeWepAuthMode wepAuthType; - u8 selectedWepKey; - u8 key1[5]; - u8 key2[5]; - u8 key3[5]; - u8 key4[5]; -} CsrWifiSmeWep64Keys; - -/******************************************************************************* - - NAME - CsrWifiSmeWepAuth - - DESCRIPTION - WEP authentication parameter structure - - MEMBERS - wepKeyType - WEP key try (128 bit or 64 bit) - wepCredentials - Union containing credentials which depends on - wepKeyType parameter. - wepCredentialswep128Key - - wepCredentialswep64Key - - -*******************************************************************************/ -typedef struct -{ - CsrWifiSmeWepCredentialType wepKeyType; - union { - CsrWifiSmeWep128Keys wep128Key; - CsrWifiSmeWep64Keys wep64Key; - } wepCredentials; -} CsrWifiSmeWepAuth; - -/******************************************************************************* - - NAME - CsrWifiSmeWpsConfig - - DESCRIPTION - Structure holding AP WPS Config data. - - MEMBERS - wpsVersion - wpsVersion should be 0x10 for WPS1.0h or 0x20 for - WSC2.0 - uuid - uuid. - deviceName - Device name upto 32 characters without '\0'. - deviceNameLength - deviceNameLen. - manufacturer - manufacturer: CSR - manufacturerLength - manufacturerLen. - modelName - modelName Unifi - modelNameLength - modelNameLen. - modelNumber - modelNumber - modelNumberLength - modelNumberLen. - serialNumber - serialNumber - primDeviceType - Primary WPS device type - secondaryDeviceTypeCount - Number of secondary device types - secondaryDeviceType - list of secondary WPS device types - configMethods - Supported WPS config methods - rfBands - RfBands. - osVersion - Os version on which the device is running - -*******************************************************************************/ -typedef struct -{ - u8 wpsVersion; - u8 uuid[16]; - u8 deviceName[32]; - u8 deviceNameLength; - u8 manufacturer[64]; - u8 manufacturerLength; - u8 modelName[32]; - u8 modelNameLength; - u8 modelNumber[32]; - u8 modelNumberLength; - u8 serialNumber[32]; - CsrWifiSmeWpsDeviceType primDeviceType; - u8 secondaryDeviceTypeCount; - CsrWifiSmeWpsDeviceType *secondaryDeviceType; - CsrWifiSmeWpsConfigTypeMask configMethods; - u8 rfBands; - u8 osVersion[4]; -} CsrWifiSmeWpsConfig; - - -/* Downstream */ -#define CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST (0x0000) - -#define CSR_WIFI_SME_ACTIVATE_REQ ((CsrWifiSmePrim) (0x0000 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_ADHOC_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0001 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_ADHOC_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0002 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_BLACKLIST_REQ ((CsrWifiSmePrim) (0x0003 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CALIBRATION_DATA_GET_REQ ((CsrWifiSmePrim) (0x0004 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CALIBRATION_DATA_SET_REQ ((CsrWifiSmePrim) (0x0005 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CCX_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0006 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CCX_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0007 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_COEX_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0008 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_COEX_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0009 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_COEX_INFO_GET_REQ ((CsrWifiSmePrim) (0x000A + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECT_REQ ((CsrWifiSmePrim) (0x000B + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECTION_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x000C + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECTION_INFO_GET_REQ ((CsrWifiSmePrim) (0x000D + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECTION_STATS_GET_REQ ((CsrWifiSmePrim) (0x000E + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_DEACTIVATE_REQ ((CsrWifiSmePrim) (0x000F + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_DISCONNECT_REQ ((CsrWifiSmePrim) (0x0010 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_EVENT_MASK_SET_REQ ((CsrWifiSmePrim) (0x0011 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_HOST_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0012 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_HOST_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0013 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_KEY_REQ ((CsrWifiSmePrim) (0x0014 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_LINK_QUALITY_GET_REQ ((CsrWifiSmePrim) (0x0015 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0016 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0017 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_GET_NEXT_REQ ((CsrWifiSmePrim) (0x0018 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_GET_REQ ((CsrWifiSmePrim) (0x0019 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_SET_REQ ((CsrWifiSmePrim) (0x001A + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_MULTICAST_ADDRESS_REQ ((CsrWifiSmePrim) (0x001B + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_PACKET_FILTER_SET_REQ ((CsrWifiSmePrim) (0x001C + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_PERMANENT_MAC_ADDRESS_GET_REQ ((CsrWifiSmePrim) (0x001D + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_PMKID_REQ ((CsrWifiSmePrim) (0x001E + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_POWER_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x001F + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_POWER_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0020 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_INFO_GET_REQ ((CsrWifiSmePrim) (0x0021 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_ROAMING_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0022 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_ROAMING_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0023 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0024 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0025 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_FULL_REQ ((CsrWifiSmePrim) (0x0026 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_RESULTS_FLUSH_REQ ((CsrWifiSmePrim) (0x0027 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_RESULTS_GET_REQ ((CsrWifiSmePrim) (0x0028 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SME_STA_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0029 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SME_STA_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x002A + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_STATION_MAC_ADDRESS_GET_REQ ((CsrWifiSmePrim) (0x002B + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_TSPEC_REQ ((CsrWifiSmePrim) (0x002C + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_VERSIONS_GET_REQ ((CsrWifiSmePrim) (0x002D + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_WIFI_FLIGHTMODE_REQ ((CsrWifiSmePrim) (0x002E + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_WIFI_OFF_REQ ((CsrWifiSmePrim) (0x002F + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_WIFI_ON_REQ ((CsrWifiSmePrim) (0x0030 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CLOAKED_SSIDS_SET_REQ ((CsrWifiSmePrim) (0x0031 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_CLOAKED_SSIDS_GET_REQ ((CsrWifiSmePrim) (0x0032 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SME_COMMON_CONFIG_GET_REQ ((CsrWifiSmePrim) (0x0033 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SME_COMMON_CONFIG_SET_REQ ((CsrWifiSmePrim) (0x0034 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_INTERFACE_CAPABILITY_GET_REQ ((CsrWifiSmePrim) (0x0035 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_WPS_CONFIGURATION_REQ ((CsrWifiSmePrim) (0x0036 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) -#define CSR_WIFI_SME_SET_REQ ((CsrWifiSmePrim) (0x0037 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST)) - - -#define CSR_WIFI_SME_PRIM_DOWNSTREAM_HIGHEST (0x0037 + CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST) - -/* Upstream */ -#define CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST (0x0000 + CSR_PRIM_UPSTREAM) - -#define CSR_WIFI_SME_ACTIVATE_CFM ((CsrWifiSmePrim)(0x0000 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ADHOC_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x0001 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ADHOC_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x0002 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ASSOCIATION_COMPLETE_IND ((CsrWifiSmePrim)(0x0003 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ASSOCIATION_START_IND ((CsrWifiSmePrim)(0x0004 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_BLACKLIST_CFM ((CsrWifiSmePrim)(0x0005 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CALIBRATION_DATA_GET_CFM ((CsrWifiSmePrim)(0x0006 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CALIBRATION_DATA_SET_CFM ((CsrWifiSmePrim)(0x0007 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CCX_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x0008 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CCX_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x0009 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_COEX_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x000A + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_COEX_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x000B + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_COEX_INFO_GET_CFM ((CsrWifiSmePrim)(0x000C + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECT_CFM ((CsrWifiSmePrim)(0x000D + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECTION_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x000E + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECTION_INFO_GET_CFM ((CsrWifiSmePrim)(0x000F + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECTION_QUALITY_IND ((CsrWifiSmePrim)(0x0010 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CONNECTION_STATS_GET_CFM ((CsrWifiSmePrim)(0x0011 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_DEACTIVATE_CFM ((CsrWifiSmePrim)(0x0012 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_DISCONNECT_CFM ((CsrWifiSmePrim)(0x0013 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_EVENT_MASK_SET_CFM ((CsrWifiSmePrim)(0x0014 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_HOST_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x0015 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_HOST_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x0016 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_IBSS_STATION_IND ((CsrWifiSmePrim)(0x0017 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_KEY_CFM ((CsrWifiSmePrim)(0x0018 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_LINK_QUALITY_GET_CFM ((CsrWifiSmePrim)(0x0019 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_MEDIA_STATUS_IND ((CsrWifiSmePrim)(0x001A + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x001B + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x001C + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_GET_CFM ((CsrWifiSmePrim)(0x001D + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_GET_NEXT_CFM ((CsrWifiSmePrim)(0x001E + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIB_SET_CFM ((CsrWifiSmePrim)(0x001F + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_MIC_FAILURE_IND ((CsrWifiSmePrim)(0x0020 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_MULTICAST_ADDRESS_CFM ((CsrWifiSmePrim)(0x0021 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_PACKET_FILTER_SET_CFM ((CsrWifiSmePrim)(0x0022 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_PERMANENT_MAC_ADDRESS_GET_CFM ((CsrWifiSmePrim)(0x0023 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_PMKID_CANDIDATE_LIST_IND ((CsrWifiSmePrim)(0x0024 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_PMKID_CFM ((CsrWifiSmePrim)(0x0025 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_POWER_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x0026 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_POWER_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x0027 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_REGULATORY_DOMAIN_INFO_GET_CFM ((CsrWifiSmePrim)(0x0028 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ROAM_COMPLETE_IND ((CsrWifiSmePrim)(0x0029 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ROAM_START_IND ((CsrWifiSmePrim)(0x002A + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ROAMING_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x002B + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ROAMING_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x002C + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x002D + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x002E + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_FULL_CFM ((CsrWifiSmePrim)(0x002F + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_RESULT_IND ((CsrWifiSmePrim)(0x0030 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_RESULTS_FLUSH_CFM ((CsrWifiSmePrim)(0x0031 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SCAN_RESULTS_GET_CFM ((CsrWifiSmePrim)(0x0032 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SME_STA_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x0033 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SME_STA_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x0034 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_STATION_MAC_ADDRESS_GET_CFM ((CsrWifiSmePrim)(0x0035 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_TSPEC_IND ((CsrWifiSmePrim)(0x0036 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_TSPEC_CFM ((CsrWifiSmePrim)(0x0037 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_VERSIONS_GET_CFM ((CsrWifiSmePrim)(0x0038 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_WIFI_FLIGHTMODE_CFM ((CsrWifiSmePrim)(0x0039 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_WIFI_OFF_IND ((CsrWifiSmePrim)(0x003A + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_WIFI_OFF_CFM ((CsrWifiSmePrim)(0x003B + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_WIFI_ON_CFM ((CsrWifiSmePrim)(0x003C + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CLOAKED_SSIDS_SET_CFM ((CsrWifiSmePrim)(0x003D + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CLOAKED_SSIDS_GET_CFM ((CsrWifiSmePrim)(0x003E + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_WIFI_ON_IND ((CsrWifiSmePrim)(0x003F + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SME_COMMON_CONFIG_GET_CFM ((CsrWifiSmePrim)(0x0040 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_SME_COMMON_CONFIG_SET_CFM ((CsrWifiSmePrim)(0x0041 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_INTERFACE_CAPABILITY_GET_CFM ((CsrWifiSmePrim)(0x0042 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_ERROR_IND ((CsrWifiSmePrim)(0x0043 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_INFO_IND ((CsrWifiSmePrim)(0x0044 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_CORE_DUMP_IND ((CsrWifiSmePrim)(0x0045 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_AMP_STATUS_CHANGE_IND ((CsrWifiSmePrim)(0x0046 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) -#define CSR_WIFI_SME_WPS_CONFIGURATION_CFM ((CsrWifiSmePrim)(0x0047 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST)) - -#define CSR_WIFI_SME_PRIM_UPSTREAM_HIGHEST (0x0047 + CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST) - -#define CSR_WIFI_SME_PRIM_DOWNSTREAM_COUNT (CSR_WIFI_SME_PRIM_DOWNSTREAM_HIGHEST + 1 - CSR_WIFI_SME_PRIM_DOWNSTREAM_LOWEST) -#define CSR_WIFI_SME_PRIM_UPSTREAM_COUNT (CSR_WIFI_SME_PRIM_UPSTREAM_HIGHEST + 1 - CSR_WIFI_SME_PRIM_UPSTREAM_LOWEST) - -/******************************************************************************* - - NAME - CsrWifiSmeActivateReq - - DESCRIPTION - The WMA sends this primitive to activate the SME. - The WMA must activate the SME before it can send any other primitive. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeActivateReq; - -/******************************************************************************* - - NAME - CsrWifiSmeAdhocConfigGetReq - - DESCRIPTION - This primitive gets the value of the adHocConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeAdhocConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeAdhocConfigSetReq - - DESCRIPTION - This primitive sets the value of the adHocConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - adHocConfig - Sets the values to use when starting an ad hoc network. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeAdHocConfig adHocConfig; -} CsrWifiSmeAdhocConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeBlacklistReq - - DESCRIPTION - The wireless manager application should call this primitive to notify the - driver of any networks that should not be connected to. The interface - allows the wireless manager application to query, add, remove, and flush - the BSSIDs that the driver may not connect or roam to. - When this primitive adds to the black list the BSSID to which the SME is - currently connected, the SME will try to roam, if applicable, to another - BSSID in the same ESS; if the roaming procedure fails, the SME will - disconnect. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - action - The value of the CsrWifiSmeListAction parameter instructs - the driver to modify or provide the list of blacklisted - networks. - setAddressCount - Number of BSSIDs sent with this primitive - setAddresses - Pointer to the list of BBSIDs sent with the primitive, set - to NULL if none is sent. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeListAction action; - u8 setAddressCount; - CsrWifiMacAddress *setAddresses; -} CsrWifiSmeBlacklistReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCalibrationDataGetReq - - DESCRIPTION - This primitive retrieves the Wi-Fi radio calibration data. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeCalibrationDataGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCalibrationDataSetReq - - DESCRIPTION - This primitive sets the Wi-Fi radio calibration data. - The usage of the primitive with proper calibration data will avoid - time-consuming configuration after power-up. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - calibrationDataLength - Number of bytes in the buffer pointed by - calibrationData - calibrationData - Pointer to a buffer of length calibrationDataLength - containing the calibration data - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 calibrationDataLength; - u8 *calibrationData; -} CsrWifiSmeCalibrationDataSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfigGetReq - - DESCRIPTION - This primitive gets the value of the CcxConfig parameter. - CURRENTLY NOT SUPPORTED. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeCcxConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfigSetReq - - DESCRIPTION - This primitive sets the value of the CcxConfig parameter. - CURRENTLY NOT SUPPORTED. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - ccxConfig - Currently not supported - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeCcxConfig ccxConfig; -} CsrWifiSmeCcxConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfigGetReq - - DESCRIPTION - This primitive gets the value of the CoexConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeCoexConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfigSetReq - - DESCRIPTION - This primitive sets the value of the CoexConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - coexConfig - Configures the coexistence behaviour - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeCoexConfig coexConfig; -} CsrWifiSmeCoexConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCoexInfoGetReq - - DESCRIPTION - This primitive gets the value of the CoexInfo parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeCoexInfoGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectReq - - DESCRIPTION - The wireless manager application calls this primitive to start the - process of joining an 802.11 wireless network or to start an ad hoc - network. - The structure pointed by connectionConfig contains parameters describing - the network to join or, in case of an ad hoc network, to host or join. - The SME will select a network, perform the IEEE 802.11 Join, Authenticate - and Associate exchanges. - The SME selects the networks from the current scan list that match both - the SSID and BSSID, however either or both of these may be the wildcard - value. Using this rule, the following operations are possible: - * To connect to a network by name, specify the SSID and set the BSSID to - 0xFF 0xFF 0xFF 0xFF 0xFF 0xFF. If there are two or more networks visible, - the SME will select the one with the strongest signal. - * To connect to a specific network, specify the BSSID. The SSID is - optional, but if given it must match the SSID of the network. An empty - SSID may be specified by setting the SSID length to zero. Please note - that if the BSSID is specified (i.e. not equal to 0xFF 0xFF 0xFF 0xFF - 0xFF 0xFF), the SME will not attempt to roam if signal conditions become - poor, even if there is an alternative AP with an SSID that matches the - current network SSID. - * To connect to any network matching the other parameters (i.e. security, - etc), set the SSID length to zero and set the BSSID to 0xFF 0xFF 0xFF - 0xFF 0xFF 0xFF. In this case, the SME will order all available networks - by their signal strengths and will iterate through this list until it - successfully connects. - NOTE: Specifying the BSSID will restrict the selection to one specific - network. If SSID and BSSID are given, they must both match the network - for it to be selected. To select a network based on the SSID only, the - wireless manager application must set the BSSID to 0xFF 0xFF 0xFF 0xFF - 0xFF 0xFF. - The SME will try to connect to each network that matches the provided - parameters, one by one, until it succeeds or has tried unsuccessfully - with all the matching networks. - If there is no network that matches the parameters and the request allows - to host an ad hoc network, the SME will advertise a new ad hoc network - instead. - If the SME cannot connect, it will notify the failure in the confirm. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - connectionConfig - Describes the candidate network to join or to host. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeConnectionConfig connectionConfig; -} CsrWifiSmeConnectReq; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionConfigGetReq - - DESCRIPTION - This primitive gets the value of the ConnectionConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeConnectionConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionInfoGetReq - - DESCRIPTION - This primitive gets the value of the ConnectionInfo parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeConnectionInfoGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionStatsGetReq - - DESCRIPTION - This primitive gets the value of the ConnectionStats parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeConnectionStatsGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeDeactivateReq - - DESCRIPTION - The WMA sends this primitive to deactivate the SME. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeDeactivateReq; - -/******************************************************************************* - - NAME - CsrWifiSmeDisconnectReq - - DESCRIPTION - The wireless manager application may disconnect from the current network - by calling this primitive - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeDisconnectReq; - -/******************************************************************************* - - NAME - CsrWifiSmeEventMaskSetReq - - DESCRIPTION - The wireless manager application may register with the SME to receive - notification of interesting events. Indications will be sent only if the - wireless manager explicitly registers to be notified of that event. - indMask is a bit mask of values defined in CsrWifiSmeIndicationsMask. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - indMask - Set mask with values from CsrWifiSmeIndications - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeIndicationsMask indMask; -} CsrWifiSmeEventMaskSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfigGetReq - - DESCRIPTION - This primitive gets the value of the hostConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeHostConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfigSetReq - - DESCRIPTION - This primitive sets the value of the hostConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - hostConfig - Communicates a change of host power state (for example, on - mains power, on battery power etc) and of the periodicity of - traffic data - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeHostConfig hostConfig; -} CsrWifiSmeHostConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeKeyReq - - DESCRIPTION - The wireless manager application calls this primitive to add or remove - keys that the chip should use for encryption of data. - The interface allows the wireless manager application to add and remove - keys according to the specified action. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - action - The value of the CsrWifiSmeListAction parameter instructs the - driver to modify or provide the list of keys. - CSR_WIFI_SME_LIST_ACTION_GET is not supported here. - key - Key to be added or removed - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeListAction action; - CsrWifiSmeKey key; -} CsrWifiSmeKeyReq; - -/******************************************************************************* - - NAME - CsrWifiSmeLinkQualityGetReq - - DESCRIPTION - This primitive gets the value of the LinkQuality parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeLinkQualityGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfigGetReq - - DESCRIPTION - This primitive gets the value of the MibConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeMibConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfigSetReq - - DESCRIPTION - This primitive sets the value of the MibConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - mibConfig - Conveys the desired value of various IEEE 802.11 attributes as - currently configured - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeMibConfig mibConfig; -} CsrWifiSmeMibConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeMibGetNextReq - - DESCRIPTION - To read a sequence of MIB parameters, for example a table, call this - primitive to find the name of the next MIB variable - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to a VarBind or VarBindList containing the - name(s) of the MIB variable(s) to search from. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 mibAttributeLength; - u8 *mibAttribute; -} CsrWifiSmeMibGetNextReq; - -/******************************************************************************* - - NAME - CsrWifiSmeMibGetReq - - DESCRIPTION - The wireless manager application calls this primitive to retrieve one or - more MIB variables. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to the VarBind or VarBindList containing the - names of the MIB variables to be retrieved - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 mibAttributeLength; - u8 *mibAttribute; -} CsrWifiSmeMibGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeMibSetReq - - DESCRIPTION - The SME provides raw access to the MIB on the chip, which may be used by - some configuration or diagnostic utilities, but is not normally needed by - the wireless manager application. - The MIB access functions use BER encoded names (OID) of the MIB - parameters and BER encoded values, as described in the chip Host - Interface Protocol Specification. - The MIB parameters are described in 'Wi-Fi 5.0.0 Management Information - Base Reference Guide'. - The wireless manager application calls this primitive to set one or more - MIB variables - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to the VarBind or VarBindList containing the - names and values of the MIB variables to set - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 mibAttributeLength; - u8 *mibAttribute; -} CsrWifiSmeMibSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeMulticastAddressReq - - DESCRIPTION - The wireless manager application calls this primitive to specify the - multicast addresses which the chip should recognise. The interface allows - the wireless manager application to query, add, remove and flush the - multicast addresses for the network interface according to the specified - action. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - action - The value of the CsrWifiSmeListAction parameter - instructs the driver to modify or provide the list of - MAC addresses. - setAddressesCount - Number of MAC addresses sent with the primitive - setAddresses - Pointer to the list of MAC Addresses sent with the - primitive, set to NULL if none is sent. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeListAction action; - u8 setAddressesCount; - CsrWifiMacAddress *setAddresses; -} CsrWifiSmeMulticastAddressReq; - -/******************************************************************************* - - NAME - CsrWifiSmePacketFilterSetReq - - DESCRIPTION - The wireless manager application should call this primitive to enable or - disable filtering of broadcast packets: uninteresting broadcast packets - will be dropped by the Wi-Fi chip, instead of passing them up to the - host. - This has the advantage of saving power in the host application processor - as it removes the need to process unwanted packets. - All broadcast packets are filtered according to the filter and the filter - mode provided, except ARP packets, which are filtered using - arpFilterAddress. - Filters are not cumulative: only the parameters specified in the most - recent successful request are significant. - For more information, see 'UniFi Firmware API Specification'. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - filterLength - Length of the filter in bytes. - filterLength=0 disables the filter previously set - filter - Points to the first byte of the filter provided, if any. - This shall include zero or more instance of the - information elements of one of these types - * Traffic Classification (TCLAS) elements - * WMM-SA TCLAS elements - mode - Specifies whether the filter selects or excludes packets - matching the filter - arpFilterAddress - IPv4 address to be used for filtering the ARP packets. - * If the specified address is the IPv4 broadcast address - (255.255.255.255), all ARP packets are reported to the - host, - * If the specified address is NOT the IPv4 broadcast - address, only ARP packets with the specified address in - the Source or Target Protocol Address fields are reported - to the host - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u16 filterLength; - u8 *filter; - CsrWifiSmePacketFilterMode mode; - CsrWifiIp4Address arpFilterAddress; -} CsrWifiSmePacketFilterSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmePermanentMacAddressGetReq - - DESCRIPTION - This primitive retrieves the MAC address stored in EEPROM - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmePermanentMacAddressGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmePmkidReq - - DESCRIPTION - The wireless manager application calls this primitive to request an - operation on the SME PMKID list. - The action argument specifies the operation to perform. - When the connection is complete, the wireless manager application may - then send and receive EAPOL packets to complete WPA or WPA2 - authentication if appropriate. - The wireless manager application can then pass the resulting encryption - keys using this primitive. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - action - The value of the CsrWifiSmeListAction parameter instructs - the driver to modify or provide the list of PMKIDs. - setPmkidsCount - Number of PMKIDs sent with the primitive - setPmkids - Pointer to the list of PMKIDs sent with the primitive, set - to NULL if none is sent. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeListAction action; - u8 setPmkidsCount; - CsrWifiSmePmkid *setPmkids; -} CsrWifiSmePmkidReq; - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfigGetReq - - DESCRIPTION - This primitive gets the value of the PowerConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmePowerConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfigSetReq - - DESCRIPTION - This primitive sets the value of the PowerConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - powerConfig - Power saving configuration - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmePowerConfig powerConfig; -} CsrWifiSmePowerConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeRegulatoryDomainInfoGetReq - - DESCRIPTION - This primitive gets the value of the RegulatoryDomainInfo parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeRegulatoryDomainInfoGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfigGetReq - - DESCRIPTION - This primitive gets the value of the RoamingConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeRoamingConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfigSetReq - - DESCRIPTION - This primitive sets the value of the RoamingConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - roamingConfig - Desired roaming behaviour values - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeRoamingConfig roamingConfig; -} CsrWifiSmeRoamingConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigGetReq - - DESCRIPTION - This primitive gets the value of the ScanConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeScanConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigSetReq - - DESCRIPTION - This primitive sets the value of the ScanConfig parameter. - The SME normally configures the firmware to perform autonomous scanning - without involving the host. - The firmware passes beacon / probe response or indicates loss of beacon - on certain changes of state, for example: - * A new AP is seen for the first time - * An AP is no longer visible - * The signal strength of an AP changes by more than a certain amount, as - configured by the thresholds in the scanConfig parameter - In addition to the autonomous scan, the wireless manager application may - request a scan at any time using CSR_WIFI_SME_SCAN_FULL_REQ. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - scanConfig - Reports the configuration for the autonomous scanning behaviour - of the firmware - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeScanConfig scanConfig; -} CsrWifiSmeScanConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeScanFullReq - - DESCRIPTION - The wireless manager application should call this primitive to request a - full scan. - Channels are scanned actively or passively according to the requirement - set by regulatory domain. - If the SME receives this primitive while a full scan is going on, the new - request is buffered and it will be served after the current full scan is - completed. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - ssidCount - Number of SSIDs provided. - If it is 0, the SME will attempt to detect any network - ssid - Points to the first SSID provided, if any. - bssid - BSS identifier. - If it is equal to FF-FF-FF-FF-FF, the SME will listen for - messages from any BSS. - If it is different from FF-FF-FF-FF-FF and any SSID is - provided, one SSID must match the network of the BSS. - forceScan - Forces the scan even if the SME is in a state which would - normally prevent it (e.g. autonomous scan is running). - bssType - Type of BSS to scan for - scanType - Type of scan to perform - channelListCount - Number of channels provided. - If it is 0, the SME will initiate a scan of all the - supported channels that are permitted by the current - regulatory domain. - channelList - Points to the first channel , or NULL if channelListCount - is zero. - probeIeLength - Length of the information element in bytes to be sent - with the probe message. - probeIe - Points to the first byte of the information element to be - sent with the probe message. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u8 ssidCount; - CsrWifiSsid *ssid; - CsrWifiMacAddress bssid; - u8 forceScan; - CsrWifiSmeBssType bssType; - CsrWifiSmeScanType scanType; - u16 channelListCount; - u8 *channelList; - u16 probeIeLength; - u8 *probeIe; -} CsrWifiSmeScanFullReq; - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultsFlushReq - - DESCRIPTION - The Wireless Manager calls this primitive to ask the SME to delete all - scan results from its cache, except for the scan result of any currently - connected network. - As scan results are received by the SME from the firmware, they are - cached in the SME memory. - Any time the Wireless Manager requests scan results, they are returned - from the SME internal cache. - For some applications it may be desirable to clear this cache prior to - requesting that a scan be performed; this will ensure that the cache then - only contains the networks detected in the most recent scan. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeScanResultsFlushReq; - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultsGetReq - - DESCRIPTION - The wireless manager application calls this primitive to retrieve the - current set of scan results, either after receiving a successful - CSR_WIFI_SME_SCAN_FULL_CFM, or to get autonomous scan results. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeScanResultsGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeSmeStaConfigGetReq - - DESCRIPTION - This primitive gets the value of the SmeStaConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; -} CsrWifiSmeSmeStaConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeSmeStaConfigSetReq - - DESCRIPTION - This primitive sets the value of the SmeConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - smeConfig - SME Station Parameters to be set - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeStaConfig smeConfig; -} CsrWifiSmeSmeStaConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeStationMacAddressGetReq - - DESCRIPTION - This primitives is used to retrieve the current MAC address used by the - station. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeStationMacAddressGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeTspecReq - - DESCRIPTION - The wireless manager application should call this primitive to use the - TSPEC feature. - The chip supports the use of TSPECs and TCLAS for the use of IEEE - 802.11/WMM Quality of Service features. - The API allows the wireless manager application to supply a correctly - formatted TSPEC and TCLAS pair to the driver. - After performing basic validation, the driver negotiates the installation - of the TSPEC with the AP as defined by the 802.11 specification. - The driver retains all TSPEC and TCLAS pairs until they are specifically - removed. - It is not compulsory for a TSPEC to have a TCLAS (NULL is used to - indicate that no TCLAS is supplied), while a TCLASS always require a - TSPEC. - The format of the TSPEC element is specified in 'WMM (including WMM Power - Save) Specification - Version 1.1' and 'ANSI/IEEE Std 802.11-REVmb/D3.0'. - For more information, see 'UniFi Configuring WMM and WMM-PS'. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - action - Specifies the action to be carried out on the list of TSPECs. - CSR_WIFI_SME_LIST_ACTION_FLUSH is not applicable here. - transactionId - Unique Transaction ID for the TSPEC, as assigned by the - driver - strict - If it set to false, allows the SME to perform automatic - TSPEC negotiation - ctrlMask - Additional TSPEC configuration for CCX. - Set mask with values from CsrWifiSmeTspecCtrl. - CURRENTLY NOT SUPPORTED - tspecLength - Length of the TSPEC. - tspec - Points to the first byte of the TSPEC - tclasLength - Length of the TCLAS. - If it is equal to 0, no TCLASS is provided for the TSPEC - tclas - Points to the first byte of the TCLAS, if any. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeListAction action; - u32 transactionId; - u8 strict; - CsrWifiSmeTspecCtrlMask ctrlMask; - u16 tspecLength; - u8 *tspec; - u16 tclasLength; - u8 *tclas; -} CsrWifiSmeTspecReq; - -/******************************************************************************* - - NAME - CsrWifiSmeVersionsGetReq - - DESCRIPTION - This primitive gets the value of the Versions parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeVersionsGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeWifiFlightmodeReq - - DESCRIPTION - The wireless manager application may call this primitive on boot-up of - the platform to ensure that the chip is placed in a mode that prevents - any emission of RF energy. - This primitive is an alternative to CSR_WIFI_SME_WIFI_ON_REQ. - As in CSR_WIFI_SME_WIFI_ON_REQ, it causes the download of the patch file - (if any) and the programming of the initial MIB settings (if supplied by - the WMA), but it also ensures that the chip is left in its lowest - possible power-mode with the radio subsystems disabled. - This feature is useful on platforms where power cannot be removed from - the chip (leaving the chip not initialised will cause it to consume more - power so calling this function ensures that the chip is initialised into - a low power mode but without entering a state where it could emit any RF - energy). - NOTE: this primitive does not cause the Wi-Fi to change state: Wi-Fi - stays conceptually off. Configuration primitives can be sent after - CSR_WIFI_SME_WIFI_FLIGHTMODE_REQ and the configuration will be maintained. - Requests that require the state of the Wi-Fi to be ON will return - CSR_WIFI_SME_STATUS_WIFI_OFF in their confirms. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - address - Optionally specifies a station MAC address. - In normal use, the manager should set the address to 0xFF - 0xFF 0xFF 0xFF 0xFF 0xFF, which will cause the chip to use - the MAC address in the MIB. - mibFilesCount - Number of provided data blocks with initial MIB values - mibFiles - Points to the first data block with initial MIB values. - These data blocks are typically the contents of the provided - files ufmib.dat and localmib.dat, available from the host - file system, if they exist. - These files typically contain radio tuning and calibration - values. - More values can be created using the Host Tools. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiMacAddress address; - u16 mibFilesCount; - CsrWifiSmeDataBlock *mibFiles; -} CsrWifiSmeWifiFlightmodeReq; - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOffReq - - DESCRIPTION - The wireless manager application calls this primitive to turn off the - chip, thus saving power when Wi-Fi is not in use. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeWifiOffReq; - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOnReq - - DESCRIPTION - The wireless manager application calls this primitive to turn on the - Wi-Fi chip. - If the Wi-Fi chip is currently off, the SME turns the Wi-Fi chip on, - downloads the patch file (if any), and programs the initial MIB settings - (if supplied by the WMA). - The patch file is not provided with the SME API; its downloading is - automatic and handled internally by the system. - The MIB settings, when provided, override the default values that the - firmware loads from EEPROM. - If the Wi-Fi chip is already on, the SME takes no action and returns a - successful status in the confirm. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - address - Optionally specifies a station MAC address. - In normal use, the manager should set the address to 0xFF - 0xFF 0xFF 0xFF 0xFF 0xFF, which will cause the chip to use - the MAC address in the MIB - mibFilesCount - Number of provided data blocks with initial MIB values - mibFiles - Points to the first data block with initial MIB values. - These data blocks are typically the contents of the provided - files ufmib.dat and localmib.dat, available from the host - file system, if they exist. - These files typically contain radio tuning and calibration - values. - More values can be created using the Host Tools. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiMacAddress address; - u16 mibFilesCount; - CsrWifiSmeDataBlock *mibFiles; -} CsrWifiSmeWifiOnReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidsSetReq - - DESCRIPTION - This primitive sets the list of cloaked SSIDs for which the WMA possesses - profiles. - When the driver detects a cloaked AP, the SME will explicitly scan for it - using the list of cloaked SSIDs provided it, and, if the scan succeeds, - it will report the AP to the WMA either via CSR_WIFI_SME_SCAN_RESULT_IND - (if registered) or via CSR_WIFI_SCAN_RESULT_GET_CFM. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - cloakedSsids - Sets the list of cloaked SSIDs - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeCloakedSsidConfig cloakedSsids; -} CsrWifiSmeCloakedSsidsSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidsGetReq - - DESCRIPTION - This primitive gets the value of the CloakedSsids parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeCloakedSsidsGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeSmeCommonConfigGetReq - - DESCRIPTION - This primitive gets the value of the Sme common parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeSmeCommonConfigGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeSmeCommonConfigSetReq - - DESCRIPTION - This primitive sets the value of the Sme common. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - deviceConfig - Configuration options in the SME - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeDeviceConfig deviceConfig; -} CsrWifiSmeSmeCommonConfigSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeInterfaceCapabilityGetReq - - DESCRIPTION - The Wireless Manager calls this primitive to ask the SME for the - capabilities of the supported interfaces - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; -} CsrWifiSmeInterfaceCapabilityGetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeWpsConfigurationReq - - DESCRIPTION - This primitive passes the WPS information for the device to SME. This may - be accepted only if no interface is active. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - wpsConfig - WPS config. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeWpsConfig wpsConfig; -} CsrWifiSmeWpsConfigurationReq; - -/******************************************************************************* - - NAME - CsrWifiSmeSetReq - - DESCRIPTION - Used to pass custom data to the SME. Format is the same as 802.11 Info - Elements => | Id | Length | Data - 1) Cmanr Test Mode "Id:0 Length:1 Data:0x00 = OFF 0x01 = ON" "0x00 0x01 - (0x00|0x01)" - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - dataLength - Number of bytes in the buffer pointed to by 'data' - data - Pointer to the buffer containing 'dataLength' bytes - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u32 dataLength; - u8 *data; -} CsrWifiSmeSetReq; - -/******************************************************************************* - - NAME - CsrWifiSmeActivateCfm - - DESCRIPTION - The SME sends this primitive when the activation is complete. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeActivateCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeAdhocConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - adHocConfig - Contains the values used when starting an Ad-hoc (IBSS) - connection. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeAdHocConfig adHocConfig; -} CsrWifiSmeAdhocConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeAdhocConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeAdhocConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeAssociationCompleteInd - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it whenever it completes an attempt to associate with an AP. If - the association was successful, status will be set to - CSR_WIFI_SME_STATUS_SUCCESS, otherwise status and deauthReason shall be - set to appropriate error codes. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the association procedure - connectionInfo - This parameter is relevant only if result is - CSR_WIFI_SME_STATUS_SUCCESS: - it points to the connection information for the new network - deauthReason - This parameter is relevant only if result is not - CSR_WIFI_SME_STATUS_SUCCESS: - if the AP deauthorised the station, it gives the reason of - the deauthorization - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeConnectionInfo connectionInfo; - CsrWifiSmeIEEE80211Reason deauthReason; -} CsrWifiSmeAssociationCompleteInd; - -/******************************************************************************* - - NAME - CsrWifiSmeAssociationStartInd - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it whenever it begins an attempt to associate with an AP. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - address - BSSID of the associating network - ssid - Service Set identifier of the associating network - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiMacAddress address; - CsrWifiSsid ssid; -} CsrWifiSmeAssociationStartInd; - -/******************************************************************************* - - NAME - CsrWifiSmeBlacklistCfm - - DESCRIPTION - The SME will call this primitive when the action on the blacklist has - completed. For a GET action, this primitive also reports the list of - BBSIDs in the blacklist. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - action - Action in the request - getAddressCount - This parameter is only relevant if action is - CSR_WIFI_SME_LIST_ACTION_GET: - number of BSSIDs sent with this primitive - getAddresses - Pointer to the list of BBSIDs sent with the primitive, set - to NULL if none is sent. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeListAction action; - u8 getAddressCount; - CsrWifiMacAddress *getAddresses; -} CsrWifiSmeBlacklistCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCalibrationDataGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - calibrationDataLength - Number of bytes in the buffer pointed by - calibrationData - calibrationData - Pointer to a buffer of length calibrationDataLength - containing the calibration data - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - u16 calibrationDataLength; - u8 *calibrationData; -} CsrWifiSmeCalibrationDataGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCalibrationDataSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeCalibrationDataSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - ccxConfig - Currently not supported - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeCcxConfig ccxConfig; -} CsrWifiSmeCcxConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCcxConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeCcxConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - coexConfig - Reports the parameters used to configure the coexistence - behaviour - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeCoexConfig coexConfig; -} CsrWifiSmeCoexConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCoexConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeCoexConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCoexInfoGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - coexInfo - Reports information and state related to coexistence. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeCoexInfo coexInfo; -} CsrWifiSmeCoexInfoGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectCfm - - DESCRIPTION - The SME calls this primitive when the connection exchange is complete or - all connection attempts fail. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request. - CSR_WIFI_SME_STATUS_NOT_FOUND: all attempts by the SME to - locate the requested AP failed - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeConnectCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - connectionConfig - Parameters used by the SME for selecting a network - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeConnectionConfig connectionConfig; -} CsrWifiSmeConnectionConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionInfoGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - connectionInfo - Information about the current connection - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeConnectionInfo connectionInfo; -} CsrWifiSmeConnectionInfoGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionQualityInd - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it whenever the value of the current connection quality - parameters change by more than a certain configurable amount. - The wireless manager application may configure the trigger thresholds for - this indication using the field in smeConfig parameter of - CSR_WIFI_SME_SME_CONFIG_SET_REQ. - Connection quality messages can be suppressed by setting both thresholds - to zero. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - linkQuality - Indicates the quality of the link - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeLinkQuality linkQuality; -} CsrWifiSmeConnectionQualityInd; - -/******************************************************************************* - - NAME - CsrWifiSmeConnectionStatsGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - connectionStats - Statistics for current connection. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeConnectionStats connectionStats; -} CsrWifiSmeConnectionStatsGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeDeactivateCfm - - DESCRIPTION - The SME sends this primitive when the deactivation is complete. - The WMA cannot send any more primitives until it actives the SME again - sending another CSR_WIFI_SME_ACTIVATE_REQ. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeDeactivateCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeDisconnectCfm - - DESCRIPTION - On reception of CSR_WIFI_SME_DISCONNECT_REQ the SME will perform a - disconnect operation, sending a CsrWifiSmeMediaStatusInd with - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED and then call this primitive when - disconnection is complete. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeDisconnectCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeEventMaskSetCfm - - DESCRIPTION - The SME calls the primitive to report the result of the request - primitive. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeEventMaskSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - hostConfig - Current host power state. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeHostConfig hostConfig; -} CsrWifiSmeHostConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeHostConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeHostConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeIbssStationInd - - DESCRIPTION - The SME will send this primitive to indicate that a station has joined or - left the ad-hoc network. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - address - MAC address of the station that has joined or left - isconnected - TRUE if the station joined, FALSE if the station left - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiMacAddress address; - u8 isconnected; -} CsrWifiSmeIbssStationInd; - -/******************************************************************************* - - NAME - CsrWifiSmeKeyCfm - - DESCRIPTION - The SME calls the primitive to report the result of the request - primitive. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - action - Action in the request - keyType - Type of the key added/deleted - peerMacAddress - Peer MAC Address of the key added/deleted - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeListAction action; - CsrWifiSmeKeyType keyType; - CsrWifiMacAddress peerMacAddress; -} CsrWifiSmeKeyCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeLinkQualityGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - linkQuality - Indicates the quality of the link - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeLinkQuality linkQuality; -} CsrWifiSmeLinkQualityGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeMediaStatusInd - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it when a network connection is established, lost or has moved to - another AP. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - mediaStatus - Indicates the media status - connectionInfo - This parameter is relevant only if the mediaStatus is - CSR_WIFI_SME_MEDIA_STATUS_CONNECTED: - it points to the connection information for the new network - disassocReason - This parameter is relevant only if the mediaStatus is - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED: - if a disassociation has occurred it gives the reason of the - disassociation - deauthReason - This parameter is relevant only if the mediaStatus is - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED: - if a deauthentication has occurred it gives the reason of - the deauthentication - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeMediaStatus mediaStatus; - CsrWifiSmeConnectionInfo connectionInfo; - CsrWifiSmeIEEE80211Reason disassocReason; - CsrWifiSmeIEEE80211Reason deauthReason; -} CsrWifiSmeMediaStatusInd; - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - mibConfig - Reports various IEEE 802.11 attributes as currently configured - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeMibConfig mibConfig; -} CsrWifiSmeMibConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeMibConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeMibConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeMibGetCfm - - DESCRIPTION - The SME calls this primitive to return the requested MIB variable values. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to the VarBind or VarBindList containing the - names and values of the MIB variables requested - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - u16 mibAttributeLength; - u8 *mibAttribute; -} CsrWifiSmeMibGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeMibGetNextCfm - - DESCRIPTION - The SME calls this primitive to return the requested MIB name(s). - The wireless manager application can then read the value of the MIB - variable using CSR_WIFI_SME_MIB_GET_REQ, using the names provided. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - mibAttributeLength - Length of mibAttribute - mibAttribute - Points to a VarBind or VarBindList containing the - name(s) of the MIB variable(s) lexicographically - following the name(s) given in the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - u16 mibAttributeLength; - u8 *mibAttribute; -} CsrWifiSmeMibGetNextCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeMibSetCfm - - DESCRIPTION - The SME calls the primitive to report the result of the set primitive. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeMibSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeMicFailureInd - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it whenever the chip firmware reports a MIC failure. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - secondFailure - TRUE if this indication is for a second failure in 60 - seconds - count - The number of MIC failure events since the connection was - established - address - MAC address of the transmitter that caused the MIC failure - keyType - Type of key for which the failure occurred - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 secondFailure; - u16 count; - CsrWifiMacAddress address; - CsrWifiSmeKeyType keyType; -} CsrWifiSmeMicFailureInd; - -/******************************************************************************* - - NAME - CsrWifiSmeMulticastAddressCfm - - DESCRIPTION - The SME will call this primitive when the operation is complete. For a - GET action, this primitive reports the current list of MAC addresses. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - action - Action in the request - getAddressesCount - This parameter is only relevant if action is - CSR_WIFI_SME_LIST_ACTION_GET: - number of MAC addresses sent with the primitive - getAddresses - Pointer to the list of MAC Addresses sent with the - primitive, set to NULL if none is sent. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeListAction action; - u8 getAddressesCount; - CsrWifiMacAddress *getAddresses; -} CsrWifiSmeMulticastAddressCfm; - -/******************************************************************************* - - NAME - CsrWifiSmePacketFilterSetCfm - - DESCRIPTION - The SME calls the primitive to report the result of the set primitive. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmePacketFilterSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmePermanentMacAddressGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - permanentMacAddress - MAC address stored in the EEPROM - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiMacAddress permanentMacAddress; -} CsrWifiSmePermanentMacAddressGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmePmkidCandidateListInd - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it when a new network supporting preauthentication and/or PMK - caching is seen. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an - interface - pmkidCandidatesCount - Number of PMKID candidates provided - pmkidCandidates - Points to the first PMKID candidate - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u8 pmkidCandidatesCount; - CsrWifiSmePmkidCandidate *pmkidCandidates; -} CsrWifiSmePmkidCandidateListInd; - -/******************************************************************************* - - NAME - CsrWifiSmePmkidCfm - - DESCRIPTION - The SME will call this primitive when the operation is complete. For a - GET action, this primitive reports the current list of PMKIDs - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - action - Action in the request - getPmkidsCount - This parameter is only relevant if action is - CSR_WIFI_SME_LIST_ACTION_GET: - number of PMKIDs sent with the primitive - getPmkids - Pointer to the list of PMKIDs sent with the primitive, set - to NULL if none is sent. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeListAction action; - u8 getPmkidsCount; - CsrWifiSmePmkid *getPmkids; -} CsrWifiSmePmkidCfm; - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - powerConfig - Returns the current parameters for the power configuration of - the firmware - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmePowerConfig powerConfig; -} CsrWifiSmePowerConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmePowerConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmePowerConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeRegulatoryDomainInfoGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - regDomInfo - Reports information and state related to regulatory domain - operation. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeRegulatoryDomainInfo regDomInfo; -} CsrWifiSmeRegulatoryDomainInfoGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeRoamCompleteInd - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it whenever it completes an attempt to roam to an AP. If the roam - attempt was successful, status will be set to CSR_WIFI_SME_SUCCESS, - otherwise it shall be set to the appropriate error code. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the roaming procedure - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeRoamCompleteInd; - -/******************************************************************************* - - NAME - CsrWifiSmeRoamStartInd - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive it whenever it begins an attempt to roam to an AP. - If the wireless manager application connect request specified the SSID - and the BSSID was set to the broadcast address (0xFF 0xFF 0xFF 0xFF 0xFF - 0xFF), the SME monitors the signal quality and maintains a list of - candidates to roam to. When the signal quality of the current connection - falls below a threshold, and there is a candidate with better quality, - the SME will attempt to the candidate AP. - If the roaming procedure succeeds, the SME will also issue a Media - Connect indication to inform the wireless manager application of the - change. - NOTE: to prevent the SME from initiating roaming the WMA must specify the - BSSID in the connection request; this forces the SME to connect only to - that AP. - The wireless manager application can obtain statistics for roaming - purposes using CSR_WIFI_SME_CONNECTION_QUALITY_IND and - CSR_WIFI_SME_CONNECTION_STATS_GET_REQ. - When the wireless manager application wishes to roam to another AP, it - must issue a connection request specifying the BSSID of the desired AP. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - roamReason - Indicates the reason for starting the roaming procedure - reason80211 - Indicates the reason for deauthentication or disassociation - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeRoamReason roamReason; - CsrWifiSmeIEEE80211Reason reason80211; -} CsrWifiSmeRoamStartInd; - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - roamingConfig - Reports the roaming behaviour of the driver and firmware - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeRoamingConfig roamingConfig; -} CsrWifiSmeRoamingConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeRoamingConfigSetCfm - - DESCRIPTION - This primitive sets the value of the RoamingConfig parameter. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeRoamingConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - scanConfig - Returns the current parameters for the autonomous scanning - behaviour of the firmware - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeScanConfig scanConfig; -} CsrWifiSmeScanConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeScanConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeScanConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeScanFullCfm - - DESCRIPTION - The SME calls this primitive when the results from the scan are - available. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeScanFullCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultInd - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it whenever a scan indication is received from the firmware. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - result - Points to a buffer containing a scan result. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeScanResult result; -} CsrWifiSmeScanResultInd; - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultsFlushCfm - - DESCRIPTION - The SME will call this primitive when the cache has been cleared. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeScanResultsFlushCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeScanResultsGetCfm - - DESCRIPTION - The SME sends this primitive to provide the current set of scan results. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - scanResultsCount - Number of scan results - scanResults - Points to a buffer containing an array of - CsrWifiSmeScanResult structures. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - u16 scanResultsCount; - CsrWifiSmeScanResult *scanResults; -} CsrWifiSmeScanResultsGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeSmeStaConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - smeConfig - Current SME Station Parameters - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - CsrWifiSmeStaConfig smeConfig; -} CsrWifiSmeSmeStaConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeSmeStaConfigSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; -} CsrWifiSmeSmeStaConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeStationMacAddressGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - stationMacAddress - Current MAC address of the station. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiMacAddress stationMacAddress[2]; -} CsrWifiSmeStationMacAddressGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeTspecInd - - DESCRIPTION - The SME will send this primitive to all the task that have registered to - receive it when a status change in the TSPEC occurs. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - transactionId - Unique Transaction ID for the TSPEC, as assigned by the - driver - tspecResultCode - Specifies the TSPEC operation requested by the peer - station - tspecLength - Length of the TSPEC. - tspec - Points to the first byte of the TSPEC - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - u32 transactionId; - CsrWifiSmeTspecResultCode tspecResultCode; - u16 tspecLength; - u8 *tspec; -} CsrWifiSmeTspecInd; - -/******************************************************************************* - - NAME - CsrWifiSmeTspecCfm - - DESCRIPTION - The SME calls the primitive to report the result of the TSpec primitive - request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface Identifier; unique identifier of an interface - status - Reports the result of the request - transactionId - Unique Transaction ID for the TSPEC, as assigned by the - driver - tspecResultCode - Specifies the result of the negotiated TSPEC operation - tspecLength - Length of the TSPEC. - tspec - Points to the first byte of the TSPEC - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrResult status; - u32 transactionId; - CsrWifiSmeTspecResultCode tspecResultCode; - u16 tspecLength; - u8 *tspec; -} CsrWifiSmeTspecCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeVersionsGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - versions - Version IDs of the product - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeVersions versions; -} CsrWifiSmeVersionsGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeWifiFlightmodeCfm - - DESCRIPTION - The SME calls this primitive when the chip is initialised for low power - mode and with the radio subsystem disabled. To leave flight mode, and - enable Wi-Fi, the wireless manager application should call - CSR_WIFI_SME_WIFI_ON_REQ. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeWifiFlightmodeCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOffInd - - DESCRIPTION - The SME sends this primitive to all the tasks that have registered to - receive it to report that the chip has been turned off. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - reason - Indicates the reason why the Wi-Fi has been switched off. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiSmeControlIndication reason; -} CsrWifiSmeWifiOffInd; - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOffCfm - - DESCRIPTION - After receiving CSR_WIFI_SME_WIFI_OFF_REQ, if the chip is connected to a - network, the SME will perform a disconnect operation, will send a - CSR_WIFI_SME_MEDIA_STATUS_IND with - CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED, and then will call - CSR_WIFI_SME_WIFI_OFF_CFM when the chip is off. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeWifiOffCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOnCfm - - DESCRIPTION - The SME sends this primitive to the task that has sent the request once - the chip has been initialised and is available for use. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeWifiOnCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidsSetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeCloakedSsidsSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeCloakedSsidsGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - cloakedSsids - Reports list of cloaked SSIDs that are explicitly scanned for - by the driver - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeCloakedSsidConfig cloakedSsids; -} CsrWifiSmeCloakedSsidsGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeWifiOnInd - - DESCRIPTION - The SME sends this primitive to all tasks that have registered to receive - it once the chip becomes available and ready to use. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - address - Current MAC address - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrWifiMacAddress address; -} CsrWifiSmeWifiOnInd; - -/******************************************************************************* - - NAME - CsrWifiSmeSmeCommonConfigGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - deviceConfig - Configuration options in the SME - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - CsrWifiSmeDeviceConfig deviceConfig; -} CsrWifiSmeSmeCommonConfigGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeSmeCommonConfigSetCfm - - DESCRIPTION - Reports the result of the request - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Reports the result of the request - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeSmeCommonConfigSetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeInterfaceCapabilityGetCfm - - DESCRIPTION - This primitive reports the result of the request. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Result of the request - numInterfaces - Number of the interfaces supported - capBitmap - Points to the list of capabilities bitmaps provided for each - interface. - The bits represent the following capabilities: - -bits 7 to 4-Reserved - -bit 3-AMP - -bit 2-P2P - -bit 1-AP - -bit 0-STA - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; - u16 numInterfaces; - u8 capBitmap[2]; -} CsrWifiSmeInterfaceCapabilityGetCfm; - -/******************************************************************************* - - NAME - CsrWifiSmeErrorInd - - DESCRIPTION - Important error message indicating a error of some importance - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - errorMessage - Contains the error message. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - char *errorMessage; -} CsrWifiSmeErrorInd; - -/******************************************************************************* - - NAME - CsrWifiSmeInfoInd - - DESCRIPTION - Message indicating a some info about current activity. Mostly of interest - in testing but may be useful in the field. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - infoMessage - Contains the message. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - char *infoMessage; -} CsrWifiSmeInfoInd; - -/******************************************************************************* - - NAME - CsrWifiSmeCoreDumpInd - - DESCRIPTION - The SME will send this primitive to all the tasks that have registered to - receive Wi-Fi Chip core dump data. - The core dump data may be fragmented and sent using more than one - indication. - To indicate that all the data has been sent, the last indication contains - a 'length' of 0 and 'data' of NULL. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - dataLength - Number of bytes in the buffer pointed to by 'data' - data - Pointer to the buffer containing 'dataLength' bytes of core - dump data - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u32 dataLength; - u8 *data; -} CsrWifiSmeCoreDumpInd; - -/******************************************************************************* - - NAME - CsrWifiSmeAmpStatusChangeInd - - DESCRIPTION - Indication of change to AMP activity. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - interfaceTag - Interface on which the AMP activity changed. - ampStatus - The new status of AMP activity.Range: {AMP_ACTIVE, - AMP_INACTIVE}. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - u16 interfaceTag; - CsrWifiSmeAmpStatus ampStatus; -} CsrWifiSmeAmpStatusChangeInd; - -/******************************************************************************* - - NAME - CsrWifiSmeWpsConfigurationCfm - - DESCRIPTION - Confirm. - - MEMBERS - common - Common header for use with the CsrWifiFsm Module - status - Status of the request. - -*******************************************************************************/ -typedef struct -{ - CsrWifiFsmEvent common; - CsrResult status; -} CsrWifiSmeWpsConfigurationCfm; - -#endif /* CSR_WIFI_SME_PRIM_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_sme_sef.c b/drivers/staging/csr/csr_wifi_sme_sef.c deleted file mode 100644 index cf32254..0000000 --- a/drivers/staging/csr/csr_wifi_sme_sef.c +++ /dev/null @@ -1,85 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - Confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - - *****************************************************************************/ -#include "csr_wifi_sme_sef.h" - -const CsrWifiSmeStateHandlerType CsrWifiSmeUpstreamStateHandlers[CSR_WIFI_SME_PRIM_UPSTREAM_COUNT] = -{ - /* 0x8000 */ CsrWifiSmeActivateCfmHandler, - /* 0x8001 */ CsrWifiSmeAdhocConfigGetCfmHandler, - /* 0x8002 */ CsrWifiSmeAdhocConfigSetCfmHandler, - /* 0x8003 */ CsrWifiSmeAssociationCompleteIndHandler, - /* 0x8004 */ CsrWifiSmeAssociationStartIndHandler, - /* 0x8005 */ CsrWifiSmeBlacklistCfmHandler, - /* 0x8006 */ CsrWifiSmeCalibrationDataGetCfmHandler, - /* 0x8007 */ CsrWifiSmeCalibrationDataSetCfmHandler, - /* 0x8008 */ CsrWifiSmeCcxConfigGetCfmHandler, - /* 0x8009 */ CsrWifiSmeCcxConfigSetCfmHandler, - /* 0x800A */ CsrWifiSmeCoexConfigGetCfmHandler, - /* 0x800B */ CsrWifiSmeCoexConfigSetCfmHandler, - /* 0x800C */ CsrWifiSmeCoexInfoGetCfmHandler, - /* 0x800D */ CsrWifiSmeConnectCfmHandler, - /* 0x800E */ CsrWifiSmeConnectionConfigGetCfmHandler, - /* 0x800F */ CsrWifiSmeConnectionInfoGetCfmHandler, - /* 0x8010 */ CsrWifiSmeConnectionQualityIndHandler, - /* 0x8011 */ CsrWifiSmeConnectionStatsGetCfmHandler, - /* 0x8012 */ CsrWifiSmeDeactivateCfmHandler, - /* 0x8013 */ CsrWifiSmeDisconnectCfmHandler, - /* 0x8014 */ CsrWifiSmeEventMaskSetCfmHandler, - /* 0x8015 */ CsrWifiSmeHostConfigGetCfmHandler, - /* 0x8016 */ CsrWifiSmeHostConfigSetCfmHandler, - /* 0x8017 */ CsrWifiSmeIbssStationIndHandler, - /* 0x8018 */ CsrWifiSmeKeyCfmHandler, - /* 0x8019 */ CsrWifiSmeLinkQualityGetCfmHandler, - /* 0x801A */ CsrWifiSmeMediaStatusIndHandler, - /* 0x801B */ CsrWifiSmeMibConfigGetCfmHandler, - /* 0x801C */ CsrWifiSmeMibConfigSetCfmHandler, - /* 0x801D */ CsrWifiSmeMibGetCfmHandler, - /* 0x801E */ CsrWifiSmeMibGetNextCfmHandler, - /* 0x801F */ CsrWifiSmeMibSetCfmHandler, - /* 0x8020 */ CsrWifiSmeMicFailureIndHandler, - /* 0x8021 */ CsrWifiSmeMulticastAddressCfmHandler, - /* 0x8022 */ CsrWifiSmePacketFilterSetCfmHandler, - /* 0x8023 */ CsrWifiSmePermanentMacAddressGetCfmHandler, - /* 0x8024 */ CsrWifiSmePmkidCandidateListIndHandler, - /* 0x8025 */ CsrWifiSmePmkidCfmHandler, - /* 0x8026 */ CsrWifiSmePowerConfigGetCfmHandler, - /* 0x8027 */ CsrWifiSmePowerConfigSetCfmHandler, - /* 0x8028 */ CsrWifiSmeRegulatoryDomainInfoGetCfmHandler, - /* 0x8029 */ CsrWifiSmeRoamCompleteIndHandler, - /* 0x802A */ CsrWifiSmeRoamStartIndHandler, - /* 0x802B */ CsrWifiSmeRoamingConfigGetCfmHandler, - /* 0x802C */ CsrWifiSmeRoamingConfigSetCfmHandler, - /* 0x802D */ CsrWifiSmeScanConfigGetCfmHandler, - /* 0x802E */ CsrWifiSmeScanConfigSetCfmHandler, - /* 0x802F */ CsrWifiSmeScanFullCfmHandler, - /* 0x8030 */ CsrWifiSmeScanResultIndHandler, - /* 0x8031 */ CsrWifiSmeScanResultsFlushCfmHandler, - /* 0x8032 */ CsrWifiSmeScanResultsGetCfmHandler, - /* 0x8033 */ CsrWifiSmeSmeStaConfigGetCfmHandler, - /* 0x8034 */ CsrWifiSmeSmeStaConfigSetCfmHandler, - /* 0x8035 */ CsrWifiSmeStationMacAddressGetCfmHandler, - /* 0x8036 */ CsrWifiSmeTspecIndHandler, - /* 0x8037 */ CsrWifiSmeTspecCfmHandler, - /* 0x8038 */ CsrWifiSmeVersionsGetCfmHandler, - /* 0x8039 */ CsrWifiSmeWifiFlightmodeCfmHandler, - /* 0x803A */ CsrWifiSmeWifiOffIndHandler, - /* 0x803B */ CsrWifiSmeWifiOffCfmHandler, - /* 0x803C */ CsrWifiSmeWifiOnCfmHandler, - /* 0x803D */ CsrWifiSmeCloakedSsidsSetCfmHandler, - /* 0x803E */ CsrWifiSmeCloakedSsidsGetCfmHandler, - /* 0x803F */ CsrWifiSmeWifiOnIndHandler, - /* 0x8040 */ CsrWifiSmeSmeCommonConfigGetCfmHandler, - /* 0x8041 */ CsrWifiSmeSmeCommonConfigSetCfmHandler, - /* 0x8042 */ CsrWifiSmeGetInterfaceCapabilityCfmHandler, - /* 0x8043 */ CsrWifiSmeErrorIndHandler, - /* 0x8044 */ CsrWifiSmeInfoIndHandler, - /* 0x8045 */ CsrWifiSmeCoreDumpIndHandler, - /* 0x8046 */ CsrWifiSmeAmpStatusChangeIndHandler, -}; diff --git a/drivers/staging/csr/csr_wifi_sme_sef.h b/drivers/staging/csr/csr_wifi_sme_sef.h deleted file mode 100644 index 78b88c0..0000000 --- a/drivers/staging/csr/csr_wifi_sme_sef.h +++ /dev/null @@ -1,142 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2010 - Confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ -#ifndef CSR_WIFI_ROUTER_SEF_CSR_WIFI_SME_H__ -#define CSR_WIFI_ROUTER_SEF_CSR_WIFI_SME_H__ - -#include "csr_wifi_sme_prim.h" - -typedef void (*CsrWifiSmeStateHandlerType)(void *drvpriv, CsrWifiFsmEvent *msg); - -extern const CsrWifiSmeStateHandlerType - CsrWifiSmeUpstreamStateHandlers[CSR_WIFI_SME_PRIM_UPSTREAM_COUNT]; - - -extern void CsrWifiSmeActivateCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeAdhocConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeAdhocConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeAssociationCompleteIndHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeAssociationStartIndHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeBlacklistCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCalibrationDataGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCalibrationDataSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCcxConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCcxConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCoexConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCoexConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCoexInfoGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeConnectCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeConnectionConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeConnectionInfoGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeConnectionQualityIndHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeConnectionStatsGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeDeactivateCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeDisconnectCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeEventMaskSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeHostConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeHostConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeIbssStationIndHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeKeyCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeLinkQualityGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeMediaStatusIndHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeMibConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeMibConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeMibGetCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeMibGetNextCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeMibSetCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeMicFailureIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeMulticastAddressCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmePacketFilterSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmePermanentMacAddressGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmePmkidCandidateListIndHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmePmkidCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmePowerConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmePowerConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeRegulatoryDomainInfoGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeRoamCompleteIndHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeRoamStartIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeRoamingConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeRoamingConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeScanConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeScanConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeScanFullCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeScanResultIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeScanResultsFlushCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeScanResultsGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeSmeStaConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeSmeStaConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeStationMacAddressGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeTspecIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeTspecCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeVersionsGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeWifiFlightmodeCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeWifiOffIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeWifiOffCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeWifiOnCfmHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCloakedSsidsSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCloakedSsidsGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeWifiOnIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeSmeCommonConfigGetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeSmeCommonConfigSetCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeGetInterfaceCapabilityCfmHandler(void *drvpriv, - CsrWifiFsmEvent *msg); -extern void CsrWifiSmeErrorIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeInfoIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeCoreDumpIndHandler(void *drvpriv, CsrWifiFsmEvent *msg); -extern void CsrWifiSmeAmpStatusChangeIndHandler(void *drvpriv, - CsrWifiFsmEvent *msg); - -#endif /* CSR_WIFI_ROUTER_SEF_CSR_WIFI_SME_H__ */ diff --git a/drivers/staging/csr/csr_wifi_sme_serialize.c b/drivers/staging/csr/csr_wifi_sme_serialize.c deleted file mode 100644 index 7d7e1d8..0000000 --- a/drivers/staging/csr/csr_wifi_sme_serialize.c +++ /dev/null @@ -1,5809 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ -#include <linux/string.h> -#include <linux/slab.h> -#include "csr_msgconv.h" -#include "csr_wifi_sme_prim.h" -#include "csr_wifi_sme_serialize.h" - -void CsrWifiSmePfree(void *ptr) -{ - kfree(ptr); -} - - -size_t CsrWifiSmeAdhocConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 2; /* u16 primitive->adHocConfig.atimWindowTu */ - bufferSize += 2; /* u16 primitive->adHocConfig.beaconPeriodTu */ - bufferSize += 2; /* u16 primitive->adHocConfig.joinOnlyAttempts */ - bufferSize += 2; /* u16 primitive->adHocConfig.joinAttemptIntervalMs */ - return bufferSize; -} - - -u8* CsrWifiSmeAdhocConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeAdhocConfigSetReq *primitive = (CsrWifiSmeAdhocConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.atimWindowTu); - CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.beaconPeriodTu); - CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.joinOnlyAttempts); - CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.joinAttemptIntervalMs); - return(ptr); -} - - -void* CsrWifiSmeAdhocConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeAdhocConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeAdhocConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->adHocConfig.atimWindowTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->adHocConfig.beaconPeriodTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->adHocConfig.joinOnlyAttempts, buffer, &offset); - CsrUint16Des((u16 *) &primitive->adHocConfig.joinAttemptIntervalMs, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeBlacklistReqSizeof(void *msg) -{ - CsrWifiSmeBlacklistReq *primitive = (CsrWifiSmeBlacklistReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 1; /* u8 primitive->setAddressCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressCount; i1++) - { - bufferSize += 6; /* u8 primitive->setAddresses[i1].a[6] */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeBlacklistReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeBlacklistReq *primitive = (CsrWifiSmeBlacklistReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->setAddressCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->setAddresses[i1].a, ((u16) (6))); - } - } - return(ptr); -} - - -void* CsrWifiSmeBlacklistReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeBlacklistReq *primitive = kmalloc(sizeof(CsrWifiSmeBlacklistReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->setAddressCount, buffer, &offset); - primitive->setAddresses = NULL; - if (primitive->setAddressCount) - { - primitive->setAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->setAddressCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressCount; i1++) - { - CsrMemCpyDes(primitive->setAddresses[i1].a, buffer, &offset, ((u16) (6))); - } - } - - return primitive; -} - - -void CsrWifiSmeBlacklistReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeBlacklistReq *primitive = (CsrWifiSmeBlacklistReq *) voidPrimitivePointer; - kfree(primitive->setAddresses); - kfree(primitive); -} - - -size_t CsrWifiSmeCalibrationDataSetReqSizeof(void *msg) -{ - CsrWifiSmeCalibrationDataSetReq *primitive = (CsrWifiSmeCalibrationDataSetReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 6) */ - bufferSize += 2; /* u16 primitive->calibrationDataLength */ - bufferSize += primitive->calibrationDataLength; /* u8 primitive->calibrationData */ - return bufferSize; -} - - -u8* CsrWifiSmeCalibrationDataSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCalibrationDataSetReq *primitive = (CsrWifiSmeCalibrationDataSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->calibrationDataLength); - if (primitive->calibrationDataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->calibrationData, ((u16) (primitive->calibrationDataLength))); - } - return(ptr); -} - - -void* CsrWifiSmeCalibrationDataSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCalibrationDataSetReq *primitive = kmalloc(sizeof(CsrWifiSmeCalibrationDataSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->calibrationDataLength, buffer, &offset); - if (primitive->calibrationDataLength) - { - primitive->calibrationData = kmalloc(primitive->calibrationDataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->calibrationData, buffer, &offset, ((u16) (primitive->calibrationDataLength))); - } - else - { - primitive->calibrationData = NULL; - } - - return primitive; -} - - -void CsrWifiSmeCalibrationDataSetReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeCalibrationDataSetReq *primitive = (CsrWifiSmeCalibrationDataSetReq *) voidPrimitivePointer; - kfree(primitive->calibrationData); - kfree(primitive); -} - - -size_t CsrWifiSmeCcxConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* u8 primitive->ccxConfig.keepAliveTimeMs */ - bufferSize += 1; /* u8 primitive->ccxConfig.apRoamingEnabled */ - bufferSize += 1; /* u8 primitive->ccxConfig.measurementsMask */ - bufferSize += 1; /* u8 primitive->ccxConfig.ccxRadioMgtEnabled */ - return bufferSize; -} - - -u8* CsrWifiSmeCcxConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCcxConfigSetReq *primitive = (CsrWifiSmeCcxConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.keepAliveTimeMs); - CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.apRoamingEnabled); - CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.measurementsMask); - CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.ccxRadioMgtEnabled); - return(ptr); -} - - -void* CsrWifiSmeCcxConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCcxConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeCcxConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ccxConfig.keepAliveTimeMs, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ccxConfig.apRoamingEnabled, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ccxConfig.measurementsMask, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ccxConfig.ccxRadioMgtEnabled, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeCoexConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 29) */ - bufferSize += 1; /* u8 primitive->coexConfig.coexEnableSchemeManagement */ - bufferSize += 1; /* u8 primitive->coexConfig.coexPeriodicWakeHost */ - bufferSize += 2; /* u16 primitive->coexConfig.coexTrafficBurstyLatencyMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexTrafficContinuousLatencyMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexObexBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexObexBlackoutPeriodMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpBrBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpBrBlackoutPeriodMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpEdrBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexPagingBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexPagingBlackoutPeriodMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexInquiryBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexInquiryBlackoutPeriodMs */ - return bufferSize; -} - - -u8* CsrWifiSmeCoexConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCoexConfigSetReq *primitive = (CsrWifiSmeCoexConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint8Ser(ptr, len, (u8) primitive->coexConfig.coexEnableSchemeManagement); - CsrUint8Ser(ptr, len, (u8) primitive->coexConfig.coexPeriodicWakeHost); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexTrafficBurstyLatencyMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexTrafficContinuousLatencyMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexObexBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexObexBlackoutPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpBrBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpBrBlackoutPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpEdrBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexPagingBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexPagingBlackoutPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexInquiryBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexInquiryBlackoutPeriodMs); - return(ptr); -} - - -void* CsrWifiSmeCoexConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCoexConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeCoexConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexConfig.coexEnableSchemeManagement, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexConfig.coexPeriodicWakeHost, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexTrafficBurstyLatencyMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexTrafficContinuousLatencyMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexObexBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexObexBlackoutPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpBrBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpBrBlackoutPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpEdrBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexPagingBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexPagingBlackoutPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexInquiryBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexInquiryBlackoutPeriodMs, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeConnectReqSizeof(void *msg) -{ - CsrWifiSmeConnectReq *primitive = (CsrWifiSmeConnectReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 57) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 32; /* u8 primitive->connectionConfig.ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->connectionConfig.ssid.length */ - bufferSize += 6; /* u8 primitive->connectionConfig.bssid.a[6] */ - bufferSize += 1; /* CsrWifiSmeBssType primitive->connectionConfig.bssType */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionConfig.ifIndex */ - bufferSize += 1; /* CsrWifiSme80211PrivacyMode primitive->connectionConfig.privacyMode */ - bufferSize += 2; /* CsrWifiSmeAuthModeMask primitive->connectionConfig.authModeMask */ - bufferSize += 2; /* CsrWifiSmeEncryptionMask primitive->connectionConfig.encryptionModeMask */ - bufferSize += 2; /* u16 primitive->connectionConfig.mlmeAssociateReqInformationElementsLength */ - bufferSize += primitive->connectionConfig.mlmeAssociateReqInformationElementsLength; /* u8 primitive->connectionConfig.mlmeAssociateReqInformationElements */ - bufferSize += 1; /* CsrWifiSmeWmmQosInfoMask primitive->connectionConfig.wmmQosInfo */ - bufferSize += 1; /* u8 primitive->connectionConfig.adhocJoinOnly */ - bufferSize += 1; /* u8 primitive->connectionConfig.adhocChannel */ - return bufferSize; -} - - -u8* CsrWifiSmeConnectReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeConnectReq *primitive = (CsrWifiSmeConnectReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.ssid.length); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.bssid.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.bssType); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.ifIndex); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.privacyMode); - CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.authModeMask); - CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.encryptionModeMask); - CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.mlmeAssociateReqInformationElementsLength); - if (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.mlmeAssociateReqInformationElements, ((u16) (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength))); - } - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.wmmQosInfo); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.adhocJoinOnly); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.adhocChannel); - return(ptr); -} - - -void* CsrWifiSmeConnectReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeConnectReq *primitive = kmalloc(sizeof(CsrWifiSmeConnectReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->connectionConfig.ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->connectionConfig.ssid.length, buffer, &offset); - CsrMemCpyDes(primitive->connectionConfig.bssid.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->connectionConfig.bssType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionConfig.ifIndex, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionConfig.privacyMode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionConfig.authModeMask, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionConfig.encryptionModeMask, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionConfig.mlmeAssociateReqInformationElementsLength, buffer, &offset); - if (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength) - { - primitive->connectionConfig.mlmeAssociateReqInformationElements = kmalloc(primitive->connectionConfig.mlmeAssociateReqInformationElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionConfig.mlmeAssociateReqInformationElements, buffer, &offset, ((u16) (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength))); - } - else - { - primitive->connectionConfig.mlmeAssociateReqInformationElements = NULL; - } - CsrUint8Des((u8 *) &primitive->connectionConfig.wmmQosInfo, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionConfig.adhocJoinOnly, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionConfig.adhocChannel, buffer, &offset); - - return primitive; -} - - -void CsrWifiSmeConnectReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeConnectReq *primitive = (CsrWifiSmeConnectReq *) voidPrimitivePointer; - kfree(primitive->connectionConfig.mlmeAssociateReqInformationElements); - kfree(primitive); -} - - -size_t CsrWifiSmeHostConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeHostPowerMode primitive->hostConfig.powerMode */ - bufferSize += 2; /* u16 primitive->hostConfig.applicationDataPeriodMs */ - return bufferSize; -} - - -u8* CsrWifiSmeHostConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeHostConfigSetReq *primitive = (CsrWifiSmeHostConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->hostConfig.powerMode); - CsrUint16Ser(ptr, len, (u16) primitive->hostConfig.applicationDataPeriodMs); - return(ptr); -} - - -void* CsrWifiSmeHostConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeHostConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeHostConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->hostConfig.powerMode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->hostConfig.applicationDataPeriodMs, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeKeyReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 65) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 1; /* CsrWifiSmeKeyType primitive->key.keyType */ - bufferSize += 1; /* u8 primitive->key.keyIndex */ - bufferSize += 1; /* u8 primitive->key.wepTxKey */ - { - u16 i2; - for (i2 = 0; i2 < 8; i2++) - { - bufferSize += 2; /* u16 primitive->key.keyRsc[8] */ - } - } - bufferSize += 1; /* u8 primitive->key.authenticator */ - bufferSize += 6; /* u8 primitive->key.address.a[6] */ - bufferSize += 1; /* u8 primitive->key.keyLength */ - bufferSize += 32; /* u8 primitive->key.key[32] */ - return bufferSize; -} - - -u8* CsrWifiSmeKeyReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeKeyReq *primitive = (CsrWifiSmeKeyReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->key.keyType); - CsrUint8Ser(ptr, len, (u8) primitive->key.keyIndex); - CsrUint8Ser(ptr, len, (u8) primitive->key.wepTxKey); - { - u16 i2; - for (i2 = 0; i2 < 8; i2++) - { - CsrUint16Ser(ptr, len, (u16) primitive->key.keyRsc[i2]); - } - } - CsrUint8Ser(ptr, len, (u8) primitive->key.authenticator); - CsrMemCpySer(ptr, len, (const void *) primitive->key.address.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->key.keyLength); - CsrMemCpySer(ptr, len, (const void *) primitive->key.key, ((u16) (32))); - return(ptr); -} - - -void* CsrWifiSmeKeyReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeKeyReq *primitive = kmalloc(sizeof(CsrWifiSmeKeyReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->key.keyType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->key.keyIndex, buffer, &offset); - CsrUint8Des((u8 *) &primitive->key.wepTxKey, buffer, &offset); - { - u16 i2; - for (i2 = 0; i2 < 8; i2++) - { - CsrUint16Des((u16 *) &primitive->key.keyRsc[i2], buffer, &offset); - } - } - CsrUint8Des((u8 *) &primitive->key.authenticator, buffer, &offset); - CsrMemCpyDes(primitive->key.address.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->key.keyLength, buffer, &offset); - CsrMemCpyDes(primitive->key.key, buffer, &offset, ((u16) (32))); - - return primitive; -} - - -size_t CsrWifiSmeMibConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 1; /* u8 primitive->mibConfig.unifiFixMaxTxDataRate */ - bufferSize += 1; /* u8 primitive->mibConfig.unifiFixTxDataRate */ - bufferSize += 2; /* u16 primitive->mibConfig.dot11RtsThreshold */ - bufferSize += 2; /* u16 primitive->mibConfig.dot11FragmentationThreshold */ - bufferSize += 2; /* u16 primitive->mibConfig.dot11CurrentTxPowerLevel */ - return bufferSize; -} - - -u8* CsrWifiSmeMibConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMibConfigSetReq *primitive = (CsrWifiSmeMibConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint8Ser(ptr, len, (u8) primitive->mibConfig.unifiFixMaxTxDataRate); - CsrUint8Ser(ptr, len, (u8) primitive->mibConfig.unifiFixTxDataRate); - CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11RtsThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11FragmentationThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11CurrentTxPowerLevel); - return(ptr); -} - - -void* CsrWifiSmeMibConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMibConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeMibConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mibConfig.unifiFixMaxTxDataRate, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mibConfig.unifiFixTxDataRate, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibConfig.dot11RtsThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibConfig.dot11FragmentationThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibConfig.dot11CurrentTxPowerLevel, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeMibGetNextReqSizeof(void *msg) -{ - CsrWifiSmeMibGetNextReq *primitive = (CsrWifiSmeMibGetNextReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 6) */ - bufferSize += 2; /* u16 primitive->mibAttributeLength */ - bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ - return bufferSize; -} - - -u8* CsrWifiSmeMibGetNextReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMibGetNextReq *primitive = (CsrWifiSmeMibGetNextReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); - if (primitive->mibAttributeLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); - } - return(ptr); -} - - -void* CsrWifiSmeMibGetNextReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMibGetNextReq *primitive = kmalloc(sizeof(CsrWifiSmeMibGetNextReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); - if (primitive->mibAttributeLength) - { - primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); - CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); - } - else - { - primitive->mibAttribute = NULL; - } - - return primitive; -} - - -void CsrWifiSmeMibGetNextReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeMibGetNextReq *primitive = (CsrWifiSmeMibGetNextReq *) voidPrimitivePointer; - kfree(primitive->mibAttribute); - kfree(primitive); -} - - -size_t CsrWifiSmeMibGetReqSizeof(void *msg) -{ - CsrWifiSmeMibGetReq *primitive = (CsrWifiSmeMibGetReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 6) */ - bufferSize += 2; /* u16 primitive->mibAttributeLength */ - bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ - return bufferSize; -} - - -u8* CsrWifiSmeMibGetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMibGetReq *primitive = (CsrWifiSmeMibGetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); - if (primitive->mibAttributeLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); - } - return(ptr); -} - - -void* CsrWifiSmeMibGetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMibGetReq *primitive = kmalloc(sizeof(CsrWifiSmeMibGetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); - if (primitive->mibAttributeLength) - { - primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); - CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); - } - else - { - primitive->mibAttribute = NULL; - } - - return primitive; -} - - -void CsrWifiSmeMibGetReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeMibGetReq *primitive = (CsrWifiSmeMibGetReq *) voidPrimitivePointer; - kfree(primitive->mibAttribute); - kfree(primitive); -} - - -size_t CsrWifiSmeMibSetReqSizeof(void *msg) -{ - CsrWifiSmeMibSetReq *primitive = (CsrWifiSmeMibSetReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 6) */ - bufferSize += 2; /* u16 primitive->mibAttributeLength */ - bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ - return bufferSize; -} - - -u8* CsrWifiSmeMibSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMibSetReq *primitive = (CsrWifiSmeMibSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); - if (primitive->mibAttributeLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); - } - return(ptr); -} - - -void* CsrWifiSmeMibSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMibSetReq *primitive = kmalloc(sizeof(CsrWifiSmeMibSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); - if (primitive->mibAttributeLength) - { - primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); - CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); - } - else - { - primitive->mibAttribute = NULL; - } - - return primitive; -} - - -void CsrWifiSmeMibSetReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeMibSetReq *primitive = (CsrWifiSmeMibSetReq *) voidPrimitivePointer; - kfree(primitive->mibAttribute); - kfree(primitive); -} - - -size_t CsrWifiSmeMulticastAddressReqSizeof(void *msg) -{ - CsrWifiSmeMulticastAddressReq *primitive = (CsrWifiSmeMulticastAddressReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 1; /* u8 primitive->setAddressesCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressesCount; i1++) - { - bufferSize += 6; /* u8 primitive->setAddresses[i1].a[6] */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeMulticastAddressReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMulticastAddressReq *primitive = (CsrWifiSmeMulticastAddressReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->setAddressesCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressesCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->setAddresses[i1].a, ((u16) (6))); - } - } - return(ptr); -} - - -void* CsrWifiSmeMulticastAddressReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMulticastAddressReq *primitive = kmalloc(sizeof(CsrWifiSmeMulticastAddressReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->setAddressesCount, buffer, &offset); - primitive->setAddresses = NULL; - if (primitive->setAddressesCount) - { - primitive->setAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->setAddressesCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->setAddressesCount; i1++) - { - CsrMemCpyDes(primitive->setAddresses[i1].a, buffer, &offset, ((u16) (6))); - } - } - - return primitive; -} - - -void CsrWifiSmeMulticastAddressReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeMulticastAddressReq *primitive = (CsrWifiSmeMulticastAddressReq *) voidPrimitivePointer; - kfree(primitive->setAddresses); - kfree(primitive); -} - - -size_t CsrWifiSmePacketFilterSetReqSizeof(void *msg) -{ - CsrWifiSmePacketFilterSetReq *primitive = (CsrWifiSmePacketFilterSetReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* u16 primitive->filterLength */ - bufferSize += primitive->filterLength; /* u8 primitive->filter */ - bufferSize += 1; /* CsrWifiSmePacketFilterMode primitive->mode */ - bufferSize += 4; /* u8 primitive->arpFilterAddress.a[4] */ - return bufferSize; -} - - -u8* CsrWifiSmePacketFilterSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmePacketFilterSetReq *primitive = (CsrWifiSmePacketFilterSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->filterLength); - if (primitive->filterLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->filter, ((u16) (primitive->filterLength))); - } - CsrUint8Ser(ptr, len, (u8) primitive->mode); - CsrMemCpySer(ptr, len, (const void *) primitive->arpFilterAddress.a, ((u16) (4))); - return(ptr); -} - - -void* CsrWifiSmePacketFilterSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmePacketFilterSetReq *primitive = kmalloc(sizeof(CsrWifiSmePacketFilterSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->filterLength, buffer, &offset); - if (primitive->filterLength) - { - primitive->filter = kmalloc(primitive->filterLength, GFP_KERNEL); - CsrMemCpyDes(primitive->filter, buffer, &offset, ((u16) (primitive->filterLength))); - } - else - { - primitive->filter = NULL; - } - CsrUint8Des((u8 *) &primitive->mode, buffer, &offset); - CsrMemCpyDes(primitive->arpFilterAddress.a, buffer, &offset, ((u16) (4))); - - return primitive; -} - - -void CsrWifiSmePacketFilterSetReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmePacketFilterSetReq *primitive = (CsrWifiSmePacketFilterSetReq *) voidPrimitivePointer; - kfree(primitive->filter); - kfree(primitive); -} - - -size_t CsrWifiSmePmkidReqSizeof(void *msg) -{ - CsrWifiSmePmkidReq *primitive = (CsrWifiSmePmkidReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 29) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 1; /* u8 primitive->setPmkidsCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->setPmkidsCount; i1++) - { - bufferSize += 6; /* u8 primitive->setPmkids[i1].bssid.a[6] */ - bufferSize += 16; /* u8 primitive->setPmkids[i1].pmkid[16] */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmePmkidReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmePmkidReq *primitive = (CsrWifiSmePmkidReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->setPmkidsCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->setPmkidsCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->setPmkids[i1].bssid.a, ((u16) (6))); - CsrMemCpySer(ptr, len, (const void *) primitive->setPmkids[i1].pmkid, ((u16) (16))); - } - } - return(ptr); -} - - -void* CsrWifiSmePmkidReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmePmkidReq *primitive = kmalloc(sizeof(CsrWifiSmePmkidReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->setPmkidsCount, buffer, &offset); - primitive->setPmkids = NULL; - if (primitive->setPmkidsCount) - { - primitive->setPmkids = kmalloc(sizeof(CsrWifiSmePmkid) * primitive->setPmkidsCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->setPmkidsCount; i1++) - { - CsrMemCpyDes(primitive->setPmkids[i1].bssid.a, buffer, &offset, ((u16) (6))); - CsrMemCpyDes(primitive->setPmkids[i1].pmkid, buffer, &offset, ((u16) (16))); - } - } - - return primitive; -} - - -void CsrWifiSmePmkidReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmePmkidReq *primitive = (CsrWifiSmePmkidReq *) voidPrimitivePointer; - kfree(primitive->setPmkids); - kfree(primitive); -} - - -size_t CsrWifiSmePowerConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 1; /* CsrWifiSmePowerSaveLevel primitive->powerConfig.powerSaveLevel */ - bufferSize += 2; /* u16 primitive->powerConfig.listenIntervalTu */ - bufferSize += 1; /* u8 primitive->powerConfig.rxDtims */ - bufferSize += 1; /* CsrWifiSmeD3AutoScanMode primitive->powerConfig.d3AutoScanMode */ - bufferSize += 1; /* u8 primitive->powerConfig.clientTrafficWindow */ - bufferSize += 1; /* u8 primitive->powerConfig.opportunisticPowerSave */ - bufferSize += 1; /* u8 primitive->powerConfig.noticeOfAbsence */ - return bufferSize; -} - - -u8* CsrWifiSmePowerConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmePowerConfigSetReq *primitive = (CsrWifiSmePowerConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.powerSaveLevel); - CsrUint16Ser(ptr, len, (u16) primitive->powerConfig.listenIntervalTu); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.rxDtims); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.d3AutoScanMode); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.clientTrafficWindow); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.opportunisticPowerSave); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.noticeOfAbsence); - return(ptr); -} - - -void* CsrWifiSmePowerConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmePowerConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmePowerConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.powerSaveLevel, buffer, &offset); - CsrUint16Des((u16 *) &primitive->powerConfig.listenIntervalTu, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.rxDtims, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.d3AutoScanMode, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.clientTrafficWindow, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.opportunisticPowerSave, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.noticeOfAbsence, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeRoamingConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 70) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].rssiHighThreshold */ - bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].rssiLowThreshold */ - bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].snrHighThreshold */ - bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].snrLowThreshold */ - } - } - bufferSize += 1; /* u8 primitive->roamingConfig.disableSmoothRoaming */ - bufferSize += 1; /* u8 primitive->roamingConfig.disableRoamScans */ - bufferSize += 1; /* u8 primitive->roamingConfig.reconnectLimit */ - bufferSize += 2; /* u16 primitive->roamingConfig.reconnectLimitIntervalMs */ - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].intervalSeconds */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].validitySeconds */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeRoamingConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeRoamingConfigSetReq *primitive = (CsrWifiSmeRoamingConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].rssiHighThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].rssiLowThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].snrHighThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].snrLowThreshold); - } - } - CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.disableSmoothRoaming); - CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.disableRoamScans); - CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.reconnectLimit); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.reconnectLimitIntervalMs); - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].intervalSeconds); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].validitySeconds); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu); - } - } - return(ptr); -} - - -void* CsrWifiSmeRoamingConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeRoamingConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeRoamingConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].rssiHighThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].rssiLowThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].snrHighThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].snrLowThreshold, buffer, &offset); - } - } - CsrUint8Des((u8 *) &primitive->roamingConfig.disableSmoothRoaming, buffer, &offset); - CsrUint8Des((u8 *) &primitive->roamingConfig.disableRoamScans, buffer, &offset); - CsrUint8Des((u8 *) &primitive->roamingConfig.reconnectLimit, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.reconnectLimitIntervalMs, buffer, &offset); - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].intervalSeconds, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].validitySeconds, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu, buffer, &offset); - } - } - - return primitive; -} - - -size_t CsrWifiSmeScanConfigSetReqSizeof(void *msg) -{ - CsrWifiSmeScanConfigSetReq *primitive = (CsrWifiSmeScanConfigSetReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 63) */ - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].intervalSeconds */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].validitySeconds */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu */ - } - } - bufferSize += 1; /* u8 primitive->scanConfig.disableAutonomousScans */ - bufferSize += 2; /* u16 primitive->scanConfig.maxResults */ - bufferSize += 1; /* s8 primitive->scanConfig.highRssiThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.lowRssiThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.deltaRssiThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.highSnrThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.lowSnrThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.deltaSnrThreshold */ - bufferSize += 2; /* u16 primitive->scanConfig.passiveChannelListCount */ - bufferSize += primitive->scanConfig.passiveChannelListCount; /* u8 primitive->scanConfig.passiveChannelList */ - return bufferSize; -} - - -u8* CsrWifiSmeScanConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeScanConfigSetReq *primitive = (CsrWifiSmeScanConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].intervalSeconds); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].validitySeconds); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu); - } - } - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.disableAutonomousScans); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.maxResults); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.highRssiThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.lowRssiThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.deltaRssiThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.highSnrThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.lowSnrThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.deltaSnrThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.passiveChannelListCount); - if (primitive->scanConfig.passiveChannelListCount) - { - CsrMemCpySer(ptr, len, (const void *) primitive->scanConfig.passiveChannelList, ((u16) (primitive->scanConfig.passiveChannelListCount))); - } - return(ptr); -} - - -void* CsrWifiSmeScanConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeScanConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeScanConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].intervalSeconds, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].validitySeconds, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu, buffer, &offset); - } - } - CsrUint8Des((u8 *) &primitive->scanConfig.disableAutonomousScans, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.maxResults, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.highRssiThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.lowRssiThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.deltaRssiThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.highSnrThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.lowSnrThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.deltaSnrThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.passiveChannelListCount, buffer, &offset); - if (primitive->scanConfig.passiveChannelListCount) - { - primitive->scanConfig.passiveChannelList = kmalloc(primitive->scanConfig.passiveChannelListCount, GFP_KERNEL); - CsrMemCpyDes(primitive->scanConfig.passiveChannelList, buffer, &offset, ((u16) (primitive->scanConfig.passiveChannelListCount))); - } - else - { - primitive->scanConfig.passiveChannelList = NULL; - } - - return primitive; -} - - -void CsrWifiSmeScanConfigSetReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeScanConfigSetReq *primitive = (CsrWifiSmeScanConfigSetReq *) voidPrimitivePointer; - kfree(primitive->scanConfig.passiveChannelList); - kfree(primitive); -} - - -size_t CsrWifiSmeScanFullReqSizeof(void *msg) -{ - CsrWifiSmeScanFullReq *primitive = (CsrWifiSmeScanFullReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 52) */ - bufferSize += 1; /* u8 primitive->ssidCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->ssidCount; i1++) - { - bufferSize += 32; /* u8 primitive->ssid[i1].ssid[32] */ - bufferSize += 1; /* u8 primitive->ssid[i1].length */ - } - } - bufferSize += 6; /* u8 primitive->bssid.a[6] */ - bufferSize += 1; /* u8 primitive->forceScan */ - bufferSize += 1; /* CsrWifiSmeBssType primitive->bssType */ - bufferSize += 1; /* CsrWifiSmeScanType primitive->scanType */ - bufferSize += 2; /* u16 primitive->channelListCount */ - bufferSize += primitive->channelListCount; /* u8 primitive->channelList */ - bufferSize += 2; /* u16 primitive->probeIeLength */ - bufferSize += primitive->probeIeLength; /* u8 primitive->probeIe */ - return bufferSize; -} - - -u8* CsrWifiSmeScanFullReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeScanFullReq *primitive = (CsrWifiSmeScanFullReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint8Ser(ptr, len, (u8) primitive->ssidCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->ssidCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->ssid[i1].ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->ssid[i1].length); - } - } - CsrMemCpySer(ptr, len, (const void *) primitive->bssid.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->forceScan); - CsrUint8Ser(ptr, len, (u8) primitive->bssType); - CsrUint8Ser(ptr, len, (u8) primitive->scanType); - CsrUint16Ser(ptr, len, (u16) primitive->channelListCount); - if (primitive->channelListCount) - { - CsrMemCpySer(ptr, len, (const void *) primitive->channelList, ((u16) (primitive->channelListCount))); - } - CsrUint16Ser(ptr, len, (u16) primitive->probeIeLength); - if (primitive->probeIeLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->probeIe, ((u16) (primitive->probeIeLength))); - } - return(ptr); -} - - -void* CsrWifiSmeScanFullReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeScanFullReq *primitive = kmalloc(sizeof(CsrWifiSmeScanFullReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ssidCount, buffer, &offset); - primitive->ssid = NULL; - if (primitive->ssidCount) - { - primitive->ssid = kmalloc(sizeof(CsrWifiSsid) * primitive->ssidCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->ssidCount; i1++) - { - CsrMemCpyDes(primitive->ssid[i1].ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->ssid[i1].length, buffer, &offset); - } - } - CsrMemCpyDes(primitive->bssid.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->forceScan, buffer, &offset); - CsrUint8Des((u8 *) &primitive->bssType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanType, buffer, &offset); - CsrUint16Des((u16 *) &primitive->channelListCount, buffer, &offset); - if (primitive->channelListCount) - { - primitive->channelList = kmalloc(primitive->channelListCount, GFP_KERNEL); - CsrMemCpyDes(primitive->channelList, buffer, &offset, ((u16) (primitive->channelListCount))); - } - else - { - primitive->channelList = NULL; - } - CsrUint16Des((u16 *) &primitive->probeIeLength, buffer, &offset); - if (primitive->probeIeLength) - { - primitive->probeIe = kmalloc(primitive->probeIeLength, GFP_KERNEL); - CsrMemCpyDes(primitive->probeIe, buffer, &offset, ((u16) (primitive->probeIeLength))); - } - else - { - primitive->probeIe = NULL; - } - - return primitive; -} - - -void CsrWifiSmeScanFullReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeScanFullReq *primitive = (CsrWifiSmeScanFullReq *) voidPrimitivePointer; - kfree(primitive->ssid); - kfree(primitive->channelList); - kfree(primitive->probeIe); - kfree(primitive); -} - - -size_t CsrWifiSmeSmeStaConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* u8 primitive->smeConfig.connectionQualityRssiChangeTrigger */ - bufferSize += 1; /* u8 primitive->smeConfig.connectionQualitySnrChangeTrigger */ - bufferSize += 1; /* CsrWifiSmeWmmModeMask primitive->smeConfig.wmmModeMask */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->smeConfig.ifIndex */ - bufferSize += 1; /* u8 primitive->smeConfig.allowUnicastUseGroupCipher */ - bufferSize += 1; /* u8 primitive->smeConfig.enableOpportunisticKeyCaching */ - return bufferSize; -} - - -u8* CsrWifiSmeSmeStaConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeSmeStaConfigSetReq *primitive = (CsrWifiSmeSmeStaConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.connectionQualityRssiChangeTrigger); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.connectionQualitySnrChangeTrigger); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.wmmModeMask); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.ifIndex); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.allowUnicastUseGroupCipher); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.enableOpportunisticKeyCaching); - return(ptr); -} - - -void* CsrWifiSmeSmeStaConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeSmeStaConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeSmeStaConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.connectionQualityRssiChangeTrigger, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.connectionQualitySnrChangeTrigger, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.wmmModeMask, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.ifIndex, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.allowUnicastUseGroupCipher, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.enableOpportunisticKeyCaching, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeTspecReqSizeof(void *msg) -{ - CsrWifiSmeTspecReq *primitive = (CsrWifiSmeTspecReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 18) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 4; /* u32 primitive->transactionId */ - bufferSize += 1; /* u8 primitive->strict */ - bufferSize += 1; /* CsrWifiSmeTspecCtrlMask primitive->ctrlMask */ - bufferSize += 2; /* u16 primitive->tspecLength */ - bufferSize += primitive->tspecLength; /* u8 primitive->tspec */ - bufferSize += 2; /* u16 primitive->tclasLength */ - bufferSize += primitive->tclasLength; /* u8 primitive->tclas */ - return bufferSize; -} - - -u8* CsrWifiSmeTspecReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeTspecReq *primitive = (CsrWifiSmeTspecReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint32Ser(ptr, len, (u32) primitive->transactionId); - CsrUint8Ser(ptr, len, (u8) primitive->strict); - CsrUint8Ser(ptr, len, (u8) primitive->ctrlMask); - CsrUint16Ser(ptr, len, (u16) primitive->tspecLength); - if (primitive->tspecLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->tspec, ((u16) (primitive->tspecLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->tclasLength); - if (primitive->tclasLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->tclas, ((u16) (primitive->tclasLength))); - } - return(ptr); -} - - -void* CsrWifiSmeTspecReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeTspecReq *primitive = kmalloc(sizeof(CsrWifiSmeTspecReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint32Des((u32 *) &primitive->transactionId, buffer, &offset); - CsrUint8Des((u8 *) &primitive->strict, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ctrlMask, buffer, &offset); - CsrUint16Des((u16 *) &primitive->tspecLength, buffer, &offset); - if (primitive->tspecLength) - { - primitive->tspec = kmalloc(primitive->tspecLength, GFP_KERNEL); - CsrMemCpyDes(primitive->tspec, buffer, &offset, ((u16) (primitive->tspecLength))); - } - else - { - primitive->tspec = NULL; - } - CsrUint16Des((u16 *) &primitive->tclasLength, buffer, &offset); - if (primitive->tclasLength) - { - primitive->tclas = kmalloc(primitive->tclasLength, GFP_KERNEL); - CsrMemCpyDes(primitive->tclas, buffer, &offset, ((u16) (primitive->tclasLength))); - } - else - { - primitive->tclas = NULL; - } - - return primitive; -} - - -void CsrWifiSmeTspecReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeTspecReq *primitive = (CsrWifiSmeTspecReq *) voidPrimitivePointer; - kfree(primitive->tspec); - kfree(primitive->tclas); - kfree(primitive); -} - - -size_t CsrWifiSmeWifiFlightmodeReqSizeof(void *msg) -{ - CsrWifiSmeWifiFlightmodeReq *primitive = (CsrWifiSmeWifiFlightmodeReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 14) */ - bufferSize += 6; /* u8 primitive->address.a[6] */ - bufferSize += 2; /* u16 primitive->mibFilesCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->mibFilesCount; i1++) - { - bufferSize += 2; /* u16 primitive->mibFiles[i1].length */ - bufferSize += primitive->mibFiles[i1].length; /* u8 primitive->mibFiles[i1].data */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeWifiFlightmodeReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeWifiFlightmodeReq *primitive = (CsrWifiSmeWifiFlightmodeReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->mibFilesCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->mibFilesCount; i1++) - { - CsrUint16Ser(ptr, len, (u16) primitive->mibFiles[i1].length); - if (primitive->mibFiles[i1].length) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mibFiles[i1].data, ((u16) (primitive->mibFiles[i1].length))); - } - } - } - return(ptr); -} - - -void* CsrWifiSmeWifiFlightmodeReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeWifiFlightmodeReq *primitive = kmalloc(sizeof(CsrWifiSmeWifiFlightmodeReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->mibFilesCount, buffer, &offset); - primitive->mibFiles = NULL; - if (primitive->mibFilesCount) - { - primitive->mibFiles = kmalloc(sizeof(CsrWifiSmeDataBlock) * primitive->mibFilesCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->mibFilesCount; i1++) - { - CsrUint16Des((u16 *) &primitive->mibFiles[i1].length, buffer, &offset); - if (primitive->mibFiles[i1].length) - { - primitive->mibFiles[i1].data = kmalloc(primitive->mibFiles[i1].length, GFP_KERNEL); - CsrMemCpyDes(primitive->mibFiles[i1].data, buffer, &offset, ((u16) (primitive->mibFiles[i1].length))); - } - else - { - primitive->mibFiles[i1].data = NULL; - } - } - } - - return primitive; -} - - -void CsrWifiSmeWifiFlightmodeReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeWifiFlightmodeReq *primitive = (CsrWifiSmeWifiFlightmodeReq *) voidPrimitivePointer; - { - u16 i1; - for (i1 = 0; i1 < primitive->mibFilesCount; i1++) - { - kfree(primitive->mibFiles[i1].data); - } - } - kfree(primitive->mibFiles); - kfree(primitive); -} - - -size_t CsrWifiSmeWifiOnReqSizeof(void *msg) -{ - CsrWifiSmeWifiOnReq *primitive = (CsrWifiSmeWifiOnReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 14) */ - bufferSize += 6; /* u8 primitive->address.a[6] */ - bufferSize += 2; /* u16 primitive->mibFilesCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->mibFilesCount; i1++) - { - bufferSize += 2; /* u16 primitive->mibFiles[i1].length */ - bufferSize += primitive->mibFiles[i1].length; /* u8 primitive->mibFiles[i1].data */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeWifiOnReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeWifiOnReq *primitive = (CsrWifiSmeWifiOnReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->mibFilesCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->mibFilesCount; i1++) - { - CsrUint16Ser(ptr, len, (u16) primitive->mibFiles[i1].length); - if (primitive->mibFiles[i1].length) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mibFiles[i1].data, ((u16) (primitive->mibFiles[i1].length))); - } - } - } - return(ptr); -} - - -void* CsrWifiSmeWifiOnReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeWifiOnReq *primitive = kmalloc(sizeof(CsrWifiSmeWifiOnReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->mibFilesCount, buffer, &offset); - primitive->mibFiles = NULL; - if (primitive->mibFilesCount) - { - primitive->mibFiles = kmalloc(sizeof(CsrWifiSmeDataBlock) * primitive->mibFilesCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->mibFilesCount; i1++) - { - CsrUint16Des((u16 *) &primitive->mibFiles[i1].length, buffer, &offset); - if (primitive->mibFiles[i1].length) - { - primitive->mibFiles[i1].data = kmalloc(primitive->mibFiles[i1].length, GFP_KERNEL); - CsrMemCpyDes(primitive->mibFiles[i1].data, buffer, &offset, ((u16) (primitive->mibFiles[i1].length))); - } - else - { - primitive->mibFiles[i1].data = NULL; - } - } - } - - return primitive; -} - - -void CsrWifiSmeWifiOnReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeWifiOnReq *primitive = (CsrWifiSmeWifiOnReq *) voidPrimitivePointer; - { - u16 i1; - for (i1 = 0; i1 < primitive->mibFilesCount; i1++) - { - kfree(primitive->mibFiles[i1].data); - } - } - kfree(primitive->mibFiles); - kfree(primitive); -} - - -size_t CsrWifiSmeCloakedSsidsSetReqSizeof(void *msg) -{ - CsrWifiSmeCloakedSsidsSetReq *primitive = (CsrWifiSmeCloakedSsidsSetReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 37) */ - bufferSize += 1; /* u8 primitive->cloakedSsids.cloakedSsidsCount */ - { - u16 i2; - for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) - { - bufferSize += 32; /* u8 primitive->cloakedSsids.cloakedSsids[i2].ssid[32] */ - bufferSize += 1; /* u8 primitive->cloakedSsids.cloakedSsids[i2].length */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeCloakedSsidsSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCloakedSsidsSetReq *primitive = (CsrWifiSmeCloakedSsidsSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint8Ser(ptr, len, (u8) primitive->cloakedSsids.cloakedSsidsCount); - { - u16 i2; - for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->cloakedSsids.cloakedSsids[i2].ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->cloakedSsids.cloakedSsids[i2].length); - } - } - return(ptr); -} - - -void* CsrWifiSmeCloakedSsidsSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCloakedSsidsSetReq *primitive = kmalloc(sizeof(CsrWifiSmeCloakedSsidsSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint8Des((u8 *) &primitive->cloakedSsids.cloakedSsidsCount, buffer, &offset); - primitive->cloakedSsids.cloakedSsids = NULL; - if (primitive->cloakedSsids.cloakedSsidsCount) - { - primitive->cloakedSsids.cloakedSsids = kmalloc(sizeof(CsrWifiSsid) * primitive->cloakedSsids.cloakedSsidsCount, GFP_KERNEL); - } - { - u16 i2; - for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) - { - CsrMemCpyDes(primitive->cloakedSsids.cloakedSsids[i2].ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->cloakedSsids.cloakedSsids[i2].length, buffer, &offset); - } - } - - return primitive; -} - - -void CsrWifiSmeCloakedSsidsSetReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeCloakedSsidsSetReq *primitive = (CsrWifiSmeCloakedSsidsSetReq *) voidPrimitivePointer; - kfree(primitive->cloakedSsids.cloakedSsids); - kfree(primitive); -} - - -size_t CsrWifiSmeSmeCommonConfigSetReqSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 1; /* CsrWifiSme80211dTrustLevel primitive->deviceConfig.trustLevel */ - bufferSize += 2; /* u8 primitive->deviceConfig.countryCode[2] */ - bufferSize += 1; /* CsrWifiSmeFirmwareDriverInterface primitive->deviceConfig.firmwareDriverInterface */ - bufferSize += 1; /* u8 primitive->deviceConfig.enableStrictDraftN */ - return bufferSize; -} - - -u8* CsrWifiSmeSmeCommonConfigSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeSmeCommonConfigSetReq *primitive = (CsrWifiSmeSmeCommonConfigSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.trustLevel); - CsrMemCpySer(ptr, len, (const void *) primitive->deviceConfig.countryCode, ((u16) (2))); - CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.firmwareDriverInterface); - CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.enableStrictDraftN); - return(ptr); -} - - -void* CsrWifiSmeSmeCommonConfigSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeSmeCommonConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeSmeCommonConfigSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint8Des((u8 *) &primitive->deviceConfig.trustLevel, buffer, &offset); - CsrMemCpyDes(primitive->deviceConfig.countryCode, buffer, &offset, ((u16) (2))); - CsrUint8Des((u8 *) &primitive->deviceConfig.firmwareDriverInterface, buffer, &offset); - CsrUint8Des((u8 *) &primitive->deviceConfig.enableStrictDraftN, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeWpsConfigurationReqSizeof(void *msg) -{ - CsrWifiSmeWpsConfigurationReq *primitive = (CsrWifiSmeWpsConfigurationReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 240) */ - bufferSize += 1; /* u8 primitive->wpsConfig.wpsVersion */ - bufferSize += 16; /* u8 primitive->wpsConfig.uuid[16] */ - bufferSize += 32; /* u8 primitive->wpsConfig.deviceName[32] */ - bufferSize += 1; /* u8 primitive->wpsConfig.deviceNameLength */ - bufferSize += 64; /* u8 primitive->wpsConfig.manufacturer[64] */ - bufferSize += 1; /* u8 primitive->wpsConfig.manufacturerLength */ - bufferSize += 32; /* u8 primitive->wpsConfig.modelName[32] */ - bufferSize += 1; /* u8 primitive->wpsConfig.modelNameLength */ - bufferSize += 32; /* u8 primitive->wpsConfig.modelNumber[32] */ - bufferSize += 1; /* u8 primitive->wpsConfig.modelNumberLength */ - bufferSize += 32; /* u8 primitive->wpsConfig.serialNumber[32] */ - bufferSize += 8; /* u8 primitive->wpsConfig.primDeviceType.deviceDetails[8] */ - bufferSize += 1; /* u8 primitive->wpsConfig.secondaryDeviceTypeCount */ - { - u16 i2; - for (i2 = 0; i2 < primitive->wpsConfig.secondaryDeviceTypeCount; i2++) - { - bufferSize += 8; /* u8 primitive->wpsConfig.secondaryDeviceType[i2].deviceDetails[8] */ - } - } - bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->wpsConfig.configMethods */ - bufferSize += 1; /* u8 primitive->wpsConfig.rfBands */ - bufferSize += 4; /* u8 primitive->wpsConfig.osVersion[4] */ - return bufferSize; -} - - -u8* CsrWifiSmeWpsConfigurationReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeWpsConfigurationReq *primitive = (CsrWifiSmeWpsConfigurationReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.wpsVersion); - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.uuid, ((u16) (16))); - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.deviceName, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.deviceNameLength); - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.manufacturer, ((u16) (64))); - CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.manufacturerLength); - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.modelName, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.modelNameLength); - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.modelNumber, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.modelNumberLength); - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.serialNumber, ((u16) (32))); - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.primDeviceType.deviceDetails, ((u16) (8))); - CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.secondaryDeviceTypeCount); - { - u16 i2; - for (i2 = 0; i2 < primitive->wpsConfig.secondaryDeviceTypeCount; i2++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.secondaryDeviceType[i2].deviceDetails, ((u16) (8))); - } - } - CsrUint16Ser(ptr, len, (u16) primitive->wpsConfig.configMethods); - CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.rfBands); - CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.osVersion, ((u16) (4))); - return(ptr); -} - - -void* CsrWifiSmeWpsConfigurationReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeWpsConfigurationReq *primitive = kmalloc(sizeof(CsrWifiSmeWpsConfigurationReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wpsConfig.wpsVersion, buffer, &offset); - CsrMemCpyDes(primitive->wpsConfig.uuid, buffer, &offset, ((u16) (16))); - CsrMemCpyDes(primitive->wpsConfig.deviceName, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->wpsConfig.deviceNameLength, buffer, &offset); - CsrMemCpyDes(primitive->wpsConfig.manufacturer, buffer, &offset, ((u16) (64))); - CsrUint8Des((u8 *) &primitive->wpsConfig.manufacturerLength, buffer, &offset); - CsrMemCpyDes(primitive->wpsConfig.modelName, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->wpsConfig.modelNameLength, buffer, &offset); - CsrMemCpyDes(primitive->wpsConfig.modelNumber, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->wpsConfig.modelNumberLength, buffer, &offset); - CsrMemCpyDes(primitive->wpsConfig.serialNumber, buffer, &offset, ((u16) (32))); - CsrMemCpyDes(primitive->wpsConfig.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); - CsrUint8Des((u8 *) &primitive->wpsConfig.secondaryDeviceTypeCount, buffer, &offset); - primitive->wpsConfig.secondaryDeviceType = NULL; - if (primitive->wpsConfig.secondaryDeviceTypeCount) - { - primitive->wpsConfig.secondaryDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->wpsConfig.secondaryDeviceTypeCount, GFP_KERNEL); - } - { - u16 i2; - for (i2 = 0; i2 < primitive->wpsConfig.secondaryDeviceTypeCount; i2++) - { - CsrMemCpyDes(primitive->wpsConfig.secondaryDeviceType[i2].deviceDetails, buffer, &offset, ((u16) (8))); - } - } - CsrUint16Des((u16 *) &primitive->wpsConfig.configMethods, buffer, &offset); - CsrUint8Des((u8 *) &primitive->wpsConfig.rfBands, buffer, &offset); - CsrMemCpyDes(primitive->wpsConfig.osVersion, buffer, &offset, ((u16) (4))); - - return primitive; -} - - -void CsrWifiSmeWpsConfigurationReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeWpsConfigurationReq *primitive = (CsrWifiSmeWpsConfigurationReq *) voidPrimitivePointer; - kfree(primitive->wpsConfig.secondaryDeviceType); - kfree(primitive); -} - - -size_t CsrWifiSmeSetReqSizeof(void *msg) -{ - CsrWifiSmeSetReq *primitive = (CsrWifiSmeSetReq *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 4; /* u32 primitive->dataLength */ - bufferSize += primitive->dataLength; /* u8 primitive->data */ - return bufferSize; -} - - -u8* CsrWifiSmeSetReqSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeSetReq *primitive = (CsrWifiSmeSetReq *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint32Ser(ptr, len, (u32) primitive->dataLength); - if (primitive->dataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); - } - return(ptr); -} - - -void* CsrWifiSmeSetReqDes(u8 *buffer, size_t length) -{ - CsrWifiSmeSetReq *primitive = kmalloc(sizeof(CsrWifiSmeSetReq), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint32Des((u32 *) &primitive->dataLength, buffer, &offset); - if (primitive->dataLength) - { - primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); - } - else - { - primitive->data = NULL; - } - - return primitive; -} - - -void CsrWifiSmeSetReqSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeSetReq *primitive = (CsrWifiSmeSetReq *) voidPrimitivePointer; - kfree(primitive->data); - kfree(primitive); -} - - -size_t CsrWifiSmeAdhocConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* u16 primitive->adHocConfig.atimWindowTu */ - bufferSize += 2; /* u16 primitive->adHocConfig.beaconPeriodTu */ - bufferSize += 2; /* u16 primitive->adHocConfig.joinOnlyAttempts */ - bufferSize += 2; /* u16 primitive->adHocConfig.joinAttemptIntervalMs */ - return bufferSize; -} - - -u8* CsrWifiSmeAdhocConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeAdhocConfigGetCfm *primitive = (CsrWifiSmeAdhocConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.atimWindowTu); - CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.beaconPeriodTu); - CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.joinOnlyAttempts); - CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.joinAttemptIntervalMs); - return(ptr); -} - - -void* CsrWifiSmeAdhocConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeAdhocConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeAdhocConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->adHocConfig.atimWindowTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->adHocConfig.beaconPeriodTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->adHocConfig.joinOnlyAttempts, buffer, &offset); - CsrUint16Des((u16 *) &primitive->adHocConfig.joinAttemptIntervalMs, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeAssociationCompleteIndSizeof(void *msg) -{ - CsrWifiSmeAssociationCompleteInd *primitive = (CsrWifiSmeAssociationCompleteInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 98) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 32; /* u8 primitive->connectionInfo.ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->connectionInfo.ssid.length */ - bufferSize += 6; /* u8 primitive->connectionInfo.bssid.a[6] */ - bufferSize += 1; /* CsrWifiSme80211NetworkType primitive->connectionInfo.networkType80211 */ - bufferSize += 1; /* u8 primitive->connectionInfo.channelNumber */ - bufferSize += 2; /* u16 primitive->connectionInfo.channelFrequency */ - bufferSize += 2; /* CsrWifiSmeAuthMode primitive->connectionInfo.authMode */ - bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.pairwiseCipher */ - bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.groupCipher */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionInfo.ifIndex */ - bufferSize += 2; /* u16 primitive->connectionInfo.atimWindowTu */ - bufferSize += 2; /* u16 primitive->connectionInfo.beaconPeriodTu */ - bufferSize += 1; /* u8 primitive->connectionInfo.reassociation */ - bufferSize += 2; /* u16 primitive->connectionInfo.beaconFrameLength */ - bufferSize += primitive->connectionInfo.beaconFrameLength; /* u8 primitive->connectionInfo.beaconFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.associationReqFrameLength */ - bufferSize += primitive->connectionInfo.associationReqFrameLength; /* u8 primitive->connectionInfo.associationReqFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.associationRspFrameLength */ - bufferSize += primitive->connectionInfo.associationRspFrameLength; /* u8 primitive->connectionInfo.associationRspFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocScanInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocScanInfoElementsLength; /* u8 primitive->connectionInfo.assocScanInfoElements */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqCapabilities */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqListenIntervalTu */ - bufferSize += 6; /* u8 primitive->connectionInfo.assocReqApAddress.a[6] */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocReqInfoElementsLength; /* u8 primitive->connectionInfo.assocReqInfoElements */ - bufferSize += 2; /* CsrWifiSmeIEEE80211Result primitive->connectionInfo.assocRspResult */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspCapabilityInfo */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspAssociationId */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocRspInfoElementsLength; /* u8 primitive->connectionInfo.assocRspInfoElements */ - bufferSize += 2; /* CsrWifiSmeIEEE80211Reason primitive->deauthReason */ - return bufferSize; -} - - -u8* CsrWifiSmeAssociationCompleteIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeAssociationCompleteInd *primitive = (CsrWifiSmeAssociationCompleteInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ssid.length); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.bssid.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.networkType80211); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.channelNumber); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.channelFrequency); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.authMode); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.pairwiseCipher); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.groupCipher); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ifIndex); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.atimWindowTu); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconPeriodTu); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.reassociation); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconFrameLength); - if (primitive->connectionInfo.beaconFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.beaconFrame, ((u16) (primitive->connectionInfo.beaconFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationReqFrameLength); - if (primitive->connectionInfo.associationReqFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationReqFrame, ((u16) (primitive->connectionInfo.associationReqFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationRspFrameLength); - if (primitive->connectionInfo.associationRspFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationRspFrame, ((u16) (primitive->connectionInfo.associationRspFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocScanInfoElementsLength); - if (primitive->connectionInfo.assocScanInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocScanInfoElements, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqCapabilities); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqListenIntervalTu); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqApAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqInfoElementsLength); - if (primitive->connectionInfo.assocReqInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqInfoElements, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspResult); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspCapabilityInfo); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspAssociationId); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspInfoElementsLength); - if (primitive->connectionInfo.assocRspInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocRspInfoElements, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->deauthReason); - return(ptr); -} - - -void* CsrWifiSmeAssociationCompleteIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeAssociationCompleteInd *primitive = kmalloc(sizeof(CsrWifiSmeAssociationCompleteInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->connectionInfo.ssid.length, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.bssid.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->connectionInfo.networkType80211, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.channelNumber, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.channelFrequency, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.authMode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.pairwiseCipher, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.groupCipher, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.ifIndex, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.atimWindowTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.beaconPeriodTu, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.reassociation, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.beaconFrameLength, buffer, &offset); - if (primitive->connectionInfo.beaconFrameLength) - { - primitive->connectionInfo.beaconFrame = kmalloc(primitive->connectionInfo.beaconFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.beaconFrame, buffer, &offset, ((u16) (primitive->connectionInfo.beaconFrameLength))); - } - else - { - primitive->connectionInfo.beaconFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.associationReqFrameLength, buffer, &offset); - if (primitive->connectionInfo.associationReqFrameLength) - { - primitive->connectionInfo.associationReqFrame = kmalloc(primitive->connectionInfo.associationReqFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.associationReqFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationReqFrameLength))); - } - else - { - primitive->connectionInfo.associationReqFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.associationRspFrameLength, buffer, &offset); - if (primitive->connectionInfo.associationRspFrameLength) - { - primitive->connectionInfo.associationRspFrame = kmalloc(primitive->connectionInfo.associationRspFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.associationRspFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationRspFrameLength))); - } - else - { - primitive->connectionInfo.associationRspFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocScanInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocScanInfoElementsLength) - { - primitive->connectionInfo.assocScanInfoElements = kmalloc(primitive->connectionInfo.assocScanInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocScanInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocScanInfoElements = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqCapabilities, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqListenIntervalTu, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.assocReqApAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocReqInfoElementsLength) - { - primitive->connectionInfo.assocReqInfoElements = kmalloc(primitive->connectionInfo.assocReqInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocReqInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocReqInfoElements = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspResult, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspCapabilityInfo, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspAssociationId, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocRspInfoElementsLength) - { - primitive->connectionInfo.assocRspInfoElements = kmalloc(primitive->connectionInfo.assocRspInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocRspInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocRspInfoElements = NULL; - } - CsrUint16Des((u16 *) &primitive->deauthReason, buffer, &offset); - - return primitive; -} - - -void CsrWifiSmeAssociationCompleteIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeAssociationCompleteInd *primitive = (CsrWifiSmeAssociationCompleteInd *) voidPrimitivePointer; - kfree(primitive->connectionInfo.beaconFrame); - kfree(primitive->connectionInfo.associationReqFrame); - kfree(primitive->connectionInfo.associationRspFrame); - kfree(primitive->connectionInfo.assocScanInfoElements); - kfree(primitive->connectionInfo.assocReqInfoElements); - kfree(primitive->connectionInfo.assocRspInfoElements); - kfree(primitive); -} - - -size_t CsrWifiSmeAssociationStartIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 44) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 6; /* u8 primitive->address.a[6] */ - bufferSize += 32; /* u8 primitive->ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->ssid.length */ - return bufferSize; -} - - -u8* CsrWifiSmeAssociationStartIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeAssociationStartInd *primitive = (CsrWifiSmeAssociationStartInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); - CsrMemCpySer(ptr, len, (const void *) primitive->ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->ssid.length); - return(ptr); -} - - -void* CsrWifiSmeAssociationStartIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeAssociationStartInd *primitive = kmalloc(sizeof(CsrWifiSmeAssociationStartInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); - CsrMemCpyDes(primitive->ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->ssid.length, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeBlacklistCfmSizeof(void *msg) -{ - CsrWifiSmeBlacklistCfm *primitive = (CsrWifiSmeBlacklistCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 1; /* u8 primitive->getAddressCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressCount; i1++) - { - bufferSize += 6; /* u8 primitive->getAddresses[i1].a[6] */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeBlacklistCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeBlacklistCfm *primitive = (CsrWifiSmeBlacklistCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->getAddressCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->getAddresses[i1].a, ((u16) (6))); - } - } - return(ptr); -} - - -void* CsrWifiSmeBlacklistCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeBlacklistCfm *primitive = kmalloc(sizeof(CsrWifiSmeBlacklistCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->getAddressCount, buffer, &offset); - primitive->getAddresses = NULL; - if (primitive->getAddressCount) - { - primitive->getAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->getAddressCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressCount; i1++) - { - CsrMemCpyDes(primitive->getAddresses[i1].a, buffer, &offset, ((u16) (6))); - } - } - - return primitive; -} - - -void CsrWifiSmeBlacklistCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeBlacklistCfm *primitive = (CsrWifiSmeBlacklistCfm *) voidPrimitivePointer; - kfree(primitive->getAddresses); - kfree(primitive); -} - - -size_t CsrWifiSmeCalibrationDataGetCfmSizeof(void *msg) -{ - CsrWifiSmeCalibrationDataGetCfm *primitive = (CsrWifiSmeCalibrationDataGetCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* u16 primitive->calibrationDataLength */ - bufferSize += primitive->calibrationDataLength; /* u8 primitive->calibrationData */ - return bufferSize; -} - - -u8* CsrWifiSmeCalibrationDataGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCalibrationDataGetCfm *primitive = (CsrWifiSmeCalibrationDataGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->calibrationDataLength); - if (primitive->calibrationDataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->calibrationData, ((u16) (primitive->calibrationDataLength))); - } - return(ptr); -} - - -void* CsrWifiSmeCalibrationDataGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCalibrationDataGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCalibrationDataGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->calibrationDataLength, buffer, &offset); - if (primitive->calibrationDataLength) - { - primitive->calibrationData = kmalloc(primitive->calibrationDataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->calibrationData, buffer, &offset, ((u16) (primitive->calibrationDataLength))); - } - else - { - primitive->calibrationData = NULL; - } - - return primitive; -} - - -void CsrWifiSmeCalibrationDataGetCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeCalibrationDataGetCfm *primitive = (CsrWifiSmeCalibrationDataGetCfm *) voidPrimitivePointer; - kfree(primitive->calibrationData); - kfree(primitive); -} - - -size_t CsrWifiSmeCcxConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* u8 primitive->ccxConfig.keepAliveTimeMs */ - bufferSize += 1; /* u8 primitive->ccxConfig.apRoamingEnabled */ - bufferSize += 1; /* u8 primitive->ccxConfig.measurementsMask */ - bufferSize += 1; /* u8 primitive->ccxConfig.ccxRadioMgtEnabled */ - return bufferSize; -} - - -u8* CsrWifiSmeCcxConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCcxConfigGetCfm *primitive = (CsrWifiSmeCcxConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.keepAliveTimeMs); - CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.apRoamingEnabled); - CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.measurementsMask); - CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.ccxRadioMgtEnabled); - return(ptr); -} - - -void* CsrWifiSmeCcxConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCcxConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCcxConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ccxConfig.keepAliveTimeMs, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ccxConfig.apRoamingEnabled, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ccxConfig.measurementsMask, buffer, &offset); - CsrUint8Des((u8 *) &primitive->ccxConfig.ccxRadioMgtEnabled, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeCcxConfigSetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiSmeCcxConfigSetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCcxConfigSetCfm *primitive = (CsrWifiSmeCcxConfigSetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiSmeCcxConfigSetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCcxConfigSetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCcxConfigSetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeCoexConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 31) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* u8 primitive->coexConfig.coexEnableSchemeManagement */ - bufferSize += 1; /* u8 primitive->coexConfig.coexPeriodicWakeHost */ - bufferSize += 2; /* u16 primitive->coexConfig.coexTrafficBurstyLatencyMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexTrafficContinuousLatencyMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexObexBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexObexBlackoutPeriodMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpBrBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpBrBlackoutPeriodMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpEdrBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexPagingBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexPagingBlackoutPeriodMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexInquiryBlackoutDurationMs */ - bufferSize += 2; /* u16 primitive->coexConfig.coexInquiryBlackoutPeriodMs */ - return bufferSize; -} - - -u8* CsrWifiSmeCoexConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCoexConfigGetCfm *primitive = (CsrWifiSmeCoexConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->coexConfig.coexEnableSchemeManagement); - CsrUint8Ser(ptr, len, (u8) primitive->coexConfig.coexPeriodicWakeHost); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexTrafficBurstyLatencyMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexTrafficContinuousLatencyMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexObexBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexObexBlackoutPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpBrBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpBrBlackoutPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpEdrBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexPagingBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexPagingBlackoutPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexInquiryBlackoutDurationMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexInquiryBlackoutPeriodMs); - return(ptr); -} - - -void* CsrWifiSmeCoexConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCoexConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCoexConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexConfig.coexEnableSchemeManagement, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexConfig.coexPeriodicWakeHost, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexTrafficBurstyLatencyMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexTrafficContinuousLatencyMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexObexBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexObexBlackoutPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpBrBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpBrBlackoutPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpEdrBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexPagingBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexPagingBlackoutPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexInquiryBlackoutDurationMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexConfig.coexInquiryBlackoutPeriodMs, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeCoexInfoGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 24) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* u8 primitive->coexInfo.hasTrafficData */ - bufferSize += 1; /* CsrWifiSmeTrafficType primitive->coexInfo.currentTrafficType */ - bufferSize += 2; /* u16 primitive->coexInfo.currentPeriodMs */ - bufferSize += 1; /* CsrWifiSmePowerSaveLevel primitive->coexInfo.currentPowerSave */ - bufferSize += 2; /* u16 primitive->coexInfo.currentCoexPeriodMs */ - bufferSize += 2; /* u16 primitive->coexInfo.currentCoexLatencyMs */ - bufferSize += 1; /* u8 primitive->coexInfo.hasBtDevice */ - bufferSize += 4; /* u32 primitive->coexInfo.currentBlackoutDurationUs */ - bufferSize += 4; /* u32 primitive->coexInfo.currentBlackoutPeriodUs */ - bufferSize += 1; /* CsrWifiSmeCoexScheme primitive->coexInfo.currentCoexScheme */ - return bufferSize; -} - - -u8* CsrWifiSmeCoexInfoGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCoexInfoGetCfm *primitive = (CsrWifiSmeCoexInfoGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.hasTrafficData); - CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.currentTrafficType); - CsrUint16Ser(ptr, len, (u16) primitive->coexInfo.currentPeriodMs); - CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.currentPowerSave); - CsrUint16Ser(ptr, len, (u16) primitive->coexInfo.currentCoexPeriodMs); - CsrUint16Ser(ptr, len, (u16) primitive->coexInfo.currentCoexLatencyMs); - CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.hasBtDevice); - CsrUint32Ser(ptr, len, (u32) primitive->coexInfo.currentBlackoutDurationUs); - CsrUint32Ser(ptr, len, (u32) primitive->coexInfo.currentBlackoutPeriodUs); - CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.currentCoexScheme); - return(ptr); -} - - -void* CsrWifiSmeCoexInfoGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCoexInfoGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCoexInfoGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexInfo.hasTrafficData, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexInfo.currentTrafficType, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexInfo.currentPeriodMs, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexInfo.currentPowerSave, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexInfo.currentCoexPeriodMs, buffer, &offset); - CsrUint16Des((u16 *) &primitive->coexInfo.currentCoexLatencyMs, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexInfo.hasBtDevice, buffer, &offset); - CsrUint32Des((u32 *) &primitive->coexInfo.currentBlackoutDurationUs, buffer, &offset); - CsrUint32Des((u32 *) &primitive->coexInfo.currentBlackoutPeriodUs, buffer, &offset); - CsrUint8Des((u8 *) &primitive->coexInfo.currentCoexScheme, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeConnectCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiSmeConnectCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeConnectCfm *primitive = (CsrWifiSmeConnectCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiSmeConnectCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeConnectCfm *primitive = kmalloc(sizeof(CsrWifiSmeConnectCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeConnectionConfigGetCfmSizeof(void *msg) -{ - CsrWifiSmeConnectionConfigGetCfm *primitive = (CsrWifiSmeConnectionConfigGetCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 59) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 32; /* u8 primitive->connectionConfig.ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->connectionConfig.ssid.length */ - bufferSize += 6; /* u8 primitive->connectionConfig.bssid.a[6] */ - bufferSize += 1; /* CsrWifiSmeBssType primitive->connectionConfig.bssType */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionConfig.ifIndex */ - bufferSize += 1; /* CsrWifiSme80211PrivacyMode primitive->connectionConfig.privacyMode */ - bufferSize += 2; /* CsrWifiSmeAuthModeMask primitive->connectionConfig.authModeMask */ - bufferSize += 2; /* CsrWifiSmeEncryptionMask primitive->connectionConfig.encryptionModeMask */ - bufferSize += 2; /* u16 primitive->connectionConfig.mlmeAssociateReqInformationElementsLength */ - bufferSize += primitive->connectionConfig.mlmeAssociateReqInformationElementsLength; /* u8 primitive->connectionConfig.mlmeAssociateReqInformationElements */ - bufferSize += 1; /* CsrWifiSmeWmmQosInfoMask primitive->connectionConfig.wmmQosInfo */ - bufferSize += 1; /* u8 primitive->connectionConfig.adhocJoinOnly */ - bufferSize += 1; /* u8 primitive->connectionConfig.adhocChannel */ - return bufferSize; -} - - -u8* CsrWifiSmeConnectionConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeConnectionConfigGetCfm *primitive = (CsrWifiSmeConnectionConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.ssid.length); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.bssid.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.bssType); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.ifIndex); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.privacyMode); - CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.authModeMask); - CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.encryptionModeMask); - CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.mlmeAssociateReqInformationElementsLength); - if (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.mlmeAssociateReqInformationElements, ((u16) (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength))); - } - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.wmmQosInfo); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.adhocJoinOnly); - CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.adhocChannel); - return(ptr); -} - - -void* CsrWifiSmeConnectionConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeConnectionConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeConnectionConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrMemCpyDes(primitive->connectionConfig.ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->connectionConfig.ssid.length, buffer, &offset); - CsrMemCpyDes(primitive->connectionConfig.bssid.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->connectionConfig.bssType, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionConfig.ifIndex, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionConfig.privacyMode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionConfig.authModeMask, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionConfig.encryptionModeMask, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionConfig.mlmeAssociateReqInformationElementsLength, buffer, &offset); - if (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength) - { - primitive->connectionConfig.mlmeAssociateReqInformationElements = kmalloc(primitive->connectionConfig.mlmeAssociateReqInformationElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionConfig.mlmeAssociateReqInformationElements, buffer, &offset, ((u16) (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength))); - } - else - { - primitive->connectionConfig.mlmeAssociateReqInformationElements = NULL; - } - CsrUint8Des((u8 *) &primitive->connectionConfig.wmmQosInfo, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionConfig.adhocJoinOnly, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionConfig.adhocChannel, buffer, &offset); - - return primitive; -} - - -void CsrWifiSmeConnectionConfigGetCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeConnectionConfigGetCfm *primitive = (CsrWifiSmeConnectionConfigGetCfm *) voidPrimitivePointer; - kfree(primitive->connectionConfig.mlmeAssociateReqInformationElements); - kfree(primitive); -} - - -size_t CsrWifiSmeConnectionInfoGetCfmSizeof(void *msg) -{ - CsrWifiSmeConnectionInfoGetCfm *primitive = (CsrWifiSmeConnectionInfoGetCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 96) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 32; /* u8 primitive->connectionInfo.ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->connectionInfo.ssid.length */ - bufferSize += 6; /* u8 primitive->connectionInfo.bssid.a[6] */ - bufferSize += 1; /* CsrWifiSme80211NetworkType primitive->connectionInfo.networkType80211 */ - bufferSize += 1; /* u8 primitive->connectionInfo.channelNumber */ - bufferSize += 2; /* u16 primitive->connectionInfo.channelFrequency */ - bufferSize += 2; /* CsrWifiSmeAuthMode primitive->connectionInfo.authMode */ - bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.pairwiseCipher */ - bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.groupCipher */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionInfo.ifIndex */ - bufferSize += 2; /* u16 primitive->connectionInfo.atimWindowTu */ - bufferSize += 2; /* u16 primitive->connectionInfo.beaconPeriodTu */ - bufferSize += 1; /* u8 primitive->connectionInfo.reassociation */ - bufferSize += 2; /* u16 primitive->connectionInfo.beaconFrameLength */ - bufferSize += primitive->connectionInfo.beaconFrameLength; /* u8 primitive->connectionInfo.beaconFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.associationReqFrameLength */ - bufferSize += primitive->connectionInfo.associationReqFrameLength; /* u8 primitive->connectionInfo.associationReqFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.associationRspFrameLength */ - bufferSize += primitive->connectionInfo.associationRspFrameLength; /* u8 primitive->connectionInfo.associationRspFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocScanInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocScanInfoElementsLength; /* u8 primitive->connectionInfo.assocScanInfoElements */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqCapabilities */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqListenIntervalTu */ - bufferSize += 6; /* u8 primitive->connectionInfo.assocReqApAddress.a[6] */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocReqInfoElementsLength; /* u8 primitive->connectionInfo.assocReqInfoElements */ - bufferSize += 2; /* CsrWifiSmeIEEE80211Result primitive->connectionInfo.assocRspResult */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspCapabilityInfo */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspAssociationId */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocRspInfoElementsLength; /* u8 primitive->connectionInfo.assocRspInfoElements */ - return bufferSize; -} - - -u8* CsrWifiSmeConnectionInfoGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeConnectionInfoGetCfm *primitive = (CsrWifiSmeConnectionInfoGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ssid.length); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.bssid.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.networkType80211); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.channelNumber); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.channelFrequency); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.authMode); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.pairwiseCipher); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.groupCipher); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ifIndex); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.atimWindowTu); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconPeriodTu); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.reassociation); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconFrameLength); - if (primitive->connectionInfo.beaconFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.beaconFrame, ((u16) (primitive->connectionInfo.beaconFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationReqFrameLength); - if (primitive->connectionInfo.associationReqFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationReqFrame, ((u16) (primitive->connectionInfo.associationReqFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationRspFrameLength); - if (primitive->connectionInfo.associationRspFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationRspFrame, ((u16) (primitive->connectionInfo.associationRspFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocScanInfoElementsLength); - if (primitive->connectionInfo.assocScanInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocScanInfoElements, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqCapabilities); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqListenIntervalTu); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqApAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqInfoElementsLength); - if (primitive->connectionInfo.assocReqInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqInfoElements, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspResult); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspCapabilityInfo); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspAssociationId); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspInfoElementsLength); - if (primitive->connectionInfo.assocRspInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocRspInfoElements, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); - } - return(ptr); -} - - -void* CsrWifiSmeConnectionInfoGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeConnectionInfoGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeConnectionInfoGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->connectionInfo.ssid.length, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.bssid.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->connectionInfo.networkType80211, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.channelNumber, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.channelFrequency, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.authMode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.pairwiseCipher, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.groupCipher, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.ifIndex, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.atimWindowTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.beaconPeriodTu, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.reassociation, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.beaconFrameLength, buffer, &offset); - if (primitive->connectionInfo.beaconFrameLength) - { - primitive->connectionInfo.beaconFrame = kmalloc(primitive->connectionInfo.beaconFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.beaconFrame, buffer, &offset, ((u16) (primitive->connectionInfo.beaconFrameLength))); - } - else - { - primitive->connectionInfo.beaconFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.associationReqFrameLength, buffer, &offset); - if (primitive->connectionInfo.associationReqFrameLength) - { - primitive->connectionInfo.associationReqFrame = kmalloc(primitive->connectionInfo.associationReqFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.associationReqFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationReqFrameLength))); - } - else - { - primitive->connectionInfo.associationReqFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.associationRspFrameLength, buffer, &offset); - if (primitive->connectionInfo.associationRspFrameLength) - { - primitive->connectionInfo.associationRspFrame = kmalloc(primitive->connectionInfo.associationRspFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.associationRspFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationRspFrameLength))); - } - else - { - primitive->connectionInfo.associationRspFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocScanInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocScanInfoElementsLength) - { - primitive->connectionInfo.assocScanInfoElements = kmalloc(primitive->connectionInfo.assocScanInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocScanInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocScanInfoElements = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqCapabilities, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqListenIntervalTu, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.assocReqApAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocReqInfoElementsLength) - { - primitive->connectionInfo.assocReqInfoElements = kmalloc(primitive->connectionInfo.assocReqInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocReqInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocReqInfoElements = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspResult, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspCapabilityInfo, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspAssociationId, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocRspInfoElementsLength) - { - primitive->connectionInfo.assocRspInfoElements = kmalloc(primitive->connectionInfo.assocRspInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocRspInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocRspInfoElements = NULL; - } - - return primitive; -} - - -void CsrWifiSmeConnectionInfoGetCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeConnectionInfoGetCfm *primitive = (CsrWifiSmeConnectionInfoGetCfm *) voidPrimitivePointer; - kfree(primitive->connectionInfo.beaconFrame); - kfree(primitive->connectionInfo.associationReqFrame); - kfree(primitive->connectionInfo.associationRspFrame); - kfree(primitive->connectionInfo.assocScanInfoElements); - kfree(primitive->connectionInfo.assocReqInfoElements); - kfree(primitive->connectionInfo.assocRspInfoElements); - kfree(primitive); -} - - -size_t CsrWifiSmeConnectionQualityIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* s16 primitive->linkQuality.unifiRssi */ - bufferSize += 2; /* s16 primitive->linkQuality.unifiSnr */ - return bufferSize; -} - - -u8* CsrWifiSmeConnectionQualityIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeConnectionQualityInd *primitive = (CsrWifiSmeConnectionQualityInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->linkQuality.unifiRssi); - CsrUint16Ser(ptr, len, (u16) primitive->linkQuality.unifiSnr); - return(ptr); -} - - -void* CsrWifiSmeConnectionQualityIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeConnectionQualityInd *primitive = kmalloc(sizeof(CsrWifiSmeConnectionQualityInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->linkQuality.unifiRssi, buffer, &offset); - CsrUint16Des((u16 *) &primitive->linkQuality.unifiSnr, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeConnectionStatsGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 101) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* u8 primitive->connectionStats.unifiTxDataRate */ - bufferSize += 1; /* u8 primitive->connectionStats.unifiRxDataRate */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RetryCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11MultipleRetryCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11AckFailureCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11FrameDuplicateCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11FcsErrorCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RtsSuccessCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RtsFailureCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11FailedCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11TransmittedFragmentCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11TransmittedFrameCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11WepExcludedCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11WepIcvErrorCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11WepUndecryptableCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11MulticastReceivedFrameCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11MulticastTransmittedFrameCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11ReceivedFragmentCount */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11Rsna4WayHandshakeFailures */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaTkipCounterMeasuresInvoked */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsTkipLocalMicFailures */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsTkipReplays */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsTkipIcvErrors */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsCcmpReplays */ - bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsCcmpDecryptErrors */ - return bufferSize; -} - - -u8* CsrWifiSmeConnectionStatsGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeConnectionStatsGetCfm *primitive = (CsrWifiSmeConnectionStatsGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->connectionStats.unifiTxDataRate); - CsrUint8Ser(ptr, len, (u8) primitive->connectionStats.unifiRxDataRate); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RetryCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11MultipleRetryCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11AckFailureCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11FrameDuplicateCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11FcsErrorCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RtsSuccessCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RtsFailureCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11FailedCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11TransmittedFragmentCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11TransmittedFrameCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11WepExcludedCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11WepIcvErrorCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11WepUndecryptableCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11MulticastReceivedFrameCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11MulticastTransmittedFrameCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11ReceivedFragmentCount); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11Rsna4WayHandshakeFailures); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaTkipCounterMeasuresInvoked); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsTkipLocalMicFailures); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsTkipReplays); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsTkipIcvErrors); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsCcmpReplays); - CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsCcmpDecryptErrors); - return(ptr); -} - - -void* CsrWifiSmeConnectionStatsGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeConnectionStatsGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeConnectionStatsGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionStats.unifiTxDataRate, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionStats.unifiRxDataRate, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RetryCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11MultipleRetryCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11AckFailureCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11FrameDuplicateCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11FcsErrorCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RtsSuccessCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RtsFailureCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11FailedCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11TransmittedFragmentCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11TransmittedFrameCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11WepExcludedCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11WepIcvErrorCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11WepUndecryptableCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11MulticastReceivedFrameCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11MulticastTransmittedFrameCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11ReceivedFragmentCount, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11Rsna4WayHandshakeFailures, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaTkipCounterMeasuresInvoked, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsTkipLocalMicFailures, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsTkipReplays, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsTkipIcvErrors, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsCcmpReplays, buffer, &offset); - CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsCcmpDecryptErrors, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeDisconnectCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiSmeDisconnectCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeDisconnectCfm *primitive = (CsrWifiSmeDisconnectCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiSmeDisconnectCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeDisconnectCfm *primitive = kmalloc(sizeof(CsrWifiSmeDisconnectCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeHostConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* CsrWifiSmeHostPowerMode primitive->hostConfig.powerMode */ - bufferSize += 2; /* u16 primitive->hostConfig.applicationDataPeriodMs */ - return bufferSize; -} - - -u8* CsrWifiSmeHostConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeHostConfigGetCfm *primitive = (CsrWifiSmeHostConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->hostConfig.powerMode); - CsrUint16Ser(ptr, len, (u16) primitive->hostConfig.applicationDataPeriodMs); - return(ptr); -} - - -void* CsrWifiSmeHostConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeHostConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeHostConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->hostConfig.powerMode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->hostConfig.applicationDataPeriodMs, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeHostConfigSetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiSmeHostConfigSetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeHostConfigSetCfm *primitive = (CsrWifiSmeHostConfigSetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiSmeHostConfigSetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeHostConfigSetCfm *primitive = kmalloc(sizeof(CsrWifiSmeHostConfigSetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeIbssStationIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 6; /* u8 primitive->address.a[6] */ - bufferSize += 1; /* u8 primitive->isconnected */ - return bufferSize; -} - - -u8* CsrWifiSmeIbssStationIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeIbssStationInd *primitive = (CsrWifiSmeIbssStationInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->isconnected); - return(ptr); -} - - -void* CsrWifiSmeIbssStationIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeIbssStationInd *primitive = kmalloc(sizeof(CsrWifiSmeIbssStationInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->isconnected, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeKeyCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 1; /* CsrWifiSmeKeyType primitive->keyType */ - bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiSmeKeyCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeKeyCfm *primitive = (CsrWifiSmeKeyCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->keyType); - CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiSmeKeyCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeKeyCfm *primitive = kmalloc(sizeof(CsrWifiSmeKeyCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->keyType, buffer, &offset); - CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiSmeLinkQualityGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* s16 primitive->linkQuality.unifiRssi */ - bufferSize += 2; /* s16 primitive->linkQuality.unifiSnr */ - return bufferSize; -} - - -u8* CsrWifiSmeLinkQualityGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeLinkQualityGetCfm *primitive = (CsrWifiSmeLinkQualityGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->linkQuality.unifiRssi); - CsrUint16Ser(ptr, len, (u16) primitive->linkQuality.unifiSnr); - return(ptr); -} - - -void* CsrWifiSmeLinkQualityGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeLinkQualityGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeLinkQualityGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->linkQuality.unifiRssi, buffer, &offset); - CsrUint16Des((u16 *) &primitive->linkQuality.unifiSnr, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeMediaStatusIndSizeof(void *msg) -{ - CsrWifiSmeMediaStatusInd *primitive = (CsrWifiSmeMediaStatusInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 99) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeMediaStatus primitive->mediaStatus */ - bufferSize += 32; /* u8 primitive->connectionInfo.ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->connectionInfo.ssid.length */ - bufferSize += 6; /* u8 primitive->connectionInfo.bssid.a[6] */ - bufferSize += 1; /* CsrWifiSme80211NetworkType primitive->connectionInfo.networkType80211 */ - bufferSize += 1; /* u8 primitive->connectionInfo.channelNumber */ - bufferSize += 2; /* u16 primitive->connectionInfo.channelFrequency */ - bufferSize += 2; /* CsrWifiSmeAuthMode primitive->connectionInfo.authMode */ - bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.pairwiseCipher */ - bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.groupCipher */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionInfo.ifIndex */ - bufferSize += 2; /* u16 primitive->connectionInfo.atimWindowTu */ - bufferSize += 2; /* u16 primitive->connectionInfo.beaconPeriodTu */ - bufferSize += 1; /* u8 primitive->connectionInfo.reassociation */ - bufferSize += 2; /* u16 primitive->connectionInfo.beaconFrameLength */ - bufferSize += primitive->connectionInfo.beaconFrameLength; /* u8 primitive->connectionInfo.beaconFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.associationReqFrameLength */ - bufferSize += primitive->connectionInfo.associationReqFrameLength; /* u8 primitive->connectionInfo.associationReqFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.associationRspFrameLength */ - bufferSize += primitive->connectionInfo.associationRspFrameLength; /* u8 primitive->connectionInfo.associationRspFrame */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocScanInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocScanInfoElementsLength; /* u8 primitive->connectionInfo.assocScanInfoElements */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqCapabilities */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqListenIntervalTu */ - bufferSize += 6; /* u8 primitive->connectionInfo.assocReqApAddress.a[6] */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocReqInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocReqInfoElementsLength; /* u8 primitive->connectionInfo.assocReqInfoElements */ - bufferSize += 2; /* CsrWifiSmeIEEE80211Result primitive->connectionInfo.assocRspResult */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspCapabilityInfo */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspAssociationId */ - bufferSize += 2; /* u16 primitive->connectionInfo.assocRspInfoElementsLength */ - bufferSize += primitive->connectionInfo.assocRspInfoElementsLength; /* u8 primitive->connectionInfo.assocRspInfoElements */ - bufferSize += 2; /* CsrWifiSmeIEEE80211Reason primitive->disassocReason */ - bufferSize += 2; /* CsrWifiSmeIEEE80211Reason primitive->deauthReason */ - return bufferSize; -} - - -u8* CsrWifiSmeMediaStatusIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMediaStatusInd *primitive = (CsrWifiSmeMediaStatusInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->mediaStatus); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ssid.length); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.bssid.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.networkType80211); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.channelNumber); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.channelFrequency); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.authMode); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.pairwiseCipher); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.groupCipher); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ifIndex); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.atimWindowTu); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconPeriodTu); - CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.reassociation); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconFrameLength); - if (primitive->connectionInfo.beaconFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.beaconFrame, ((u16) (primitive->connectionInfo.beaconFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationReqFrameLength); - if (primitive->connectionInfo.associationReqFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationReqFrame, ((u16) (primitive->connectionInfo.associationReqFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationRspFrameLength); - if (primitive->connectionInfo.associationRspFrameLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationRspFrame, ((u16) (primitive->connectionInfo.associationRspFrameLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocScanInfoElementsLength); - if (primitive->connectionInfo.assocScanInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocScanInfoElements, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqCapabilities); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqListenIntervalTu); - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqApAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqInfoElementsLength); - if (primitive->connectionInfo.assocReqInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqInfoElements, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspResult); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspCapabilityInfo); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspAssociationId); - CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspInfoElementsLength); - if (primitive->connectionInfo.assocRspInfoElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocRspInfoElements, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); - } - CsrUint16Ser(ptr, len, (u16) primitive->disassocReason); - CsrUint16Ser(ptr, len, (u16) primitive->deauthReason); - return(ptr); -} - - -void* CsrWifiSmeMediaStatusIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMediaStatusInd *primitive = kmalloc(sizeof(CsrWifiSmeMediaStatusInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mediaStatus, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->connectionInfo.ssid.length, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.bssid.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->connectionInfo.networkType80211, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.channelNumber, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.channelFrequency, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.authMode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.pairwiseCipher, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.groupCipher, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.ifIndex, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.atimWindowTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.beaconPeriodTu, buffer, &offset); - CsrUint8Des((u8 *) &primitive->connectionInfo.reassociation, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.beaconFrameLength, buffer, &offset); - if (primitive->connectionInfo.beaconFrameLength) - { - primitive->connectionInfo.beaconFrame = kmalloc(primitive->connectionInfo.beaconFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.beaconFrame, buffer, &offset, ((u16) (primitive->connectionInfo.beaconFrameLength))); - } - else - { - primitive->connectionInfo.beaconFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.associationReqFrameLength, buffer, &offset); - if (primitive->connectionInfo.associationReqFrameLength) - { - primitive->connectionInfo.associationReqFrame = kmalloc(primitive->connectionInfo.associationReqFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.associationReqFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationReqFrameLength))); - } - else - { - primitive->connectionInfo.associationReqFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.associationRspFrameLength, buffer, &offset); - if (primitive->connectionInfo.associationRspFrameLength) - { - primitive->connectionInfo.associationRspFrame = kmalloc(primitive->connectionInfo.associationRspFrameLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.associationRspFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationRspFrameLength))); - } - else - { - primitive->connectionInfo.associationRspFrame = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocScanInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocScanInfoElementsLength) - { - primitive->connectionInfo.assocScanInfoElements = kmalloc(primitive->connectionInfo.assocScanInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocScanInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocScanInfoElements = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqCapabilities, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqListenIntervalTu, buffer, &offset); - CsrMemCpyDes(primitive->connectionInfo.assocReqApAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocReqInfoElementsLength) - { - primitive->connectionInfo.assocReqInfoElements = kmalloc(primitive->connectionInfo.assocReqInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocReqInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocReqInfoElements = NULL; - } - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspResult, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspCapabilityInfo, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspAssociationId, buffer, &offset); - CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspInfoElementsLength, buffer, &offset); - if (primitive->connectionInfo.assocRspInfoElementsLength) - { - primitive->connectionInfo.assocRspInfoElements = kmalloc(primitive->connectionInfo.assocRspInfoElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->connectionInfo.assocRspInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); - } - else - { - primitive->connectionInfo.assocRspInfoElements = NULL; - } - CsrUint16Des((u16 *) &primitive->disassocReason, buffer, &offset); - CsrUint16Des((u16 *) &primitive->deauthReason, buffer, &offset); - - return primitive; -} - - -void CsrWifiSmeMediaStatusIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeMediaStatusInd *primitive = (CsrWifiSmeMediaStatusInd *) voidPrimitivePointer; - kfree(primitive->connectionInfo.beaconFrame); - kfree(primitive->connectionInfo.associationReqFrame); - kfree(primitive->connectionInfo.associationRspFrame); - kfree(primitive->connectionInfo.assocScanInfoElements); - kfree(primitive->connectionInfo.assocReqInfoElements); - kfree(primitive->connectionInfo.assocRspInfoElements); - kfree(primitive); -} - - -size_t CsrWifiSmeMibConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* u8 primitive->mibConfig.unifiFixMaxTxDataRate */ - bufferSize += 1; /* u8 primitive->mibConfig.unifiFixTxDataRate */ - bufferSize += 2; /* u16 primitive->mibConfig.dot11RtsThreshold */ - bufferSize += 2; /* u16 primitive->mibConfig.dot11FragmentationThreshold */ - bufferSize += 2; /* u16 primitive->mibConfig.dot11CurrentTxPowerLevel */ - return bufferSize; -} - - -u8* CsrWifiSmeMibConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMibConfigGetCfm *primitive = (CsrWifiSmeMibConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->mibConfig.unifiFixMaxTxDataRate); - CsrUint8Ser(ptr, len, (u8) primitive->mibConfig.unifiFixTxDataRate); - CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11RtsThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11FragmentationThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11CurrentTxPowerLevel); - return(ptr); -} - - -void* CsrWifiSmeMibConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMibConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeMibConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mibConfig.unifiFixMaxTxDataRate, buffer, &offset); - CsrUint8Des((u8 *) &primitive->mibConfig.unifiFixTxDataRate, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibConfig.dot11RtsThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibConfig.dot11FragmentationThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibConfig.dot11CurrentTxPowerLevel, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeMibGetCfmSizeof(void *msg) -{ - CsrWifiSmeMibGetCfm *primitive = (CsrWifiSmeMibGetCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* u16 primitive->mibAttributeLength */ - bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ - return bufferSize; -} - - -u8* CsrWifiSmeMibGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMibGetCfm *primitive = (CsrWifiSmeMibGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); - if (primitive->mibAttributeLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); - } - return(ptr); -} - - -void* CsrWifiSmeMibGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMibGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeMibGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); - if (primitive->mibAttributeLength) - { - primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); - CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); - } - else - { - primitive->mibAttribute = NULL; - } - - return primitive; -} - - -void CsrWifiSmeMibGetCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeMibGetCfm *primitive = (CsrWifiSmeMibGetCfm *) voidPrimitivePointer; - kfree(primitive->mibAttribute); - kfree(primitive); -} - - -size_t CsrWifiSmeMibGetNextCfmSizeof(void *msg) -{ - CsrWifiSmeMibGetNextCfm *primitive = (CsrWifiSmeMibGetNextCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* u16 primitive->mibAttributeLength */ - bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ - return bufferSize; -} - - -u8* CsrWifiSmeMibGetNextCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMibGetNextCfm *primitive = (CsrWifiSmeMibGetNextCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); - if (primitive->mibAttributeLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); - } - return(ptr); -} - - -void* CsrWifiSmeMibGetNextCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMibGetNextCfm *primitive = kmalloc(sizeof(CsrWifiSmeMibGetNextCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); - if (primitive->mibAttributeLength) - { - primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); - CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); - } - else - { - primitive->mibAttribute = NULL; - } - - return primitive; -} - - -void CsrWifiSmeMibGetNextCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeMibGetNextCfm *primitive = (CsrWifiSmeMibGetNextCfm *) voidPrimitivePointer; - kfree(primitive->mibAttribute); - kfree(primitive); -} - - -size_t CsrWifiSmeMicFailureIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* u8 primitive->secondFailure */ - bufferSize += 2; /* u16 primitive->count */ - bufferSize += 6; /* u8 primitive->address.a[6] */ - bufferSize += 1; /* CsrWifiSmeKeyType primitive->keyType */ - return bufferSize; -} - - -u8* CsrWifiSmeMicFailureIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMicFailureInd *primitive = (CsrWifiSmeMicFailureInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->secondFailure); - CsrUint16Ser(ptr, len, (u16) primitive->count); - CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->keyType); - return(ptr); -} - - -void* CsrWifiSmeMicFailureIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMicFailureInd *primitive = kmalloc(sizeof(CsrWifiSmeMicFailureInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->secondFailure, buffer, &offset); - CsrUint16Des((u16 *) &primitive->count, buffer, &offset); - CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->keyType, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeMulticastAddressCfmSizeof(void *msg) -{ - CsrWifiSmeMulticastAddressCfm *primitive = (CsrWifiSmeMulticastAddressCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 1; /* u8 primitive->getAddressesCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressesCount; i1++) - { - bufferSize += 6; /* u8 primitive->getAddresses[i1].a[6] */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeMulticastAddressCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeMulticastAddressCfm *primitive = (CsrWifiSmeMulticastAddressCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->getAddressesCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressesCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->getAddresses[i1].a, ((u16) (6))); - } - } - return(ptr); -} - - -void* CsrWifiSmeMulticastAddressCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeMulticastAddressCfm *primitive = kmalloc(sizeof(CsrWifiSmeMulticastAddressCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->getAddressesCount, buffer, &offset); - primitive->getAddresses = NULL; - if (primitive->getAddressesCount) - { - primitive->getAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->getAddressesCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->getAddressesCount; i1++) - { - CsrMemCpyDes(primitive->getAddresses[i1].a, buffer, &offset, ((u16) (6))); - } - } - - return primitive; -} - - -void CsrWifiSmeMulticastAddressCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeMulticastAddressCfm *primitive = (CsrWifiSmeMulticastAddressCfm *) voidPrimitivePointer; - kfree(primitive->getAddresses); - kfree(primitive); -} - - -size_t CsrWifiSmePacketFilterSetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiSmePacketFilterSetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmePacketFilterSetCfm *primitive = (CsrWifiSmePacketFilterSetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiSmePacketFilterSetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmePacketFilterSetCfm *primitive = kmalloc(sizeof(CsrWifiSmePacketFilterSetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmePermanentMacAddressGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 6; /* u8 primitive->permanentMacAddress.a[6] */ - return bufferSize; -} - - -u8* CsrWifiSmePermanentMacAddressGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmePermanentMacAddressGetCfm *primitive = (CsrWifiSmePermanentMacAddressGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrMemCpySer(ptr, len, (const void *) primitive->permanentMacAddress.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiSmePermanentMacAddressGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmePermanentMacAddressGetCfm *primitive = kmalloc(sizeof(CsrWifiSmePermanentMacAddressGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrMemCpyDes(primitive->permanentMacAddress.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiSmePmkidCandidateListIndSizeof(void *msg) -{ - CsrWifiSmePmkidCandidateListInd *primitive = (CsrWifiSmePmkidCandidateListInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* u8 primitive->pmkidCandidatesCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->pmkidCandidatesCount; i1++) - { - bufferSize += 6; /* u8 primitive->pmkidCandidates[i1].bssid.a[6] */ - bufferSize += 1; /* u8 primitive->pmkidCandidates[i1].preAuthAllowed */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmePmkidCandidateListIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmePmkidCandidateListInd *primitive = (CsrWifiSmePmkidCandidateListInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->pmkidCandidatesCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->pmkidCandidatesCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->pmkidCandidates[i1].bssid.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->pmkidCandidates[i1].preAuthAllowed); - } - } - return(ptr); -} - - -void* CsrWifiSmePmkidCandidateListIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmePmkidCandidateListInd *primitive = kmalloc(sizeof(CsrWifiSmePmkidCandidateListInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->pmkidCandidatesCount, buffer, &offset); - primitive->pmkidCandidates = NULL; - if (primitive->pmkidCandidatesCount) - { - primitive->pmkidCandidates = kmalloc(sizeof(CsrWifiSmePmkidCandidate) * primitive->pmkidCandidatesCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->pmkidCandidatesCount; i1++) - { - CsrMemCpyDes(primitive->pmkidCandidates[i1].bssid.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->pmkidCandidates[i1].preAuthAllowed, buffer, &offset); - } - } - - return primitive; -} - - -void CsrWifiSmePmkidCandidateListIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmePmkidCandidateListInd *primitive = (CsrWifiSmePmkidCandidateListInd *) voidPrimitivePointer; - kfree(primitive->pmkidCandidates); - kfree(primitive); -} - - -size_t CsrWifiSmePmkidCfmSizeof(void *msg) -{ - CsrWifiSmePmkidCfm *primitive = (CsrWifiSmePmkidCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 31) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ - bufferSize += 1; /* u8 primitive->getPmkidsCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->getPmkidsCount; i1++) - { - bufferSize += 6; /* u8 primitive->getPmkids[i1].bssid.a[6] */ - bufferSize += 16; /* u8 primitive->getPmkids[i1].pmkid[16] */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmePmkidCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmePmkidCfm *primitive = (CsrWifiSmePmkidCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->action); - CsrUint8Ser(ptr, len, (u8) primitive->getPmkidsCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->getPmkidsCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->getPmkids[i1].bssid.a, ((u16) (6))); - CsrMemCpySer(ptr, len, (const void *) primitive->getPmkids[i1].pmkid, ((u16) (16))); - } - } - return(ptr); -} - - -void* CsrWifiSmePmkidCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmePmkidCfm *primitive = kmalloc(sizeof(CsrWifiSmePmkidCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->action, buffer, &offset); - CsrUint8Des((u8 *) &primitive->getPmkidsCount, buffer, &offset); - primitive->getPmkids = NULL; - if (primitive->getPmkidsCount) - { - primitive->getPmkids = kmalloc(sizeof(CsrWifiSmePmkid) * primitive->getPmkidsCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->getPmkidsCount; i1++) - { - CsrMemCpyDes(primitive->getPmkids[i1].bssid.a, buffer, &offset, ((u16) (6))); - CsrMemCpyDes(primitive->getPmkids[i1].pmkid, buffer, &offset, ((u16) (16))); - } - } - - return primitive; -} - - -void CsrWifiSmePmkidCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmePmkidCfm *primitive = (CsrWifiSmePmkidCfm *) voidPrimitivePointer; - kfree(primitive->getPmkids); - kfree(primitive); -} - - -size_t CsrWifiSmePowerConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* CsrWifiSmePowerSaveLevel primitive->powerConfig.powerSaveLevel */ - bufferSize += 2; /* u16 primitive->powerConfig.listenIntervalTu */ - bufferSize += 1; /* u8 primitive->powerConfig.rxDtims */ - bufferSize += 1; /* CsrWifiSmeD3AutoScanMode primitive->powerConfig.d3AutoScanMode */ - bufferSize += 1; /* u8 primitive->powerConfig.clientTrafficWindow */ - bufferSize += 1; /* u8 primitive->powerConfig.opportunisticPowerSave */ - bufferSize += 1; /* u8 primitive->powerConfig.noticeOfAbsence */ - return bufferSize; -} - - -u8* CsrWifiSmePowerConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmePowerConfigGetCfm *primitive = (CsrWifiSmePowerConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.powerSaveLevel); - CsrUint16Ser(ptr, len, (u16) primitive->powerConfig.listenIntervalTu); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.rxDtims); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.d3AutoScanMode); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.clientTrafficWindow); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.opportunisticPowerSave); - CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.noticeOfAbsence); - return(ptr); -} - - -void* CsrWifiSmePowerConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmePowerConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmePowerConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.powerSaveLevel, buffer, &offset); - CsrUint16Des((u16 *) &primitive->powerConfig.listenIntervalTu, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.rxDtims, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.d3AutoScanMode, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.clientTrafficWindow, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.opportunisticPowerSave, buffer, &offset); - CsrUint8Des((u8 *) &primitive->powerConfig.noticeOfAbsence, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeRegulatoryDomainInfoGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* u8 primitive->regDomInfo.dot11MultiDomainCapabilityImplemented */ - bufferSize += 1; /* u8 primitive->regDomInfo.dot11MultiDomainCapabilityEnabled */ - bufferSize += 1; /* CsrWifiSmeRegulatoryDomain primitive->regDomInfo.currentRegulatoryDomain */ - bufferSize += 2; /* u8 primitive->regDomInfo.currentCountryCode[2] */ - return bufferSize; -} - - -u8* CsrWifiSmeRegulatoryDomainInfoGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeRegulatoryDomainInfoGetCfm *primitive = (CsrWifiSmeRegulatoryDomainInfoGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->regDomInfo.dot11MultiDomainCapabilityImplemented); - CsrUint8Ser(ptr, len, (u8) primitive->regDomInfo.dot11MultiDomainCapabilityEnabled); - CsrUint8Ser(ptr, len, (u8) primitive->regDomInfo.currentRegulatoryDomain); - CsrMemCpySer(ptr, len, (const void *) primitive->regDomInfo.currentCountryCode, ((u16) (2))); - return(ptr); -} - - -void* CsrWifiSmeRegulatoryDomainInfoGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeRegulatoryDomainInfoGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeRegulatoryDomainInfoGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->regDomInfo.dot11MultiDomainCapabilityImplemented, buffer, &offset); - CsrUint8Des((u8 *) &primitive->regDomInfo.dot11MultiDomainCapabilityEnabled, buffer, &offset); - CsrUint8Des((u8 *) &primitive->regDomInfo.currentRegulatoryDomain, buffer, &offset); - CsrMemCpyDes(primitive->regDomInfo.currentCountryCode, buffer, &offset, ((u16) (2))); - - return primitive; -} - - -size_t CsrWifiSmeRoamCompleteIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiSmeRoamCompleteIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeRoamCompleteInd *primitive = (CsrWifiSmeRoamCompleteInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiSmeRoamCompleteIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeRoamCompleteInd *primitive = kmalloc(sizeof(CsrWifiSmeRoamCompleteInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeRoamStartIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 1; /* CsrWifiSmeRoamReason primitive->roamReason */ - bufferSize += 2; /* CsrWifiSmeIEEE80211Reason primitive->reason80211 */ - return bufferSize; -} - - -u8* CsrWifiSmeRoamStartIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeRoamStartInd *primitive = (CsrWifiSmeRoamStartInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint8Ser(ptr, len, (u8) primitive->roamReason); - CsrUint16Ser(ptr, len, (u16) primitive->reason80211); - return(ptr); -} - - -void* CsrWifiSmeRoamStartIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeRoamStartInd *primitive = kmalloc(sizeof(CsrWifiSmeRoamStartInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint8Des((u8 *) &primitive->roamReason, buffer, &offset); - CsrUint16Des((u16 *) &primitive->reason80211, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeRoamingConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 72) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].rssiHighThreshold */ - bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].rssiLowThreshold */ - bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].snrHighThreshold */ - bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].snrLowThreshold */ - } - } - bufferSize += 1; /* u8 primitive->roamingConfig.disableSmoothRoaming */ - bufferSize += 1; /* u8 primitive->roamingConfig.disableRoamScans */ - bufferSize += 1; /* u8 primitive->roamingConfig.reconnectLimit */ - bufferSize += 2; /* u16 primitive->roamingConfig.reconnectLimitIntervalMs */ - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].intervalSeconds */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].validitySeconds */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeRoamingConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeRoamingConfigGetCfm *primitive = (CsrWifiSmeRoamingConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].rssiHighThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].rssiLowThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].snrHighThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].snrLowThreshold); - } - } - CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.disableSmoothRoaming); - CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.disableRoamScans); - CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.reconnectLimit); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.reconnectLimitIntervalMs); - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].intervalSeconds); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].validitySeconds); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu); - } - } - return(ptr); -} - - -void* CsrWifiSmeRoamingConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeRoamingConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeRoamingConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].rssiHighThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].rssiLowThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].snrHighThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].snrLowThreshold, buffer, &offset); - } - } - CsrUint8Des((u8 *) &primitive->roamingConfig.disableSmoothRoaming, buffer, &offset); - CsrUint8Des((u8 *) &primitive->roamingConfig.disableRoamScans, buffer, &offset); - CsrUint8Des((u8 *) &primitive->roamingConfig.reconnectLimit, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.reconnectLimitIntervalMs, buffer, &offset); - { - u16 i2; - for (i2 = 0; i2 < 3; i2++) - { - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].intervalSeconds, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].validitySeconds, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu, buffer, &offset); - } - } - - return primitive; -} - - -size_t CsrWifiSmeRoamingConfigSetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiSmeRoamingConfigSetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeRoamingConfigSetCfm *primitive = (CsrWifiSmeRoamingConfigSetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiSmeRoamingConfigSetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeRoamingConfigSetCfm *primitive = kmalloc(sizeof(CsrWifiSmeRoamingConfigSetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeScanConfigGetCfmSizeof(void *msg) -{ - CsrWifiSmeScanConfigGetCfm *primitive = (CsrWifiSmeScanConfigGetCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 65) */ - bufferSize += 2; /* CsrResult primitive->status */ - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].intervalSeconds */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].validitySeconds */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu */ - bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu */ - } - } - bufferSize += 1; /* u8 primitive->scanConfig.disableAutonomousScans */ - bufferSize += 2; /* u16 primitive->scanConfig.maxResults */ - bufferSize += 1; /* s8 primitive->scanConfig.highRssiThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.lowRssiThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.deltaRssiThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.highSnrThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.lowSnrThreshold */ - bufferSize += 1; /* s8 primitive->scanConfig.deltaSnrThreshold */ - bufferSize += 2; /* u16 primitive->scanConfig.passiveChannelListCount */ - bufferSize += primitive->scanConfig.passiveChannelListCount; /* u8 primitive->scanConfig.passiveChannelList */ - return bufferSize; -} - - -u8* CsrWifiSmeScanConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeScanConfigGetCfm *primitive = (CsrWifiSmeScanConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].intervalSeconds); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].validitySeconds); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu); - } - } - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.disableAutonomousScans); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.maxResults); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.highRssiThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.lowRssiThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.deltaRssiThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.highSnrThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.lowSnrThreshold); - CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.deltaSnrThreshold); - CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.passiveChannelListCount); - if (primitive->scanConfig.passiveChannelListCount) - { - CsrMemCpySer(ptr, len, (const void *) primitive->scanConfig.passiveChannelList, ((u16) (primitive->scanConfig.passiveChannelListCount))); - } - return(ptr); -} - - -void* CsrWifiSmeScanConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeScanConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeScanConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - { - u16 i2; - for (i2 = 0; i2 < 4; i2++) - { - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].intervalSeconds, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].validitySeconds, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu, buffer, &offset); - } - } - CsrUint8Des((u8 *) &primitive->scanConfig.disableAutonomousScans, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.maxResults, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.highRssiThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.lowRssiThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.deltaRssiThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.highSnrThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.lowSnrThreshold, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanConfig.deltaSnrThreshold, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanConfig.passiveChannelListCount, buffer, &offset); - if (primitive->scanConfig.passiveChannelListCount) - { - primitive->scanConfig.passiveChannelList = kmalloc(primitive->scanConfig.passiveChannelListCount, GFP_KERNEL); - CsrMemCpyDes(primitive->scanConfig.passiveChannelList, buffer, &offset, ((u16) (primitive->scanConfig.passiveChannelListCount))); - } - else - { - primitive->scanConfig.passiveChannelList = NULL; - } - - return primitive; -} - - -void CsrWifiSmeScanConfigGetCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeScanConfigGetCfm *primitive = (CsrWifiSmeScanConfigGetCfm *) voidPrimitivePointer; - kfree(primitive->scanConfig.passiveChannelList); - kfree(primitive); -} - - -size_t CsrWifiSmeScanResultIndSizeof(void *msg) -{ - CsrWifiSmeScanResultInd *primitive = (CsrWifiSmeScanResultInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 149) */ - bufferSize += 32; /* u8 primitive->result.ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->result.ssid.length */ - bufferSize += 6; /* u8 primitive->result.bssid.a[6] */ - bufferSize += 2; /* s16 primitive->result.rssi */ - bufferSize += 2; /* s16 primitive->result.snr */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->result.ifIndex */ - bufferSize += 2; /* u16 primitive->result.beaconPeriodTu */ - bufferSize += 8; /* u8 primitive->result.timeStamp.data[8] */ - bufferSize += 8; /* u8 primitive->result.localTime.data[8] */ - bufferSize += 2; /* u16 primitive->result.channelFrequency */ - bufferSize += 2; /* u16 primitive->result.capabilityInformation */ - bufferSize += 1; /* u8 primitive->result.channelNumber */ - bufferSize += 1; /* CsrWifiSmeBasicUsability primitive->result.usability */ - bufferSize += 1; /* CsrWifiSmeBssType primitive->result.bssType */ - bufferSize += 2; /* u16 primitive->result.informationElementsLength */ - bufferSize += primitive->result.informationElementsLength; /* u8 primitive->result.informationElements */ - bufferSize += 1; /* CsrWifiSmeP2pRole primitive->result.p2pDeviceRole */ - switch (primitive->result.p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_CLI: - bufferSize += 1; /* u8 primitive->result.deviceInfo.reservedCli.empty */ - break; - case CSR_WIFI_SME_P2P_ROLE_GO: - bufferSize += 1; /* CsrWifiSmeP2pGroupCapabilityMask primitive->result.deviceInfo.groupInfo.groupCapability */ - bufferSize += 6; /* u8 primitive->result.deviceInfo.groupInfo.p2pDeviceAddress.a[6] */ - bufferSize += 1; /* u8 primitive->result.deviceInfo.groupInfo.p2pClientInfoCount */ - { - u16 i4; - for (i4 = 0; i4 < primitive->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - bufferSize += 6; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a[6] */ - bufferSize += 6; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a[6] */ - bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods */ - bufferSize += 1; /* CsrWifiSmeP2pCapabilityMask primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap */ - bufferSize += 8; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails[8] */ - bufferSize += 1; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount */ - { - u16 i6; - for (i6 = 0; i6 < primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) - { - bufferSize += 8; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails[8] */ - } - } - bufferSize += 32; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName[32] */ - bufferSize += 1; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength */ - } - } - break; - case CSR_WIFI_SME_P2P_ROLE_NONE: - bufferSize += 1; /* u8 primitive->result.deviceInfo.reservedNone.empty */ - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - bufferSize += 6; /* u8 primitive->result.deviceInfo.standalonedevInfo.deviceAddress.a[6] */ - bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->result.deviceInfo.standalonedevInfo.configMethods */ - bufferSize += 1; /* CsrWifiSmeP2pCapabilityMask primitive->result.deviceInfo.standalonedevInfo.p2PDeviceCap */ - bufferSize += 8; /* u8 primitive->result.deviceInfo.standalonedevInfo.primDeviceType.deviceDetails[8] */ - bufferSize += 1; /* u8 primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount */ - { - u16 i4; - for (i4 = 0; i4 < primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) - { - bufferSize += 8; /* u8 primitive->result.deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails[8] */ - } - } - bufferSize += 32; /* u8 primitive->result.deviceInfo.standalonedevInfo.deviceName[32] */ - bufferSize += 1; /* u8 primitive->result.deviceInfo.standalonedevInfo.deviceNameLength */ - break; - default: - break; - } - return bufferSize; -} - - -u8* CsrWifiSmeScanResultIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeScanResultInd *primitive = (CsrWifiSmeScanResultInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrMemCpySer(ptr, len, (const void *) primitive->result.ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->result.ssid.length); - CsrMemCpySer(ptr, len, (const void *) primitive->result.bssid.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->result.rssi); - CsrUint16Ser(ptr, len, (u16) primitive->result.snr); - CsrUint8Ser(ptr, len, (u8) primitive->result.ifIndex); - CsrUint16Ser(ptr, len, (u16) primitive->result.beaconPeriodTu); - CsrMemCpySer(ptr, len, (const void *) primitive->result.timeStamp.data, ((u16) (8))); - CsrMemCpySer(ptr, len, (const void *) primitive->result.localTime.data, ((u16) (8))); - CsrUint16Ser(ptr, len, (u16) primitive->result.channelFrequency); - CsrUint16Ser(ptr, len, (u16) primitive->result.capabilityInformation); - CsrUint8Ser(ptr, len, (u8) primitive->result.channelNumber); - CsrUint8Ser(ptr, len, (u8) primitive->result.usability); - CsrUint8Ser(ptr, len, (u8) primitive->result.bssType); - CsrUint16Ser(ptr, len, (u16) primitive->result.informationElementsLength); - if (primitive->result.informationElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->result.informationElements, ((u16) (primitive->result.informationElementsLength))); - } - CsrUint8Ser(ptr, len, (u8) primitive->result.p2pDeviceRole); - switch (primitive->result.p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_CLI: - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.reservedCli.empty); - break; - case CSR_WIFI_SME_P2P_ROLE_GO: - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.groupCapability); - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2pDeviceAddress.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.p2pClientInfoCount); - { - u16 i4; - for (i4 = 0; i4 < primitive->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a, ((u16) (6))); - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods); - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap); - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails, ((u16) (8))); - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount); - { - u16 i6; - for (i6 = 0; i6 < primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails, ((u16) (8))); - } - } - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength); - } - } - break; - case CSR_WIFI_SME_P2P_ROLE_NONE: - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.reservedNone.empty); - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.standalonedevInfo.deviceAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->result.deviceInfo.standalonedevInfo.configMethods); - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.standalonedevInfo.p2PDeviceCap); - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.standalonedevInfo.primDeviceType.deviceDetails, ((u16) (8))); - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount); - { - u16 i4; - for (i4 = 0; i4 < primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails, ((u16) (8))); - } - } - CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.standalonedevInfo.deviceName, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.standalonedevInfo.deviceNameLength); - break; - default: - break; - } - return(ptr); -} - - -void* CsrWifiSmeScanResultIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeScanResultInd *primitive = kmalloc(sizeof(CsrWifiSmeScanResultInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrMemCpyDes(primitive->result.ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->result.ssid.length, buffer, &offset); - CsrMemCpyDes(primitive->result.bssid.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->result.rssi, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result.snr, buffer, &offset); - CsrUint8Des((u8 *) &primitive->result.ifIndex, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result.beaconPeriodTu, buffer, &offset); - CsrMemCpyDes(primitive->result.timeStamp.data, buffer, &offset, ((u16) (8))); - CsrMemCpyDes(primitive->result.localTime.data, buffer, &offset, ((u16) (8))); - CsrUint16Des((u16 *) &primitive->result.channelFrequency, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result.capabilityInformation, buffer, &offset); - CsrUint8Des((u8 *) &primitive->result.channelNumber, buffer, &offset); - CsrUint8Des((u8 *) &primitive->result.usability, buffer, &offset); - CsrUint8Des((u8 *) &primitive->result.bssType, buffer, &offset); - CsrUint16Des((u16 *) &primitive->result.informationElementsLength, buffer, &offset); - if (primitive->result.informationElementsLength) - { - primitive->result.informationElements = kmalloc(primitive->result.informationElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->result.informationElements, buffer, &offset, ((u16) (primitive->result.informationElementsLength))); - } - else - { - primitive->result.informationElements = NULL; - } - CsrUint8Des((u8 *) &primitive->result.p2pDeviceRole, buffer, &offset); - switch (primitive->result.p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_CLI: - CsrUint8Des((u8 *) &primitive->result.deviceInfo.reservedCli.empty, buffer, &offset); - break; - case CSR_WIFI_SME_P2P_ROLE_GO: - CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.groupCapability, buffer, &offset); - CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2pDeviceAddress.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.p2pClientInfoCount, buffer, &offset); - primitive->result.deviceInfo.groupInfo.p2PClientInfo = NULL; - if (primitive->result.deviceInfo.groupInfo.p2pClientInfoCount) - { - primitive->result.deviceInfo.groupInfo.p2PClientInfo = kmalloc(sizeof(CsrWifiSmeP2pClientInfoType) * primitive->result.deviceInfo.groupInfo.p2pClientInfoCount, GFP_KERNEL); - } - { - u16 i4; - for (i4 = 0; i4 < primitive->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a, buffer, &offset, ((u16) (6))); - CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods, buffer, &offset); - CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap, buffer, &offset); - CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); - CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount, buffer, &offset); - primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = NULL; - if (primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount) - { - primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount, GFP_KERNEL); - } - { - u16 i6; - for (i6 = 0; i6 < primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) - { - CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails, buffer, &offset, ((u16) (8))); - } - } - CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength, buffer, &offset); - } - } - break; - case CSR_WIFI_SME_P2P_ROLE_NONE: - CsrUint8Des((u8 *) &primitive->result.deviceInfo.reservedNone.empty, buffer, &offset); - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - CsrMemCpyDes(primitive->result.deviceInfo.standalonedevInfo.deviceAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->result.deviceInfo.standalonedevInfo.configMethods, buffer, &offset); - CsrUint8Des((u8 *) &primitive->result.deviceInfo.standalonedevInfo.p2PDeviceCap, buffer, &offset); - CsrMemCpyDes(primitive->result.deviceInfo.standalonedevInfo.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); - CsrUint8Des((u8 *) &primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount, buffer, &offset); - primitive->result.deviceInfo.standalonedevInfo.secDeviceType = NULL; - if (primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount) - { - primitive->result.deviceInfo.standalonedevInfo.secDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount, GFP_KERNEL); - } - { - u16 i4; - for (i4 = 0; i4 < primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) - { - CsrMemCpyDes(primitive->result.deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails, buffer, &offset, ((u16) (8))); - } - } - CsrMemCpyDes(primitive->result.deviceInfo.standalonedevInfo.deviceName, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->result.deviceInfo.standalonedevInfo.deviceNameLength, buffer, &offset); - break; - default: - break; - } - - return primitive; -} - - -void CsrWifiSmeScanResultIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeScanResultInd *primitive = (CsrWifiSmeScanResultInd *) voidPrimitivePointer; - kfree(primitive->result.informationElements); - switch (primitive->result.p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_GO: - { - u16 i4; - for (i4 = 0; i4 < primitive->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - kfree(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType); - } - } - kfree(primitive->result.deviceInfo.groupInfo.p2PClientInfo); - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - kfree(primitive->result.deviceInfo.standalonedevInfo.secDeviceType); - break; - default: - break; - } - kfree(primitive); -} - - -size_t CsrWifiSmeScanResultsGetCfmSizeof(void *msg) -{ - CsrWifiSmeScanResultsGetCfm *primitive = (CsrWifiSmeScanResultsGetCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 153) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* u16 primitive->scanResultsCount */ - { - u16 i1; - for (i1 = 0; i1 < primitive->scanResultsCount; i1++) - { - bufferSize += 32; /* u8 primitive->scanResults[i1].ssid.ssid[32] */ - bufferSize += 1; /* u8 primitive->scanResults[i1].ssid.length */ - bufferSize += 6; /* u8 primitive->scanResults[i1].bssid.a[6] */ - bufferSize += 2; /* s16 primitive->scanResults[i1].rssi */ - bufferSize += 2; /* s16 primitive->scanResults[i1].snr */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->scanResults[i1].ifIndex */ - bufferSize += 2; /* u16 primitive->scanResults[i1].beaconPeriodTu */ - bufferSize += 8; /* u8 primitive->scanResults[i1].timeStamp.data[8] */ - bufferSize += 8; /* u8 primitive->scanResults[i1].localTime.data[8] */ - bufferSize += 2; /* u16 primitive->scanResults[i1].channelFrequency */ - bufferSize += 2; /* u16 primitive->scanResults[i1].capabilityInformation */ - bufferSize += 1; /* u8 primitive->scanResults[i1].channelNumber */ - bufferSize += 1; /* CsrWifiSmeBasicUsability primitive->scanResults[i1].usability */ - bufferSize += 1; /* CsrWifiSmeBssType primitive->scanResults[i1].bssType */ - bufferSize += 2; /* u16 primitive->scanResults[i1].informationElementsLength */ - bufferSize += primitive->scanResults[i1].informationElementsLength; /* u8 primitive->scanResults[i1].informationElements */ - bufferSize += 1; /* CsrWifiSmeP2pRole primitive->scanResults[i1].p2pDeviceRole */ - switch (primitive->scanResults[i1].p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_CLI: - bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.reservedCli.empty */ - break; - case CSR_WIFI_SME_P2P_ROLE_GO: - bufferSize += 1; /* CsrWifiSmeP2pGroupCapabilityMask primitive->scanResults[i1].deviceInfo.groupInfo.groupCapability */ - bufferSize += 6; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2pDeviceAddress.a[6] */ - bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount */ - { - u16 i4; - for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - bufferSize += 6; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a[6] */ - bufferSize += 6; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a[6] */ - bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods */ - bufferSize += 1; /* CsrWifiSmeP2pCapabilityMask primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap */ - bufferSize += 8; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails[8] */ - bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount */ - { - u16 i6; - for (i6 = 0; i6 < primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) - { - bufferSize += 8; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails[8] */ - } - } - bufferSize += 32; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName[32] */ - bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength */ - } - } - break; - case CSR_WIFI_SME_P2P_ROLE_NONE: - bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.reservedNone.empty */ - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - bufferSize += 6; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceAddress.a[6] */ - bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->scanResults[i1].deviceInfo.standalonedevInfo.configMethods */ - bufferSize += 1; /* CsrWifiSmeP2pCapabilityMask primitive->scanResults[i1].deviceInfo.standalonedevInfo.p2PDeviceCap */ - bufferSize += 8; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.primDeviceType.deviceDetails[8] */ - bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount */ - { - u16 i4; - for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) - { - bufferSize += 8; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails[8] */ - } - } - bufferSize += 32; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceName[32] */ - bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceNameLength */ - break; - default: - break; - } - } - } - return bufferSize; -} - - -u8* CsrWifiSmeScanResultsGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeScanResultsGetCfm *primitive = (CsrWifiSmeScanResultsGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->scanResultsCount); - { - u16 i1; - for (i1 = 0; i1 < primitive->scanResultsCount; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].ssid.ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].ssid.length); - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].bssid.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].rssi); - CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].snr); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].ifIndex); - CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].beaconPeriodTu); - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].timeStamp.data, ((u16) (8))); - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].localTime.data, ((u16) (8))); - CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].channelFrequency); - CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].capabilityInformation); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].channelNumber); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].usability); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].bssType); - CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].informationElementsLength); - if (primitive->scanResults[i1].informationElementsLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].informationElements, ((u16) (primitive->scanResults[i1].informationElementsLength))); - } - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].p2pDeviceRole); - switch (primitive->scanResults[i1].p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_CLI: - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.reservedCli.empty); - break; - case CSR_WIFI_SME_P2P_ROLE_GO: - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.groupCapability); - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2pDeviceAddress.a, ((u16) (6))); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount); - { - u16 i4; - for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a, ((u16) (6))); - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap); - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails, ((u16) (8))); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount); - { - u16 i6; - for (i6 = 0; i6 < primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails, ((u16) (8))); - } - } - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength); - } - } - break; - case CSR_WIFI_SME_P2P_ROLE_NONE: - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.reservedNone.empty); - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceAddress.a, ((u16) (6))); - CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].deviceInfo.standalonedevInfo.configMethods); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.standalonedevInfo.p2PDeviceCap); - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.standalonedevInfo.primDeviceType.deviceDetails, ((u16) (8))); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount); - { - u16 i4; - for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails, ((u16) (8))); - } - } - CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceName, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceNameLength); - break; - default: - break; - } - } - } - return(ptr); -} - - -void* CsrWifiSmeScanResultsGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeScanResultsGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeScanResultsGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanResultsCount, buffer, &offset); - primitive->scanResults = NULL; - if (primitive->scanResultsCount) - { - primitive->scanResults = kmalloc(sizeof(CsrWifiSmeScanResult) * primitive->scanResultsCount, GFP_KERNEL); - } - { - u16 i1; - for (i1 = 0; i1 < primitive->scanResultsCount; i1++) - { - CsrMemCpyDes(primitive->scanResults[i1].ssid.ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->scanResults[i1].ssid.length, buffer, &offset); - CsrMemCpyDes(primitive->scanResults[i1].bssid.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->scanResults[i1].rssi, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanResults[i1].snr, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanResults[i1].ifIndex, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanResults[i1].beaconPeriodTu, buffer, &offset); - CsrMemCpyDes(primitive->scanResults[i1].timeStamp.data, buffer, &offset, ((u16) (8))); - CsrMemCpyDes(primitive->scanResults[i1].localTime.data, buffer, &offset, ((u16) (8))); - CsrUint16Des((u16 *) &primitive->scanResults[i1].channelFrequency, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanResults[i1].capabilityInformation, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanResults[i1].channelNumber, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanResults[i1].usability, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanResults[i1].bssType, buffer, &offset); - CsrUint16Des((u16 *) &primitive->scanResults[i1].informationElementsLength, buffer, &offset); - if (primitive->scanResults[i1].informationElementsLength) - { - primitive->scanResults[i1].informationElements = kmalloc(primitive->scanResults[i1].informationElementsLength, GFP_KERNEL); - CsrMemCpyDes(primitive->scanResults[i1].informationElements, buffer, &offset, ((u16) (primitive->scanResults[i1].informationElementsLength))); - } - else - { - primitive->scanResults[i1].informationElements = NULL; - } - CsrUint8Des((u8 *) &primitive->scanResults[i1].p2pDeviceRole, buffer, &offset); - switch (primitive->scanResults[i1].p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_CLI: - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.reservedCli.empty, buffer, &offset); - break; - case CSR_WIFI_SME_P2P_ROLE_GO: - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.groupCapability, buffer, &offset); - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2pDeviceAddress.a, buffer, &offset, ((u16) (6))); - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount, buffer, &offset); - primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo = NULL; - if (primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount) - { - primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo = kmalloc(sizeof(CsrWifiSmeP2pClientInfoType) * primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount, GFP_KERNEL); - } - { - u16 i4; - for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a, buffer, &offset, ((u16) (6))); - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap, buffer, &offset); - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount, buffer, &offset); - primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = NULL; - if (primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount) - { - primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount, GFP_KERNEL); - } - { - u16 i6; - for (i6 = 0; i6 < primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) - { - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails, buffer, &offset, ((u16) (8))); - } - } - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength, buffer, &offset); - } - } - break; - case CSR_WIFI_SME_P2P_ROLE_NONE: - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.reservedNone.empty, buffer, &offset); - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceAddress.a, buffer, &offset, ((u16) (6))); - CsrUint16Des((u16 *) &primitive->scanResults[i1].deviceInfo.standalonedevInfo.configMethods, buffer, &offset); - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.standalonedevInfo.p2PDeviceCap, buffer, &offset); - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.standalonedevInfo.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount, buffer, &offset); - primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType = NULL; - if (primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount) - { - primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount, GFP_KERNEL); - } - { - u16 i4; - for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) - { - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails, buffer, &offset, ((u16) (8))); - } - } - CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceName, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceNameLength, buffer, &offset); - break; - default: - break; - } - } - } - - return primitive; -} - - -void CsrWifiSmeScanResultsGetCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeScanResultsGetCfm *primitive = (CsrWifiSmeScanResultsGetCfm *) voidPrimitivePointer; - { - u16 i1; - for (i1 = 0; i1 < primitive->scanResultsCount; i1++) - { - kfree(primitive->scanResults[i1].informationElements); - switch (primitive->scanResults[i1].p2pDeviceRole) - { - case CSR_WIFI_SME_P2P_ROLE_GO: - { - u16 i4; - for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) - { - kfree(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType); - } - } - kfree(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo); - break; - case CSR_WIFI_SME_P2P_ROLE_STANDALONE: - kfree(primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType); - break; - default: - break; - } - } - } - kfree(primitive->scanResults); - kfree(primitive); -} - - -size_t CsrWifiSmeSmeStaConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* u8 primitive->smeConfig.connectionQualityRssiChangeTrigger */ - bufferSize += 1; /* u8 primitive->smeConfig.connectionQualitySnrChangeTrigger */ - bufferSize += 1; /* CsrWifiSmeWmmModeMask primitive->smeConfig.wmmModeMask */ - bufferSize += 1; /* CsrWifiSmeRadioIF primitive->smeConfig.ifIndex */ - bufferSize += 1; /* u8 primitive->smeConfig.allowUnicastUseGroupCipher */ - bufferSize += 1; /* u8 primitive->smeConfig.enableOpportunisticKeyCaching */ - return bufferSize; -} - - -u8* CsrWifiSmeSmeStaConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeSmeStaConfigGetCfm *primitive = (CsrWifiSmeSmeStaConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.connectionQualityRssiChangeTrigger); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.connectionQualitySnrChangeTrigger); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.wmmModeMask); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.ifIndex); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.allowUnicastUseGroupCipher); - CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.enableOpportunisticKeyCaching); - return(ptr); -} - - -void* CsrWifiSmeSmeStaConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeSmeStaConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeSmeStaConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.connectionQualityRssiChangeTrigger, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.connectionQualitySnrChangeTrigger, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.wmmModeMask, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.ifIndex, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.allowUnicastUseGroupCipher, buffer, &offset); - CsrUint8Des((u8 *) &primitive->smeConfig.enableOpportunisticKeyCaching, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeSmeStaConfigSetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - return bufferSize; -} - - -u8* CsrWifiSmeSmeStaConfigSetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeSmeStaConfigSetCfm *primitive = (CsrWifiSmeSmeStaConfigSetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - return(ptr); -} - - -void* CsrWifiSmeSmeStaConfigSetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeSmeStaConfigSetCfm *primitive = kmalloc(sizeof(CsrWifiSmeSmeStaConfigSetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeStationMacAddressGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 17) */ - bufferSize += 2; /* CsrResult primitive->status */ - { - u16 i1; - for (i1 = 0; i1 < 2; i1++) - { - bufferSize += 6; /* u8 primitive->stationMacAddress[i1].a[6] */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeStationMacAddressGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeStationMacAddressGetCfm *primitive = (CsrWifiSmeStationMacAddressGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - { - u16 i1; - for (i1 = 0; i1 < 2; i1++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->stationMacAddress[i1].a, ((u16) (6))); - } - } - return(ptr); -} - - -void* CsrWifiSmeStationMacAddressGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeStationMacAddressGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeStationMacAddressGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - { - u16 i1; - for (i1 = 0; i1 < 2; i1++) - { - CsrMemCpyDes(primitive->stationMacAddress[i1].a, buffer, &offset, ((u16) (6))); - } - } - - return primitive; -} - - -size_t CsrWifiSmeTspecIndSizeof(void *msg) -{ - CsrWifiSmeTspecInd *primitive = (CsrWifiSmeTspecInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 4; /* u32 primitive->transactionId */ - bufferSize += 1; /* CsrWifiSmeTspecResultCode primitive->tspecResultCode */ - bufferSize += 2; /* u16 primitive->tspecLength */ - bufferSize += primitive->tspecLength; /* u8 primitive->tspec */ - return bufferSize; -} - - -u8* CsrWifiSmeTspecIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeTspecInd *primitive = (CsrWifiSmeTspecInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint32Ser(ptr, len, (u32) primitive->transactionId); - CsrUint8Ser(ptr, len, (u8) primitive->tspecResultCode); - CsrUint16Ser(ptr, len, (u16) primitive->tspecLength); - if (primitive->tspecLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->tspec, ((u16) (primitive->tspecLength))); - } - return(ptr); -} - - -void* CsrWifiSmeTspecIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeTspecInd *primitive = kmalloc(sizeof(CsrWifiSmeTspecInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint32Des((u32 *) &primitive->transactionId, buffer, &offset); - CsrUint8Des((u8 *) &primitive->tspecResultCode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->tspecLength, buffer, &offset); - if (primitive->tspecLength) - { - primitive->tspec = kmalloc(primitive->tspecLength, GFP_KERNEL); - CsrMemCpyDes(primitive->tspec, buffer, &offset, ((u16) (primitive->tspecLength))); - } - else - { - primitive->tspec = NULL; - } - - return primitive; -} - - -void CsrWifiSmeTspecIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeTspecInd *primitive = (CsrWifiSmeTspecInd *) voidPrimitivePointer; - kfree(primitive->tspec); - kfree(primitive); -} - - -size_t CsrWifiSmeTspecCfmSizeof(void *msg) -{ - CsrWifiSmeTspecCfm *primitive = (CsrWifiSmeTspecCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ - bufferSize += 2; /* u16 primitive->interfaceTag */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 4; /* u32 primitive->transactionId */ - bufferSize += 1; /* CsrWifiSmeTspecResultCode primitive->tspecResultCode */ - bufferSize += 2; /* u16 primitive->tspecLength */ - bufferSize += primitive->tspecLength; /* u8 primitive->tspec */ - return bufferSize; -} - - -u8* CsrWifiSmeTspecCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeTspecCfm *primitive = (CsrWifiSmeTspecCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint32Ser(ptr, len, (u32) primitive->transactionId); - CsrUint8Ser(ptr, len, (u8) primitive->tspecResultCode); - CsrUint16Ser(ptr, len, (u16) primitive->tspecLength); - if (primitive->tspecLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->tspec, ((u16) (primitive->tspecLength))); - } - return(ptr); -} - - -void* CsrWifiSmeTspecCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeTspecCfm *primitive = kmalloc(sizeof(CsrWifiSmeTspecCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint32Des((u32 *) &primitive->transactionId, buffer, &offset); - CsrUint8Des((u8 *) &primitive->tspecResultCode, buffer, &offset); - CsrUint16Des((u16 *) &primitive->tspecLength, buffer, &offset); - if (primitive->tspecLength) - { - primitive->tspec = kmalloc(primitive->tspecLength, GFP_KERNEL); - CsrMemCpyDes(primitive->tspec, buffer, &offset, ((u16) (primitive->tspecLength))); - } - else - { - primitive->tspec = NULL; - } - - return primitive; -} - - -void CsrWifiSmeTspecCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeTspecCfm *primitive = (CsrWifiSmeTspecCfm *) voidPrimitivePointer; - kfree(primitive->tspec); - kfree(primitive); -} - - -size_t CsrWifiSmeVersionsGetCfmSizeof(void *msg) -{ - CsrWifiSmeVersionsGetCfm *primitive = (CsrWifiSmeVersionsGetCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 33) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 4; /* u32 primitive->versions.chipId */ - bufferSize += 4; /* u32 primitive->versions.chipVersion */ - bufferSize += 4; /* u32 primitive->versions.firmwareBuild */ - bufferSize += 4; /* u32 primitive->versions.firmwarePatch */ - bufferSize += 4; /* u32 primitive->versions.firmwareHip */ - bufferSize += (primitive->versions.routerBuild ? strlen(primitive->versions.routerBuild) : 0) + 1; /* char* primitive->versions.routerBuild (0 byte len + 1 for NULL Term) */ - bufferSize += 4; /* u32 primitive->versions.routerHip */ - bufferSize += (primitive->versions.smeBuild ? strlen(primitive->versions.smeBuild) : 0) + 1; /* char* primitive->versions.smeBuild (0 byte len + 1 for NULL Term) */ - bufferSize += 4; /* u32 primitive->versions.smeHip */ - return bufferSize; -} - - -u8* CsrWifiSmeVersionsGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeVersionsGetCfm *primitive = (CsrWifiSmeVersionsGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint32Ser(ptr, len, (u32) primitive->versions.chipId); - CsrUint32Ser(ptr, len, (u32) primitive->versions.chipVersion); - CsrUint32Ser(ptr, len, (u32) primitive->versions.firmwareBuild); - CsrUint32Ser(ptr, len, (u32) primitive->versions.firmwarePatch); - CsrUint32Ser(ptr, len, (u32) primitive->versions.firmwareHip); - CsrCharStringSer(ptr, len, primitive->versions.routerBuild); - CsrUint32Ser(ptr, len, (u32) primitive->versions.routerHip); - CsrCharStringSer(ptr, len, primitive->versions.smeBuild); - CsrUint32Ser(ptr, len, (u32) primitive->versions.smeHip); - return(ptr); -} - - -void* CsrWifiSmeVersionsGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeVersionsGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeVersionsGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.chipId, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.chipVersion, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.firmwareBuild, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.firmwarePatch, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.firmwareHip, buffer, &offset); - CsrCharStringDes(&primitive->versions.routerBuild, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.routerHip, buffer, &offset); - CsrCharStringDes(&primitive->versions.smeBuild, buffer, &offset); - CsrUint32Des((u32 *) &primitive->versions.smeHip, buffer, &offset); - - return primitive; -} - - -void CsrWifiSmeVersionsGetCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeVersionsGetCfm *primitive = (CsrWifiSmeVersionsGetCfm *) voidPrimitivePointer; - kfree(primitive->versions.routerBuild); - kfree(primitive->versions.smeBuild); - kfree(primitive); -} - - -size_t CsrWifiSmeCloakedSsidsGetCfmSizeof(void *msg) -{ - CsrWifiSmeCloakedSsidsGetCfm *primitive = (CsrWifiSmeCloakedSsidsGetCfm *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 39) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* u8 primitive->cloakedSsids.cloakedSsidsCount */ - { - u16 i2; - for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) - { - bufferSize += 32; /* u8 primitive->cloakedSsids.cloakedSsids[i2].ssid[32] */ - bufferSize += 1; /* u8 primitive->cloakedSsids.cloakedSsids[i2].length */ - } - } - return bufferSize; -} - - -u8* CsrWifiSmeCloakedSsidsGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCloakedSsidsGetCfm *primitive = (CsrWifiSmeCloakedSsidsGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->cloakedSsids.cloakedSsidsCount); - { - u16 i2; - for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) - { - CsrMemCpySer(ptr, len, (const void *) primitive->cloakedSsids.cloakedSsids[i2].ssid, ((u16) (32))); - CsrUint8Ser(ptr, len, (u8) primitive->cloakedSsids.cloakedSsids[i2].length); - } - } - return(ptr); -} - - -void* CsrWifiSmeCloakedSsidsGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCloakedSsidsGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCloakedSsidsGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->cloakedSsids.cloakedSsidsCount, buffer, &offset); - primitive->cloakedSsids.cloakedSsids = NULL; - if (primitive->cloakedSsids.cloakedSsidsCount) - { - primitive->cloakedSsids.cloakedSsids = kmalloc(sizeof(CsrWifiSsid) * primitive->cloakedSsids.cloakedSsidsCount, GFP_KERNEL); - } - { - u16 i2; - for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) - { - CsrMemCpyDes(primitive->cloakedSsids.cloakedSsids[i2].ssid, buffer, &offset, ((u16) (32))); - CsrUint8Des((u8 *) &primitive->cloakedSsids.cloakedSsids[i2].length, buffer, &offset); - } - } - - return primitive; -} - - -void CsrWifiSmeCloakedSsidsGetCfmSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeCloakedSsidsGetCfm *primitive = (CsrWifiSmeCloakedSsidsGetCfm *) voidPrimitivePointer; - kfree(primitive->cloakedSsids.cloakedSsids); - kfree(primitive); -} - - -size_t CsrWifiSmeWifiOnIndSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 6; /* u8 primitive->address.a[6] */ - return bufferSize; -} - - -u8* CsrWifiSmeWifiOnIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeWifiOnInd *primitive = (CsrWifiSmeWifiOnInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); - return(ptr); -} - - -void* CsrWifiSmeWifiOnIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeWifiOnInd *primitive = kmalloc(sizeof(CsrWifiSmeWifiOnInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); - - return primitive; -} - - -size_t CsrWifiSmeSmeCommonConfigGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 1; /* CsrWifiSme80211dTrustLevel primitive->deviceConfig.trustLevel */ - bufferSize += 2; /* u8 primitive->deviceConfig.countryCode[2] */ - bufferSize += 1; /* CsrWifiSmeFirmwareDriverInterface primitive->deviceConfig.firmwareDriverInterface */ - bufferSize += 1; /* u8 primitive->deviceConfig.enableStrictDraftN */ - return bufferSize; -} - - -u8* CsrWifiSmeSmeCommonConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeSmeCommonConfigGetCfm *primitive = (CsrWifiSmeSmeCommonConfigGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.trustLevel); - CsrMemCpySer(ptr, len, (const void *) primitive->deviceConfig.countryCode, ((u16) (2))); - CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.firmwareDriverInterface); - CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.enableStrictDraftN); - return(ptr); -} - - -void* CsrWifiSmeSmeCommonConfigGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeSmeCommonConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeSmeCommonConfigGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint8Des((u8 *) &primitive->deviceConfig.trustLevel, buffer, &offset); - CsrMemCpyDes(primitive->deviceConfig.countryCode, buffer, &offset, ((u16) (2))); - CsrUint8Des((u8 *) &primitive->deviceConfig.firmwareDriverInterface, buffer, &offset); - CsrUint8Des((u8 *) &primitive->deviceConfig.enableStrictDraftN, buffer, &offset); - - return primitive; -} - - -size_t CsrWifiSmeInterfaceCapabilityGetCfmSizeof(void *msg) -{ - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ - bufferSize += 2; /* CsrResult primitive->status */ - bufferSize += 2; /* u16 primitive->numInterfaces */ - bufferSize += 2; /* u8 primitive->capBitmap[2] */ - return bufferSize; -} - - -u8* CsrWifiSmeInterfaceCapabilityGetCfmSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeInterfaceCapabilityGetCfm *primitive = (CsrWifiSmeInterfaceCapabilityGetCfm *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint16Ser(ptr, len, (u16) primitive->status); - CsrUint16Ser(ptr, len, (u16) primitive->numInterfaces); - CsrMemCpySer(ptr, len, (const void *) primitive->capBitmap, ((u16) (2))); - return(ptr); -} - - -void* CsrWifiSmeInterfaceCapabilityGetCfmDes(u8 *buffer, size_t length) -{ - CsrWifiSmeInterfaceCapabilityGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeInterfaceCapabilityGetCfm), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint16Des((u16 *) &primitive->status, buffer, &offset); - CsrUint16Des((u16 *) &primitive->numInterfaces, buffer, &offset); - CsrMemCpyDes(primitive->capBitmap, buffer, &offset, ((u16) (2))); - - return primitive; -} - - -size_t CsrWifiSmeErrorIndSizeof(void *msg) -{ - CsrWifiSmeErrorInd *primitive = (CsrWifiSmeErrorInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 3) */ - bufferSize += (primitive->errorMessage ? strlen(primitive->errorMessage) : 0) + 1; /* char* primitive->errorMessage (0 byte len + 1 for NULL Term) */ - return bufferSize; -} - - -u8* CsrWifiSmeErrorIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeErrorInd *primitive = (CsrWifiSmeErrorInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrCharStringSer(ptr, len, primitive->errorMessage); - return(ptr); -} - - -void* CsrWifiSmeErrorIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeErrorInd *primitive = kmalloc(sizeof(CsrWifiSmeErrorInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrCharStringDes(&primitive->errorMessage, buffer, &offset); - - return primitive; -} - - -void CsrWifiSmeErrorIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeErrorInd *primitive = (CsrWifiSmeErrorInd *) voidPrimitivePointer; - kfree(primitive->errorMessage); - kfree(primitive); -} - - -size_t CsrWifiSmeInfoIndSizeof(void *msg) -{ - CsrWifiSmeInfoInd *primitive = (CsrWifiSmeInfoInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 3) */ - bufferSize += (primitive->infoMessage ? strlen(primitive->infoMessage) : 0) + 1; /* char* primitive->infoMessage (0 byte len + 1 for NULL Term) */ - return bufferSize; -} - - -u8* CsrWifiSmeInfoIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeInfoInd *primitive = (CsrWifiSmeInfoInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrCharStringSer(ptr, len, primitive->infoMessage); - return(ptr); -} - - -void* CsrWifiSmeInfoIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeInfoInd *primitive = kmalloc(sizeof(CsrWifiSmeInfoInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrCharStringDes(&primitive->infoMessage, buffer, &offset); - - return primitive; -} - - -void CsrWifiSmeInfoIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeInfoInd *primitive = (CsrWifiSmeInfoInd *) voidPrimitivePointer; - kfree(primitive->infoMessage); - kfree(primitive); -} - - -size_t CsrWifiSmeCoreDumpIndSizeof(void *msg) -{ - CsrWifiSmeCoreDumpInd *primitive = (CsrWifiSmeCoreDumpInd *) msg; - size_t bufferSize = 2; - - /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ - bufferSize += 4; /* u32 primitive->dataLength */ - bufferSize += primitive->dataLength; /* u8 primitive->data */ - return bufferSize; -} - - -u8* CsrWifiSmeCoreDumpIndSer(u8 *ptr, size_t *len, void *msg) -{ - CsrWifiSmeCoreDumpInd *primitive = (CsrWifiSmeCoreDumpInd *)msg; - *len = 0; - CsrUint16Ser(ptr, len, primitive->common.type); - CsrUint32Ser(ptr, len, (u32) primitive->dataLength); - if (primitive->dataLength) - { - CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); - } - return(ptr); -} - - -void* CsrWifiSmeCoreDumpIndDes(u8 *buffer, size_t length) -{ - CsrWifiSmeCoreDumpInd *primitive = kmalloc(sizeof(CsrWifiSmeCoreDumpInd), GFP_KERNEL); - size_t offset; - offset = 0; - - CsrUint16Des(&primitive->common.type, buffer, &offset); - CsrUint32Des((u32 *) &primitive->dataLength, buffer, &offset); - if (primitive->dataLength) - { - primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); - CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); - } - else - { - primitive->data = NULL; - } - - return primitive; -} - - -void CsrWifiSmeCoreDumpIndSerFree(void *voidPrimitivePointer) -{ - CsrWifiSmeCoreDumpInd *primitive = (CsrWifiSmeCoreDumpInd *) voidPrimitivePointer; - kfree(primitive->data); - kfree(primitive); -} - - diff --git a/drivers/staging/csr/csr_wifi_sme_serialize.h b/drivers/staging/csr/csr_wifi_sme_serialize.h deleted file mode 100644 index f852626..0000000 --- a/drivers/staging/csr/csr_wifi_sme_serialize.h +++ /dev/null @@ -1,666 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2012 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_SME_SERIALIZE_H__ -#define CSR_WIFI_SME_SERIALIZE_H__ - -#include "csr_wifi_msgconv.h" -#include "csr_wifi_sme_prim.h" - -extern void CsrWifiSmePfree(void *ptr); - -#define CsrWifiSmeActivateReqSer CsrWifiEventSer -#define CsrWifiSmeActivateReqDes CsrWifiEventDes -#define CsrWifiSmeActivateReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeActivateReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeAdhocConfigGetReqSer CsrWifiEventSer -#define CsrWifiSmeAdhocConfigGetReqDes CsrWifiEventDes -#define CsrWifiSmeAdhocConfigGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeAdhocConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeAdhocConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeAdhocConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeAdhocConfigSetReqSizeof(void *msg); -#define CsrWifiSmeAdhocConfigSetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeBlacklistReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeBlacklistReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeBlacklistReqSizeof(void *msg); -extern void CsrWifiSmeBlacklistReqSerFree(void *msg); - -#define CsrWifiSmeCalibrationDataGetReqSer CsrWifiEventSer -#define CsrWifiSmeCalibrationDataGetReqDes CsrWifiEventDes -#define CsrWifiSmeCalibrationDataGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeCalibrationDataGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeCalibrationDataSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCalibrationDataSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCalibrationDataSetReqSizeof(void *msg); -extern void CsrWifiSmeCalibrationDataSetReqSerFree(void *msg); - -#define CsrWifiSmeCcxConfigGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeCcxConfigGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeCcxConfigGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeCcxConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeCcxConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCcxConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCcxConfigSetReqSizeof(void *msg); -#define CsrWifiSmeCcxConfigSetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeCoexConfigGetReqSer CsrWifiEventSer -#define CsrWifiSmeCoexConfigGetReqDes CsrWifiEventDes -#define CsrWifiSmeCoexConfigGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeCoexConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeCoexConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCoexConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCoexConfigSetReqSizeof(void *msg); -#define CsrWifiSmeCoexConfigSetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeCoexInfoGetReqSer CsrWifiEventSer -#define CsrWifiSmeCoexInfoGetReqDes CsrWifiEventDes -#define CsrWifiSmeCoexInfoGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeCoexInfoGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeConnectReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeConnectReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeConnectReqSizeof(void *msg); -extern void CsrWifiSmeConnectReqSerFree(void *msg); - -#define CsrWifiSmeConnectionConfigGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeConnectionConfigGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeConnectionConfigGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeConnectionConfigGetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeConnectionInfoGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeConnectionInfoGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeConnectionInfoGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeConnectionInfoGetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeConnectionStatsGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeConnectionStatsGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeConnectionStatsGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeConnectionStatsGetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeDeactivateReqSer CsrWifiEventSer -#define CsrWifiSmeDeactivateReqDes CsrWifiEventDes -#define CsrWifiSmeDeactivateReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeDeactivateReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeDisconnectReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeDisconnectReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeDisconnectReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeDisconnectReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeEventMaskSetReqSer CsrWifiEventCsrUint32Ser -#define CsrWifiSmeEventMaskSetReqDes CsrWifiEventCsrUint32Des -#define CsrWifiSmeEventMaskSetReqSizeof CsrWifiEventCsrUint32Sizeof -#define CsrWifiSmeEventMaskSetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeHostConfigGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeHostConfigGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeHostConfigGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeHostConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeHostConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeHostConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeHostConfigSetReqSizeof(void *msg); -#define CsrWifiSmeHostConfigSetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeKeyReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeKeyReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeKeyReqSizeof(void *msg); -#define CsrWifiSmeKeyReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeLinkQualityGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeLinkQualityGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeLinkQualityGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeLinkQualityGetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeMibConfigGetReqSer CsrWifiEventSer -#define CsrWifiSmeMibConfigGetReqDes CsrWifiEventDes -#define CsrWifiSmeMibConfigGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeMibConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeMibConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMibConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMibConfigSetReqSizeof(void *msg); -#define CsrWifiSmeMibConfigSetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeMibGetNextReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMibGetNextReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMibGetNextReqSizeof(void *msg); -extern void CsrWifiSmeMibGetNextReqSerFree(void *msg); - -extern u8 *CsrWifiSmeMibGetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMibGetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMibGetReqSizeof(void *msg); -extern void CsrWifiSmeMibGetReqSerFree(void *msg); - -extern u8 *CsrWifiSmeMibSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMibSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMibSetReqSizeof(void *msg); -extern void CsrWifiSmeMibSetReqSerFree(void *msg); - -extern u8 *CsrWifiSmeMulticastAddressReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMulticastAddressReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMulticastAddressReqSizeof(void *msg); -extern void CsrWifiSmeMulticastAddressReqSerFree(void *msg); - -extern u8 *CsrWifiSmePacketFilterSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmePacketFilterSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmePacketFilterSetReqSizeof(void *msg); -extern void CsrWifiSmePacketFilterSetReqSerFree(void *msg); - -#define CsrWifiSmePermanentMacAddressGetReqSer CsrWifiEventSer -#define CsrWifiSmePermanentMacAddressGetReqDes CsrWifiEventDes -#define CsrWifiSmePermanentMacAddressGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmePermanentMacAddressGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmePmkidReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmePmkidReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmePmkidReqSizeof(void *msg); -extern void CsrWifiSmePmkidReqSerFree(void *msg); - -#define CsrWifiSmePowerConfigGetReqSer CsrWifiEventSer -#define CsrWifiSmePowerConfigGetReqDes CsrWifiEventDes -#define CsrWifiSmePowerConfigGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmePowerConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmePowerConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmePowerConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmePowerConfigSetReqSizeof(void *msg); -#define CsrWifiSmePowerConfigSetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeRegulatoryDomainInfoGetReqSer CsrWifiEventSer -#define CsrWifiSmeRegulatoryDomainInfoGetReqDes CsrWifiEventDes -#define CsrWifiSmeRegulatoryDomainInfoGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeRegulatoryDomainInfoGetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeRoamingConfigGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeRoamingConfigGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeRoamingConfigGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeRoamingConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeRoamingConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeRoamingConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeRoamingConfigSetReqSizeof(void *msg); -#define CsrWifiSmeRoamingConfigSetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeScanConfigGetReqSer CsrWifiEventSer -#define CsrWifiSmeScanConfigGetReqDes CsrWifiEventDes -#define CsrWifiSmeScanConfigGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeScanConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeScanConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeScanConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeScanConfigSetReqSizeof(void *msg); -extern void CsrWifiSmeScanConfigSetReqSerFree(void *msg); - -extern u8 *CsrWifiSmeScanFullReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeScanFullReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeScanFullReqSizeof(void *msg); -extern void CsrWifiSmeScanFullReqSerFree(void *msg); - -#define CsrWifiSmeScanResultsFlushReqSer CsrWifiEventSer -#define CsrWifiSmeScanResultsFlushReqDes CsrWifiEventDes -#define CsrWifiSmeScanResultsFlushReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeScanResultsFlushReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeScanResultsGetReqSer CsrWifiEventSer -#define CsrWifiSmeScanResultsGetReqDes CsrWifiEventDes -#define CsrWifiSmeScanResultsGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeScanResultsGetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeSmeStaConfigGetReqSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeSmeStaConfigGetReqDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeSmeStaConfigGetReqSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeSmeStaConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeSmeStaConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeSmeStaConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeSmeStaConfigSetReqSizeof(void *msg); -#define CsrWifiSmeSmeStaConfigSetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeStationMacAddressGetReqSer CsrWifiEventSer -#define CsrWifiSmeStationMacAddressGetReqDes CsrWifiEventDes -#define CsrWifiSmeStationMacAddressGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeStationMacAddressGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeTspecReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeTspecReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeTspecReqSizeof(void *msg); -extern void CsrWifiSmeTspecReqSerFree(void *msg); - -#define CsrWifiSmeVersionsGetReqSer CsrWifiEventSer -#define CsrWifiSmeVersionsGetReqDes CsrWifiEventDes -#define CsrWifiSmeVersionsGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeVersionsGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeWifiFlightmodeReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeWifiFlightmodeReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeWifiFlightmodeReqSizeof(void *msg); -extern void CsrWifiSmeWifiFlightmodeReqSerFree(void *msg); - -#define CsrWifiSmeWifiOffReqSer CsrWifiEventSer -#define CsrWifiSmeWifiOffReqDes CsrWifiEventDes -#define CsrWifiSmeWifiOffReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeWifiOffReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeWifiOnReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeWifiOnReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeWifiOnReqSizeof(void *msg); -extern void CsrWifiSmeWifiOnReqSerFree(void *msg); - -extern u8 *CsrWifiSmeCloakedSsidsSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCloakedSsidsSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCloakedSsidsSetReqSizeof(void *msg); -extern void CsrWifiSmeCloakedSsidsSetReqSerFree(void *msg); - -#define CsrWifiSmeCloakedSsidsGetReqSer CsrWifiEventSer -#define CsrWifiSmeCloakedSsidsGetReqDes CsrWifiEventDes -#define CsrWifiSmeCloakedSsidsGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeCloakedSsidsGetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeSmeCommonConfigGetReqSer CsrWifiEventSer -#define CsrWifiSmeSmeCommonConfigGetReqDes CsrWifiEventDes -#define CsrWifiSmeSmeCommonConfigGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeSmeCommonConfigGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeSmeCommonConfigSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeSmeCommonConfigSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeSmeCommonConfigSetReqSizeof(void *msg); -#define CsrWifiSmeSmeCommonConfigSetReqSerFree CsrWifiSmePfree - -#define CsrWifiSmeInterfaceCapabilityGetReqSer CsrWifiEventSer -#define CsrWifiSmeInterfaceCapabilityGetReqDes CsrWifiEventDes -#define CsrWifiSmeInterfaceCapabilityGetReqSizeof CsrWifiEventSizeof -#define CsrWifiSmeInterfaceCapabilityGetReqSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeWpsConfigurationReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeWpsConfigurationReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeWpsConfigurationReqSizeof(void *msg); -extern void CsrWifiSmeWpsConfigurationReqSerFree(void *msg); - -extern u8 *CsrWifiSmeSetReqSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeSetReqDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeSetReqSizeof(void *msg); -extern void CsrWifiSmeSetReqSerFree(void *msg); - -#define CsrWifiSmeActivateCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeActivateCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeActivateCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeActivateCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeAdhocConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeAdhocConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeAdhocConfigGetCfmSizeof(void *msg); -#define CsrWifiSmeAdhocConfigGetCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeAdhocConfigSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeAdhocConfigSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeAdhocConfigSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeAdhocConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeAssociationCompleteIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeAssociationCompleteIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeAssociationCompleteIndSizeof(void *msg); -extern void CsrWifiSmeAssociationCompleteIndSerFree(void *msg); - -extern u8 *CsrWifiSmeAssociationStartIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeAssociationStartIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeAssociationStartIndSizeof(void *msg); -#define CsrWifiSmeAssociationStartIndSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeBlacklistCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeBlacklistCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeBlacklistCfmSizeof(void *msg); -extern void CsrWifiSmeBlacklistCfmSerFree(void *msg); - -extern u8 *CsrWifiSmeCalibrationDataGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCalibrationDataGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCalibrationDataGetCfmSizeof(void *msg); -extern void CsrWifiSmeCalibrationDataGetCfmSerFree(void *msg); - -#define CsrWifiSmeCalibrationDataSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeCalibrationDataSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeCalibrationDataSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeCalibrationDataSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeCcxConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCcxConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCcxConfigGetCfmSizeof(void *msg); -#define CsrWifiSmeCcxConfigGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeCcxConfigSetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCcxConfigSetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCcxConfigSetCfmSizeof(void *msg); -#define CsrWifiSmeCcxConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeCoexConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCoexConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCoexConfigGetCfmSizeof(void *msg); -#define CsrWifiSmeCoexConfigGetCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeCoexConfigSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeCoexConfigSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeCoexConfigSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeCoexConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeCoexInfoGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCoexInfoGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCoexInfoGetCfmSizeof(void *msg); -#define CsrWifiSmeCoexInfoGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeConnectCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeConnectCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeConnectCfmSizeof(void *msg); -#define CsrWifiSmeConnectCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeConnectionConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeConnectionConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeConnectionConfigGetCfmSizeof(void *msg); -extern void CsrWifiSmeConnectionConfigGetCfmSerFree(void *msg); - -extern u8 *CsrWifiSmeConnectionInfoGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeConnectionInfoGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeConnectionInfoGetCfmSizeof(void *msg); -extern void CsrWifiSmeConnectionInfoGetCfmSerFree(void *msg); - -extern u8 *CsrWifiSmeConnectionQualityIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeConnectionQualityIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeConnectionQualityIndSizeof(void *msg); -#define CsrWifiSmeConnectionQualityIndSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeConnectionStatsGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeConnectionStatsGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeConnectionStatsGetCfmSizeof(void *msg); -#define CsrWifiSmeConnectionStatsGetCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeDeactivateCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeDeactivateCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeDeactivateCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeDeactivateCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeDisconnectCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeDisconnectCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeDisconnectCfmSizeof(void *msg); -#define CsrWifiSmeDisconnectCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeEventMaskSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeEventMaskSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeEventMaskSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeEventMaskSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeHostConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeHostConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeHostConfigGetCfmSizeof(void *msg); -#define CsrWifiSmeHostConfigGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeHostConfigSetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeHostConfigSetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeHostConfigSetCfmSizeof(void *msg); -#define CsrWifiSmeHostConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeIbssStationIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeIbssStationIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeIbssStationIndSizeof(void *msg); -#define CsrWifiSmeIbssStationIndSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeKeyCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeKeyCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeKeyCfmSizeof(void *msg); -#define CsrWifiSmeKeyCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeLinkQualityGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeLinkQualityGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeLinkQualityGetCfmSizeof(void *msg); -#define CsrWifiSmeLinkQualityGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeMediaStatusIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMediaStatusIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMediaStatusIndSizeof(void *msg); -extern void CsrWifiSmeMediaStatusIndSerFree(void *msg); - -extern u8 *CsrWifiSmeMibConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMibConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMibConfigGetCfmSizeof(void *msg); -#define CsrWifiSmeMibConfigGetCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeMibConfigSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeMibConfigSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeMibConfigSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeMibConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeMibGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMibGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMibGetCfmSizeof(void *msg); -extern void CsrWifiSmeMibGetCfmSerFree(void *msg); - -extern u8 *CsrWifiSmeMibGetNextCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMibGetNextCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMibGetNextCfmSizeof(void *msg); -extern void CsrWifiSmeMibGetNextCfmSerFree(void *msg); - -#define CsrWifiSmeMibSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeMibSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeMibSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeMibSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeMicFailureIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMicFailureIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMicFailureIndSizeof(void *msg); -#define CsrWifiSmeMicFailureIndSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeMulticastAddressCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeMulticastAddressCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeMulticastAddressCfmSizeof(void *msg); -extern void CsrWifiSmeMulticastAddressCfmSerFree(void *msg); - -extern u8 *CsrWifiSmePacketFilterSetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmePacketFilterSetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmePacketFilterSetCfmSizeof(void *msg); -#define CsrWifiSmePacketFilterSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmePermanentMacAddressGetCfmSer(u8 *ptr, size_t *len, - void *msg); -extern void *CsrWifiSmePermanentMacAddressGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmePermanentMacAddressGetCfmSizeof(void *msg); -#define CsrWifiSmePermanentMacAddressGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmePmkidCandidateListIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmePmkidCandidateListIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmePmkidCandidateListIndSizeof(void *msg); -extern void CsrWifiSmePmkidCandidateListIndSerFree(void *msg); - -extern u8 *CsrWifiSmePmkidCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmePmkidCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmePmkidCfmSizeof(void *msg); -extern void CsrWifiSmePmkidCfmSerFree(void *msg); - -extern u8 *CsrWifiSmePowerConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmePowerConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmePowerConfigGetCfmSizeof(void *msg); -#define CsrWifiSmePowerConfigGetCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmePowerConfigSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmePowerConfigSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmePowerConfigSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmePowerConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeRegulatoryDomainInfoGetCfmSer(u8 *ptr, size_t *len, - void *msg); -extern void *CsrWifiSmeRegulatoryDomainInfoGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeRegulatoryDomainInfoGetCfmSizeof(void *msg); -#define CsrWifiSmeRegulatoryDomainInfoGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeRoamCompleteIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeRoamCompleteIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeRoamCompleteIndSizeof(void *msg); -#define CsrWifiSmeRoamCompleteIndSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeRoamStartIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeRoamStartIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeRoamStartIndSizeof(void *msg); -#define CsrWifiSmeRoamStartIndSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeRoamingConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeRoamingConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeRoamingConfigGetCfmSizeof(void *msg); -#define CsrWifiSmeRoamingConfigGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeRoamingConfigSetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeRoamingConfigSetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeRoamingConfigSetCfmSizeof(void *msg); -#define CsrWifiSmeRoamingConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeScanConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeScanConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeScanConfigGetCfmSizeof(void *msg); -extern void CsrWifiSmeScanConfigGetCfmSerFree(void *msg); - -#define CsrWifiSmeScanConfigSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeScanConfigSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeScanConfigSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeScanConfigSetCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeScanFullCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeScanFullCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeScanFullCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeScanFullCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeScanResultIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeScanResultIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeScanResultIndSizeof(void *msg); -extern void CsrWifiSmeScanResultIndSerFree(void *msg); - -#define CsrWifiSmeScanResultsFlushCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeScanResultsFlushCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeScanResultsFlushCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeScanResultsFlushCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeScanResultsGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeScanResultsGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeScanResultsGetCfmSizeof(void *msg); -extern void CsrWifiSmeScanResultsGetCfmSerFree(void *msg); - -extern u8 *CsrWifiSmeSmeStaConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeSmeStaConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeSmeStaConfigGetCfmSizeof(void *msg); -#define CsrWifiSmeSmeStaConfigGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeSmeStaConfigSetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeSmeStaConfigSetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeSmeStaConfigSetCfmSizeof(void *msg); -#define CsrWifiSmeSmeStaConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeStationMacAddressGetCfmSer(u8 *ptr, size_t *len, - void *msg); -extern void *CsrWifiSmeStationMacAddressGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeStationMacAddressGetCfmSizeof(void *msg); -#define CsrWifiSmeStationMacAddressGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeTspecIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeTspecIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeTspecIndSizeof(void *msg); -extern void CsrWifiSmeTspecIndSerFree(void *msg); - -extern u8 *CsrWifiSmeTspecCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeTspecCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeTspecCfmSizeof(void *msg); -extern void CsrWifiSmeTspecCfmSerFree(void *msg); - -extern u8 *CsrWifiSmeVersionsGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeVersionsGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeVersionsGetCfmSizeof(void *msg); -extern void CsrWifiSmeVersionsGetCfmSerFree(void *msg); - -#define CsrWifiSmeWifiFlightmodeCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeWifiFlightmodeCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeWifiFlightmodeCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeWifiFlightmodeCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeWifiOffIndSer CsrWifiEventCsrUint8Ser -#define CsrWifiSmeWifiOffIndDes CsrWifiEventCsrUint8Des -#define CsrWifiSmeWifiOffIndSizeof CsrWifiEventCsrUint8Sizeof -#define CsrWifiSmeWifiOffIndSerFree CsrWifiSmePfree - -#define CsrWifiSmeWifiOffCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeWifiOffCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeWifiOffCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeWifiOffCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeWifiOnCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeWifiOnCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeWifiOnCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeWifiOnCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeCloakedSsidsSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeCloakedSsidsSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeCloakedSsidsSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeCloakedSsidsSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeCloakedSsidsGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCloakedSsidsGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCloakedSsidsGetCfmSizeof(void *msg); -extern void CsrWifiSmeCloakedSsidsGetCfmSerFree(void *msg); - -extern u8 *CsrWifiSmeWifiOnIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeWifiOnIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeWifiOnIndSizeof(void *msg); -#define CsrWifiSmeWifiOnIndSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeSmeCommonConfigGetCfmSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeSmeCommonConfigGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeSmeCommonConfigGetCfmSizeof(void *msg); -#define CsrWifiSmeSmeCommonConfigGetCfmSerFree CsrWifiSmePfree - -#define CsrWifiSmeSmeCommonConfigSetCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeSmeCommonConfigSetCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeSmeCommonConfigSetCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeSmeCommonConfigSetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeInterfaceCapabilityGetCfmSer(u8 *ptr, size_t *len, - void *msg); -extern void *CsrWifiSmeInterfaceCapabilityGetCfmDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeInterfaceCapabilityGetCfmSizeof(void *msg); -#define CsrWifiSmeInterfaceCapabilityGetCfmSerFree CsrWifiSmePfree - -extern u8 *CsrWifiSmeErrorIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeErrorIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeErrorIndSizeof(void *msg); -extern void CsrWifiSmeErrorIndSerFree(void *msg); - -extern u8 *CsrWifiSmeInfoIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeInfoIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeInfoIndSizeof(void *msg); -extern void CsrWifiSmeInfoIndSerFree(void *msg); - -extern u8 *CsrWifiSmeCoreDumpIndSer(u8 *ptr, size_t *len, void *msg); -extern void *CsrWifiSmeCoreDumpIndDes(u8 *buffer, size_t len); -extern size_t CsrWifiSmeCoreDumpIndSizeof(void *msg); -extern void CsrWifiSmeCoreDumpIndSerFree(void *msg); - -#define CsrWifiSmeAmpStatusChangeIndSer CsrWifiEventCsrUint16CsrUint8Ser -#define CsrWifiSmeAmpStatusChangeIndDes CsrWifiEventCsrUint16CsrUint8Des -#define CsrWifiSmeAmpStatusChangeIndSizeof CsrWifiEventCsrUint16CsrUint8Sizeof -#define CsrWifiSmeAmpStatusChangeIndSerFree CsrWifiSmePfree - -#define CsrWifiSmeWpsConfigurationCfmSer CsrWifiEventCsrUint16Ser -#define CsrWifiSmeWpsConfigurationCfmDes CsrWifiEventCsrUint16Des -#define CsrWifiSmeWpsConfigurationCfmSizeof CsrWifiEventCsrUint16Sizeof -#define CsrWifiSmeWpsConfigurationCfmSerFree CsrWifiSmePfree - -#endif /* CSR_WIFI_SME_SERIALIZE_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_sme_task.h b/drivers/staging/csr/csr_wifi_sme_task.h deleted file mode 100644 index 1e938c1..0000000 --- a/drivers/staging/csr/csr_wifi_sme_task.h +++ /dev/null @@ -1,25 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -/* Note: this is an auto-generated file. */ - -#ifndef CSR_WIFI_SME_TASK_H__ -#define CSR_WIFI_SME_TASK_H__ - -#include "csr_sched.h" - -#define CSR_WIFI_SME_LOG_ID 0x1202FFFF -extern CsrSchedQid CSR_WIFI_SME_IFACEQUEUE; -void CsrWifiSmeInit(void **gash); -void CsrWifiSmeDeinit(void **gash); -void CsrWifiSmeHandler(void **gash); - -#endif /* CSR_WIFI_SME_TASK_H__ */ - diff --git a/drivers/staging/csr/csr_wifi_vif_utils.h b/drivers/staging/csr/csr_wifi_vif_utils.h deleted file mode 100644 index 8ff9788..0000000 --- a/drivers/staging/csr/csr_wifi_vif_utils.h +++ /dev/null @@ -1,27 +0,0 @@ -/***************************************************************************** - - (c) Cambridge Silicon Radio Limited 2011 - All rights reserved and confidential information of CSR - - Refer to LICENSE.txt included with this source for details - on the license terms. - -*****************************************************************************/ - -#ifndef CSR_WIFI_VIF_UTILS_H -#define CSR_WIFI_VIF_UTILS_H - -/* STANDARD INCLUDES ********************************************************/ - -/* PROJECT INCLUDES *********************************************************/ -/* including this file for CsrWifiInterfaceMode*/ -#include "csr_wifi_private_common.h" - -/* MACROS *******************************************************************/ - -/* Common macros for NME and SME to be used temporarily until SoftMAC changes are made */ -#define CSR_WIFI_NUM_INTERFACES (u8)0x1 -#define CSR_WIFI_INTERFACE_IN_USE (u16)0x0 - -#endif /* CSR_WIFI_VIF_UTILS_H */ - diff --git a/drivers/staging/csr/data_tx.c b/drivers/staging/csr/data_tx.c deleted file mode 100644 index 9e3d8b8..0000000 --- a/drivers/staging/csr/data_tx.c +++ /dev/null @@ -1,54 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: data_tx.c - * - * PURPOSE: - * This file provides functions to send data requests to the UniFi. - * - * Copyright (C) 2007-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include "csr_wifi_hip_unifi.h" -#include "unifi_priv.h" - -int -uf_verify_m4(unifi_priv_t *priv, const unsigned char *packet, unsigned int length) -{ - const unsigned char *p = packet; - u16 keyinfo; - - - if (length < (4 + 5 + 8 + 32 + 16 + 8 + 8 + 16 + 1 + 8)) - return 1; - - p += 8; - keyinfo = p[5] << 8 | p[6]; /* big-endian */ - if ( - (p[0] == 1 || p[0] == 2) /* protocol version 802.1X-2001 (WPA) or -2004 (WPA2) */ && - p[1] == 3 /* EAPOL-Key */ && - /* don't bother checking p[2] p[3] (hh ll, packet body length) */ - (p[4] == 254 || p[4] == 2) /* descriptor type P802.1i-D3.0 (WPA) or 802.11i-2004 (WPA2) */ && - ((keyinfo & 0x0007) == 1 || (keyinfo & 0x0007) == 2) /* key descriptor version */ && - (keyinfo & ~0x0207U) == 0x0108 && /* key info for 4/4 or 4/2 -- ignore key desc version and sec bit (since varies in WPA 4/4) */ - (p[4 + 5 + 8 + 32 + 16 + 8 + 8 + 16 + 0] == 0 && /* key data length (2 octets) 0 for 4/4 only */ - p[4 + 5 + 8 + 32 + 16 + 8 + 8 + 16 + 1] == 0) - ) { - unifi_trace(priv, UDBG1, "uf_verify_m4: M4 detected\n"); - return 0; - } else { - return 1; - } -} - -/* - * --------------------------------------------------------------------------- - * - * Data transport signals. - * - * --------------------------------------------------------------------------- - */ - diff --git a/drivers/staging/csr/drv.c b/drivers/staging/csr/drv.c deleted file mode 100644 index 92898de..0000000 --- a/drivers/staging/csr/drv.c +++ /dev/null @@ -1,2193 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: drv.c - * - * PURPOSE: - * Conventional device interface for debugging/monitoring of the - * driver and h/w using unicli. This interface is also being used - * by the SME linux implementation and the helper apps. - * - * Copyright (C) 2005-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ - -/* - * Porting Notes: - * Part of this file contains an example for how to glue the OS layer - * with the HIP core lib, the SDIO glue layer, and the SME. - * - * When the unifi_sdio.ko modules loads, the linux kernel calls unifi_load(). - * unifi_load() calls uf_sdio_load() which is exported by the SDIO glue - * layer. uf_sdio_load() registers this driver with the underlying SDIO driver. - * When a card is detected, the SDIO glue layer calls register_unifi_sdio() - * to pass the SDIO function context and ask the OS layer to initialise - * the card. register_unifi_sdio() allocates all the private data of the OS - * layer and calls uf_run_unifihelper() to start the SME. The SME calls - * unifi_sys_wifi_on_req() which uses the HIP core lib to initialise the card. - */ - -#include <linux/init.h> -#include <linux/slab.h> -#include <linux/poll.h> -#include <asm/uaccess.h> -#include <linux/jiffies.h> -#include <linux/version.h> - -#include "csr_wifi_hip_unifiversion.h" -#include "unifi_priv.h" -#include "csr_wifi_hip_conversions.h" -#include "unifi_native.h" - -/* Module parameter variables */ -int buswidth = 0; /* 0 means use default, values 1,4 */ -int sdio_clock = 50000; /* kHz */ -int unifi_debug = 0; -/* fw_init prevents f/w initialisation on error. */ -int fw_init[MAX_UNIFI_DEVS] = {-1, -1}; -int use_5g = 0; -int led_mask = 0; /* 0x0c00 for dev-pc-1503c, dev-pc-1528a */ -int disable_hw_reset = 0; -int disable_power_control = 0; -int enable_wol = UNIFI_WOL_OFF; /* 0 for none, 1 for SDIO IRQ, 2 for PIO */ -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) -int tl_80211d = (int)CSR_WIFI_SME_80211D_TRUST_LEVEL_MIB; -#endif -int sdio_block_size = -1; /* Override SDIO block size */ -int sdio_byte_mode = 0; /* 0 for block mode + padding, 1 for byte mode */ -int coredump_max = CSR_WIFI_HIP_NUM_COREDUMP_BUFFERS; -int run_bh_once = -1; /* Set for scheduled interrupt mode, -1 = default */ -int bh_priority = -1; -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -#define UNIFI_LOG_HIP_SIGNALS_FILTER_BULKDATA (1 << 1) -#define UNIFI_LOG_HIP_SIGNALS_FILTER_TIMESTAMP (1 << 2) -int log_hip_signals = 0; -#endif - -MODULE_DESCRIPTION("CSR UniFi (SDIO)"); - -module_param(buswidth, int, S_IRUGO|S_IWUSR); -module_param(sdio_clock, int, S_IRUGO|S_IWUSR); -module_param(unifi_debug, int, S_IRUGO|S_IWUSR); -module_param_array(fw_init, int, NULL, S_IRUGO|S_IWUSR); -module_param(use_5g, int, S_IRUGO|S_IWUSR); -module_param(led_mask, int, S_IRUGO|S_IWUSR); -module_param(disable_hw_reset, int, S_IRUGO|S_IWUSR); -module_param(disable_power_control, int, S_IRUGO|S_IWUSR); -module_param(enable_wol, int, S_IRUGO|S_IWUSR); -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) -module_param(tl_80211d, int, S_IRUGO|S_IWUSR); -#endif -module_param(sdio_block_size, int, S_IRUGO|S_IWUSR); -module_param(sdio_byte_mode, int, S_IRUGO|S_IWUSR); -module_param(coredump_max, int, S_IRUGO|S_IWUSR); -module_param(run_bh_once, int, S_IRUGO|S_IWUSR); -module_param(bh_priority, int, S_IRUGO|S_IWUSR); -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -module_param(log_hip_signals, int, S_IRUGO|S_IWUSR); -#endif - -MODULE_PARM_DESC(buswidth, "SDIO bus width (0=default), set 1 for 1-bit or 4 for 4-bit mode"); -MODULE_PARM_DESC(sdio_clock, "SDIO bus frequency in kHz, (default = 50 MHz)"); -MODULE_PARM_DESC(unifi_debug, "Diagnostic reporting level"); -MODULE_PARM_DESC(fw_init, "Set to 0 to prevent f/w initialization on error"); -MODULE_PARM_DESC(use_5g, "Use the 5G (802.11a) radio band"); -MODULE_PARM_DESC(led_mask, "LED mask flags"); -MODULE_PARM_DESC(disable_hw_reset, "Set to 1 to disable hardware reset"); -MODULE_PARM_DESC(disable_power_control, "Set to 1 to disable SDIO power control"); -MODULE_PARM_DESC(enable_wol, "Enable wake-on-wlan function 0=off, 1=SDIO, 2=PIO"); -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) -MODULE_PARM_DESC(tl_80211d, "802.11d Trust Level (1-6, default = 5)"); -#endif -MODULE_PARM_DESC(sdio_block_size, "Set to override SDIO block size"); -MODULE_PARM_DESC(sdio_byte_mode, "Set to 1 for byte mode SDIO"); -MODULE_PARM_DESC(coredump_max, "Number of chip mini-coredump buffers to allocate"); -MODULE_PARM_DESC(run_bh_once, "Run BH only when firmware interrupts"); -MODULE_PARM_DESC(bh_priority, "Modify the BH thread priority"); -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -MODULE_PARM_DESC(log_hip_signals, "Set to 1 to enable HIP signal offline logging"); -#endif - - -/* Callback for event logging to UDI clients */ -static void udi_log_event(ul_client_t *client, - const u8 *signal, int signal_len, - const bulk_data_param_t *bulkdata, - int dir); - -static void udi_set_log_filter(ul_client_t *pcli, - unifiio_filter_t *udi_filter); - - -/* Mutex to protect access to priv->sme_cli */ -DEFINE_SEMAPHORE(udi_mutex); - -s32 CsrHipResultToStatus(CsrResult csrResult) -{ - s32 r = -EIO; - - switch (csrResult) - { - case CSR_RESULT_SUCCESS: - r = 0; - break; - case CSR_WIFI_HIP_RESULT_RANGE: - r = -ERANGE; - break; - case CSR_WIFI_HIP_RESULT_NO_DEVICE: - r = -ENODEV; - break; - case CSR_WIFI_HIP_RESULT_INVALID_VALUE: - r = -EINVAL; - break; - case CSR_WIFI_HIP_RESULT_NOT_FOUND: - r = -ENOENT; - break; - case CSR_WIFI_HIP_RESULT_NO_SPACE: - r = -ENOSPC; - break; - case CSR_WIFI_HIP_RESULT_NO_MEMORY: - r = -ENOMEM; - break; - case CSR_RESULT_FAILURE: - r = -EIO; - break; - default: - /*unifi_warning(card->ospriv, "CsrHipResultToStatus: Unrecognised csrResult error code: %d\n", csrResult);*/ - r = -EIO; - } - return r; -} - - -static const char* -trace_putest_cmdid(unifi_putest_command_t putest_cmd) -{ - switch (putest_cmd) { - case UNIFI_PUTEST_START: - return "START"; - case UNIFI_PUTEST_STOP: - return "STOP"; - case UNIFI_PUTEST_SET_SDIO_CLOCK: - return "SET CLOCK"; - case UNIFI_PUTEST_CMD52_READ: - return "CMD52R"; - case UNIFI_PUTEST_CMD52_BLOCK_READ: - return "CMD52BR"; - case UNIFI_PUTEST_CMD52_WRITE: - return "CMD52W"; - case UNIFI_PUTEST_DL_FW: - return "D/L FW"; - case UNIFI_PUTEST_DL_FW_BUFF: - return "D/L FW BUFFER"; - case UNIFI_PUTEST_COREDUMP_PREPARE: - return "PREPARE COREDUMP"; - case UNIFI_PUTEST_GP_READ16: - return "GP16R"; - case UNIFI_PUTEST_GP_WRITE16: - return "GP16W"; - default: - return "ERROR: unrecognised command"; - } - } - -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -int uf_register_hip_offline_debug(unifi_priv_t *priv) -{ - ul_client_t *udi_cli; - int i; - - udi_cli = ul_register_client(priv, CLI_USING_WIRE_FORMAT, udi_log_event); - if (udi_cli == NULL) { - /* Too many clients already using this device */ - unifi_error(priv, "Too many UDI clients already open\n"); - return -ENOSPC; - } - unifi_trace(priv, UDBG1, "Offline HIP client is registered\n"); - - down(&priv->udi_logging_mutex); - udi_cli->event_hook = udi_log_event; - unifi_set_udi_hook(priv->card, logging_handler); - /* Log all signals by default */ - for (i = 0; i < SIG_FILTER_SIZE; i++) { - udi_cli->signal_filter[i] = 0xFFFF; - } - priv->logging_client = udi_cli; - up(&priv->udi_logging_mutex); - - return 0; -} - -int uf_unregister_hip_offline_debug(unifi_priv_t *priv) -{ - ul_client_t *udi_cli = priv->logging_client; - if (udi_cli == NULL) - { - unifi_error(priv, "Unknown HIP client unregister request\n"); - return -ERANGE; - } - - unifi_trace(priv, UDBG1, "Offline HIP client is unregistered\n"); - - down(&priv->udi_logging_mutex); - priv->logging_client = NULL; - udi_cli->event_hook = NULL; - up(&priv->udi_logging_mutex); - - ul_deregister_client(udi_cli); - - return 0; -} -#endif - - -/* - * --------------------------------------------------------------------------- - * unifi_open - * unifi_release - * - * Open and release entry points for the UniFi debug driver. - * - * Arguments: - * Normal linux driver args. - * - * Returns: - * Linux error code. - * --------------------------------------------------------------------------- - */ -static int -unifi_open(struct inode *inode, struct file *file) -{ - int devno; - unifi_priv_t *priv; - ul_client_t *udi_cli; - - devno = MINOR(inode->i_rdev) >> 1; - - /* - * Increase the ref_count for the char device clients. - * Make sure you call uf_put_instance() to decreace it if - * unifi_open returns an error. - */ - priv = uf_get_instance(devno); - if (priv == NULL) { - unifi_error(NULL, "unifi_open: No device present\n"); - return -ENODEV; - } - - /* Register this instance in the client's list. */ - /* The minor number determines the nature of the client (Unicli or SME). */ - if (MINOR(inode->i_rdev) & 0x1) { - udi_cli = ul_register_client(priv, CLI_USING_WIRE_FORMAT, udi_log_event); - if (udi_cli == NULL) { - /* Too many clients already using this device */ - unifi_error(priv, "Too many clients already open\n"); - uf_put_instance(devno); - return -ENOSPC; - } - unifi_trace(priv, UDBG1, "Client is registered to /dev/unifiudi%d\n", devno); - } else { - /* - * Even-numbered device nodes are the control application. - * This is the userspace helper containing SME or - * unifi_manager. - */ - - down(&udi_mutex); - -#ifdef CSR_SME_USERSPACE - /* Check if a config client is already attached */ - if (priv->sme_cli) { - up(&udi_mutex); - uf_put_instance(devno); - - unifi_info(priv, "There is already a configuration client using the character device\n"); - return -EBUSY; - } -#endif /* CSR_SME_USERSPACE */ - -#ifdef CSR_SUPPORT_SME - udi_cli = ul_register_client(priv, - CLI_USING_WIRE_FORMAT | CLI_SME_USERSPACE, - sme_log_event); -#else - /* Config client for native driver */ - udi_cli = ul_register_client(priv, - 0, - sme_native_log_event); -#endif - if (udi_cli == NULL) { - /* Too many clients already using this device */ - up(&udi_mutex); - uf_put_instance(devno); - - unifi_error(priv, "Too many clients already open\n"); - return -ENOSPC; - } - - /* - * Fill-in the pointer to the configuration client. - * This is the SME userspace helper or unifi_manager. - * Not used in the SME embedded version. - */ - unifi_trace(priv, UDBG1, "SME client (id:%d s:0x%X) is registered\n", - udi_cli->client_id, udi_cli->sender_id); - /* Store the SME UniFi Linux Client */ - if (priv->sme_cli == NULL) { - priv->sme_cli = udi_cli; - } - - up(&udi_mutex); - } - - - /* - * Store the pointer to the client. - * All char driver's entry points will pass this pointer. - */ - file->private_data = udi_cli; - - return 0; -} /* unifi_open() */ - - -static int -unifi_release(struct inode *inode, struct file *filp) -{ - ul_client_t *udi_cli = (void*)filp->private_data; - int devno; - unifi_priv_t *priv; - - priv = uf_find_instance(udi_cli->instance); - if (!priv) { - unifi_error(priv, "unifi_close: instance for device not found\n"); - return -ENODEV; - } - - devno = MINOR(inode->i_rdev) >> 1; - - /* Even device nodes are the config client (i.e. SME or unifi_manager) */ - if ((MINOR(inode->i_rdev) & 0x1) == 0) { - - if (priv->sme_cli != udi_cli) { - unifi_notice(priv, "Surprise closing config device: not the sme client\n"); - } - unifi_notice(priv, "SME client close (unifi%d)\n", devno); - - /* - * Clear sme_cli before calling unifi_sys_... so it doesn't try to - * queue a reply to the (now gone) SME. - */ - down(&udi_mutex); - priv->sme_cli = NULL; - up(&udi_mutex); - -#ifdef CSR_SME_USERSPACE - /* Power-down when config client closes */ - { - CsrWifiRouterCtrlWifiOffReq req = {{CSR_WIFI_ROUTER_CTRL_HIP_REQ, 0, 0, 0, NULL}}; - CsrWifiRouterCtrlWifiOffReqHandler(priv, &req.common); - } - - uf_sme_deinit(priv); - - /* It is possible that a blocking SME request was made from another process - * which did not get read by the SME before the WifiOffReq. - * So check for a pending request which will go unanswered and cancel - * the wait for event. As only one blocking request can be in progress at - * a time, up to one event should be completed. - */ - uf_sme_cancel_request(priv, 0); - -#endif /* CSR_SME_USERSPACE */ - } else { - - unifi_trace(priv, UDBG2, "UDI client close (unifiudi%d)\n", devno); - - /* If the pointer matches the logging client, stop logging. */ - down(&priv->udi_logging_mutex); - if (udi_cli == priv->logging_client) { - priv->logging_client = NULL; - } - up(&priv->udi_logging_mutex); - - if (udi_cli == priv->amp_client) { - priv->amp_client = NULL; - } - } - - /* Deregister this instance from the client's list. */ - ul_deregister_client(udi_cli); - - uf_put_instance(devno); - - return 0; -} /* unifi_release() */ - - - -/* - * --------------------------------------------------------------------------- - * unifi_read - * - * The read() driver entry point. - * - * Arguments: - * filp The file descriptor returned by unifi_open() - * p The user space buffer to copy the read data - * len The size of the p buffer - * poff - * - * Returns: - * number of bytes read or an error code on failure - * --------------------------------------------------------------------------- - */ -static ssize_t -unifi_read(struct file *filp, char *p, size_t len, loff_t *poff) -{ - ul_client_t *pcli = (void*)filp->private_data; - unifi_priv_t *priv; - udi_log_t *logptr = NULL; - udi_msg_t *msgptr; - struct list_head *l; - int msglen; - - priv = uf_find_instance(pcli->instance); - if (!priv) { - unifi_error(priv, "invalid priv\n"); - return -ENODEV; - } - - if (!pcli->udi_enabled) { - unifi_error(priv, "unifi_read: unknown client."); - return -EINVAL; - } - - if (list_empty(&pcli->udi_log)) { - if (filp->f_flags & O_NONBLOCK) { - /* Non-blocking - just return if the udi_log is empty */ - return 0; - } else { - /* Blocking - wait on the UDI wait queue */ - if (wait_event_interruptible(pcli->udi_wq, - !list_empty(&pcli->udi_log))) - { - unifi_error(priv, "unifi_read: wait_event_interruptible failed."); - return -ERESTARTSYS; - } - } - } - - /* Read entry from list head and remove it from the list */ - if (down_interruptible(&pcli->udi_sem)) { - return -ERESTARTSYS; - } - l = pcli->udi_log.next; - list_del(l); - up(&pcli->udi_sem); - - /* Get a pointer to whole struct */ - logptr = list_entry(l, udi_log_t, q); - if (logptr == NULL) { - unifi_error(priv, "unifi_read: failed to get event.\n"); - return -EINVAL; - } - - /* Get the real message */ - msgptr = &logptr->msg; - msglen = msgptr->length; - if (msglen > len) { - printk(KERN_WARNING "truncated read to %d actual msg len is %lu\n", msglen, (long unsigned int)len); - msglen = len; - } - - /* and pass it to the client (SME or Unicli). */ - if (copy_to_user(p, msgptr, msglen)) - { - printk(KERN_ERR "Failed to copy UDI log to user\n"); - kfree(logptr); - return -EFAULT; - } - - /* It is our resposibility to free the message buffer. */ - kfree(logptr); - - return msglen; - -} /* unifi_read() */ - - - -/* - * --------------------------------------------------------------------------- - * udi_send_signal_unpacked - * - * Sends an unpacked signal to UniFi. - * - * Arguments: - * priv Pointer to private context struct - * data Pointer to request structure and data to send - * data_len Length of data in data pointer. - * - * Returns: - * Number of bytes written, error otherwise. - * - * Notes: - * All clients that use this function to send a signal to the unifi - * must use the host formatted structures. - * --------------------------------------------------------------------------- - */ -static int -udi_send_signal_unpacked(unifi_priv_t *priv, unsigned char* data, uint data_len) -{ - CSR_SIGNAL *sigptr = (CSR_SIGNAL*)data; - CSR_DATAREF *datarefptr; - bulk_data_param_t bulk_data; - uint signal_size, i; - uint bulk_data_offset = 0; - int bytecount, r; - CsrResult csrResult; - - /* Number of bytes in the signal */ - signal_size = SigGetSize(sigptr); - if (!signal_size || (signal_size > data_len)) { - unifi_error(priv, "unifi_sme_mlme_req - Invalid signal 0x%x size should be %d bytes\n", - sigptr->SignalPrimitiveHeader.SignalId, - signal_size); - return -EINVAL; - } - bytecount = signal_size; - - /* Get a pointer to the information of the first data reference */ - datarefptr = (CSR_DATAREF*)&sigptr->u; - - /* Initialize the offset in the data buffer, bulk data is right after the signal. */ - bulk_data_offset = signal_size; - - /* store the references and the size of the bulk data to the bulkdata structure */ - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - /* the length of the bulk data is in the signal */ - if ((datarefptr+i)->DataLength) { - void *dest; - - csrResult = unifi_net_data_malloc(priv, &bulk_data.d[i], (datarefptr+i)->DataLength); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "udi_send_signal_unpacked: failed to allocate request_data.\n"); - return -EIO; - } - - dest = (void*)bulk_data.d[i].os_data_ptr; - memcpy(dest, data + bulk_data_offset, bulk_data.d[i].data_length); - } else { - bulk_data.d[i].data_length = 0; - } - - bytecount += bulk_data.d[i].data_length; - /* advance the offset, to point the next bulk data */ - bulk_data_offset += bulk_data.d[i].data_length; - } - - - unifi_trace(priv, UDBG3, "SME Send: signal 0x%.4X\n", sigptr->SignalPrimitiveHeader.SignalId); - - /* Send the signal. */ - r = ul_send_signal_unpacked(priv, sigptr, &bulk_data); - if (r < 0) { - unifi_error(priv, "udi_send_signal_unpacked: send failed (%d)\n", r); - for(i=0;i<UNIFI_MAX_DATA_REFERENCES;i++) { - if(bulk_data.d[i].data_length != 0) { - unifi_net_data_free(priv, &bulk_data.d[i]); - } - } - return -EIO; - } - - return bytecount; -} /* udi_send_signal_unpacked() */ - - - -/* - * --------------------------------------------------------------------------- - * udi_send_signal_raw - * - * Sends a packed signal to UniFi. - * - * Arguments: - * priv Pointer to private context struct - * buf Pointer to request structure and data to send - * buflen Length of data in data pointer. - * - * Returns: - * Number of bytes written, error otherwise. - * - * Notes: - * All clients that use this function to send a signal to the unifi - * must use the wire formatted structures. - * --------------------------------------------------------------------------- - */ -static int -udi_send_signal_raw(unifi_priv_t *priv, unsigned char *buf, int buflen) -{ - int signal_size; - int sig_id; - bulk_data_param_t data_ptrs; - int i, r; - unsigned int num_data_refs; - int bytecount; - CsrResult csrResult; - - /* - * The signal is the first thing in buf, the signal id is the - * first 16 bits of the signal. - */ - /* Number of bytes in the signal */ - sig_id = GET_SIGNAL_ID(buf); - signal_size = buflen; - signal_size -= GET_PACKED_DATAREF_LEN(buf, 0); - signal_size -= GET_PACKED_DATAREF_LEN(buf, 1); - if ((signal_size <= 0) || (signal_size > buflen)) { - unifi_error(priv, "udi_send_signal_raw - Couldn't find length of signal 0x%x\n", - sig_id); - return -EINVAL; - } - unifi_trace(priv, UDBG2, "udi_send_signal_raw: signal 0x%.4X len:%d\n", - sig_id, signal_size); - /* Zero the data ref arrays */ - memset(&data_ptrs, 0, sizeof(data_ptrs)); - - /* - * Find the number of associated bulk data packets. Scan through - * the data refs to check that we have enough data and pick out - * pointers to appended bulk data. - */ - num_data_refs = 0; - bytecount = signal_size; - - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; ++i) - { - unsigned int len = GET_PACKED_DATAREF_LEN(buf, i); - unifi_trace(priv, UDBG3, "udi_send_signal_raw: data_ref length = %d\n", len); - - if (len != 0) { - void *dest; - - csrResult = unifi_net_data_malloc(priv, &data_ptrs.d[i], len); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "udi_send_signal_raw: failed to allocate request_data.\n"); - return -EIO; - } - - dest = (void*)data_ptrs.d[i].os_data_ptr; - memcpy(dest, buf + bytecount, len); - - bytecount += len; - num_data_refs++; - } - data_ptrs.d[i].data_length = len; - } - - unifi_trace(priv, UDBG3, "Queueing signal 0x%.4X from UDI with %u data refs\n", - sig_id, - num_data_refs); - - if (bytecount > buflen) { - unifi_error(priv, "udi_send_signal_raw: Not enough data (%d instead of %d)\n", buflen, bytecount); - return -EINVAL; - } - - /* Send the signal calling the function that uses the wire-formatted signals. */ - r = ul_send_signal_raw(priv, buf, signal_size, &data_ptrs); - if (r < 0) { - unifi_error(priv, "udi_send_signal_raw: send failed (%d)\n", r); - return -EIO; - } - -#ifdef CSR_NATIVE_LINUX - if (sig_id == CSR_MLME_POWERMGT_REQUEST_ID) { - int power_mode = CSR_GET_UINT16_FROM_LITTLE_ENDIAN((buf + - SIZEOF_SIGNAL_HEADER + (UNIFI_MAX_DATA_REFERENCES*SIZEOF_DATAREF))); -#ifdef CSR_SUPPORT_WEXT - /* Overide the wext power mode to the new value */ - priv->wext_conf.power_mode = power_mode; -#endif - /* Configure deep sleep signaling */ - if (power_mode || (priv->interfacePriv[0]->connected == UnifiNotConnected)) { - csrResult = unifi_configure_low_power_mode(priv->card, - UNIFI_LOW_POWER_ENABLED, - UNIFI_PERIODIC_WAKE_HOST_DISABLED); - } else { - csrResult = unifi_configure_low_power_mode(priv->card, - UNIFI_LOW_POWER_DISABLED, - UNIFI_PERIODIC_WAKE_HOST_DISABLED); - } - } -#endif - - return bytecount; -} /* udi_send_signal_raw */ - -/* - * --------------------------------------------------------------------------- - * unifi_write - * - * The write() driver entry point. - * A UniFi Debug Interface client such as unicli can write a signal - * plus bulk data to the driver for sending to the UniFi chip. - * - * Only one signal may be sent per write operation. - * - * Arguments: - * filp The file descriptor returned by unifi_open() - * p The user space buffer to get the data from - * len The size of the p buffer - * poff - * - * Returns: - * number of bytes written or an error code on failure - * --------------------------------------------------------------------------- - */ -static ssize_t -unifi_write(struct file *filp, const char *p, size_t len, loff_t *poff) -{ - ul_client_t *pcli = (ul_client_t*)filp->private_data; - unifi_priv_t *priv; - unsigned char *buf; - unsigned char *bufptr; - int remaining; - int bytes_written; - int r; - bulk_data_param_t bulkdata; - CsrResult csrResult; - - priv = uf_find_instance(pcli->instance); - if (!priv) { - unifi_error(priv, "invalid priv\n"); - return -ENODEV; - } - - unifi_trace(priv, UDBG5, "unifi_write: len = %d\n", len); - - if (!pcli->udi_enabled) { - unifi_error(priv, "udi disabled\n"); - return -EINVAL; - } - - /* - * AMP client sends only one signal at a time, so we can use - * unifi_net_data_malloc to save the extra copy. - */ - if (pcli == priv->amp_client) { - int signal_size; - int sig_id; - unsigned char *signal_buf; - char *user_data_buf; - - csrResult = unifi_net_data_malloc(priv, &bulkdata.d[0], len); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "unifi_write: failed to allocate request_data.\n"); - return -ENOMEM; - } - - user_data_buf = (char*)bulkdata.d[0].os_data_ptr; - - /* Get the data from the AMP client. */ - if (copy_from_user((void*)user_data_buf, p, len)) { - unifi_error(priv, "unifi_write: copy from user failed\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return -EFAULT; - } - - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].data_length = 0; - - /* Number of bytes in the signal */ - sig_id = GET_SIGNAL_ID(bulkdata.d[0].os_data_ptr); - signal_size = len; - signal_size -= GET_PACKED_DATAREF_LEN(bulkdata.d[0].os_data_ptr, 0); - signal_size -= GET_PACKED_DATAREF_LEN(bulkdata.d[0].os_data_ptr, 1); - if ((signal_size <= 0) || (signal_size > len)) { - unifi_error(priv, "unifi_write - Couldn't find length of signal 0x%x\n", - sig_id); - unifi_net_data_free(priv, &bulkdata.d[0]); - return -EINVAL; - } - - unifi_trace(priv, UDBG2, "unifi_write: signal 0x%.4X len:%d\n", - sig_id, signal_size); - - /* Allocate a buffer for the signal */ - signal_buf = kmemdup(bulkdata.d[0].os_data_ptr, signal_size, - GFP_KERNEL); - if (!signal_buf) { - unifi_net_data_free(priv, &bulkdata.d[0]); - return -ENOMEM; - } - - /* Get the signal from the os_data_ptr */ - signal_buf[5] = (pcli->sender_id >> 8) & 0xff; - - if (signal_size < len) { - /* Remove the signal from the os_data_ptr */ - bulkdata.d[0].data_length -= signal_size; - bulkdata.d[0].os_data_ptr += signal_size; - } else { - bulkdata.d[0].data_length = 0; - bulkdata.d[0].os_data_ptr = NULL; - } - - /* Send the signal calling the function that uses the wire-formatted signals. */ - r = ul_send_signal_raw(priv, signal_buf, signal_size, &bulkdata); - if (r < 0) { - unifi_error(priv, "unifi_write: send failed (%d)\n", r); - if (bulkdata.d[0].os_data_ptr != NULL) { - unifi_net_data_free(priv, &bulkdata.d[0]); - } - } - - /* Free the signal buffer and return */ - kfree(signal_buf); - return len; - } - - buf = kmalloc(len, GFP_KERNEL); - if (!buf) { - return -ENOMEM; - } - - /* Get the data from the client (SME or Unicli). */ - if (copy_from_user((void*)buf, p, len)) { - unifi_error(priv, "copy from user failed\n"); - kfree(buf); - return -EFAULT; - } - - /* - * In SME userspace build read() contains a SYS or MGT message. - * Note that even though the SME sends one signal at a time, we can not - * use unifi_net_data_malloc because in the early stages, before having - * initialised the core, it will fail since the I/O block size is unknown. - */ -#ifdef CSR_SME_USERSPACE - if (pcli->configuration & CLI_SME_USERSPACE) { - CsrWifiRouterTransportRecv(priv, buf, len); - kfree(buf); - return len; - } -#endif - - /* ul_send_signal_raw will do a sanity check of len against signal content */ - - /* - * udi_send_signal_raw() and udi_send_signal_unpacked() return the number of bytes consumed. - * A write call can pass multiple signal concatenated together. - */ - bytes_written = 0; - remaining = len; - bufptr = buf; - while (remaining > 0) - { - int r; - - /* - * Set the SenderProcessId. - * The SignalPrimitiveHeader is the first 3 16-bit words of the signal, - * the SenderProcessId is bytes 4,5. - * The MSB of the sender ID needs to be set to the client ID. - * The LSB is controlled by the SME. - */ - bufptr[5] = (pcli->sender_id >> 8) & 0xff; - - /* use the appropriate interface, depending on the clients' configuration */ - if (pcli->configuration & CLI_USING_WIRE_FORMAT) { - unifi_trace(priv, UDBG1, "unifi_write: call udi_send_signal().\n"); - r = udi_send_signal_raw(priv, bufptr, remaining); - } else { - r = udi_send_signal_unpacked(priv, bufptr, remaining); - } - if (r < 0) { - /* Set the return value to the error code */ - unifi_error(priv, "unifi_write: (udi or sme)_send_signal() returns %d\n", r); - bytes_written = r; - break; - } - bufptr += r; - remaining -= r; - bytes_written += r; - } - - kfree(buf); - - return bytes_written; -} /* unifi_write() */ - - -static const char* build_type_to_string(unsigned char build_type) -{ - switch (build_type) - { - case UNIFI_BUILD_NME: return "NME"; - case UNIFI_BUILD_WEXT: return "WEXT"; - case UNIFI_BUILD_AP: return "AP"; - } - return "unknown"; -} - - -/* - * ---------------------------------------------------------------- - * unifi_ioctl - * - * Ioctl handler for unifi driver. - * - * Arguments: - * inodep Pointer to inode structure. - * filp Pointer to file structure. - * cmd Ioctl cmd passed by user. - * arg Ioctl arg passed by user. - * - * Returns: - * 0 on success, -ve error code on error. - * ---------------------------------------------------------------- - */ -static long -unifi_ioctl(struct file *filp, unsigned int cmd, unsigned long arg) -{ - ul_client_t *pcli = (ul_client_t*)filp->private_data; - unifi_priv_t *priv; - struct net_device *dev; - int r = 0; - int int_param, i; - u8* buf; - CsrResult csrResult; -#if (defined CSR_SUPPORT_SME) - unifi_cfg_command_t cfg_cmd; -#if (defined CSR_SUPPORT_WEXT) - CsrWifiSmeCoexConfig coex_config; - unsigned char uchar_param; - unsigned char varbind[MAX_VARBIND_LENGTH]; - int vblen; -#endif -#endif - unifi_putest_command_t putest_cmd; - - priv = uf_find_instance(pcli->instance); - if (!priv) { - unifi_error(priv, "ioctl error: unknown instance=%d\n", pcli->instance); - r = -ENODEV; - goto out; - } - unifi_trace(priv, UDBG5, "unifi_ioctl: cmd=0x%X, arg=0x%lX\n", cmd, arg); - - switch (cmd) { - - case UNIFI_GET_UDI_ENABLE: - unifi_trace(priv, UDBG4, "UniFi Get UDI Enable\n"); - - down(&priv->udi_logging_mutex); - int_param = (priv->logging_client == NULL) ? 0 : 1; - up(&priv->udi_logging_mutex); - - if (put_user(int_param, (int*)arg)) - { - unifi_error(priv, "UNIFI_GET_UDI_ENABLE: Failed to copy to user\n"); - r = -EFAULT; - goto out; - } - break; - - case UNIFI_SET_UDI_ENABLE: - unifi_trace(priv, UDBG4, "UniFi Set UDI Enable\n"); - if (get_user(int_param, (int*)arg)) - { - unifi_error(priv, "UNIFI_SET_UDI_ENABLE: Failed to copy from user\n"); - r = -EFAULT; - goto out; - } - -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE - if (log_hip_signals) { - unifi_error(priv, "omnicli cannot be used when log_hip_signals is used\n"); - r = -EFAULT; - goto out; - } -#endif - - down(&priv->udi_logging_mutex); - if (int_param) { - pcli->event_hook = udi_log_event; - unifi_set_udi_hook(priv->card, logging_handler); - /* Log all signals by default */ - for (i = 0; i < SIG_FILTER_SIZE; i++) { - pcli->signal_filter[i] = 0xFFFF; - } - priv->logging_client = pcli; - - } else { - priv->logging_client = NULL; - pcli->event_hook = NULL; - } - up(&priv->udi_logging_mutex); - - break; - - case UNIFI_SET_MIB: - unifi_trace(priv, UDBG4, "UniFi Set MIB\n"); -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) - /* Read first 2 bytes and check length */ - if (copy_from_user((void*)varbind, (void*)arg, 2)) { - unifi_error(priv, - "UNIFI_SET_MIB: Failed to copy in varbind header\n"); - r = -EFAULT; - goto out; - } - vblen = varbind[1]; - if ((vblen + 2) > MAX_VARBIND_LENGTH) { - unifi_error(priv, - "UNIFI_SET_MIB: Varbind too long (%d, limit %d)\n", - (vblen+2), MAX_VARBIND_LENGTH); - r = -EINVAL; - goto out; - } - /* Read rest of varbind */ - if (copy_from_user((void*)(varbind+2), (void*)(arg+2), vblen)) { - unifi_error(priv, "UNIFI_SET_MIB: Failed to copy in varbind\n"); - r = -EFAULT; - goto out; - } - - /* send to SME */ - vblen += 2; - r = sme_mgt_mib_set(priv, varbind, vblen); - if (r) { - goto out; - } -#else - unifi_notice(priv, "UNIFI_SET_MIB: Unsupported.\n"); -#endif /* CSR_SUPPORT_WEXT */ - break; - - case UNIFI_GET_MIB: - unifi_trace(priv, UDBG4, "UniFi Get MIB\n"); -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) - /* Read first 2 bytes and check length */ - if (copy_from_user((void*)varbind, (void*)arg, 2)) { - unifi_error(priv, "UNIFI_GET_MIB: Failed to copy in varbind header\n"); - r = -EFAULT; - goto out; - } - vblen = varbind[1]; - if ((vblen+2) > MAX_VARBIND_LENGTH) { - unifi_error(priv, "UNIFI_GET_MIB: Varbind too long (%d, limit %d)\n", - (vblen+2), MAX_VARBIND_LENGTH); - r = -EINVAL; - goto out; - } - /* Read rest of varbind */ - if (copy_from_user((void*)(varbind+2), (void*)(arg+2), vblen)) { - unifi_error(priv, "UNIFI_GET_MIB: Failed to copy in varbind\n"); - r = -EFAULT; - goto out; - } - - vblen += 2; - r = sme_mgt_mib_get(priv, varbind, &vblen); - if (r) { - goto out; - } - /* copy out varbind */ - if (vblen > MAX_VARBIND_LENGTH) { - unifi_error(priv, - "UNIFI_GET_MIB: Varbind result too long (%d, limit %d)\n", - vblen, MAX_VARBIND_LENGTH); - r = -EINVAL; - goto out; - } - if (copy_to_user((void*)arg, varbind, vblen)) { - r = -EFAULT; - goto out; - } -#else - unifi_notice(priv, "UNIFI_GET_MIB: Unsupported.\n"); -#endif /* CSR_SUPPORT_WEXT */ - break; - - case UNIFI_CFG: -#if (defined CSR_SUPPORT_SME) - if (get_user(cfg_cmd, (unifi_cfg_command_t*)arg)) - { - unifi_error(priv, "UNIFI_CFG: Failed to get the command\n"); - r = -EFAULT; - goto out; - } - - unifi_trace(priv, UDBG1, "UNIFI_CFG: Command is %d (t=%u) sz=%d\n", - cfg_cmd, jiffies_to_msecs(jiffies), sizeof(unifi_cfg_command_t)); - switch (cfg_cmd) { - case UNIFI_CFG_POWER: - r = unifi_cfg_power(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_POWERSAVE: - r = unifi_cfg_power_save(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_POWERSUPPLY: - r = unifi_cfg_power_supply(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_FILTER: - r = unifi_cfg_packet_filters(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_GET: - r = unifi_cfg_get_info(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_WMM_QOSINFO: - r = unifi_cfg_wmm_qos_info(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_WMM_ADDTS: - r = unifi_cfg_wmm_addts(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_WMM_DELTS: - r = unifi_cfg_wmm_delts(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_STRICT_DRAFT_N: - r = unifi_cfg_strict_draft_n(priv, (unsigned char*)arg); - break; - case UNIFI_CFG_ENABLE_OKC: - r = unifi_cfg_enable_okc(priv, (unsigned char*)arg); - break; -#ifdef CSR_SUPPORT_SME - case UNIFI_CFG_CORE_DUMP: - CsrWifiRouterCtrlWifiOffIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, CSR_WIFI_SME_CONTROL_INDICATION_ERROR); - unifi_trace(priv, UDBG2, "UNIFI_CFG_CORE_DUMP: sent wifi off indication\n"); - break; -#endif -#ifdef CSR_SUPPORT_WEXT_AP - case UNIFI_CFG_SET_AP_CONFIG: - r= unifi_cfg_set_ap_config(priv, (unsigned char*)arg); - break; -#endif - default: - unifi_error(priv, "UNIFI_CFG: Unknown Command (%d)\n", cfg_cmd); - r = -EINVAL; - goto out; - } -#endif - - break; - - case UNIFI_PUTEST: - if (get_user(putest_cmd, (unifi_putest_command_t*)arg)) - { - unifi_error(priv, "UNIFI_PUTEST: Failed to get the command\n"); - r = -EFAULT; - goto out; - } - - unifi_trace(priv, UDBG1, "UNIFI_PUTEST: Command is %s\n", - trace_putest_cmdid(putest_cmd)); - switch (putest_cmd) { - case UNIFI_PUTEST_START: - r = unifi_putest_start(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_STOP: - r = unifi_putest_stop(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_SET_SDIO_CLOCK: - r = unifi_putest_set_sdio_clock(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_CMD52_READ: - r = unifi_putest_cmd52_read(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_CMD52_BLOCK_READ: - r = unifi_putest_cmd52_block_read(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_CMD52_WRITE: - r = unifi_putest_cmd52_write(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_DL_FW: - r = unifi_putest_dl_fw(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_DL_FW_BUFF: - r = unifi_putest_dl_fw_buff(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_COREDUMP_PREPARE: - r = unifi_putest_coredump_prepare(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_GP_READ16: - r = unifi_putest_gp_read16(priv, (unsigned char*)arg); - break; - case UNIFI_PUTEST_GP_WRITE16: - r = unifi_putest_gp_write16(priv, (unsigned char*)arg); - break; - default: - unifi_error(priv, "UNIFI_PUTEST: Unknown Command (%d)\n", putest_cmd); - r = -EINVAL; - goto out; - } - - break; - case UNIFI_BUILD_TYPE: - unifi_trace(priv, UDBG2, "UNIFI_BUILD_TYPE userspace=%s\n", build_type_to_string(*(unsigned char*)arg)); -#ifndef CSR_SUPPORT_WEXT_AP - if (UNIFI_BUILD_AP == *(unsigned char*)arg) - { - unifi_error(priv, "Userspace has AP support, which is incompatible\n"); - } -#endif - -#ifndef CSR_SUPPORT_WEXT - if (UNIFI_BUILD_WEXT == *(unsigned char*)arg) - { - unifi_error(priv, "Userspace has WEXT support, which is incompatible\n"); - } -#endif - break; - case UNIFI_INIT_HW: - unifi_trace(priv, UDBG2, "UNIFI_INIT_HW.\n"); - priv->init_progress = UNIFI_INIT_NONE; - -#if defined(CSR_SUPPORT_WEXT) || defined (CSR_NATIVE_LINUX) - /* At this point we are ready to start the SME. */ - r = sme_mgt_wifi_on(priv); - if (r) { - goto out; - } -#endif - - break; - - case UNIFI_INIT_NETDEV: - { - /* get the proper interfaceTagId */ - u16 interfaceTag=0; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - dev = priv->netdev[interfaceTag]; - unifi_trace(priv, UDBG2, "UNIFI_INIT_NETDEV.\n"); - - if (copy_from_user((void*)dev->dev_addr, (void*)arg, 6)) { - r = -EFAULT; - goto out; - } - - /* Attach the network device to the stack */ - if (!interfacePriv->netdev_registered) - { - r = uf_register_netdev(priv, interfaceTag); - if (r) { - unifi_error(priv, "Failed to register the network device.\n"); - goto out; - } - } - - /* Apply scheduled interrupt mode, if requested by module param */ - if (run_bh_once != -1) { - unifi_set_interrupt_mode(priv->card, (u32)run_bh_once); - } - - priv->init_progress = UNIFI_INIT_COMPLETED; - - /* Firmware initialisation is complete, so let the SDIO bus - * clock be raised when convienent to the core. - */ - unifi_request_max_sdio_clock(priv->card); - -#ifdef CSR_SUPPORT_WEXT - /* Notify the Android wpa_supplicant that we are ready */ - wext_send_started_event(priv); -#endif - - unifi_info(priv, "UniFi ready\n"); - -#ifdef ANDROID_BUILD - /* Release the wakelock */ - unifi_trace(priv, UDBG1, "netdev_init: release wake lock\n"); - wake_unlock(&unifi_sdio_wake_lock); -#endif -#ifdef CSR_NATIVE_SOFTMAC /* For softmac dev, force-enable the network interface rather than wait for a connected-ind */ - { - struct net_device *dev = priv->netdev[interfaceTag]; -#ifdef CSR_SUPPORT_WEXT - interfacePriv->wait_netdev_change = TRUE; -#endif - netif_carrier_on(dev); - } -#endif - } - break; - case UNIFI_GET_INIT_STATUS: - unifi_trace(priv, UDBG2, "UNIFI_GET_INIT_STATUS.\n"); - if (put_user(priv->init_progress, (int*)arg)) - { - printk(KERN_ERR "UNIFI_GET_INIT_STATUS: Failed to copy to user\n"); - r = -EFAULT; - goto out; - } - break; - - case UNIFI_KICK: - unifi_trace(priv, UDBG4, "Kick UniFi\n"); - unifi_sdio_interrupt_handler(priv->card); - break; - - case UNIFI_SET_DEBUG: - unifi_debug = arg; - unifi_trace(priv, UDBG4, "unifi_debug set to %d\n", unifi_debug); - break; - - case UNIFI_SET_TRACE: - /* no longer supported */ - r = -EINVAL; - break; - - - case UNIFI_SET_UDI_LOG_MASK: - { - unifiio_filter_t udi_filter; - uint16_t *sig_ids_addr; -#define UF_MAX_SIG_IDS 128 /* Impose a sensible limit */ - - if (copy_from_user((void*)(&udi_filter), (void*)arg, sizeof(udi_filter))) { - r = -EFAULT; - goto out; - } - if ((udi_filter.action < UfSigFil_AllOn) || - (udi_filter.action > UfSigFil_SelectOff)) - { - printk(KERN_WARNING - "UNIFI_SET_UDI_LOG_MASK: Bad action value: %d\n", - udi_filter.action); - r = -EINVAL; - goto out; - } - /* No signal list for "All" actions */ - if ((udi_filter.action == UfSigFil_AllOn) || - (udi_filter.action == UfSigFil_AllOff)) - { - udi_filter.num_sig_ids = 0; - } - - if (udi_filter.num_sig_ids > UF_MAX_SIG_IDS) { - printk(KERN_WARNING - "UNIFI_SET_UDI_LOG_MASK: too many signal ids (%d, max %d)\n", - udi_filter.num_sig_ids, UF_MAX_SIG_IDS); - r = -EINVAL; - goto out; - } - - /* Copy in signal id list if given */ - if (udi_filter.num_sig_ids > 0) { - /* Preserve userspace address of sig_ids array */ - sig_ids_addr = udi_filter.sig_ids; - /* Allocate kernel memory for sig_ids and copy to it */ - udi_filter.sig_ids = - kmalloc(udi_filter.num_sig_ids * sizeof(uint16_t), GFP_KERNEL); - if (!udi_filter.sig_ids) { - r = -ENOMEM; - goto out; - } - if (copy_from_user((void*)udi_filter.sig_ids, - (void*)sig_ids_addr, - udi_filter.num_sig_ids * sizeof(uint16_t))) - { - kfree(udi_filter.sig_ids); - r = -EFAULT; - goto out; - } - } - - udi_set_log_filter(pcli, &udi_filter); - - if (udi_filter.num_sig_ids > 0) { - kfree(udi_filter.sig_ids); - } - } - break; - - case UNIFI_SET_AMP_ENABLE: - unifi_trace(priv, UDBG4, "UniFi Set AMP Enable\n"); - if (get_user(int_param, (int*)arg)) - { - unifi_error(priv, "UNIFI_SET_AMP_ENABLE: Failed to copy from user\n"); - r = -EFAULT; - goto out; - } - - if (int_param) { - priv->amp_client = pcli; - } else { - priv->amp_client = NULL; - } - - int_param = 0; - buf = (u8*)&int_param; - buf[0] = UNIFI_SOFT_COMMAND_Q_LENGTH - 1; - buf[1] = UNIFI_SOFT_TRAFFIC_Q_LENGTH - 1; - if (copy_to_user((void*)arg, &int_param, sizeof(int))) { - r = -EFAULT; - goto out; - } - break; - - case UNIFI_SET_UDI_SNAP_MASK: - { - unifiio_snap_filter_t snap_filter; - - if (copy_from_user((void*)(&snap_filter), (void*)arg, sizeof(snap_filter))) { - r = -EFAULT; - goto out; - } - - if (pcli->snap_filter.count) { - pcli->snap_filter.count = 0; - kfree(pcli->snap_filter.protocols); - } - - if (snap_filter.count == 0) { - break; - } - - pcli->snap_filter.protocols = kmalloc(snap_filter.count * sizeof(u16), GFP_KERNEL); - if (!pcli->snap_filter.protocols) { - r = -ENOMEM; - goto out; - } - if (copy_from_user((void*)pcli->snap_filter.protocols, - (void*)snap_filter.protocols, - snap_filter.count * sizeof(u16))) - { - kfree(pcli->snap_filter.protocols); - r = -EFAULT; - goto out; - } - - pcli->snap_filter.count = snap_filter.count; - - } - break; - - case UNIFI_SME_PRESENT: - { - u8 ind; - unifi_trace(priv, UDBG4, "UniFi SME Present IOCTL.\n"); - if (copy_from_user((void*)(&int_param), (void*)arg, sizeof(int))) - { - printk(KERN_ERR "UNIFI_SME_PRESENT: Failed to copy from user\n"); - r = -EFAULT; - goto out; - } - - priv->sme_is_present = int_param; - if (priv->sme_is_present == 1) { - ind = CONFIG_SME_PRESENT; - } else { - ind = CONFIG_SME_NOT_PRESENT; - } - /* Send an indication to the helper app. */ - ul_log_config_ind(priv, &ind, sizeof(u8)); - } - break; - - case UNIFI_CFG_PERIOD_TRAFFIC: - { -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) - CsrWifiSmeCoexConfig coexConfig; -#endif /* CSR_SUPPORT_SME && CSR_SUPPORT_WEXT */ - unifi_trace(priv, UDBG4, "UniFi Configure Periodic Traffic.\n"); -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) - if (copy_from_user((void*)(&uchar_param), (void*)arg, sizeof(unsigned char))) { - unifi_error(priv, "UNIFI_CFG_PERIOD_TRAFFIC: Failed to copy from user\n"); - r = -EFAULT; - goto out; - } - - if (uchar_param == 0) { - r = sme_mgt_coex_config_get(priv, &coexConfig); - if (r) { - unifi_error(priv, "UNIFI_CFG_PERIOD_TRAFFIC: Get unifi_CoexInfoValue failed.\n"); - goto out; - } - if (copy_to_user((void*)(arg + 1), - (void*)&coexConfig, - sizeof(CsrWifiSmeCoexConfig))) { - r = -EFAULT; - goto out; - } - goto out; - } - - if (copy_from_user((void*)(&coex_config), (void*)(arg + 1), sizeof(CsrWifiSmeCoexConfig))) - { - unifi_error(priv, "UNIFI_CFG_PERIOD_TRAFFIC: Failed to copy from user\n"); - r = -EFAULT; - goto out; - } - - coexConfig = coex_config; - r = sme_mgt_coex_config_set(priv, &coexConfig); - if (r) { - unifi_error(priv, "UNIFI_CFG_PERIOD_TRAFFIC: Set unifi_CoexInfoValue failed.\n"); - goto out; - } - -#endif /* CSR_SUPPORT_SME && CSR_SUPPORT_WEXT */ - break; - } - case UNIFI_CFG_UAPSD_TRAFFIC: - unifi_trace(priv, UDBG4, "UniFi Configure U-APSD Mask.\n"); -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) - if (copy_from_user((void*)(&uchar_param), (void*)arg, sizeof(unsigned char))) { - unifi_error(priv, "UNIFI_CFG_UAPSD_TRAFFIC: Failed to copy from user\n"); - r = -EFAULT; - goto out; - } - unifi_trace(priv, UDBG4, "New U-APSD Mask: 0x%x\n", uchar_param); -#endif /* CSR_SUPPORT_SME && CSR_SUPPORT_WEXT */ - break; - -#ifndef UNIFI_DISABLE_COREDUMP - case UNIFI_COREDUMP_GET_REG: - unifi_trace(priv, UDBG4, "Mini-coredump data request\n"); - { - unifiio_coredump_req_t dump_req; /* Public OS layer structure */ - unifi_coredump_req_t priv_req; /* Private HIP structure */ - - if (copy_from_user((void*)(&dump_req), (void*)arg, sizeof(dump_req))) { - r = -EFAULT; - goto out; - } - memset(&priv_req, 0, sizeof(priv_req)); - priv_req.index = dump_req.index; - priv_req.offset = dump_req.offset; - - /* Convert OS-layer's XAP memory space ID to HIP's ID in case they differ */ - switch (dump_req.space) { - case UNIFIIO_COREDUMP_MAC_REG: priv_req.space = UNIFI_COREDUMP_MAC_REG; break; - case UNIFIIO_COREDUMP_PHY_REG: priv_req.space = UNIFI_COREDUMP_PHY_REG; break; - case UNIFIIO_COREDUMP_SH_DMEM: priv_req.space = UNIFI_COREDUMP_SH_DMEM; break; - case UNIFIIO_COREDUMP_MAC_DMEM: priv_req.space = UNIFI_COREDUMP_MAC_DMEM; break; - case UNIFIIO_COREDUMP_PHY_DMEM: priv_req.space = UNIFI_COREDUMP_PHY_DMEM; break; - case UNIFIIO_COREDUMP_TRIGGER_MAGIC: priv_req.space = UNIFI_COREDUMP_TRIGGER_MAGIC; break; - default: - r = -EINVAL; - goto out; - } - - if (priv_req.space == UNIFI_COREDUMP_TRIGGER_MAGIC) { - /* Force a coredump grab now */ - unifi_trace(priv, UDBG2, "UNIFI_COREDUMP_GET_REG: Force capture\n"); - csrResult = unifi_coredump_capture(priv->card, &priv_req); - r = CsrHipResultToStatus(csrResult); - unifi_trace(priv, UDBG5, "UNIFI_COREDUMP_GET_REG: status %d\n", r); - } else { - /* Retrieve the appropriate register entry */ - csrResult = unifi_coredump_get_value(priv->card, &priv_req); - r = CsrHipResultToStatus(csrResult); - if (r) { - unifi_trace(priv, UDBG5, "UNIFI_COREDUMP_GET_REG: Status %d\n", r); - goto out; - } - /* Update the OS-layer structure with values returned in the private */ - dump_req.value = priv_req.value; - dump_req.timestamp = priv_req.timestamp; - dump_req.requestor = priv_req.requestor; - dump_req.serial = priv_req.serial; - dump_req.chip_ver = priv_req.chip_ver; - dump_req.fw_ver = priv_req.fw_ver; - dump_req.drv_build = 0; - - unifi_trace(priv, UDBG6, - "Dump: %d (seq %d): V:0x%04x (%d) @0x%02x:%04x = 0x%04x\n", - dump_req.index, dump_req.serial, - dump_req.chip_ver, dump_req.drv_build, - dump_req.space, dump_req.offset, dump_req.value); - } - if (copy_to_user((void*)arg, (void*)&dump_req, sizeof(dump_req))) { - r = -EFAULT; - goto out; - } - } - break; -#endif - default: - r = -EINVAL; - } - -out: - return (long)r; -} /* unifi_ioctl() */ - - - -static unsigned int -unifi_poll(struct file *filp, poll_table *wait) -{ - ul_client_t *pcli = (ul_client_t*)filp->private_data; - unsigned int mask = 0; - int ready; - - ready = !list_empty(&pcli->udi_log); - - poll_wait(filp, &pcli->udi_wq, wait); - - if (ready) { - mask |= POLLIN | POLLRDNORM; /* readable */ - } - - return mask; -} /* unifi_poll() */ - - - -/* - * --------------------------------------------------------------------------- - * udi_set_log_filter - * - * Configure the bit mask that determines which signal primitives are - * passed to the logging process. - * - * Arguments: - * pcli Pointer to the client to configure. - * udi_filter Pointer to a unifiio_filter_t containing instructions. - * - * Returns: - * None. - * - * Notes: - * SigGetFilterPos() returns a 32-bit value that contains an index and a - * mask for accessing a signal_filter array. The top 16 bits specify an - * index into a signal_filter, the bottom 16 bits specify a mask to - * apply. - * --------------------------------------------------------------------------- - */ -static void -udi_set_log_filter(ul_client_t *pcli, unifiio_filter_t *udi_filter) -{ - u32 filter_pos; - int i; - - if (udi_filter->action == UfSigFil_AllOn) - { - for (i = 0; i < SIG_FILTER_SIZE; i++) { - pcli->signal_filter[i] = 0xFFFF; - } - } - else if (udi_filter->action == UfSigFil_AllOff) - { - for (i = 0; i < SIG_FILTER_SIZE; i++) { - pcli->signal_filter[i] = 0; - } - } - else if (udi_filter->action == UfSigFil_SelectOn) - { - for (i = 0; i < udi_filter->num_sig_ids; i++) { - filter_pos = SigGetFilterPos(udi_filter->sig_ids[i]); - if (filter_pos == 0xFFFFFFFF) - { - printk(KERN_WARNING - "Unrecognised signal id (0x%X) specifed in logging filter\n", - udi_filter->sig_ids[i]); - } else { - pcli->signal_filter[filter_pos >> 16] |= (filter_pos & 0xFFFF); - } - } - } - else if (udi_filter->action == UfSigFil_SelectOff) - { - for (i = 0; i < udi_filter->num_sig_ids; i++) { - filter_pos = SigGetFilterPos(udi_filter->sig_ids[i]); - if (filter_pos == 0xFFFFFFFF) - { - printk(KERN_WARNING - "Unrecognised signal id (0x%X) specifed in logging filter\n", - udi_filter->sig_ids[i]); - } else { - pcli->signal_filter[filter_pos >> 16] &= ~(filter_pos & 0xFFFF); - } - } - } - -} /* udi_set_log_filter() */ - - -/* - * --------------------------------------------------------------------------- - * udi_log_event - * - * Callback function to be registered as the UDI hook callback. - * Copies the signal content into a new udi_log_t struct and adds - * it to the read queue for this UDI client. - * - * Arguments: - * pcli A pointer to the client instance. - * signal Pointer to the received signal. - * signal_len Size of the signal structure in bytes. - * bulkdata Pointers to any associated bulk data. - * dir Direction of the signal. Zero means from host, - * non-zero means to host. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -udi_log_event(ul_client_t *pcli, - const u8 *signal, int signal_len, - const bulk_data_param_t *bulkdata, - int dir) -{ - udi_log_t *logptr; - u8 *p; - int i; - int total_len; - udi_msg_t *msgptr; - u32 filter_pos; -#ifdef OMNICLI_LINUX_EXTRA_LOG - static volatile unsigned int printk_cpu = UINT_MAX; - unsigned long long t; - unsigned long nanosec_rem; - unsigned long n_1000; -#endif - - /* Just a sanity check */ - if ((signal == NULL) || (signal_len <= 0)) { - return; - } - -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE - /* When HIP offline signal logging is enabled, omnicli cannot run */ - if (log_hip_signals) - { - /* Add timestamp */ - if (log_hip_signals & UNIFI_LOG_HIP_SIGNALS_FILTER_TIMESTAMP) - { - int timestamp = jiffies_to_msecs(jiffies); - unifi_debug_log_to_buf("T:"); - unifi_debug_log_to_buf("%04X%04X ", *(((u16*)×tamp) + 1), - *(u16*)×tamp); - } - - /* Add signal */ - unifi_debug_log_to_buf("S%s:%04X R:%04X D:%04X ", - dir ? "T" : "F", - *(u16*)signal, - *(u16*)(signal + 2), - *(u16*)(signal + 4)); - unifi_debug_hex_to_buf(signal + 6, signal_len - 6); - - /* Add bulk data (assume 1 bulk data per signal) */ - if ((log_hip_signals & UNIFI_LOG_HIP_SIGNALS_FILTER_BULKDATA) && - (bulkdata->d[0].data_length > 0)) - { - unifi_debug_log_to_buf("\nD:"); - unifi_debug_hex_to_buf(bulkdata->d[0].os_data_ptr, bulkdata->d[0].data_length); - } - unifi_debug_log_to_buf("\n"); - - return; - } -#endif - -#ifdef CSR_NATIVE_LINUX - uf_native_process_udi_signal(pcli, signal, signal_len, bulkdata, dir); -#endif - - /* - * Apply the logging filter - only report signals that have their - * bit set in the filter mask. - */ - filter_pos = SigGetFilterPos(GET_SIGNAL_ID(signal)); - - if ((filter_pos != 0xFFFFFFFF) && - ((pcli->signal_filter[filter_pos >> 16] & (filter_pos & 0xFFFF)) == 0)) - { - /* Signal is not wanted by client */ - return; - } - - - /* Calculate the buffer we need to store signal plus bulk data */ - total_len = signal_len; - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - total_len += bulkdata->d[i].data_length; - } - - /* Allocate log structure plus actual signal. */ - logptr = kmalloc(sizeof(udi_log_t) + total_len, GFP_KERNEL); - - if (logptr == NULL) { - printk(KERN_ERR - "Failed to allocate %lu bytes for a UDI log record\n", - (long unsigned int)(sizeof(udi_log_t) + total_len)); - return; - } - - /* Fill in udi_log struct */ - INIT_LIST_HEAD(&logptr->q); - msgptr = &logptr->msg; - msgptr->length = sizeof(udi_msg_t) + total_len; -#ifdef OMNICLI_LINUX_EXTRA_LOG - t = cpu_clock(printk_cpu); - nanosec_rem = do_div(t, 1000000000); - n_1000 = nanosec_rem/1000; - msgptr->timestamp = (t <<10 ) | ((unsigned long)(n_1000 >> 10) & 0x3ff); -#else - msgptr->timestamp = jiffies_to_msecs(jiffies); -#endif - msgptr->direction = dir; - msgptr->signal_length = signal_len; - - /* Copy signal and bulk data to the log */ - p = (u8 *)(msgptr + 1); - memcpy(p, signal, signal_len); - p += signal_len; - - /* Append any bulk data */ - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - int len = bulkdata->d[i].data_length; - - /* - * Len here might not be the same as the length in the bulk data slot. - * The slot length will always be even, but len could be odd. - */ - if (len > 0) { - if (bulkdata->d[i].os_data_ptr) { - memcpy(p, bulkdata->d[i].os_data_ptr, len); - } else { - memset(p, 0, len); - } - p += len; - } - } - - /* Add to tail of log queue */ - if (down_interruptible(&pcli->udi_sem)) { - printk(KERN_WARNING "udi_log_event_q: Failed to get udi sem\n"); - kfree(logptr); - return; - } - list_add_tail(&logptr->q, &pcli->udi_log); - up(&pcli->udi_sem); - - /* Wake any waiting user process */ - wake_up_interruptible(&pcli->udi_wq); - -} /* udi_log_event() */ - -#ifdef CSR_SME_USERSPACE -int -uf_sme_queue_message(unifi_priv_t *priv, u8 *buffer, int length) -{ - udi_log_t *logptr; - udi_msg_t *msgptr; - u8 *p; - - /* Just a sanity check */ - if ((buffer == NULL) || (length <= 0)) { - return -EINVAL; - } - - /* Allocate log structure plus actual signal. */ - logptr = kmalloc(sizeof(udi_log_t) + length, GFP_ATOMIC); - if (logptr == NULL) { - unifi_error(priv, "Failed to allocate %d bytes for an SME message\n", - sizeof(udi_log_t) + length); - kfree(buffer); - return -ENOMEM; - } - - /* Fill in udi_log struct */ - INIT_LIST_HEAD(&logptr->q); - msgptr = &logptr->msg; - msgptr->length = sizeof(udi_msg_t) + length; - msgptr->signal_length = length; - - /* Copy signal and bulk data to the log */ - p = (u8 *)(msgptr + 1); - memcpy(p, buffer, length); - - /* Add to tail of log queue */ - down(&udi_mutex); - if (priv->sme_cli == NULL) { - kfree(logptr); - kfree(buffer); - up(&udi_mutex); - unifi_info(priv, "Message for the SME dropped, SME has gone away\n"); - return 0; - } - - down(&priv->sme_cli->udi_sem); - list_add_tail(&logptr->q, &priv->sme_cli->udi_log); - up(&priv->sme_cli->udi_sem); - - /* Wake any waiting user process */ - wake_up_interruptible(&priv->sme_cli->udi_wq); - up(&udi_mutex); - - /* It is our responsibility to free the buffer allocated in build_packed_*() */ - kfree(buffer); - - return 0; - -} /* uf_sme_queue_message() */ -#endif - -/* - **************************************************************************** - * - * Driver instantiation - * - **************************************************************************** - */ -static const struct file_operations unifi_fops = { - .owner = THIS_MODULE, - .open = unifi_open, - .release = unifi_release, - .read = unifi_read, - .write = unifi_write, - .unlocked_ioctl = unifi_ioctl, - .poll = unifi_poll, -}; - -static dev_t unifi_first_devno; -static struct class *unifi_class; - - -int uf_create_device_nodes(unifi_priv_t *priv, int bus_id) -{ - dev_t devno; - int r; - - cdev_init(&priv->unifi_cdev, &unifi_fops); - - /* cdev_init() should set the cdev owner, but it does not */ - priv->unifi_cdev.owner = THIS_MODULE; - - devno = MKDEV(MAJOR(unifi_first_devno), - MINOR(unifi_first_devno) + (bus_id * 2)); - r = cdev_add(&priv->unifi_cdev, devno, 1); - if (r) { - return r; - } - -#ifdef SDIO_EXPORTS_STRUCT_DEVICE - if (!device_create(unifi_class, priv->unifi_device, - devno, priv, "unifi%d", bus_id)) { -#else - priv->unifi_device = device_create(unifi_class, NULL, - devno, priv, "unifi%d", bus_id); - if (priv->unifi_device == NULL) { -#endif /* SDIO_EXPORTS_STRUCT_DEVICE */ - - cdev_del(&priv->unifi_cdev); - return -EINVAL; - } - - cdev_init(&priv->unifiudi_cdev, &unifi_fops); - - /* cdev_init() should set the cdev owner, but it does not */ - priv->unifiudi_cdev.owner = THIS_MODULE; - - devno = MKDEV(MAJOR(unifi_first_devno), - MINOR(unifi_first_devno) + (bus_id * 2) + 1); - r = cdev_add(&priv->unifiudi_cdev, devno, 1); - if (r) { - device_destroy(unifi_class, priv->unifi_cdev.dev); - cdev_del(&priv->unifi_cdev); - return r; - } - - if (!device_create(unifi_class, -#ifdef SDIO_EXPORTS_STRUCT_DEVICE - priv->unifi_device, -#else - NULL, -#endif /* SDIO_EXPORTS_STRUCT_DEVICE */ - devno, priv, "unifiudi%d", bus_id)) { - device_destroy(unifi_class, priv->unifi_cdev.dev); - cdev_del(&priv->unifiudi_cdev); - cdev_del(&priv->unifi_cdev); - return -EINVAL; - } - - return 0; -} - - -void uf_destroy_device_nodes(unifi_priv_t *priv) -{ - device_destroy(unifi_class, priv->unifiudi_cdev.dev); - device_destroy(unifi_class, priv->unifi_cdev.dev); - cdev_del(&priv->unifiudi_cdev); - cdev_del(&priv->unifi_cdev); -} - - - -/* - * ---------------------------------------------------------------- - * uf_create_debug_device - * - * Allocates device numbers for unifi character device nodes - * and creates a unifi class in sysfs - * - * Arguments: - * fops Pointer to the char device operations structure. - * - * Returns: - * 0 on success, -ve error code on error. - * ---------------------------------------------------------------- - */ -static int -uf_create_debug_device(const struct file_operations *fops) -{ - int ret; - - /* Allocate two device numbers for each device. */ - ret = alloc_chrdev_region(&unifi_first_devno, 0, MAX_UNIFI_DEVS*2, UNIFI_NAME); - if (ret) { - unifi_error(NULL, "Failed to add alloc dev numbers: %d\n", ret); - return ret; - } - - /* Create a UniFi class */ - unifi_class = class_create(THIS_MODULE, UNIFI_NAME); - if (IS_ERR(unifi_class)) { - unifi_error(NULL, "Failed to create UniFi class\n"); - - /* Release device numbers */ - unregister_chrdev_region(unifi_first_devno, MAX_UNIFI_DEVS*2); - unifi_first_devno = 0; - return -EINVAL; - } - - return 0; -} /* uf_create_debug_device() */ - - -/* - * ---------------------------------------------------------------- - * uf_remove_debug_device - * - * Destroys the unifi class and releases the allocated - * device numbers for unifi character device nodes. - * - * Arguments: - * - * Returns: - * ---------------------------------------------------------------- - */ -static void -uf_remove_debug_device(void) -{ - /* Destroy the UniFi class */ - class_destroy(unifi_class); - - /* Release device numbers */ - unregister_chrdev_region(unifi_first_devno, MAX_UNIFI_DEVS*2); - unifi_first_devno = 0; - -} /* uf_remove_debug_device() */ - - -/* - * --------------------------------------------------------------------------- - * - * Module loading. - * - * --------------------------------------------------------------------------- - */ -int __init -unifi_load(void) -{ - int r; - - printk("UniFi SDIO Driver: %s %s %s\n", - CSR_WIFI_VERSION, - __DATE__, __TIME__); - -#ifdef CSR_SME_USERSPACE -#ifdef CSR_SUPPORT_WEXT - printk("CSR SME with WEXT support\n"); -#else - printk("CSR SME no WEXT support\n"); -#endif /* CSR_SUPPORT_WEXT */ -#endif /* CSR_SME_USERSPACE */ - -#ifdef CSR_NATIVE_LINUX -#ifdef CSR_SUPPORT_WEXT -#error WEXT unsupported in the native driver -#endif - printk("CSR native no WEXT support\n"); -#endif -#ifdef CSR_WIFI_SPLIT_PATCH - printk("Split patch support\n"); -#endif - printk("Kernel %d.%d.%d\n", - ((LINUX_VERSION_CODE) >> 16) & 0xff, - ((LINUX_VERSION_CODE) >> 8) & 0xff, - (LINUX_VERSION_CODE) & 0xff); - /* - * Instantiate the /dev/unifi* device nodes. - * We must do this before registering with the SDIO driver because it - * will immediately call the "insert" callback if the card is - * already present. - */ - r = uf_create_debug_device(&unifi_fops); - if (r) { - return r; - } - - /* Now register with the SDIO driver */ - r = uf_sdio_load(); - if (r) { - uf_remove_debug_device(); - return r; - } - - if (sdio_block_size > -1) { - unifi_info(NULL, "sdio_block_size %d\n", sdio_block_size); - } - - if (sdio_byte_mode) { - unifi_info(NULL, "sdio_byte_mode\n"); - } - - if (disable_power_control) { - unifi_info(NULL, "disable_power_control\n"); - } - - if (disable_hw_reset) { - unifi_info(NULL, "disable_hw_reset\n"); - } - - if (enable_wol) { - unifi_info(NULL, "enable_wol %d\n", enable_wol); - } - - if (run_bh_once != -1) { - unifi_info(NULL, "run_bh_once %d\n", run_bh_once); - } - - return 0; -} /* unifi_load() */ - - -void __exit -unifi_unload(void) -{ - /* The SDIO remove hook will call unifi_disconnect(). */ - uf_sdio_unload(); - - uf_remove_debug_device(); - -} /* unifi_unload() */ - -module_init(unifi_load); -module_exit(unifi_unload); - -MODULE_DESCRIPTION("UniFi Device driver"); -MODULE_AUTHOR("Cambridge Silicon Radio Ltd."); -MODULE_LICENSE("GPL and additional rights"); diff --git a/drivers/staging/csr/firmware.c b/drivers/staging/csr/firmware.c deleted file mode 100644 index b42a4d6..0000000 --- a/drivers/staging/csr/firmware.c +++ /dev/null @@ -1,396 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: firmware.c - * - * PURPOSE: - * Implements the f/w related HIP core lib API. - * It is part of the porting exercise in Linux. - * - * Also, it contains example code for reading the loader and f/w files - * from the userspace and starting the SME in Linux. - * - * Copyright (C) 2005-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include <linux/kmod.h> -#include <linux/vmalloc.h> -#include <linux/firmware.h> -#include <asm/uaccess.h> -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_unifi_udi.h" -#include "unifiio.h" -#include "unifi_priv.h" - -/* - * --------------------------------------------------------------------------- - * - * F/W download. Part of the HIP core API - * - * --------------------------------------------------------------------------- - */ - - -/* - * --------------------------------------------------------------------------- - * unifi_fw_read_start - * - * Returns a structure to be passed in unifi_fw_read(). - * This structure is an OS specific description of the f/w file. - * In the linux implementation it is a buffer with the f/w and its' length. - * The HIP driver calls this functions to request for the loader or - * the firmware file. - * The structure pointer can be freed when unifi_fw_read_stop() is called. - * - * Arguments: - * ospriv Pointer to driver context. - * is_fw Type of firmware to retrieve - * info Versions information. Can be used to determine - * the appropriate f/w file to load. - * - * Returns: - * O on success, non-zero otherwise. - * - * --------------------------------------------------------------------------- - */ -void* -unifi_fw_read_start(void *ospriv, s8 is_fw, const card_info_t *info) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - CSR_UNUSED(info); - - if (is_fw == UNIFI_FW_STA) { - /* F/w may have been released after a previous successful download. */ - if (priv->fw_sta.dl_data == NULL) { - unifi_trace(priv, UDBG2, "Attempt reload of sta f/w\n"); - uf_request_firmware_files(priv, UNIFI_FW_STA); - } - /* Set up callback struct for readfunc() */ - if (priv->fw_sta.dl_data != NULL) { - return &priv->fw_sta; - } - - } else { - unifi_error(priv, "downloading firmware... unknown request: %d\n", is_fw); - } - - return NULL; -} /* unifi_fw_read_start() */ - - - -/* - * --------------------------------------------------------------------------- - * unifi_fw_read_stop - * - * Called when the HIP driver has finished using the loader or - * the firmware file. - * The firmware buffer may be released now. - * - * Arguments: - * ospriv Pointer to driver context. - * dlpriv The pointer returned by unifi_fw_read_start() - * - * --------------------------------------------------------------------------- - */ -void -unifi_fw_read_stop(void *ospriv, void *dlpriv) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - struct dlpriv *dl_struct = (struct dlpriv *)dlpriv; - - if (dl_struct != NULL) { - if (dl_struct->dl_data != NULL) { - unifi_trace(priv, UDBG2, "Release f/w buffer %p, %d bytes\n", - dl_struct->dl_data, dl_struct->dl_len); - } - uf_release_firmware(priv, dl_struct); - } - -} /* unifi_fw_read_stop() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_fw_open_buffer - * - * Returns a handle for a buffer dynamically allocated by the driver, - * e.g. into which a firmware file may have been converted from another format - * which is the case with some production test images. - * - * The handle may then be used by unifi_fw_read() to access the contents of - * the buffer. - * - * Arguments: - * ospriv Pointer to driver context. - * fwbuf Buffer containing firmware image - * len Length of buffer in bytes - * - * Returns - * Handle for buffer, or NULL on error - * --------------------------------------------------------------------------- - */ -void * -unifi_fw_open_buffer(void *ospriv, void *fwbuf, u32 len) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - - if (fwbuf == NULL) { - return NULL; - } - priv->fw_conv.dl_data = fwbuf; - priv->fw_conv.dl_len = len; - priv->fw_conv.fw_desc = NULL; /* No OS f/w resource is associated */ - - return &priv->fw_conv; -} - -/* - * --------------------------------------------------------------------------- - * unifi_fw_close_buffer - * - * Releases any handle for a buffer dynamically allocated by the driver, - * e.g. into which a firmware file may have been converted from another format - * which is the case with some production test images. - * - * - * Arguments: - * ospriv Pointer to driver context. - * fwbuf Buffer containing firmware image - * - * Returns - * Handle for buffer, or NULL on error - * --------------------------------------------------------------------------- - */ -void unifi_fw_close_buffer(void *ospriv, void *fwbuf) -{ -} - -/* - * --------------------------------------------------------------------------- - * unifi_fw_read - * - * The HIP driver calls this function to ask for a part of the loader or - * the firmware file. - * - * Arguments: - * ospriv Pointer to driver context. - * arg The pointer returned by unifi_fw_read_start(). - * offset The offset in the file to return from. - * buf A buffer to store the requested data. - * len The size of the buf and the size of the requested data. - * - * Returns - * The number of bytes read from the firmware image, or -ve on error - * --------------------------------------------------------------------------- - */ -s32 -unifi_fw_read(void *ospriv, void *arg, u32 offset, void *buf, u32 len) -{ - const struct dlpriv *dlpriv = arg; - - if (offset >= dlpriv->dl_len) { - /* at end of file */ - return 0; - } - - if ((offset + len) > dlpriv->dl_len) { - /* attempt to read past end of file */ - return -1; - } - - memcpy(buf, dlpriv->dl_data+offset, len); - - return len; - -} /* unifi_fw_read() */ - - - - -#define UNIFIHELPER_INIT_MODE_SMEUSER 2 -#define UNIFIHELPER_INIT_MODE_NATIVE 1 - -/* - * --------------------------------------------------------------------------- - * uf_run_unifihelper - * - * Ask userspace to send us firmware for download by running - * '/usr/sbin/unififw'. - * The same script starts the SME userspace application. - * Derived from net_run_sbin_hotplug(). - * - * Arguments: - * priv Pointer to OS private struct. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -int -uf_run_unifihelper(unifi_priv_t *priv) -{ -#ifdef ANDROID_BUILD - char *prog = "/system/bin/unififw"; -#else - char *prog = "/usr/sbin/unififw"; -#endif /* ANDROID_BUILD */ - - char *argv[6], *envp[4]; - char inst_str[8]; - char init_mode[8]; - int i, r; - -#if (defined CSR_SME_USERSPACE) && (!defined CSR_SUPPORT_WEXT) - unifi_trace(priv, UDBG1, "SME userspace build: run unifi_helper manually\n"); - return 0; -#endif - - unifi_trace(priv, UDBG1, "starting %s\n", prog); - - snprintf(inst_str, 8, "%d", priv->instance); -#if (defined CSR_SME_USERSPACE) - snprintf(init_mode, 8, "%d", UNIFIHELPER_INIT_MODE_SMEUSER); -#else - snprintf(init_mode, 8, "%d", UNIFIHELPER_INIT_MODE_NATIVE); -#endif /* CSR_SME_USERSPACE */ - - i = 0; - argv[i++] = prog; - argv[i++] = inst_str; - argv[i++] = init_mode; - argv[i++] = 0; - argv[i] = 0; - /* Don't add more args without making argv bigger */ - - /* minimal command environment */ - i = 0; - envp[i++] = "HOME=/"; - envp[i++] = "PATH=/sbin:/bin:/usr/sbin:/usr/bin"; - envp[i] = 0; - /* Don't add more without making envp bigger */ - - unifi_trace(priv, UDBG2, "running %s %s %s\n", argv[0], argv[1], argv[2]); - - r = call_usermodehelper(argv[0], argv, envp, UMH_WAIT_EXEC); - - return r; -} /* uf_run_unifihelper() */ - -#ifdef CSR_WIFI_SPLIT_PATCH -static u8 is_ap_mode(unifi_priv_t *priv) -{ - if (priv == NULL || priv->interfacePriv[0] == NULL) - { - return FALSE; - } - - /* Test for mode requiring AP patch */ - return(CSR_WIFI_HIP_IS_AP_FW(priv->interfacePriv[0]->interfaceMode)); -} -#endif - -/* - * --------------------------------------------------------------------------- - * uf_request_firmware_files - * - * Get the firmware files from userspace. - * - * Arguments: - * priv Pointer to OS private struct. - * is_fw type of firmware to load (UNIFI_FW_STA/LOADER) - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -int uf_request_firmware_files(unifi_priv_t *priv, int is_fw) -{ - /* uses the default method to get the firmware */ - const struct firmware *fw_entry; - int postfix; -#define UNIFI_MAX_FW_PATH_LEN 32 - char fw_name[UNIFI_MAX_FW_PATH_LEN]; - int r; - -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) - if (priv->mib_data.length) { - vfree(priv->mib_data.data); - priv->mib_data.data = NULL; - priv->mib_data.length = 0; - } -#endif /* CSR_SUPPORT_SME && CSR_SUPPORT_WEXT*/ - - postfix = priv->instance; - - if (is_fw == UNIFI_FW_STA) { - /* Free kernel buffer and reload */ - uf_release_firmware(priv, &priv->fw_sta); -#ifdef CSR_WIFI_SPLIT_PATCH - scnprintf(fw_name, UNIFI_MAX_FW_PATH_LEN, "unifi-sdio-%d/%s", - postfix, (is_ap_mode(priv) ? "ap.xbv" : "staonly.xbv") ); -#else - scnprintf(fw_name, UNIFI_MAX_FW_PATH_LEN, "unifi-sdio-%d/%s", - postfix, "sta.xbv" ); -#endif - r = request_firmware(&fw_entry, fw_name, priv->unifi_device); - if (r == 0) { - priv->fw_sta.dl_data = fw_entry->data; - priv->fw_sta.dl_len = fw_entry->size; - priv->fw_sta.fw_desc = (void *)fw_entry; - } else { - unifi_trace(priv, UDBG2, "Firmware file not available\n"); - } - } - - return 0; - -} /* uf_request_firmware_files() */ - -/* - * --------------------------------------------------------------------------- - * uf_release_firmware_files - * - * Release all buffers used to store firmware files - * - * Arguments: - * priv Pointer to OS private struct. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -int uf_release_firmware_files(unifi_priv_t *priv) -{ - uf_release_firmware(priv, &priv->fw_sta); - - return 0; -} - -/* - * --------------------------------------------------------------------------- - * uf_release_firmware - * - * Release specific buffer used to store firmware - * - * Arguments: - * priv Pointer to OS private struct. - * to_free Pointer to specific buffer to release - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -int uf_release_firmware(unifi_priv_t *priv, struct dlpriv *to_free) -{ - if (to_free != NULL) { - release_firmware((const struct firmware *)to_free->fw_desc); - to_free->fw_desc = NULL; - to_free->dl_data = NULL; - to_free->dl_len = 0; - } - return 0; -} diff --git a/drivers/staging/csr/inet.c b/drivers/staging/csr/inet.c deleted file mode 100644 index b3ef818..0000000 --- a/drivers/staging/csr/inet.c +++ /dev/null @@ -1,104 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: inet.c - * - * PURPOSE: - * Routines related to IP address changes. - * Optional part of the porting exercise. It uses system network - * handlers to obtain the UniFi IP address and pass it to the SME - * using the unifi_sys_ip_configured_ind(). - * - * Copyright (C) 2008-2009 Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include <linux/inetdevice.h> -#include <linux/notifier.h> - -#include "unifi_priv.h" -#include "csr_wifi_hip_conversions.h" - -/* - * The inet notifier is global and not per-netdev. To avoid having a - * notifier registered when there are no unifi devices present, it's - * registered after the first unifi network device is registered, and - * unregistered when the last unifi network device is unregistered. - */ - -static atomic_t inet_notif_refs = ATOMIC_INIT(0); - -static int uf_inetaddr_event(struct notifier_block *notif, unsigned long event, void *ifa) -{ - struct net_device *ndev; - unifi_priv_t *priv; - struct in_ifaddr *if_addr; - netInterface_priv_t *InterfacePriv = (netInterface_priv_t *)NULL; - - if (!ifa || !((struct in_ifaddr *)ifa)->ifa_dev) { - unifi_trace(NULL, UDBG1, "uf_inetaddr_event (%lu) ifa=%p\n", event, ifa); - return NOTIFY_DONE; - } - - ndev = ((struct in_ifaddr *)ifa)->ifa_dev->dev; - InterfacePriv = (netInterface_priv_t*) netdev_priv(ndev); - - /* As the notifier is global, the call may be for a non-UniFi netdev. - * Therefore check the netdev_priv to make sure it's a known UniFi one. - */ - if (uf_find_netdev_priv(InterfacePriv) == -1) { - unifi_trace(NULL, UDBG1, "uf_inetaddr_event (%lu) ndev=%p, other netdev_priv=%p\n", - event, ndev, InterfacePriv); - return NOTIFY_DONE; - } - - if (!InterfacePriv->privPtr) { - unifi_error(NULL, "uf_inetaddr_event null priv (%lu) ndev=%p, InterfacePriv=%p\n", - event, ndev, InterfacePriv); - return NOTIFY_DONE; - } - - priv = InterfacePriv->privPtr; - if_addr = (struct in_ifaddr *)ifa; - - /* If this event is for a UniFi device, notify the SME that an IP - * address has been added or removed. */ - if (uf_find_priv(priv) != -1) { - switch (event) { - case NETDEV_UP: - unifi_info(priv, "IP address assigned for %s\n", priv->netdev[InterfacePriv->InterfaceTag]->name); - priv->sta_ip_address = if_addr->ifa_address; -#ifdef CSR_SUPPORT_WEXT - sme_mgt_packet_filter_set(priv); -#endif - break; - case NETDEV_DOWN: - unifi_info(priv, "IP address removed for %s\n", priv->netdev[InterfacePriv->InterfaceTag]->name); - priv->sta_ip_address = 0xFFFFFFFF; -#ifdef CSR_SUPPORT_WEXT - sme_mgt_packet_filter_set(priv); -#endif - break; - } - } - - return NOTIFY_DONE; -} - -static struct notifier_block uf_inetaddr_notifier = { - .notifier_call = uf_inetaddr_event, -}; - -void uf_register_inet_notifier(void) -{ - if (atomic_inc_return(&inet_notif_refs) == 1) - register_inetaddr_notifier(&uf_inetaddr_notifier); -} - -void uf_unregister_inet_notifier(void) -{ - if (atomic_dec_return(&inet_notif_refs) == 0) - unregister_inetaddr_notifier(&uf_inetaddr_notifier); -} diff --git a/drivers/staging/csr/init_hw.c b/drivers/staging/csr/init_hw.c deleted file mode 100644 index 3b8a4ba..0000000 --- a/drivers/staging/csr/init_hw.c +++ /dev/null @@ -1,108 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: init_hw.c - * - * PURPOSE: - * Use the HIP core lib to initialise the UniFi chip. - * It is part of the porting exercise in Linux. - * - * Copyright (C) 2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include "csr_wifi_hip_unifi.h" -#include "unifi_priv.h" - - -#define MAX_INIT_ATTEMPTS 4 - -extern int led_mask; - - -/* - * --------------------------------------------------------------------------- - * uf_init_hw - * - * Resets hardware, downloads and initialises f/w. - * This function demonstrates how to use the HIP core lib API - * to implement the SME unifi_sys_wifi_on_req() part of the SYS API. - * - * In a simple implementation, all this function needs to do is call - * unifi_init_card() and then unifi_card_info(). - * In the Linux implementation, it will retry to initialise UniFi or - * try to debug the reasons if unifi_init_card() returns an error. - * - * Arguments: - * ospriv Pointer to OS driver structure for the device. - * - * Returns: - * O on success, non-zero otherwise. - * - * --------------------------------------------------------------------------- - */ -int -uf_init_hw(unifi_priv_t *priv) -{ - int attempts = 0; - int priv_instance; - CsrResult csrResult = CSR_RESULT_FAILURE; - - priv_instance = uf_find_priv(priv); - if (priv_instance == -1) { - unifi_warning(priv, "uf_init_hw: Unknown priv instance, will use fw_init[0]\n"); - priv_instance = 0; - } - - while (1) { - if (attempts > MAX_INIT_ATTEMPTS) { - unifi_error(priv, "Failed to initialise UniFi after %d attempts, " - "giving up.\n", - attempts); - break; - } - attempts++; - - unifi_info(priv, "Initialising UniFi, attempt %d\n", attempts); - - if (fw_init[priv_instance] > 0) { - unifi_notice(priv, "f/w init prevented by module parameter\n"); - break; - } else if (fw_init[priv_instance] == 0) { - fw_init[priv_instance] ++; - } - - /* - * Initialise driver core. This will perform a reset of UniFi - * internals, but not the SDIO CCCR. - */ - CsrSdioClaim(priv->sdio); - csrResult = unifi_init_card(priv->card, led_mask); - CsrSdioRelease(priv->sdio); - - if (csrResult == CSR_WIFI_HIP_RESULT_NO_DEVICE) { - return CsrHipResultToStatus(csrResult); - } - if (csrResult == CSR_WIFI_HIP_RESULT_NOT_FOUND) { - unifi_error(priv, "Firmware file required, but not found.\n"); - return CsrHipResultToStatus(csrResult); - } - if (csrResult != CSR_RESULT_SUCCESS) { - /* failed. Reset h/w and try again */ - unifi_error(priv, "Failed to initialise UniFi chip.\n"); - continue; - } - - /* Get the version information from the lib_hip */ - unifi_card_info(priv->card, &priv->card_info); - - return CsrHipResultToStatus(csrResult); - } - - return CsrHipResultToStatus(csrResult); - -} /* uf_init_hw */ - - diff --git a/drivers/staging/csr/io.c b/drivers/staging/csr/io.c deleted file mode 100644 index f903022..0000000 --- a/drivers/staging/csr/io.c +++ /dev/null @@ -1,1098 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: io.c - * - * PURPOSE: - * This file contains routines that the SDIO driver can call when a - * UniFi card is first inserted (or detected) and removed. - * - * When used with sdioemb, the udev scripts (at least on Ubuntu) don't - * recognise a UniFi being added to the system. This is because sdioemb - * does not register itself as a device_driver, it uses it's own code - * to handle insert and remove. - * To have Ubuntu recognise UniFi, edit /etc/udev/rules.d/85-ifupdown.rules - * to change this line: - * SUBSYSTEM=="net", DRIVERS=="?*", GOTO="net_start" - * to these: - * #SUBSYSTEM=="net", DRIVERS=="?*", GOTO="net_start" - * SUBSYSTEM=="net", GOTO="net_start" - * - * Then you can add a stanza to /etc/network/interfaces like this: - * auto eth1 - * iface eth1 inet dhcp - * wpa-conf /etc/wpa_supplicant.conf - * This will then automatically associate when a car dis inserted. - * - * Copyright (C) 2006-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include <linux/proc_fs.h> -#include <linux/seq_file.h> - -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_unifiversion.h" -#include "csr_wifi_hip_unifi_udi.h" /* for unifi_print_status() */ -#include "unifiio.h" -#include "unifi_priv.h" - -/* - * Array of pointers to context structs for unifi devices that are present. - * The index in the array corresponds to the wlan interface number - * (if "wlan*" is used). If "eth*" is used, the eth* numbers are allocated - * after any Ethernet cards. - * - * The Arasan PCI-SDIO controller card supported by this driver has 2 slots, - * hence a max of 2 devices. - */ -static unifi_priv_t *Unifi_instances[MAX_UNIFI_DEVS]; - -/* Array of pointers to netdev objects used by the UniFi driver, as there - * are now many per instance. This is used to determine which netdev events - * are for UniFi as opposed to other net interfaces. - */ -static netInterface_priv_t *Unifi_netdev_instances[MAX_UNIFI_DEVS * CSR_WIFI_NUM_INTERFACES]; - -/* - * Array to hold the status of each unifi device in each slot. - * We only process an insert event when In_use[] for the slot is - * UNIFI_DEV_NOT_IN_USE. Otherwise, it means that the slot is in use or - * we are in the middle of a cleanup (the action on unplug). - */ -#define UNIFI_DEV_NOT_IN_USE 0 -#define UNIFI_DEV_IN_USE 1 -#define UNIFI_DEV_CLEANUP 2 -static int In_use[MAX_UNIFI_DEVS]; -/* - * Mutex to prevent UDI clients to open the character device before the priv - * is created and initialised. - */ -DEFINE_SEMAPHORE(Unifi_instance_mutex); -/* - * When the device is removed, unregister waits on Unifi_cleanup_wq - * until all the UDI clients release the character device. - */ -DECLARE_WAIT_QUEUE_HEAD(Unifi_cleanup_wq); - -#ifdef CONFIG_PROC_FS -/* - * seq_file wrappers for procfile show routines. - */ -static int uf_proc_show(struct seq_file *m, void *v); - -#define UNIFI_DEBUG_TXT_BUFFER (8 * 1024) - -static int uf_proc_open(struct inode *inode, struct file *file) -{ - return single_open_size(file, uf_proc_show, PDE_DATA(inode), - UNIFI_DEBUG_TXT_BUFFER); -} - -static const struct file_operations uf_proc_fops = { - .open = uf_proc_open, - .read = seq_read, - .llseek = seq_lseek, - .release = single_release, -}; - -#endif /* CONFIG_PROC_FS */ - -#ifdef CSR_WIFI_RX_PATH_SPLIT - -static CsrResult signal_buffer_init(unifi_priv_t * priv, int size) -{ - int i; - - priv->rxSignalBuffer.writePointer = - priv->rxSignalBuffer.readPointer = 0; - priv->rxSignalBuffer.size = size; - /* Allocating Memory for Signal primitive pointer */ - for(i=0; i<size; i++) - { - priv->rxSignalBuffer.rx_buff[i].sig_len=0; - priv->rxSignalBuffer.rx_buff[i].bufptr = kmalloc(UNIFI_PACKED_SIGBUF_SIZE, GFP_KERNEL); - if (priv->rxSignalBuffer.rx_buff[i].bufptr == NULL) - { - int j; - unifi_error(priv, "signal_buffer_init:Failed to Allocate shared memory for T-H signals \n"); - for(j=0;j<i;j++) - { - priv->rxSignalBuffer.rx_buff[j].sig_len=0; - kfree(priv->rxSignalBuffer.rx_buff[j].bufptr); - priv->rxSignalBuffer.rx_buff[j].bufptr = NULL; - } - return -1; - } - } - return 0; -} - - -static void signal_buffer_free(unifi_priv_t * priv, int size) -{ - int i; - - for(i=0; i<size; i++) - { - priv->rxSignalBuffer.rx_buff[i].sig_len=0; - kfree(priv->rxSignalBuffer.rx_buff[i].bufptr); - priv->rxSignalBuffer.rx_buff[i].bufptr = NULL; - } -} -#endif -/* - * --------------------------------------------------------------------------- - * uf_register_netdev - * - * Registers the network interface, installes the qdisc, - * and registers the inet handler. - * In the porting exercise, register the driver to the network - * stack if necessary. - * - * Arguments: - * priv Pointer to driver context. - * - * Returns: - * O on success, non-zero otherwise. - * - * Notes: - * We will only unregister when the card is ejected, so we must - * only do it once. - * --------------------------------------------------------------------------- - */ -int -uf_register_netdev(unifi_priv_t *priv, int interfaceTag) -{ - int r; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "uf_register_netdev bad interfaceTag\n"); - return -EINVAL; - } - - /* - * Allocates a device number and registers device with the network - * stack. - */ - unifi_trace(priv, UDBG5, "uf_register_netdev: netdev %d - 0x%p\n", - interfaceTag, priv->netdev[interfaceTag]); - r = register_netdev(priv->netdev[interfaceTag]); - if (r) { - unifi_error(priv, "Failed to register net device\n"); - return -EINVAL; - } - - /* The device is registed */ - interfacePriv->netdev_registered = 1; - -#ifdef CSR_SUPPORT_SME - /* - * Register the inet handler; it notifies us for changes in the IP address. - */ - uf_register_inet_notifier(); -#endif /* CSR_SUPPORT_SME */ - - unifi_notice(priv, "unifi%d is %s\n", - priv->instance, priv->netdev[interfaceTag]->name); - - return 0; -} /* uf_register_netdev */ - - -/* - * --------------------------------------------------------------------------- - * uf_unregister_netdev - * - * Unregisters the network interface and the inet handler. - * - * Arguments: - * priv Pointer to driver context. - * - * Returns: - * None. - * - * --------------------------------------------------------------------------- - */ -void -uf_unregister_netdev(unifi_priv_t *priv) -{ - int i=0; - -#ifdef CSR_SUPPORT_SME - /* Unregister the inet handler... */ - uf_unregister_inet_notifier(); -#endif /* CSR_SUPPORT_SME */ - - for (i=0; i<CSR_WIFI_NUM_INTERFACES; i++) { - netInterface_priv_t *interfacePriv = priv->interfacePriv[i]; - if (interfacePriv->netdev_registered) { - unifi_trace(priv, UDBG5, - "uf_unregister_netdev: netdev %d - 0x%p\n", - i, priv->netdev[i]); - - /* ... and the netdev */ - unregister_netdev(priv->netdev[i]); - interfacePriv->netdev_registered = 0; - } - - interfacePriv->interfaceMode = 0; - - /* Enable all queues by default */ - interfacePriv->queueEnabled[0] = 1; - interfacePriv->queueEnabled[1] = 1; - interfacePriv->queueEnabled[2] = 1; - interfacePriv->queueEnabled[3] = 1; - } - - priv->totalInterfaceCount = 0; -} /* uf_unregister_netdev() */ - - -/* - * --------------------------------------------------------------------------- - * register_unifi_sdio - * - * This function is called from the Probe (or equivalent) method of - * the SDIO driver when a UniFi card is detected. - * We allocate the Linux net_device struct, initialise the HIP core - * lib, create the char device nodes and start the userspace helper - * to initialise the device. - * - * Arguments: - * sdio_dev Pointer to SDIO context handle to use for all - * SDIO ops. - * bus_id A small number indicating the SDIO card position on the - * bus. Typically this is the slot number, e.g. 0, 1 etc. - * Valid values are 0 to MAX_UNIFI_DEVS-1. - * dev Pointer to kernel device manager struct. - * - * Returns: - * Pointer to the unifi instance, or NULL on error. - * --------------------------------------------------------------------------- - */ -static unifi_priv_t * -register_unifi_sdio(CsrSdioFunction *sdio_dev, int bus_id, struct device *dev) -{ - unifi_priv_t *priv = NULL; - int r = -1; - CsrResult csrResult; - - if ((bus_id < 0) || (bus_id >= MAX_UNIFI_DEVS)) { - unifi_error(priv, "register_unifi_sdio: invalid device %d\n", - bus_id); - return NULL; - } - - down(&Unifi_instance_mutex); - - if (In_use[bus_id] != UNIFI_DEV_NOT_IN_USE) { - unifi_error(priv, "register_unifi_sdio: device %d is already in use\n", - bus_id); - goto failed0; - } - - - /* Allocate device private and net_device structs */ - priv = uf_alloc_netdevice(sdio_dev, bus_id); - if (priv == NULL) { - unifi_error(priv, "Failed to allocate driver private\n"); - goto failed0; - } - - priv->unifi_device = dev; - - SET_NETDEV_DEV(priv->netdev[0], dev); - - /* We are not ready to send data yet. */ - netif_carrier_off(priv->netdev[0]); - - /* Allocate driver context. */ - priv->card = unifi_alloc_card(priv->sdio, priv); - if (priv->card == NULL) { - unifi_error(priv, "Failed to allocate UniFi driver card struct.\n"); - goto failed1; - } - - if (Unifi_instances[bus_id]) { - unifi_error(priv, "Internal error: instance for slot %d is already taken\n", - bus_id); - } - Unifi_instances[bus_id] = priv; - In_use[bus_id] = UNIFI_DEV_IN_USE; - - /* Save the netdev_priv for use by the netdev event callback mechanism */ - Unifi_netdev_instances[bus_id * CSR_WIFI_NUM_INTERFACES] = netdev_priv(priv->netdev[0]); - - /* Initialise the mini-coredump capture buffers */ - csrResult = unifi_coredump_init(priv->card, (u16)coredump_max); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "Couldn't allocate mini-coredump buffers\n"); - } - - /* Create the character device nodes */ - r = uf_create_device_nodes(priv, bus_id); - if (r) { - goto failed1; - } - - /* - * We use the slot number as unifi device index. - */ - scnprintf(priv->proc_entry_name, 64, "driver/unifi%d", priv->instance); - /* - * The following complex casting is in place in order to eliminate 64-bit compilation warning - * "cast to/from pointer from/to integer of different size" - */ - if (!proc_create_data(priv->proc_entry_name, 0, NULL, - &uf_proc_fops, (void *)(long)priv->instance)) - { - unifi_error(priv, "unifi: can't create /proc/driver/unifi\n"); - } - - /* Allocate the net_device for interfaces other than 0. */ - { - int i; - priv->totalInterfaceCount =0; - - for(i=1;i<CSR_WIFI_NUM_INTERFACES;i++) - { - if( !uf_alloc_netdevice_for_other_interfaces(priv, i) ) - { - /* error occured while allocating the net_device for interface[i]. The net_device are - * allocated for the interfaces with id<i. Dont worry, all the allocated net_device will - * be releasing chen the control goes to the label failed0. - */ - unifi_error(priv, "Failed to allocate driver private for interface[%d]\n", i); - goto failed0; - } - else - { - SET_NETDEV_DEV(priv->netdev[i], dev); - - /* We are not ready to send data yet. */ - netif_carrier_off(priv->netdev[i]); - - /* Save the netdev_priv for use by the netdev event callback mechanism */ - Unifi_netdev_instances[bus_id * CSR_WIFI_NUM_INTERFACES + i] = netdev_priv(priv->netdev[i]); - } - } - - for(i=0;i<CSR_WIFI_NUM_INTERFACES;i++) - { - netInterface_priv_t *interfacePriv = priv->interfacePriv[i]; - interfacePriv->netdev_registered=0; - } - } - -#ifdef CSR_WIFI_RX_PATH_SPLIT - if (signal_buffer_init(priv, CSR_WIFI_RX_SIGNAL_BUFFER_SIZE)) - { - unifi_error(priv, "Failed to allocate shared memory for T-H signals\n"); - goto failed2; - } - priv->rx_workqueue = create_singlethread_workqueue("rx_workq"); - if (priv->rx_workqueue == NULL) { - unifi_error(priv, "create_singlethread_workqueue failed \n"); - goto failed3; - } - INIT_WORK(&priv->rx_work_struct, rx_wq_handler); -#endif - -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE - if (log_hip_signals) - { - uf_register_hip_offline_debug(priv); - } -#endif - - /* Initialise the SME related threads and parameters */ - r = uf_sme_init(priv); - if (r) { - unifi_error(priv, "SME initialisation failed.\n"); - goto failed4; - } - - /* - * Run the userspace helper program (unififw) to perform - * the device initialisation. - */ - unifi_trace(priv, UDBG1, "run UniFi helper app...\n"); - r = uf_run_unifihelper(priv); - if (r) { - unifi_notice(priv, "unable to run UniFi helper app\n"); - /* Not a fatal error. */ - } - - up(&Unifi_instance_mutex); - - return priv; - -failed4: -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -if (log_hip_signals) -{ - uf_unregister_hip_offline_debug(priv); -} -#endif -#ifdef CSR_WIFI_RX_PATH_SPLIT - flush_workqueue(priv->rx_workqueue); - destroy_workqueue(priv->rx_workqueue); -failed3: - signal_buffer_free(priv, CSR_WIFI_RX_SIGNAL_BUFFER_SIZE); -failed2: -#endif - /* Remove the device nodes */ - uf_destroy_device_nodes(priv); -failed1: - /* Deregister priv->netdev_client */ - ul_deregister_client(priv->netdev_client); - -failed0: - if (priv && priv->card) { - unifi_coredump_free(priv->card); - unifi_free_card(priv->card); - } - if (priv) { - uf_free_netdevice(priv); - } - - up(&Unifi_instance_mutex); - - return NULL; -} /* register_unifi_sdio() */ - - -/* - * --------------------------------------------------------------------------- - * ask_unifi_sdio_cleanup - * - * We can not free our private context, until all the char device - * clients have closed the file handles. unregister_unifi_sdio() which - * is called when a card is removed, waits on Unifi_cleanup_wq until - * the reference count becomes zero. It is time to wake it up now. - * - * Arguments: - * priv Pointer to driver context. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void -ask_unifi_sdio_cleanup(unifi_priv_t *priv) -{ - - /* - * Now clear the flag that says the old instance is in use. - * This is used to prevent a new instance being started before old - * one has finshed closing down, for example if bounce makes the card - * appear to be ejected and re-inserted quickly. - */ - In_use[priv->instance] = UNIFI_DEV_CLEANUP; - - unifi_trace(NULL, UDBG5, "ask_unifi_sdio_cleanup: wake up cleanup workqueue.\n"); - wake_up(&Unifi_cleanup_wq); - -} /* ask_unifi_sdio_cleanup() */ - - -/* - * --------------------------------------------------------------------------- - * cleanup_unifi_sdio - * - * Release any resources owned by a unifi instance. - * - * Arguments: - * priv Pointer to the instance to free. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void -cleanup_unifi_sdio(unifi_priv_t *priv) -{ - int priv_instance; - int i; - static const CsrWifiMacAddress broadcast_address = {{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}}; - - /* Remove the device nodes */ - uf_destroy_device_nodes(priv); - - /* Mark this device as gone away by NULLing the entry in Unifi_instances */ - Unifi_instances[priv->instance] = NULL; - - unifi_trace(priv, UDBG5, "cleanup_unifi_sdio: remove_proc_entry\n"); - /* - * Free the children of priv before unifi_free_netdevice() frees - * the priv struct - */ - remove_proc_entry(priv->proc_entry_name, 0); - - - /* Unregister netdev as a client. */ - if (priv->netdev_client) { - unifi_trace(priv, UDBG2, "Netdev client (id:%d s:0x%X) is unregistered\n", - priv->netdev_client->client_id, priv->netdev_client->sender_id); - ul_deregister_client(priv->netdev_client); - } - - /* Destroy the SME related threads and parameters */ - uf_sme_deinit(priv); - -#ifdef CSR_SME_USERSPACE - priv->smepriv = NULL; -#endif - -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE - if (log_hip_signals) - { - uf_unregister_hip_offline_debug(priv); - } -#endif - - /* Free any packets left in the Rx queues */ - for(i=0;i<CSR_WIFI_NUM_INTERFACES;i++) - { - uf_free_pending_rx_packets(priv, UF_UNCONTROLLED_PORT_Q, broadcast_address, i); - uf_free_pending_rx_packets(priv, UF_CONTROLLED_PORT_Q, broadcast_address, i); - } - /* - * We need to free the resources held by the core, which include tx skbs, - * otherwise we can not call unregister_netdev(). - */ - if (priv->card) { - unifi_trace(priv, UDBG5, "cleanup_unifi_sdio: free card\n"); - unifi_coredump_free(priv->card); - unifi_free_card(priv->card); - priv->card = NULL; - } - - /* - * Unregister the network device. - * We can not unregister the netdev before we release - * all pending packets in the core. - */ - uf_unregister_netdev(priv); - priv->totalInterfaceCount = 0; - - /* Clear the table of registered netdev_priv's */ - for (i = 0; i < CSR_WIFI_NUM_INTERFACES; i++) { - Unifi_netdev_instances[priv->instance * CSR_WIFI_NUM_INTERFACES + i] = NULL; - } - - unifi_trace(priv, UDBG5, "cleanup_unifi_sdio: uf_free_netdevice\n"); - /* - * When uf_free_netdevice() returns, the priv is invalid - * so we need to remember the instance to clear the global flag later. - */ - priv_instance = priv->instance; - -#ifdef CSR_WIFI_RX_PATH_SPLIT - flush_workqueue(priv->rx_workqueue); - destroy_workqueue(priv->rx_workqueue); - signal_buffer_free(priv, CSR_WIFI_RX_SIGNAL_BUFFER_SIZE); -#endif - - /* Priv is freed as part of the net_device */ - uf_free_netdevice(priv); - - /* - * Now clear the flag that says the old instance is in use. - * This is used to prevent a new instance being started before old - * one has finshed closing down, for example if bounce makes the card - * appear to be ejected and re-inserted quickly. - */ - In_use[priv_instance] = UNIFI_DEV_NOT_IN_USE; - - unifi_trace(NULL, UDBG5, "cleanup_unifi_sdio: DONE.\n"); - -} /* cleanup_unifi_sdio() */ - - -/* - * --------------------------------------------------------------------------- - * unregister_unifi_sdio - * - * Call from SDIO driver when it detects that UniFi has been removed. - * - * Arguments: - * bus_id Number of the card that was ejected. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void -unregister_unifi_sdio(int bus_id) -{ - unifi_priv_t *priv; - int interfaceTag=0; - u8 reason = CONFIG_IND_EXIT; - - if ((bus_id < 0) || (bus_id >= MAX_UNIFI_DEVS)) { - unifi_error(NULL, "unregister_unifi_sdio: invalid device %d\n", - bus_id); - return; - } - - priv = Unifi_instances[bus_id]; - if (priv == NULL) { - unifi_error(priv, "unregister_unifi_sdio: device %d is not registered\n", - bus_id); - return; - } - - /* Stop the network traffic before freeing the core. */ - for(interfaceTag=0;interfaceTag<priv->totalInterfaceCount;interfaceTag++) - { - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - if(interfacePriv->netdev_registered) - { - netif_carrier_off(priv->netdev[interfaceTag]); - netif_tx_stop_all_queues(priv->netdev[interfaceTag]); - } - } - -#ifdef CSR_NATIVE_LINUX - /* - * If the unifi thread was started, signal it to stop. This - * should cause any userspace processes with open unifi device to - * close them. - */ - uf_stop_thread(priv, &priv->bh_thread); - - /* Unregister the interrupt handler */ - if (csr_sdio_linux_remove_irq(priv->sdio)) { - unifi_notice(priv, - "csr_sdio_linux_remove_irq failed to talk to card.\n"); - } - - /* Ensure no MLME functions are waiting on a the mlme_event semaphore. */ - uf_abort_mlme(priv); -#endif /* CSR_NATIVE_LINUX */ - - ul_log_config_ind(priv, &reason, sizeof(u8)); - - /* Deregister the UDI hook from the core. */ - unifi_remove_udi_hook(priv->card, logging_handler); - - uf_put_instance(bus_id); - - /* - * Wait until the device is cleaned up. i.e., when all userspace - * processes have closed any open unifi devices. - */ - wait_event(Unifi_cleanup_wq, In_use[bus_id] == UNIFI_DEV_CLEANUP); - unifi_trace(NULL, UDBG5, "Received clean up event\n"); - - /* Now we can free the private context and the char device nodes */ - cleanup_unifi_sdio(priv); - -} /* unregister_unifi_sdio() */ - - -/* - * --------------------------------------------------------------------------- - * uf_find_instance - * - * Find the context structure for a given UniFi device instance. - * - * Arguments: - * inst The instance number to look for. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -unifi_priv_t * -uf_find_instance(int inst) -{ - if ((inst < 0) || (inst >= MAX_UNIFI_DEVS)) { - return NULL; - } - return Unifi_instances[inst]; -} /* uf_find_instance() */ - - -/* - * --------------------------------------------------------------------------- - * uf_find_priv - * - * Find the device instance for a given context structure. - * - * Arguments: - * priv The context structure pointer to look for. - * - * Returns: - * index of instance, -1 otherwise. - * --------------------------------------------------------------------------- - */ -int -uf_find_priv(unifi_priv_t *priv) -{ - int inst; - - if (!priv) { - return -1; - } - - for (inst = 0; inst < MAX_UNIFI_DEVS; inst++) { - if (Unifi_instances[inst] == priv) { - return inst; - } - } - - return -1; -} /* uf_find_priv() */ - -/* - * --------------------------------------------------------------------------- - * uf_find_netdev_priv - * - * Find the device instance for a given netdev context structure. - * - * Arguments: - * priv The context structure pointer to look for. - * - * Returns: - * index of instance, -1 otherwise. - * --------------------------------------------------------------------------- - */ -int -uf_find_netdev_priv(netInterface_priv_t *priv) -{ - int inst; - - if (!priv) { - return -1; - } - - for (inst = 0; inst < MAX_UNIFI_DEVS * CSR_WIFI_NUM_INTERFACES; inst++) { - if (Unifi_netdev_instances[inst] == priv) { - return inst; - } - } - - return -1; -} /* uf_find_netdev_priv() */ - -/* - * --------------------------------------------------------------------------- - * uf_get_instance - * - * Find the context structure for a given UniFi device instance - * and increment the reference count. - * - * Arguments: - * inst The instance number to look for. - * - * Returns: - * Pointer to the instance or NULL if no instance exists. - * --------------------------------------------------------------------------- - */ -unifi_priv_t * -uf_get_instance(int inst) -{ - unifi_priv_t *priv; - - down(&Unifi_instance_mutex); - - priv = uf_find_instance(inst); - if (priv) { - priv->ref_count++; - } - - up(&Unifi_instance_mutex); - - return priv; -} - -/* - * --------------------------------------------------------------------------- - * uf_put_instance - * - * Decrement the context reference count, freeing resources and - * shutting down the driver when the count reaches zero. - * - * Arguments: - * inst The instance number to look for. - * - * Returns: - * Pointer to the instance or NULL if no instance exists. - * --------------------------------------------------------------------------- - */ -void -uf_put_instance(int inst) -{ - unifi_priv_t *priv; - - down(&Unifi_instance_mutex); - - priv = uf_find_instance(inst); - if (priv) { - priv->ref_count--; - if (priv->ref_count == 0) { - ask_unifi_sdio_cleanup(priv); - } - } - - up(&Unifi_instance_mutex); -} - - -/* - * --------------------------------------------------------------------------- - * uf_proc_show - * - * Read method for driver node in /proc/driver/unifi0 - * - * Arguments: - * page - * start - * offset - * count - * eof - * data - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -#ifdef CONFIG_PROC_FS -static int uf_proc_show(struct seq_file *m, void *v) -{ - unifi_priv_t *priv; - int i; - - /* - * The following complex casting is in place in order to eliminate - * 64-bit compilation warning "cast to/from pointer from/to integer of - * different size" - */ - priv = uf_find_instance((long)m->private); - if (!priv) - return 0; - - seq_printf(m, "UniFi SDIO Driver: %s %s %s\n", - CSR_WIFI_VERSION, __DATE__, __TIME__); -#ifdef CSR_SME_USERSPACE - seq_puts(m, "SME: CSR userspace "); -#ifdef CSR_SUPPORT_WEXT - seq_puts(m, "with WEXT support\n"); -#else - seq_putc(m, '\n'); -#endif /* CSR_SUPPORT_WEXT */ -#endif /* CSR_SME_USERSPACE */ -#ifdef CSR_NATIVE_LINUX - seq_puts(m, "SME: native\n"); -#endif - -#ifdef CSR_SUPPORT_SME - seq_printf(m, "Firmware (ROM) build:%u, Patch:%u\n", - priv->card_info.fw_build, - priv->sme_versions.firmwarePatch); -#endif - - unifi_print_status(priv->card, m); - - seq_printf(m, "Last dbg str: %s\n", priv->last_debug_string); - - seq_puts(m, "Last dbg16:"); - for (i = 0; i < 8; i++) - seq_printf(m, " %04X", priv->last_debug_word16[i]); - seq_putc(m, '\n'); - seq_puts(m, " "); - for (; i < 16; i++) - seq_printf(m, " %04X", priv->last_debug_word16[i]); - seq_putc(m, '\n'); - return 0; -} -#endif - - - - -static void -uf_lx_suspend(CsrSdioFunction *sdio_ctx) -{ - unifi_priv_t *priv = sdio_ctx->driverData; - unifi_suspend(priv); - - CsrSdioSuspendAcknowledge(sdio_ctx, CSR_RESULT_SUCCESS); -} - -static void -uf_lx_resume(CsrSdioFunction *sdio_ctx) -{ - unifi_priv_t *priv = sdio_ctx->driverData; - unifi_resume(priv); - - CsrSdioResumeAcknowledge(sdio_ctx, CSR_RESULT_SUCCESS); -} - -static int active_slot = MAX_UNIFI_DEVS; -static struct device *os_devices[MAX_UNIFI_DEVS]; - -void -uf_add_os_device(int bus_id, struct device *os_device) -{ - if ((bus_id < 0) || (bus_id >= MAX_UNIFI_DEVS)) { - unifi_error(NULL, "uf_add_os_device: invalid device %d\n", - bus_id); - return; - } - - active_slot = bus_id; - os_devices[bus_id] = os_device; -} /* uf_add_os_device() */ - -void -uf_remove_os_device(int bus_id) -{ - if ((bus_id < 0) || (bus_id >= MAX_UNIFI_DEVS)) { - unifi_error(NULL, "uf_remove_os_device: invalid device %d\n", - bus_id); - return; - } - - active_slot = bus_id; - os_devices[bus_id] = NULL; -} /* uf_remove_os_device() */ - -static void -uf_sdio_inserted(CsrSdioFunction *sdio_ctx) -{ - unifi_priv_t *priv; - - unifi_trace(NULL, UDBG5, "uf_sdio_inserted(0x%p), slot_id=%d, dev=%p\n", - sdio_ctx, active_slot, os_devices[active_slot]); - - priv = register_unifi_sdio(sdio_ctx, active_slot, os_devices[active_slot]); - if (priv == NULL) { - CsrSdioInsertedAcknowledge(sdio_ctx, CSR_RESULT_FAILURE); - return; - } - - sdio_ctx->driverData = priv; - - CsrSdioInsertedAcknowledge(sdio_ctx, CSR_RESULT_SUCCESS); -} /* uf_sdio_inserted() */ - - -static void -uf_sdio_removed(CsrSdioFunction *sdio_ctx) -{ - unregister_unifi_sdio(active_slot); - CsrSdioRemovedAcknowledge(sdio_ctx); -} /* uf_sdio_removed() */ - - -static void -uf_sdio_dsr_handler(CsrSdioFunction *sdio_ctx) -{ - unifi_priv_t *priv = sdio_ctx->driverData; - - unifi_sdio_interrupt_handler(priv->card); -} /* uf_sdio_dsr_handler() */ - -/* - * --------------------------------------------------------------------------- - * uf_sdio_int_handler - * - * Interrupt callback function for SDIO interrupts. - * This is called in kernel context (i.e. not interrupt context). - * We retrieve the unifi context pointer and call the main UniFi - * interrupt handler. - * - * Arguments: - * fdev SDIO context pointer - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static CsrSdioInterruptDsrCallback -uf_sdio_int_handler(CsrSdioFunction *sdio_ctx) -{ - return uf_sdio_dsr_handler; -} /* uf_sdio_int_handler() */ - - - - -static CsrSdioFunctionId unifi_ids[] = -{ - { - .manfId = SDIO_MANF_ID_CSR, - .cardId = SDIO_CARD_ID_UNIFI_3, - .sdioFunction = SDIO_WLAN_FUNC_ID_UNIFI_3, - .sdioInterface = CSR_SDIO_ANY_SDIO_INTERFACE, - }, - { - .manfId = SDIO_MANF_ID_CSR, - .cardId = SDIO_CARD_ID_UNIFI_4, - .sdioFunction = SDIO_WLAN_FUNC_ID_UNIFI_4, - .sdioInterface = CSR_SDIO_ANY_SDIO_INTERFACE, - } -}; - - -/* - * Structure to register with the glue layer. - */ -static CsrSdioFunctionDriver unifi_sdioFunction_drv = -{ - .inserted = uf_sdio_inserted, - .removed = uf_sdio_removed, - .intr = uf_sdio_int_handler, - .suspend = uf_lx_suspend, - .resume = uf_lx_resume, - - .ids = unifi_ids, - .idsCount = sizeof(unifi_ids) / sizeof(unifi_ids[0]) -}; - - -/* - * --------------------------------------------------------------------------- - * uf_sdio_load - * uf_sdio_unload - * - * These functions are called from the main module load and unload - * functions. They perform the appropriate operations for the monolithic - * driver. - * - * Arguments: - * None. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -int __init -uf_sdio_load(void) -{ - CsrResult csrResult; - - csrResult = CsrSdioFunctionDriverRegister(&unifi_sdioFunction_drv); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(NULL, "Failed to register UniFi SDIO driver: csrResult=%d\n", csrResult); - return -EIO; - } - - return 0; -} /* uf_sdio_load() */ - - - -void __exit -uf_sdio_unload(void) -{ - CsrSdioFunctionDriverUnregister(&unifi_sdioFunction_drv); -} /* uf_sdio_unload() */ - diff --git a/drivers/staging/csr/mlme.c b/drivers/staging/csr/mlme.c deleted file mode 100644 index 861d6b7..0000000 --- a/drivers/staging/csr/mlme.c +++ /dev/null @@ -1,433 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: mlme.c - * - * PURPOSE: - * This file provides functions to send MLME requests to the UniFi. - * - * Copyright (C) 2007-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include "csr_wifi_hip_unifi.h" -#include "unifi_priv.h" - -/* - * --------------------------------------------------------------------------- - * unifi_mlme_wait_for_reply - * - * Wait for a reply after sending a signal. - * - * Arguments: - * priv Pointer to device private context struct - * ul_client Pointer to linux client - * sig_reply_id ID of the expected reply (defined in sigs.h). - * timeout timeout in ms - * - * Returns: - * 0 on success, -ve POSIX code on error. - * - * Notes: - * This function waits for a specific (sig_reply_id) signal from UniFi. - * It also match the sequence number of the received (cfm) signal, with - * the latest sequence number of the signal (req) we have sent. - * These two number match be equal. - * Should only be used for waiting xxx.cfm signals and only after - * we have sent the matching xxx.req signal to UniFi. - * If no response is received within the expected time (timeout), we assume - * that the UniFi is busy and return an error. - * If the wait is aborted by a kernel signal arriving, we stop waiting. - * If a response from UniFi is not what we expected, we discard it and - * wait again. This could be a response from an aborted request. If we - * see several bad responses we assume we have lost synchronisation with - * UniFi. - * --------------------------------------------------------------------------- - */ -static int -unifi_mlme_wait_for_reply(unifi_priv_t *priv, ul_client_t *pcli, int sig_reply_id, int timeout) -{ - int retries = 0; - long r; - long t = timeout; - unsigned int sent_seq_no; - - /* Convert t in ms to jiffies */ - t = msecs_to_jiffies(t); - - do { - /* Wait for the confirm or timeout. */ - r = wait_event_interruptible_timeout(pcli->udi_wq, - (pcli->wake_up_wq_id) || (priv->io_aborted == 1), - t); - /* Check for general i/o error */ - if (priv->io_aborted) { - unifi_error(priv, "MLME operation aborted\n"); - return -EIO; - } - - /* - * If r=0 the request has timed-out. - * If r>0 the request has completed successfully. - * If r=-ERESTARTSYS an event (kill signal) has interrupted the wait_event. - */ - if ((r == 0) && (pcli->wake_up_wq_id == 0)) { - unifi_error(priv, "mlme_wait: timed-out waiting for 0x%.4X, after %lu msec.\n", - sig_reply_id, jiffies_to_msecs(t)); - pcli->wake_up_wq_id = 0; - return -ETIMEDOUT; - } else if (r == -ERESTARTSYS) { - unifi_error(priv, "mlme_wait: waiting for 0x%.4X was aborted.\n", sig_reply_id); - pcli->wake_up_wq_id = 0; - return -EINTR; - } else { - /* Get the sequence number of the signal that we previously set. */ - if (pcli->seq_no != 0) { - sent_seq_no = pcli->seq_no - 1; - } else { - sent_seq_no = 0x0F; - } - - unifi_trace(priv, UDBG5, "Received 0x%.4X, seq: (r:%d, s:%d)\n", - pcli->wake_up_wq_id, - pcli->wake_seq_no, sent_seq_no); - - /* The two sequence ids must match. */ - if (pcli->wake_seq_no == sent_seq_no) { - /* and the signal ids must match. */ - if (sig_reply_id == pcli->wake_up_wq_id) { - /* Found the expected signal */ - break; - } else { - /* This should never happen ... */ - unifi_error(priv, "mlme_wait: mismatching signal id (0x%.4X - exp 0x%.4X) (seq %d)\n", - pcli->wake_up_wq_id, - sig_reply_id, - pcli->wake_seq_no); - pcli->wake_up_wq_id = 0; - return -EIO; - } - } - /* Wait for the next signal. */ - pcli->wake_up_wq_id = 0; - - retries ++; - if (retries >= 3) { - unifi_error(priv, "mlme_wait: confirm wait retries exhausted (0x%.4X - exp 0x%.4X)\n", - pcli->wake_up_wq_id, - sig_reply_id); - pcli->wake_up_wq_id = 0; - return -EIO; - } - } - } while (1); - - pcli->wake_up_wq_id = 0; - - return 0; -} /* unifi_mlme_wait_for_reply() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_mlme_blocking_request - * - * Send a MLME request signal to UniFi. - * - * Arguments: - * priv Pointer to device private context struct - * pcli Pointer to context of calling process - * sig Pointer to the signal to send - * data_ptrs Pointer to the bulk data of the signal - * timeout The request's timeout. - * - * Returns: - * 0 on success, 802.11 result code on error. - * --------------------------------------------------------------------------- - */ -int -unifi_mlme_blocking_request(unifi_priv_t *priv, ul_client_t *pcli, - CSR_SIGNAL *sig, bulk_data_param_t *data_ptrs, - int timeout) -{ - int r; - - if (sig->SignalPrimitiveHeader.SignalId == 0) { - unifi_error(priv, "unifi_mlme_blocking_request: Invalid Signal Id (0x%x)\n", - sig->SignalPrimitiveHeader.SignalId); - return -EINVAL; - } - - down(&priv->mlme_blocking_mutex); - - sig->SignalPrimitiveHeader.ReceiverProcessId = 0; - sig->SignalPrimitiveHeader.SenderProcessId = pcli->sender_id | pcli->seq_no; - - unifi_trace(priv, UDBG2, "Send client=%d, S:0x%04X, sig 0x%.4X\n", - pcli->client_id, - sig->SignalPrimitiveHeader.SenderProcessId, - sig->SignalPrimitiveHeader.SignalId); - /* Send the signal to UniFi */ - r = ul_send_signal_unpacked(priv, sig, data_ptrs); - if (r) { - up(&priv->mlme_blocking_mutex); - unifi_error(priv, "Error queueing MLME REQUEST signal\n"); - return r; - } - - unifi_trace(priv, UDBG5, "Send 0x%.4X, seq = %d\n", - sig->SignalPrimitiveHeader.SignalId, pcli->seq_no); - - /* - * Advance the sequence number of the last sent signal, only - * if the signal has been successfully set. - */ - pcli->seq_no++; - if (pcli->seq_no > 0x0F) { - pcli->seq_no = 0; - } - - r = unifi_mlme_wait_for_reply(priv, pcli, (sig->SignalPrimitiveHeader.SignalId + 1), timeout); - up(&priv->mlme_blocking_mutex); - - if (r) { - unifi_error(priv, "Error waiting for MLME CONFIRM signal\n"); - return r; - } - - return 0; -} /* unifi_mlme_blocking_request() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_mlme_copy_reply_and_wakeup_client - * - * Copy the reply signal from UniFi to the client's structure - * and wake up the waiting client. - * - * Arguments: - * None. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -unifi_mlme_copy_reply_and_wakeup_client(ul_client_t *pcli, - CSR_SIGNAL *signal, int signal_len, - const bulk_data_param_t *bulkdata) -{ - int i; - - /* Copy the signal to the reply */ - memcpy(pcli->reply_signal, signal, signal_len); - - /* Get the sequence number of the signal that woke us up. */ - pcli->wake_seq_no = pcli->reply_signal->SignalPrimitiveHeader.ReceiverProcessId & 0x0F; - - /* Append any bulk data */ - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - if (bulkdata->d[i].data_length > 0) { - if (bulkdata->d[i].os_data_ptr) { - memcpy(pcli->reply_bulkdata[i]->ptr, bulkdata->d[i].os_data_ptr, bulkdata->d[i].data_length); - pcli->reply_bulkdata[i]->length = bulkdata->d[i].data_length; - } else { - pcli->reply_bulkdata[i]->length = 0; - } - } - } - - /* Wake the requesting MLME function. */ - pcli->wake_up_wq_id = pcli->reply_signal->SignalPrimitiveHeader.SignalId; - wake_up_interruptible(&pcli->udi_wq); - -} /* unifi_mlme_copy_reply_and_wakeup_client() */ - - -/* - * --------------------------------------------------------------------------- - * uf_abort_mlme - * - * Abort any MLME operation in progress. - * This is used in the error recovery mechanism. - * - * Arguments: - * priv Pointer to driver context. - * - * Returns: - * 0 on success. - * --------------------------------------------------------------------------- - */ -int -uf_abort_mlme(unifi_priv_t *priv) -{ - ul_client_t *ul_cli; - - /* Ensure no MLME functions are waiting on a the mlme_event semaphore. */ - priv->io_aborted = 1; - - ul_cli = priv->netdev_client; - if (ul_cli) { - wake_up_interruptible(&ul_cli->udi_wq); - } - - ul_cli = priv->wext_client; - if (ul_cli) { - wake_up_interruptible(&ul_cli->udi_wq); - } - - return 0; -} /* uf_abort_mlme() */ - - - -/* - * --------------------------------------------------------------------------- - * - * Human-readable decoding of Reason and Result codes. - * - * --------------------------------------------------------------------------- - */ - -struct mlme_code { - const char *name; - int id; -}; - -static const struct mlme_code Result_codes[] = { - { "Success", 0x0000 }, - { "Unspecified Failure", 0x0001 }, - /* (Reserved) 0x0002 - 0x0009 */ - { "Refused Capabilities Mismatch", 0x000A }, - /* (Reserved) 0x000B */ - { "Refused External Reason", 0x000C }, - /* (Reserved) 0x000D - 0x0010 */ - { "Refused AP Out Of Memory", 0x0011 }, - { "Refused Basic Rates Mismatch", 0x0012 }, - /* (Reserved) 0x0013 - 0x001F */ - { "Failure", 0x0020 }, - /* (Reserved) 0x0021 - 0x0024 */ - { "Refused Reason Unspecified", 0x0025 }, - { "Invalid Parameters", 0x0026 }, - { "Rejected With Suggested Changes", 0x0027 }, - /* (Reserved) 0x0028 - 0x002E */ - { "Rejected For Delay Period", 0x002F }, - { "Not Allowed", 0x0030 }, - { "Not Present", 0x0031 }, - { "Not QSTA", 0x0032 }, - /* (Reserved) 0x0033 - 0x7FFF */ - { "Timeout", 0x8000 }, - { "Too Many Simultaneous Requests", 0x8001 }, - { "BSS Already Started Or Joined", 0x8002 }, - { "Not Supported", 0x8003 }, - { "Transmission Failure", 0x8004 }, - { "Refused Not Authenticated", 0x8005 }, - { "Reset Required Before Start", 0x8006 }, - { "LM Info Unavailable", 0x8007 }, - { NULL, -1 } -}; - -static const struct mlme_code Reason_codes[] = { - /* (Reserved) 0x0000 */ - { "Unspecified Reason", 0x0001 }, - { "Authentication Not Valid", 0x0002 }, - { "Deauthenticated Leave BSS", 0x0003 }, - { "Disassociated Inactivity", 0x0004 }, - { "AP Overload", 0x0005 }, - { "Class2 Frame Error", 0x0006 }, - { "Class3 Frame Error", 0x0007 }, - { "Disassociated Leave BSS", 0x0008 }, - { "Association Not Authenticated", 0x0009 }, - { "Disassociated Power Capability", 0x000A }, - { "Disassociated Supported Channels", 0x000B }, - /* (Reserved) 0x000C */ - { "Invalid Information Element", 0x000D }, - { "Michael MIC Failure", 0x000E }, - { "Fourway Handshake Timeout", 0x000F }, - { "Group Key Update Timeout", 0x0010 }, - { "Handshake Element Different", 0x0011 }, - { "Invalid Group Cipher", 0x0012 }, - { "Invalid Pairwise Cipher", 0x0013 }, - { "Invalid AKMP", 0x0014 }, - { "Unsupported RSN IE Version", 0x0015 }, - { "Invalid RSN IE Capabilities", 0x0016 }, - { "Dot1X Auth Failed", 0x0017 }, - { "Cipher Rejected By Policy", 0x0018 }, - /* (Reserved) 0x0019 - 0x001F */ - { "QoS Unspecified Reason", 0x0020 }, - { "QoS Insufficient Bandwidth", 0x0021 }, - { "QoS Excessive Not Ack", 0x0022 }, - { "QoS TXOP Limit Exceeded", 0x0023 }, - { "QSTA Leaving", 0x0024 }, - { "End TS, End DLS, End BA", 0x0025 }, - { "Unknown TS, Unknown DLS, Unknown BA", 0x0026 }, - { "Timeout", 0x0027 }, - /* (Reserved) 0x0028 - 0x002C */ - { "STAKey Mismatch", 0x002D }, - { NULL, -1 } -}; - - -static const char * -lookup_something(const struct mlme_code *n, int id) -{ - for (; n->name; n++) { - if (n->id == id) { - return n->name; - } - } - - /* not found */ - return NULL; -} /* lookup_something() */ - - -const char * -lookup_result_code(int result) -{ - static char fallback[16]; - const char *str; - - str = lookup_something(Result_codes, result); - - if (str == NULL) { - snprintf(fallback, 16, "%d", result); - str = fallback; - } - - return str; -} /* lookup_result_code() */ - - -/* - * --------------------------------------------------------------------------- - * lookup_reason - * - * Return a description string for a WiFi MLME ReasonCode. - * - * Arguments: - * reason The ReasonCode to interpret. - * - * Returns: - * Pointer to description string. - * --------------------------------------------------------------------------- - */ -const char * -lookup_reason_code(int reason) -{ - static char fallback[16]; - const char *str; - - str = lookup_something(Reason_codes, reason); - - if (str == NULL) { - snprintf(fallback, 16, "%d", reason); - str = fallback; - } - - return str; -} /* lookup_reason_code() */ - diff --git a/drivers/staging/csr/monitor.c b/drivers/staging/csr/monitor.c deleted file mode 100644 index e11f6cb..0000000 --- a/drivers/staging/csr/monitor.c +++ /dev/null @@ -1,384 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: monitor.c - * - * Copyright (C) 2006-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ - -#include "unifi_priv.h" - -#ifdef UNIFI_SNIFF_ARPHRD - - -#if (UNIFI_SNIFF_ARPHRD == ARPHRD_IEEE80211_RADIOTAP) -#include <net/ieee80211_radiotap.h> -#endif - -#ifndef ETH_P_80211_RAW -#define ETH_P_80211_RAW ETH_P_ALL -#endif - -/* - * --------------------------------------------------------------------------- - * uf_start_sniff - * - * Start UniFi capture in SNIFF mode, i.e capture everything it hears. - * - * Arguments: - * priv Pointer to device private context struct - * - * Returns: - * 0 on success or kernel error code - * --------------------------------------------------------------------------- - */ -int -uf_start_sniff(unifi_priv_t *priv) -{ - ul_client_t *pcli = priv->wext_client; - CSR_SIGNAL signal; - CSR_MLME_SNIFFJOIN_REQUEST *req = &signal.u.MlmeSniffjoinRequest; - int timeout = 1000; - int r; - - req->Ifindex = priv->if_index; - req->Channel = priv->wext_conf.channel; - req->ChannelStartingFactor = 0; - - signal.SignalPrimitiveHeader.SignalId = CSR_MLME_SNIFFJOIN_REQUEST_ID; - - r = unifi_mlme_blocking_request(priv, pcli, &signal, NULL, timeout); - if (r < 0) { - unifi_error(priv, "failed to send SNIFFJOIN request, error %d\n", r); - return r; - } - - r = pcli->reply_signal->u.MlmeSniffjoinConfirm.Resultcode; - if (r) { - unifi_notice(priv, "SNIFFJOIN request was rejected with result 0x%X (%s)\n", - r, lookup_result_code(r)); - return -EIO; - } - - return 0; -} /* uf_start_sniff() */ - - - -/* - * --------------------------------------------------------------------------- - * netrx_radiotap - * - * Reformat a UniFi SNIFFDATA signal into a radiotap packet. - * - * Arguments: - * priv OS private context pointer. - * ind Pointer to a MA_UNITDATA_INDICATION or - * DS_UNITDATA_INDICATION indication structure. - * - * Notes: - * Radiotap header values are all little-endian, UniFi signals will have - * been converted to host-endian. - * --------------------------------------------------------------------------- - */ -#if (UNIFI_SNIFF_ARPHRD == ARPHRD_IEEE80211_RADIOTAP) -static void -netrx_radiotap(unifi_priv_t *priv, - const CSR_MA_SNIFFDATA_INDICATION *ind, - struct sk_buff *skb_orig) -{ - struct net_device *dev = priv->netdev; - struct sk_buff *skb = NULL; - unsigned char *ptr; - unsigned char *base; - int ind_data_len = skb_orig->len - 2 - ETH_HLEN; - struct unifi_rx_radiotap_header { - struct ieee80211_radiotap_header rt_hdr; - /* IEEE80211_RADIOTAP_TSFT */ - u64 rt_tsft; - /* IEEE80211_RADIOTAP_FLAGS */ - u8 rt_flags; - /* IEEE80211_RADIOTAP_RATE */ - u8 rt_rate; - /* IEEE80211_RADIOTAP_CHANNEL */ - u16 rt_chan; - u16 rt_chan_flags; - /* IEEE80211_RADIOTAP_DBM_ANTSIGNAL */ - u8 rt_dbm_antsignal; - /* IEEE80211_RADIOTAP_DBM_ANTNOISE */ - u8 rt_dbm_antnoise; - /* IEEE80211_RADIOTAP_ANTENNA */ - u8 rt_antenna; - - /* pad to 4-byte boundary */ - u8 pad[3]; - } __attribute__((__packed__)); - - struct unifi_rx_radiotap_header *unifi_rt; - int signal, noise, snr; - - if (ind_data_len <= 0) { - unifi_error(priv, "Invalid length in CSR_MA_SNIFFDATA_INDICATION.\n"); - return; - } - - /* - * Allocate a SKB for the received data packet, including radiotap - * header. - */ - skb = dev_alloc_skb(ind_data_len + sizeof(struct unifi_rx_radiotap_header) + 4); - if (! skb) { - unifi_error(priv, "alloc_skb failed.\n"); - priv->stats.rx_errors++; - return; - } - - base = skb->data; - - /* Reserve the radiotap header at the front of skb */ - unifi_rt = (struct unifi_rx_radiotap_header *) - skb_put(skb, sizeof(struct unifi_rx_radiotap_header)); - - /* Copy in the 802.11 frame */ - ptr = skb_put(skb, ind_data_len); - memcpy(ptr, skb_orig->data, ind_data_len); - - unifi_rt->rt_hdr.it_version = PKTHDR_RADIOTAP_VERSION; - unifi_rt->rt_hdr.it_pad = 0; /* always good to zero */ - unifi_rt->rt_hdr.it_len = sizeof(struct unifi_rx_radiotap_header); - - /* Big bitfield of all the fields we provide in radiotap */ - unifi_rt->rt_hdr.it_present = 0 - | (1 << IEEE80211_RADIOTAP_TSFT) - | (1 << IEEE80211_RADIOTAP_FLAGS) - | (1 << IEEE80211_RADIOTAP_RATE) - | (1 << IEEE80211_RADIOTAP_CHANNEL) - | (1 << IEEE80211_RADIOTAP_DBM_ANTSIGNAL) - | (1 << IEEE80211_RADIOTAP_DBM_ANTNOISE) - | (1 << IEEE80211_RADIOTAP_ANTENNA) - ; - - - /* No flags to set */ - unifi_rt->rt_tsft = (((u64)ind->Timestamp.x[7]) | (((u64)ind->Timestamp.x[6]) << 8) | - (((u64)ind->Timestamp.x[5]) << 16) | (((u64)ind->Timestamp.x[4]) << 24) | - (((u64)ind->Timestamp.x[3]) << 32) | (((u64)ind->Timestamp.x[2]) << 40) | - (((u64)ind->Timestamp.x[1]) << 48) | (((u64)ind->Timestamp.x[0]) << 56)); - - unifi_rt->rt_flags = 0; - - unifi_rt->rt_rate = ind->Rate; - - unifi_rt->rt_chan = cpu_to_le16(ieee80211chan2mhz(priv->wext_conf.channel)); - unifi_rt->rt_chan_flags = 0; - - /* Convert signal to dBm */ - signal = (s16)unifi2host_16(ind->Rssi); /* in dBm */ - snr = (s16)unifi2host_16(ind->Snr); /* in dB */ - noise = signal - snr; - - unifi_rt->rt_dbm_antsignal = signal; - unifi_rt->rt_dbm_antnoise = noise; - - unifi_rt->rt_antenna = ind->AntennaId; - - - skb->dev = dev; - skb_reset_mac_header(skb); - skb->pkt_type = PACKET_OTHERHOST; - skb->protocol = __constant_htons(ETH_P_80211_RAW); - memset(skb->cb, 0, sizeof(skb->cb)); - - /* Pass up to Linux network stack */ - netif_rx_ni(skb); - - dev->last_rx = jiffies; - - /* Bump the rx stats */ - priv->stats.rx_packets++; - priv->stats.rx_bytes += ind_data_len; - -} /* netrx_radiotap() */ -#endif /* RADIOTAP */ - - -/* - * --------------------------------------------------------------------------- - * netrx_prism - * - * Reformat a UniFi SNIFFDATA signal into a Prism format sniff packet. - * - * Arguments: - * priv OS private context pointer. - * ind Pointer to a MA_UNITDATA_INDICATION or - * DS_UNITDATA_INDICATION indication structure. - * - * Notes: - * Radiotap header values are all little-endian, UniFi signals will have - * been converted to host-endian. - * --------------------------------------------------------------------------- - */ -#if (UNIFI_SNIFF_ARPHRD == ARPHRD_IEEE80211_PRISM) -static void -netrx_prism(unifi_priv_t *priv, - const CSR_MA_SNIFFDATA_INDICATION *ind, - struct sk_buff *skb_orig) -{ - struct net_device *dev = priv->netdev; - struct sk_buff *skb = NULL; - unsigned char *ptr; - unsigned char *base; - int ind_data_len = skb_orig->len - 2 - ETH_HLEN; -#define WLANCAP_MAGIC_COOKIE_V1 0x80211001 - struct avs_header_v1 { - uint32 version; - uint32 length; - uint64 mactime; - uint64 hosttime; - uint32 phytype; - uint32 channel; - uint32 datarate; - uint32 antenna; - uint32 priority; - uint32 ssi_type; - int32 ssi_signal; - int32 ssi_noise; - uint32 preamble; - uint32 encoding; - } *avs; - int signal, noise, snr; - - if (ind_data_len <= 0) { - unifi_error(priv, "Invalid length in CSR_MA_SNIFFDATA_INDICATION.\n"); - return; - } - - /* - * Allocate a SKB for the received data packet, including radiotap - * header. - */ - skb = dev_alloc_skb(ind_data_len + sizeof(struct avs_header_v1) + 4); - if (! skb) { - unifi_error(priv, "alloc_skb failed.\n"); - priv->stats.rx_errors++; - return; - } - - base = skb->data; - - /* Reserve the radiotap header at the front of skb */ - avs = (struct avs_header_v1 *)skb_put(skb, sizeof(struct avs_header_v1)); - - /* Copy in the 802.11 frame */ - ptr = skb_put(skb, ind_data_len); - memcpy(ptr, skb_orig->data, ind_data_len); - - /* Convert signal to dBm */ - signal = 0x10000 - ((s16)unifi2host_16(ind->Rssi)); /* in dBm */ - snr = (s16)unifi2host_16(ind->Snr); /* in dB */ - noise = signal - snr; - - avs->version = htonl(WLANCAP_MAGIC_COOKIE_V1); - avs->length = htonl(sizeof(struct avs_header_v1)); - avs->mactime = __cpu_to_be64(ind->Timestamp); - avs->hosttime = __cpu_to_be64(jiffies); - avs->phytype = htonl(9); /* dss_ofdm_dot11_g */ - avs->channel = htonl(priv->wext_conf.channel); - avs->datarate = htonl(ind->Rate * 5); - avs->antenna = htonl(ind->Antenna); - avs->priority = htonl(0); /* unknown */ - avs->ssi_type = htonl(2); /* dBm */ - avs->ssi_signal = htonl(signal); - avs->ssi_noise = htonl(noise); - avs->preamble = htonl(0); /* unknown */ - avs->encoding = htonl(0); /* unknown */ - - - skb->dev = dev; - skb->mac.raw = skb->data; - skb->pkt_type = PACKET_OTHERHOST; - skb->protocol = __constant_htons(ETH_P_80211_RAW); - memset(skb->cb, 0, sizeof(skb->cb)); - - /* Pass up to Linux network stack */ - netif_rx_ni(skb); - - dev->last_rx = jiffies; - - /* Bump the rx stats */ - priv->stats.rx_packets++; - priv->stats.rx_bytes += ind_data_len; - -} /* netrx_prism() */ -#endif /* PRISM */ - - -/* - * --------------------------------------------------------------------------- - * ma_sniffdata_ind - * - * Reformat a UniFi SNIFFDATA signal into a network - * - * Arguments: - * ospriv OS private context pointer. - * ind Pointer to a MA_UNITDATA_INDICATION or - * DS_UNITDATA_INDICATION indication structure. - * bulkdata Pointer to a bulk data structure, describing - * the data received. - * - * Notes: - * Radiotap header values are all little-endian, UniFi signals will have - * been converted to host-endian. - * --------------------------------------------------------------------------- - */ -void -ma_sniffdata_ind(void *ospriv, - const CSR_MA_SNIFFDATA_INDICATION *ind, - const bulk_data_param_t *bulkdata) -{ - unifi_priv_t *priv = ospriv; - struct net_device *dev = priv->netdev; - struct sk_buff *skb = (struct sk_buff*)bulkdata->d[0].os_net_buf_ptr; - - if (bulkdata->d[0].data_length == 0) { - unifi_warning(priv, "rx: MA-SNIFFDATA indication with zero bulk data\n"); - return; - } - - skb->len = bulkdata->d[0].data_length; - - /* We only process data packets if the interface is open */ - if (unlikely(!netif_running(dev))) { - priv->stats.rx_dropped++; - priv->wext_conf.wireless_stats.discard.misc++; - dev_kfree_skb(skb); - return; - } - - if (ind->ReceptionStatus) { - priv->stats.rx_dropped++; - priv->wext_conf.wireless_stats.discard.misc++; - printk(KERN_INFO "unifi: Dropping corrupt sniff packet\n"); - dev_kfree_skb(skb); - return; - } - -#if (UNIFI_SNIFF_ARPHRD == ARPHRD_IEEE80211_PRISM) - netrx_prism(priv, ind, skb); -#endif /* PRISM */ - -#if (UNIFI_SNIFF_ARPHRD == ARPHRD_IEEE80211_RADIOTAP) - netrx_radiotap(priv, ind, skb); -#endif /* RADIOTAP */ - - dev_kfree_skb(skb); - -} /* ma_sniffdata_ind() */ - - -#endif /* UNIFI_SNIFF_ARPHRD */ - diff --git a/drivers/staging/csr/netdev.c b/drivers/staging/csr/netdev.c deleted file mode 100644 index 9c716c1..0000000 --- a/drivers/staging/csr/netdev.c +++ /dev/null @@ -1,3307 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: netdev.c - * - * PURPOSE: - * This file provides the upper edge interface to the linux netdevice - * and wireless extensions. - * It is part of the porting exercise. - * - * Copyright (C) 2005-2010 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ - -/* - * Porting Notes: - * This file implements the data plane of the UniFi linux driver. - * - * All the Tx packets are passed to the HIP core lib, using the - * unifi_send_signal() API. For EAPOL packets use the MLME-EAPOL.req - * signal, for all other use the MLME-UNITDATA.req. The unifi_send_signal() - * expects the wire-formatted (packed) signal. For convenience, in the OS - * layer we only use the native (unpacked) signal structures. The HIP core lib - * provides the write_pack() helper function to convert to the packed signal. - * The packet is stored in the bulk data of the signal. We do not need to - * allocate new memory to store the packet, because unifi_net_data_malloc() - * is implemented to return a skb, which is the format of packet in Linux. - * The HIP core lib frees the bulk data buffers, so we do not need to do - * this in the OS layer. - * - * All the Rx packets are MLME-UNITDATA.ind signals, passed by the HIP core lib - * in unifi_receive_event(). We do not need to allocate an skb and copy the - * received packet because the HIP core lib has stored in memory allocated by - * unifi_net_data_malloc(). Also, we can perform the 802.11 to Ethernet - * translation in-place because we allocate the extra memory allocated in - * unifi_net_data_malloc(). - * - * If possible, the porting exercise should appropriately implement - * unifi_net_data_malloc() and unifi_net_data_free() to save copies between - * network and driver buffers. - */ - -#include <linux/types.h> -#include <linux/etherdevice.h> -#include <linux/mutex.h> -#include <linux/semaphore.h> -#include <linux/vmalloc.h> -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" -#include "unifi_priv.h" -#include <net/pkt_sched.h> - - -/* Wext handler is supported only if CSR_SUPPORT_WEXT is defined */ -#ifdef CSR_SUPPORT_WEXT -extern struct iw_handler_def unifi_iw_handler_def; -#endif /* CSR_SUPPORT_WEXT */ -static void check_ba_frame_age_timeout( unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session); -static void process_ba_frame(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session, - frame_desc_struct *frame_desc); -static void process_ba_complete(unifi_priv_t *priv, netInterface_priv_t *interfacePriv); -static void process_ma_packet_error_ind(unifi_priv_t *priv, CSR_SIGNAL *signal, bulk_data_param_t *bulkdata); -static void process_amsdu(unifi_priv_t *priv, CSR_SIGNAL *signal, bulk_data_param_t *bulkdata); -static int uf_net_open(struct net_device *dev); -static int uf_net_ioctl(struct net_device *dev, struct ifreq *rq, int cmd); -static int uf_net_stop(struct net_device *dev); -static struct net_device_stats *uf_net_get_stats(struct net_device *dev); -static u16 uf_net_select_queue(struct net_device *dev, struct sk_buff *skb); -static netdev_tx_t uf_net_xmit(struct sk_buff *skb, struct net_device *dev); -static void uf_set_multicast_list(struct net_device *dev); - - -typedef int (*tx_signal_handler)(unifi_priv_t *priv, struct sk_buff *skb, const struct ethhdr *ehdr, CSR_PRIORITY priority); - -#ifdef CONFIG_NET_SCHED -/* - * Queueing Discipline Interface - * Only used if kernel is configured with CONFIG_NET_SCHED - */ - -/* - * The driver uses the qdisc interface to buffer and control all - * outgoing traffic. We create a root qdisc, register our qdisc operations - * and later we create two subsidiary pfifo queues for the uncontrolled - * and controlled ports. - * - * The network stack delivers all outgoing packets in our enqueue handler. - * There, we classify the packet and decide whether to store it or drop it - * (if the controlled port state is set to "discard"). - * If the packet is enqueued, the network stack call our dequeue handler. - * There, we decide whether we can send the packet, delay it or drop it - * (the controlled port configuration might have changed meanwhile). - * If a packet is dequeued, then the network stack calls our hard_start_xmit - * handler where finally we send the packet. - * - * If the hard_start_xmit handler fails to send the packet, we return - * NETDEV_TX_BUSY and the network stack call our requeue handler where - * we put the packet back in the same queue in came from. - * - */ - -struct uf_sched_data -{ - /* Traffic Classifier TBD */ - struct tcf_proto *filter_list; - /* Our two queues */ - struct Qdisc *queues[UNIFI_TRAFFIC_Q_MAX]; -}; - -struct uf_tx_packet_data { - /* Queue the packet is stored in */ - unifi_TrafficQueue queue; - /* QoS Priority determined when enqueing packet */ - CSR_PRIORITY priority; - /* Debug */ - unsigned long host_tag; -}; - -#endif /* CONFIG_NET_SCHED */ - -static const struct net_device_ops uf_netdev_ops = -{ - .ndo_open = uf_net_open, - .ndo_stop = uf_net_stop, - .ndo_start_xmit = uf_net_xmit, - .ndo_do_ioctl = uf_net_ioctl, - .ndo_get_stats = uf_net_get_stats, /* called by /proc/net/dev */ - .ndo_set_rx_mode = uf_set_multicast_list, - .ndo_select_queue = uf_net_select_queue, -}; - -static u8 oui_rfc1042[P80211_OUI_LEN] = { 0x00, 0x00, 0x00 }; -static u8 oui_8021h[P80211_OUI_LEN] = { 0x00, 0x00, 0xf8 }; - - -/* Callback for event logging to blocking clients */ -static void netdev_mlme_event_handler(ul_client_t *client, - const u8 *sig_packed, int sig_len, - const bulk_data_param_t *bulkdata, - int dir); - -#ifdef CSR_SUPPORT_WEXT -/* Declare netdev_notifier block which will contain the state change - * handler callback function - */ -static struct notifier_block uf_netdev_notifier; -#endif - -/* - * --------------------------------------------------------------------------- - * uf_alloc_netdevice - * - * Allocate memory for the net_device and device private structs - * for this interface. - * Fill in the fields, but don't register the interface yet. - * We need to configure the UniFi first. - * - * Arguments: - * sdio_dev Pointer to SDIO context handle to use for all - * SDIO ops. - * bus_id A small number indicating the SDIO card position on the - * bus. Typically this is the slot number, e.g. 0, 1 etc. - * Valid values are 0 to MAX_UNIFI_DEVS-1. - * - * Returns: - * Pointer to device private struct. - * - * Notes: - * The net_device and device private structs are allocated together - * and should be freed by freeing the net_device pointer. - * --------------------------------------------------------------------------- - */ -unifi_priv_t * -uf_alloc_netdevice(CsrSdioFunction *sdio_dev, int bus_id) -{ - struct net_device *dev; - unifi_priv_t *priv; - netInterface_priv_t *interfacePriv; -#ifdef CSR_SUPPORT_WEXT - int rc; -#endif - unsigned char i; /* loop index */ - - /* - * Allocate netdevice struct, assign name template and - * setup as an ethernet device. - * The net_device and private structs are zeroed. Ether_setup() then - * sets up ethernet handlers and values. - * The RedHat 9 redhat-config-network tool doesn't recognise wlan* devices, - * so use "eth*" (like other wireless extns drivers). - */ - dev = alloc_etherdev_mq(sizeof(unifi_priv_t) + sizeof(netInterface_priv_t), UNIFI_TRAFFIC_Q_MAX); - - if (dev == NULL) { - return NULL; - } - - /* Set up back pointer from priv to netdev */ - interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - priv = (unifi_priv_t *)(interfacePriv + 1); - interfacePriv->privPtr = priv; - interfacePriv->InterfaceTag = 0; - - - /* Initialize all supported netdev interface to be NULL */ - for(i=0; i<CSR_WIFI_NUM_INTERFACES; i++) { - priv->netdev[i] = NULL; - priv->interfacePriv[i] = NULL; - } - priv->netdev[0] = dev; - priv->interfacePriv[0] = interfacePriv; - - /* Setup / override net_device fields */ - dev->netdev_ops = &uf_netdev_ops; - -#ifdef CSR_SUPPORT_WEXT - dev->wireless_handlers = &unifi_iw_handler_def; -#if IW_HANDLER_VERSION < 6 - dev->get_wireless_stats = unifi_get_wireless_stats; -#endif /* IW_HANDLER_VERSION */ -#endif /* CSR_SUPPORT_WEXT */ - - /* This gives us enough headroom to add the 802.11 header */ - dev->needed_headroom = 32; - - /* Use bus_id as instance number */ - priv->instance = bus_id; - /* Store SDIO pointer to pass in the core */ - priv->sdio = sdio_dev; - - sdio_dev->driverData = (void*)priv; - /* Consider UniFi to be uninitialised */ - priv->init_progress = UNIFI_INIT_NONE; - - priv->prev_queue = 0; - - /* - * Initialise the clients structure array. - * We do not need protection around ul_init_clients() because - * the character device can not be used until uf_alloc_netdevice() - * returns and Unifi_instances[bus_id]=priv is set, since unifi_open() - * will return -ENODEV. - */ - ul_init_clients(priv); - - /* - * Register a new ul client to send the multicast list signals. - * Note: priv->instance must be set before calling this. - */ - priv->netdev_client = ul_register_client(priv, - 0, - netdev_mlme_event_handler); - if (priv->netdev_client == NULL) { - unifi_error(priv, - "Failed to register a unifi client for background netdev processing\n"); - free_netdev(priv->netdev[0]); - return NULL; - } - unifi_trace(priv, UDBG2, "Netdev %p client (id:%d s:0x%X) is registered\n", - dev, priv->netdev_client->client_id, priv->netdev_client->sender_id); - - priv->sta_wmm_capabilities = 0; - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_SUPPORT_SME)) - priv->wapi_multicast_filter = 0; - priv->wapi_unicast_filter = 0; - priv->wapi_unicast_queued_pkt_filter = 0; -#ifdef CSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND - priv->isWapiConnection = FALSE; -#endif -#endif - - /* Enable all queues by default */ - interfacePriv->queueEnabled[0] = 1; - interfacePriv->queueEnabled[1] = 1; - interfacePriv->queueEnabled[2] = 1; - interfacePriv->queueEnabled[3] = 1; - -#ifdef CSR_SUPPORT_SME - priv->allPeerDozing = 0; -#endif - /* - * Initialise the OS private struct. - */ - /* - * Instead of deciding in advance to use 11bg or 11a, we could do a more - * clever scan on both radios. - */ - if (use_5g) { - priv->if_index = CSR_INDEX_5G; - unifi_info(priv, "Using the 802.11a radio\n"); - } else { - priv->if_index = CSR_INDEX_2G4; - } - - /* Initialise bh thread structure */ - priv->bh_thread.thread_task = NULL; - priv->bh_thread.block_thread = 1; - init_waitqueue_head(&priv->bh_thread.wakeup_q); - priv->bh_thread.wakeup_flag = 0; - sprintf(priv->bh_thread.name, "uf_bh_thread"); - - /* reset the connected state for the interface */ - interfacePriv->connected = UnifiConnectedUnknown; /* -1 unknown, 0 no, 1 yes */ - -#ifdef USE_DRIVER_LOCK - sema_init(&priv->lock, 1); -#endif /* USE_DRIVER_LOCK */ - - spin_lock_init(&priv->send_signal_lock); - - spin_lock_init(&priv->m4_lock); - sema_init(&priv->ba_mutex, 1); - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) - spin_lock_init(&priv->wapi_lock); -#endif - -#ifdef CSR_SUPPORT_SME - spin_lock_init(&priv->staRecord_lock); - spin_lock_init(&priv->tx_q_lock); -#endif - - /* Create the Traffic Analysis workqueue */ - priv->unifi_workqueue = create_singlethread_workqueue("unifi_workq"); - if (priv->unifi_workqueue == NULL) { - /* Deregister priv->netdev_client */ - ul_deregister_client(priv->netdev_client); - free_netdev(priv->netdev[0]); - return NULL; - } - -#ifdef CSR_SUPPORT_SME - /* Create the Multicast Addresses list work structure */ - INIT_WORK(&priv->multicast_list_task, uf_multicast_list_wq); - - /* Create m4 buffering work structure */ - INIT_WORK(&interfacePriv->send_m4_ready_task, uf_send_m4_ready_wq); - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) - /* Create work structure to buffer the WAPI data packets to be sent to SME for encryption */ - INIT_WORK(&interfacePriv->send_pkt_to_encrypt, uf_send_pkt_to_encrypt); -#endif -#endif - - priv->ref_count = 1; - - priv->amp_client = NULL; - priv->coredump_mode = 0; - priv->ptest_mode = 0; - priv->wol_suspend = FALSE; - INIT_LIST_HEAD(&interfacePriv->rx_uncontrolled_list); - INIT_LIST_HEAD(&interfacePriv->rx_controlled_list); - sema_init(&priv->rx_q_sem, 1); - -#ifdef CSR_SUPPORT_WEXT - interfacePriv->netdev_callback_registered = FALSE; - interfacePriv->wait_netdev_change = FALSE; - /* Register callback for netdevice state changes */ - if ((rc = register_netdevice_notifier(&uf_netdev_notifier)) == 0) { - interfacePriv->netdev_callback_registered = TRUE; - } - else { - unifi_warning(priv, "Failed to register netdevice notifier : %d %p\n", rc, dev); - } -#endif /* CSR_SUPPORT_WEXT */ - -#ifdef CSR_WIFI_SPLIT_PATCH - /* set it to some invalid value */ - priv->pending_mode_set.common.destination = 0xaaaa; -#endif - - return priv; -} /* uf_alloc_netdevice() */ - -/* - *--------------------------------------------------------------------------- - * uf_alloc_netdevice_for_other_interfaces - * - * Allocate memory for the net_device and device private structs - * for this interface. - * Fill in the fields, but don't register the interface yet. - * We need to configure the UniFi first. - * - * Arguments: - * interfaceTag Interface number. - * sdio_dev Pointer to SDIO context handle to use for all - * SDIO ops. - * bus_id A small number indicating the SDIO card position on the - * bus. Typically this is the slot number, e.g. 0, 1 etc. - * Valid values are 0 to MAX_UNIFI_DEVS-1. - * - * Returns: - * Pointer to device private struct. - * - * Notes: - * The device private structure contains the interfaceTag and pointer to the unifi_priv - * structure created allocated by net_device od interface0. - * The net_device and device private structs are allocated together - * and should be freed by freeing the net_device pointer. - * --------------------------------------------------------------------------- - */ -u8 -uf_alloc_netdevice_for_other_interfaces(unifi_priv_t *priv, u16 interfaceTag) -{ - struct net_device *dev; - netInterface_priv_t *interfacePriv; - - /* - * Allocate netdevice struct, assign name template and - * setup as an ethernet device. - * The net_device and private structs are zeroed. Ether_setup() then - * sets up ethernet handlers and values. - * The RedHat 9 redhat-config-network tool doesn't recognise wlan* devices, - * so use "eth*" (like other wireless extns drivers). - */ - dev = alloc_etherdev_mq(sizeof(netInterface_priv_t), 1); - if (dev == NULL) { - return FALSE; - } - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "uf_alloc_netdevice_for_other_interfaces bad interfaceTag\n"); - return FALSE; - } - - /* Set up back pointer from priv to netdev */ - interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - interfacePriv->privPtr = priv; - interfacePriv->InterfaceTag = interfaceTag; - priv->netdev[interfaceTag] = dev; - priv->interfacePriv[interfacePriv->InterfaceTag] = interfacePriv; - - /* reset the connected state for the interface */ - interfacePriv->connected = UnifiConnectedUnknown; /* -1 unknown, 0 no, 1 yes */ - INIT_LIST_HEAD(&interfacePriv->rx_uncontrolled_list); - INIT_LIST_HEAD(&interfacePriv->rx_controlled_list); - - /* Setup / override net_device fields */ - dev->netdev_ops = &uf_netdev_ops; - -#ifdef CSR_SUPPORT_WEXT - dev->wireless_handlers = &unifi_iw_handler_def; -#if IW_HANDLER_VERSION < 6 - dev->get_wireless_stats = unifi_get_wireless_stats; -#endif /* IW_HANDLER_VERSION */ -#endif /* CSR_SUPPORT_WEXT */ - return TRUE; -} /* uf_alloc_netdevice() */ - - - -/* - * --------------------------------------------------------------------------- - * uf_free_netdevice - * - * Unregister the network device and free the memory allocated for it. - * NB This includes the memory for the priv struct. - * - * Arguments: - * priv Device private pointer. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -int -uf_free_netdevice(unifi_priv_t *priv) -{ - int i; - unsigned long flags; - - unifi_trace(priv, UDBG1, "uf_free_netdevice\n"); - - if (!priv) { - return -EINVAL; - } - - /* - * Free any buffers used for holding firmware - */ - uf_release_firmware_files(priv); - -#if (defined CSR_SUPPORT_SME) && (defined CSR_SUPPORT_WEXT) - if (priv->connection_config.mlmeAssociateReqInformationElements) { - kfree(priv->connection_config.mlmeAssociateReqInformationElements); - } - priv->connection_config.mlmeAssociateReqInformationElements = NULL; - priv->connection_config.mlmeAssociateReqInformationElementsLength = 0; - - if (priv->mib_data.length) { - vfree(priv->mib_data.data); - } - priv->mib_data.data = NULL; - priv->mib_data.length = 0; - -#endif /* CSR_SUPPORT_SME && CSR_SUPPORT_WEXT*/ - - /* Free any bulkdata buffers allocated for M4 caching */ - spin_lock_irqsave(&priv->m4_lock, flags); - for (i = 0; i < CSR_WIFI_NUM_INTERFACES; i++) { - netInterface_priv_t *interfacePriv = priv->interfacePriv[i]; - if (interfacePriv->m4_bulk_data.data_length > 0) { - unifi_trace(priv, UDBG5, "uf_free_netdevice: free M4 bulkdata %d\n", i); - unifi_net_data_free(priv, &interfacePriv->m4_bulk_data); - } - } - spin_unlock_irqrestore(&priv->m4_lock, flags); - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) - /* Free any bulkdata buffers allocated for M4 caching */ - spin_lock_irqsave(&priv->wapi_lock, flags); - for (i = 0; i < CSR_WIFI_NUM_INTERFACES; i++) { - netInterface_priv_t *interfacePriv = priv->interfacePriv[i]; - if (interfacePriv->wapi_unicast_bulk_data.data_length > 0) { - unifi_trace(priv, UDBG5, "uf_free_netdevice: free WAPI PKT bulk data %d\n", i); - unifi_net_data_free(priv, &interfacePriv->wapi_unicast_bulk_data); - } - } - spin_unlock_irqrestore(&priv->wapi_lock, flags); -#endif - -#ifdef CSR_SUPPORT_WEXT - /* Unregister callback for netdevice state changes */ - unregister_netdevice_notifier(&uf_netdev_notifier); -#endif /* CSR_SUPPORT_WEXT */ - -#ifdef CSR_SUPPORT_SME - /* Cancel work items and destroy the workqueue */ - cancel_work_sync(&priv->multicast_list_task); -#endif -/* Destroy the workqueues. */ - flush_workqueue(priv->unifi_workqueue); - destroy_workqueue(priv->unifi_workqueue); - - /* Free up netdev in reverse order: priv is allocated with netdev[0]. - * So, netdev[0] should be freed after all other netdevs are freed up - */ - for (i=CSR_WIFI_NUM_INTERFACES-1; i>=0; i--) { - /*Free the netdev struct and priv, which are all one lump*/ - if (priv->netdev[i]) { - unifi_error(priv, "uf_free_netdevice: netdev %d %p\n", i, priv->netdev[i]); - free_netdev(priv->netdev[i]); - } - } - - return 0; -} /* uf_free_netdevice() */ - - -/* - * --------------------------------------------------------------------------- - * uf_net_open - * - * Called when userland does "ifconfig wlan0 up". - * - * Arguments: - * dev Device pointer. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static int -uf_net_open(struct net_device *dev) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - /* If we haven't finished UniFi initialisation, we can't start */ - if (priv->init_progress != UNIFI_INIT_COMPLETED) { - unifi_warning(priv, "%s: unifi not ready, failing net_open\n", __FUNCTION__); - return -EINVAL; - } - -#if (defined CSR_NATIVE_LINUX) && (defined UNIFI_SNIFF_ARPHRD) && defined(CSR_SUPPORT_WEXT) - /* - * To sniff, the user must do "iwconfig mode monitor", which sets - * priv->wext_conf.mode to IW_MODE_MONITOR. - * Then he/she must do "ifconfig ethn up", which calls this fn. - * There is no point in starting the sniff with SNIFFJOIN until - * this point. - */ - if (priv->wext_conf.mode == IW_MODE_MONITOR) { - int err; - err = uf_start_sniff(priv); - if (err) { - return err; - } - netif_carrier_on(dev); - } -#endif - -#ifdef CSR_SUPPORT_WEXT - if (interfacePriv->wait_netdev_change) { - unifi_trace(priv, UDBG1, "%s: Waiting for NETDEV_CHANGE, assume connected\n", - __FUNCTION__); - interfacePriv->connected = UnifiConnected; - interfacePriv->wait_netdev_change = FALSE; - } -#endif - - netif_tx_start_all_queues(dev); - - return 0; -} /* uf_net_open() */ - - -static int -uf_net_stop(struct net_device *dev) -{ -#if defined(CSR_NATIVE_LINUX) && defined(UNIFI_SNIFF_ARPHRD) && defined(CSR_SUPPORT_WEXT) - netInterface_priv_t *interfacePriv = (netInterface_priv_t*)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - /* Stop sniffing if in Monitor mode */ - if (priv->wext_conf.mode == IW_MODE_MONITOR) { - if (priv->card) { - int err; - err = unifi_reset_state(priv, dev->dev_addr, 1); - if (err) { - return err; - } - } - } -#endif - - netif_tx_stop_all_queues(dev); - - return 0; -} /* uf_net_stop() */ - - -/* This is called after the WE handlers */ -static int -uf_net_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) -{ - int rc; - - rc = -EOPNOTSUPP; - - return rc; -} /* uf_net_ioctl() */ - - - -static struct net_device_stats * -uf_net_get_stats(struct net_device *dev) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - - return &interfacePriv->stats; -} /* uf_net_get_stats() */ - -static CSR_PRIORITY uf_get_packet_priority(unifi_priv_t *priv, netInterface_priv_t *interfacePriv, struct sk_buff *skb, const int proto) -{ - CSR_PRIORITY priority = CSR_CONTENTION; - - priority = (CSR_PRIORITY) (skb->priority >> 5); - - if (priority == CSR_QOS_UP0) { /* 0 */ - - unifi_trace(priv, UDBG5, "uf_get_packet_priority: proto = 0x%.4X\n", proto); - - switch (proto) { - case 0x0800: /* IPv4 */ - case 0x814C: /* SNMP */ - case 0x880C: /* GSMP */ - priority = (CSR_PRIORITY) (skb->data[1 + ETH_HLEN] >> 5); - break; - - case 0x8100: /* VLAN */ - priority = (CSR_PRIORITY) (skb->data[0 + ETH_HLEN] >> 5); - break; - - case 0x86DD: /* IPv6 */ - priority = (CSR_PRIORITY) ((skb->data[0 + ETH_HLEN] & 0x0E) >> 1); - break; - - default: - priority = CSR_QOS_UP0; - break; - } - } - - /* Check if we are allowed to transmit on this AC. Because of ACM we may have to downgrade to a lower - * priority */ - if (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_STA || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI) { - unifi_TrafficQueue queue; - - /* Keep trying lower priorities until we find a queue - * Priority to queue mapping is 1,2 - BK, 0,3 - BE, 4,5 - VI, 6,7 - VO */ - queue = unifi_frame_priority_to_queue(priority); - - while (queue > UNIFI_TRAFFIC_Q_BK && !interfacePriv->queueEnabled[queue]) { - queue--; - priority = unifi_get_default_downgrade_priority(queue); - } - } - - unifi_trace(priv, UDBG5, "Packet priority = %d\n", priority); - - return priority; -} - -/* - */ -/* - * --------------------------------------------------------------------------- - * get_packet_priority - * - * Arguments: - * priv private data area of functional driver - * skb socket buffer - * ehdr ethernet header to fetch protocol - * interfacePriv For accessing station record database - * - * - * Returns: - * CSR_PRIORITY. - * --------------------------------------------------------------------------- - */ -CSR_PRIORITY -get_packet_priority(unifi_priv_t *priv, struct sk_buff *skb, const struct ethhdr *ehdr, netInterface_priv_t *interfacePriv) -{ - CSR_PRIORITY priority = CSR_CONTENTION; - const int proto = ntohs(ehdr->h_proto); - - u8 interfaceMode = interfacePriv->interfaceMode; - - /* Priority Mapping for all the Modes */ - switch(interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - unifi_trace(priv, UDBG4, "mode is STA \n"); - if ((priv->sta_wmm_capabilities & QOS_CAPABILITY_WMM_ENABLED) == 1) { - priority = uf_get_packet_priority(priv, interfacePriv, skb, proto); - } else { - priority = CSR_CONTENTION; - } - break; -#ifdef CSR_SUPPORT_SME - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - { - CsrWifiRouterCtrlStaInfo_t * dstStaInfo = - CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, ehdr->h_dest, interfacePriv->InterfaceTag); - unifi_trace(priv, UDBG4, "mode is AP \n"); - if (!(ehdr->h_dest[0] & 0x01) && dstStaInfo && dstStaInfo->wmmOrQosEnabled) { - /* If packet is not Broadcast/multicast */ - priority = uf_get_packet_priority(priv, interfacePriv, skb, proto); - } else { - /* Since packet destination is not QSTA, set priority to CSR_CONTENTION */ - unifi_trace(priv, UDBG4, "Destination is not QSTA or BroadCast/Multicast\n"); - priority = CSR_CONTENTION; - } - } - break; -#endif - default: - unifi_trace(priv, UDBG3, " mode unknown in %s func, mode=%x\n", __FUNCTION__, interfaceMode); - } - unifi_trace(priv, UDBG5, "priority = %x\n", priority); - - return priority; -} - -/* - * --------------------------------------------------------------------------- - * uf_net_select_queue - * - * Called by the kernel to select which queue to put the packet in - * - * Arguments: - * dev Device pointer - * skb Packet - * - * Returns: - * Queue index - * --------------------------------------------------------------------------- - */ -static u16 -uf_net_select_queue(struct net_device *dev, struct sk_buff *skb) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = (unifi_priv_t *)interfacePriv->privPtr; - struct ethhdr ehdr; - unifi_TrafficQueue queue; - int proto; - CSR_PRIORITY priority; - - memcpy(&ehdr, skb->data, ETH_HLEN); - proto = ntohs(ehdr.h_proto); - - /* 802.1x - apply controlled/uncontrolled port rules */ - if ((proto != ETH_P_PAE) -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - && (proto != ETH_P_WAI) -#endif - ) { - /* queues 0 - 3 */ - priority = get_packet_priority(priv, skb, &ehdr, interfacePriv); - queue = unifi_frame_priority_to_queue(priority); - } else { - /* queue 4 */ - queue = UNIFI_TRAFFIC_Q_EAPOL; - } - - - return (u16)queue; -} /* uf_net_select_queue() */ - -int -skb_add_llc_snap(struct net_device *dev, struct sk_buff *skb, int proto) -{ - llc_snap_hdr_t *snap; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int headroom; - - /* get the headroom available in skb */ - headroom = skb_headroom(skb); - /* step 1: classify ether frame, DIX or 802.3? */ - - if (proto < 0x600) { - /* codes <= 1500 reserved for 802.3 lengths */ - /* it's 802.3, pass ether payload unchanged, */ - unifi_trace(priv, UDBG3, "802.3 len: %d\n", skb->len); - - /* leave off any PAD octets. */ - skb_trim(skb, proto); - } else if (proto == ETH_P_8021Q) { - - /* Store the VLAN SNAP (should be 87-65). */ - u16 vlan_snap = *(u16*)skb->data; - /* check for headroom availability before skb_push 14 = (4 + 10) */ - if (headroom < 14) { - unifi_trace(priv, UDBG3, "cant append vlan snap: debug\n"); - return -1; - } - /* Add AA-AA-03-00-00-00 */ - snap = (llc_snap_hdr_t *)skb_push(skb, 4); - snap->dsap = snap->ssap = 0xAA; - snap->ctrl = 0x03; - memcpy(snap->oui, oui_rfc1042, P80211_OUI_LEN); - - /* Add AA-AA-03-00-00-00 */ - snap = (llc_snap_hdr_t *)skb_push(skb, 10); - snap->dsap = snap->ssap = 0xAA; - snap->ctrl = 0x03; - memcpy(snap->oui, oui_rfc1042, P80211_OUI_LEN); - - /* Add the VLAN specific information */ - snap->protocol = htons(proto); - *(u16*)(snap + 1) = vlan_snap; - - } else - { - /* it's DIXII, time for some conversion */ - unifi_trace(priv, UDBG3, "DIXII len: %d\n", skb->len); - - /* check for headroom availability before skb_push */ - if (headroom < sizeof(llc_snap_hdr_t)) { - unifi_trace(priv, UDBG3, "cant append snap: debug\n"); - return -1; - } - /* tack on SNAP */ - snap = (llc_snap_hdr_t *)skb_push(skb, sizeof(llc_snap_hdr_t)); - snap->dsap = snap->ssap = 0xAA; - snap->ctrl = 0x03; - /* Use the appropriate OUI. */ - if ((proto == ETH_P_AARP) || (proto == ETH_P_IPX)) { - memcpy(snap->oui, oui_8021h, P80211_OUI_LEN); - } else { - memcpy(snap->oui, oui_rfc1042, P80211_OUI_LEN); - } - snap->protocol = htons(proto); - } - - return 0; -} /* skb_add_llc_snap() */ - -#ifdef CSR_SUPPORT_SME -static int -_identify_sme_ma_pkt_ind(unifi_priv_t *priv, - const s8 *oui, u16 protocol, - const CSR_SIGNAL *signal, - bulk_data_param_t *bulkdata, - const unsigned char *daddr, - const unsigned char *saddr) -{ - CSR_MA_PACKET_INDICATION *pkt_ind = (CSR_MA_PACKET_INDICATION*)&signal->u.MaPacketIndication; - int r; - u8 i; - - unifi_trace(priv, UDBG5, - "_identify_sme_ma_pkt_ind -->\n"); - for (i = 0; i < MAX_MA_UNIDATA_IND_FILTERS; i++) { - if (priv->sme_unidata_ind_filters[i].in_use) { - if (!memcmp(oui, priv->sme_unidata_ind_filters[i].oui, 3) && - (protocol == priv->sme_unidata_ind_filters[i].protocol)) { - - /* Send to client */ - if (priv->sme_cli) { - /* - * Pass the packet to the SME, using unifi_sys_ma_unitdata_ind(). - * The frame needs to be converted according to the encapsulation. - */ - unifi_trace(priv, UDBG1, - "_identify_sme_ma_pkt_ind: handle=%d, encap=%d, proto=%x\n", - i, priv->sme_unidata_ind_filters[i].encapsulation, - priv->sme_unidata_ind_filters[i].protocol); - if (priv->sme_unidata_ind_filters[i].encapsulation == CSR_WIFI_ROUTER_ENCAPSULATION_ETHERNET) { - struct sk_buff *skb; - /* The translation is performed on skb... */ - skb = (struct sk_buff*)bulkdata->d[0].os_net_buf_ptr; - skb->len = bulkdata->d[0].data_length; - - unifi_trace(priv, UDBG1, - "_identify_sme_ma_pkt_ind: skb_80211_to_ether -->\n"); - r = skb_80211_to_ether(priv, skb, daddr, saddr, - signal, bulkdata); - unifi_trace(priv, UDBG1, - "_identify_sme_ma_pkt_ind: skb_80211_to_ether <--\n"); - if (r) { - return -EINVAL; - } - - /* ... but we indicate buffer and length */ - bulkdata->d[0].os_data_ptr = skb->data; - bulkdata->d[0].data_length = skb->len; - } else { - /* Add the MAC addresses before the SNAP */ - bulkdata->d[0].os_data_ptr -= 2*ETH_ALEN; - bulkdata->d[0].data_length += 2*ETH_ALEN; - memcpy((void*)bulkdata->d[0].os_data_ptr, daddr, ETH_ALEN); - memcpy((void*)bulkdata->d[0].os_data_ptr + ETH_ALEN, saddr, ETH_ALEN); - } - - unifi_trace(priv, UDBG1, - "_identify_sme_ma_pkt_ind: unifi_sys_ma_pkt_ind -->\n"); - CsrWifiRouterMaPacketIndSend(priv->sme_unidata_ind_filters[i].appHandle, - (pkt_ind->VirtualInterfaceIdentifier & 0xff), - i, - pkt_ind->ReceptionStatus, - bulkdata->d[0].data_length, - (u8*)bulkdata->d[0].os_data_ptr, - NULL, - pkt_ind->Rssi, - pkt_ind->Snr, - pkt_ind->ReceivedRate); - - - unifi_trace(priv, UDBG1, - "_identify_sme_ma_pkt_ind: unifi_sys_ma_pkt_ind <--\n"); - } - - return 1; - } - } - } - - return -1; -} -#endif /* CSR_SUPPORT_SME */ - -/* - * --------------------------------------------------------------------------- - * skb_80211_to_ether - * - * Make sure the received frame is in Ethernet (802.3) form. - * De-encapsulates SNAP if necessary, adds a ethernet header. - * The source buffer should not contain an 802.11 MAC header - * - * Arguments: - * payload Pointer to packet data received from UniFi. - * payload_length Number of bytes of data received from UniFi. - * daddr Destination MAC address. - * saddr Source MAC address. - * - * Returns: - * 0 on success, -1 if the packet is bad and should be dropped, - * 1 if the packet was forwarded to the SME or AMP client. - * --------------------------------------------------------------------------- - */ -int -skb_80211_to_ether(unifi_priv_t *priv, struct sk_buff *skb, - const unsigned char *daddr, const unsigned char *saddr, - const CSR_SIGNAL *signal, - bulk_data_param_t *bulkdata) -{ - unsigned char *payload; - int payload_length; - struct ethhdr *eth; - llc_snap_hdr_t *snap; - int headroom; -#define UF_VLAN_LLC_HEADER_SIZE 18 - static const u8 vlan_inner_snap[] = { 0xAA, 0xAA, 0x03, 0x00, 0x00, 0x00 }; -#if defined(CSR_NATIVE_SOFTMAC) && defined(CSR_SUPPORT_SME) - const CSR_MA_PACKET_INDICATION *pkt_ind = &signal->u.MaPacketIndication; -#endif - - if(skb== NULL || daddr == NULL || saddr == NULL){ - unifi_error(priv, "skb_80211_to_ether: PBC fail\n"); - return 1; - } - - payload = skb->data; - payload_length = skb->len; - - snap = (llc_snap_hdr_t *)payload; - eth = (struct ethhdr *)payload; - - /* get the skb headroom size */ - headroom = skb_headroom(skb); - - /* - * Test for the various encodings - */ - if ((payload_length >= sizeof(llc_snap_hdr_t)) && - (snap->dsap == 0xAA) && - (snap->ssap == 0xAA) && - (snap->ctrl == 0x03) && - (snap->oui[0] == 0) && - (snap->oui[1] == 0) && - ((snap->oui[2] == 0) || (snap->oui[2] == 0xF8))) - { - /* AppleTalk AARP (2) or IPX SNAP */ - if ((snap->oui[2] == 0) && - ((ntohs(snap->protocol) == ETH_P_AARP) || (ntohs(snap->protocol) == ETH_P_IPX))) - { - u16 len; - - unifi_trace(priv, UDBG3, "%s len: %d\n", - (ntohs(snap->protocol) == ETH_P_AARP) ? "ETH_P_AARP" : "ETH_P_IPX", - payload_length); - - /* check for headroom availability before skb_push */ - if (headroom < (2 * ETH_ALEN + 2)) { - unifi_warning(priv, "headroom not available to skb_push ether header\n"); - return -1; - } - - /* Add 802.3 header and leave full payload */ - len = htons(skb->len); - memcpy(skb_push(skb, 2), &len, 2); - memcpy(skb_push(skb, ETH_ALEN), saddr, ETH_ALEN); - memcpy(skb_push(skb, ETH_ALEN), daddr, ETH_ALEN); - - return 0; - } - /* VLAN-tagged IP */ - if ((snap->oui[2] == 0) && (ntohs(snap->protocol) == ETH_P_8021Q)) - { - /* - * The translation doesn't change the packet length, so is done in-place. - * - * Example header (from Std 802.11-2007 Annex M): - * AA-AA-03-00-00-00-81-00-87-65-AA-AA-03-00-00-00-08-06 - * -------SNAP-------p1-p1-ll-ll-------SNAP--------p2-p2 - * dd-dd-dd-dd-dd-dd-aa-aa-aa-aa-aa-aa-p1-p1-ll-ll-p2-p2 - * dd-dd-dd-dd-dd-dd-aa-aa-aa-aa-aa-aa-81-00-87-65-08-06 - */ - u16 vlan_snap; - - if (payload_length < UF_VLAN_LLC_HEADER_SIZE) { - unifi_warning(priv, "VLAN SNAP header too short: %d bytes\n", payload_length); - return -1; - } - - if (memcmp(payload + 10, vlan_inner_snap, 6)) { - unifi_warning(priv, "VLAN malformatted SNAP header.\n"); - return -1; - } - - unifi_trace(priv, UDBG3, "VLAN SNAP: %02x-%02x\n", payload[8], payload[9]); - unifi_trace(priv, UDBG3, "VLAN len: %d\n", payload_length); - - /* Create the 802.3 header */ - - vlan_snap = *((u16*)(payload + 8)); - - /* Create LLC header without byte-swapping */ - eth->h_proto = snap->protocol; - - memcpy(eth->h_dest, daddr, ETH_ALEN); - memcpy(eth->h_source, saddr, ETH_ALEN); - *(u16*)(eth + 1) = vlan_snap; - return 0; - } - - /* it's a SNAP + RFC1042 frame */ - unifi_trace(priv, UDBG3, "SNAP+RFC1042 len: %d\n", payload_length); - - /* chop SNAP+llc header from skb. */ - skb_pull(skb, sizeof(llc_snap_hdr_t)); - - /* Since skb_pull called above to chop snap+llc, no need to check for headroom - * availability before skb_push - */ - /* create 802.3 header at beginning of skb. */ - eth = (struct ethhdr *)skb_push(skb, ETH_HLEN); - memcpy(eth->h_dest, daddr, ETH_ALEN); - memcpy(eth->h_source, saddr, ETH_ALEN); - /* Copy protocol field without byte-swapping */ - eth->h_proto = snap->protocol; - } else { - u16 len; - - /* check for headroom availability before skb_push */ - if (headroom < (2 * ETH_ALEN + 2)) { - unifi_warning(priv, "headroom not available to skb_push ether header\n"); - return -1; - } - /* Add 802.3 header and leave full payload */ - len = htons(skb->len); - memcpy(skb_push(skb, 2), &len, 2); - memcpy(skb_push(skb, ETH_ALEN), saddr, ETH_ALEN); - memcpy(skb_push(skb, ETH_ALEN), daddr, ETH_ALEN); - - return 1; - } - - return 0; -} /* skb_80211_to_ether() */ - - -static CsrWifiRouterCtrlPortAction verify_port(unifi_priv_t *priv, unsigned char *address, int queue, u16 interfaceTag) -{ -#ifdef CSR_NATIVE_LINUX -#ifdef CSR_SUPPORT_WEXT - if (queue == UF_CONTROLLED_PORT_Q) { - return priv->wext_conf.block_controlled_port; - } else { - return CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN; - } -#else - return CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN; /* default to open for softmac dev */ -#endif -#else - return uf_sme_port_state(priv, address, queue, interfaceTag); -#endif -} - -/* - * --------------------------------------------------------------------------- - * prepare_and_add_macheader - * - * - * These functions adds mac header for packet from netdev - * to UniFi for transmission. - * EAP protocol packets are also appended with Mac header & - * sent using send_ma_pkt_request(). - * - * Arguments: - * priv Pointer to device private context struct - * skb Socket buffer containing data packet to transmit - * newSkb Socket buffer containing data packet + Mac header if no sufficient headroom in skb - * serviceClass to append QOS control header in Mac header - * bulkdata if newSkb allocated then bulkdata updated to send to unifi - * interfaceTag the interfaceID on which activity going on - * daddr destination address - * saddr source address - * protection protection bit set in framce control of mac header - * - * Returns: - * Zero on success or error code. - * --------------------------------------------------------------------------- - */ - -int prepare_and_add_macheader(unifi_priv_t *priv, struct sk_buff *skb, struct sk_buff *newSkb, - CSR_PRIORITY priority, - bulk_data_param_t *bulkdata, - u16 interfaceTag, - const u8 *daddr, - const u8 *saddr, - u8 protection) -{ - u16 fc = 0; - u8 qc = 0; - u8 macHeaderLengthInBytes = MAC_HEADER_SIZE, *bufPtr = NULL; - bulk_data_param_t data_ptrs; - CsrResult csrResult; - int headroom =0; - u8 direction = 0; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - u8 *addressOne; - u8 bQosNull = false; - - if (skb == NULL) { - unifi_error(priv, "prepare_and_add_macheader: Invalid SKB reference\n"); - return -1; - } - - /* add a MAC header refer: 7.1.3.1 Frame Control field in P802.11REVmb.book */ - if (priority != CSR_CONTENTION) { - /* EAPOL packets don't go as QOS_DATA */ - if (priority == CSR_MANAGEMENT) { - fc |= cpu_to_le16(IEEE802_11_FC_TYPE_DATA); - } else { - /* Qos Control Field */ - macHeaderLengthInBytes += QOS_CONTROL_HEADER_SIZE; - - if (skb->len) { - - fc |= cpu_to_le16(IEEE802_11_FC_TYPE_QOS_DATA); - } else { - fc |= cpu_to_le16(IEEE802_11_FC_TYPE_QOS_NULL); - bQosNull = true; - } - } - } else { - if(skb->len == 0) { - fc |= cpu_to_le16(IEEE802_11_FC_TYPE_NULL); - } else { - fc |= cpu_to_le16(IEEE802_11_FC_TYPE_DATA); - } - } - - switch (interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - direction = 2; - fc |= cpu_to_le16(IEEE802_11_FC_TO_DS_MASK); - break; - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - direction = 0; - break; - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - direction = 1; - fc |= cpu_to_le16(IEEE802_11_FC_FROM_DS_MASK); - break; - case CSR_WIFI_ROUTER_CTRL_MODE_AMP: - if (priority == CSR_MANAGEMENT ) { - - direction = 2; - fc |= cpu_to_le16(IEEE802_11_FC_TO_DS_MASK); - } else { - /* Data frames have to use WDS 4 address frames */ - direction = 3; - fc |= cpu_to_le16(IEEE802_11_FC_TO_DS_MASK | IEEE802_11_FC_FROM_DS_MASK); - macHeaderLengthInBytes += 6; - } - break; - default: - unifi_warning(priv, "prepare_and_add_macheader: Unknown mode %d\n", - interfacePriv->interfaceMode); - } - - - /* If Sta is QOS & HTC is supported then need to set 'order' bit */ - /* We don't support HT Control for now */ - - if(protection) { - fc |= cpu_to_le16(IEEE802_11_FC_PROTECTED_MASK); - } - - /* check the skb headroom before pushing mac header */ - headroom = skb_headroom(skb); - - if (headroom < macHeaderLengthInBytes) { - unifi_trace(priv, UDBG5, - "prepare_and_add_macheader: Allocate headroom extra %d bytes\n", - macHeaderLengthInBytes); - - csrResult = unifi_net_data_malloc(priv, &data_ptrs.d[0], skb->len + macHeaderLengthInBytes); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, " failed to allocate request_data. in %s func\n", __FUNCTION__); - return -1; - } - newSkb = (struct sk_buff *)(data_ptrs.d[0].os_net_buf_ptr); - newSkb->len = skb->len + macHeaderLengthInBytes; - - memcpy((void*)data_ptrs.d[0].os_data_ptr + macHeaderLengthInBytes, - skb->data, skb->len); - - bulkdata->d[0].os_data_ptr = newSkb->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)newSkb; - bulkdata->d[0].data_length = newSkb->len; - - bufPtr = (u8*)data_ptrs.d[0].os_data_ptr; - - /* The old skb will not be used again */ - kfree_skb(skb); - } else { - - /* headroom has sufficient size, so will get proper pointer */ - bufPtr = (u8*)skb_push(skb, macHeaderLengthInBytes); - bulkdata->d[0].os_data_ptr = skb->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)skb; - bulkdata->d[0].data_length = skb->len; - } - - /* Frame the actual MAC header */ - - memset(bufPtr, 0, macHeaderLengthInBytes); - - /* copy frameControl field */ - memcpy(bufPtr, &fc, sizeof(fc)); - bufPtr += sizeof(fc); - macHeaderLengthInBytes -= sizeof(fc); - - /* Duration/ID field which is 2 bytes */ - bufPtr += 2; - macHeaderLengthInBytes -= 2; - - switch(direction) - { - case 0: - /* Its an Ad-Hoc no need to route it through AP */ - /* Address1: MAC address of the destination from eth header */ - memcpy(bufPtr, daddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - - /* Address2: MAC address of the source */ - memcpy(bufPtr, saddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - - /* Address3: the BSSID (locally generated in AdHoc (creators Bssid)) */ - memcpy(bufPtr, &interfacePriv->bssid, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - break; - case 1: - /* Address1: MAC address of the actual destination */ - memcpy(bufPtr, daddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - /* Address2: The MAC address of the AP */ - memcpy(bufPtr, &interfacePriv->bssid, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - - /* Address3: MAC address of the source from eth header */ - memcpy(bufPtr, saddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - break; - case 2: - /* Address1: To AP is the MAC address of the AP to which its associated */ - memcpy(bufPtr, &interfacePriv->bssid, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - - /* Address2: MAC address of the source from eth header */ - memcpy(bufPtr, saddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - - /* Address3: MAC address of the actual destination on the distribution system */ - memcpy(bufPtr, daddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - break; - case 3: - memcpy(bufPtr, &interfacePriv->bssid, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - - /* Address2: MAC address of the source from eth header */ - memcpy(bufPtr, saddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - - /* Address3: MAC address of the actual destination on the distribution system */ - memcpy(bufPtr, daddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - break; - default: - unifi_error(priv, "Unknown direction =%d : Not handled now\n", direction); - return -1; - } - /* 2 bytes of frame control field, appended by firmware */ - bufPtr += 2; - macHeaderLengthInBytes -= 2; - - if (3 == direction) { - /* Address4: MAC address of the source */ - memcpy(bufPtr, saddr, ETH_ALEN); - bufPtr += ETH_ALEN; - macHeaderLengthInBytes -= ETH_ALEN; - } - - /* IF Qos Data or Qos Null Data then set QosControl field */ - if ((priority != CSR_CONTENTION) && (macHeaderLengthInBytes >= QOS_CONTROL_HEADER_SIZE)) { - - if (priority > 7) { - unifi_trace(priv, UDBG1, "data packets priority is more than 7, priority = %x\n", priority); - qc |= 7; - } else { - qc |= priority; - } - /*assigning address1 - * Address1 offset taken fromm bufPtr(currently bufPtr pointing to Qos contorl) variable in reverse direction - * Address4 don't exit - */ - - addressOne = bufPtr- ADDRESS_ONE_OFFSET; - - if (addressOne[0] & 0x1) { - /* multicast/broadcast frames, no acknowledgement needed */ - qc |= 1 << 5; - } - /* non-AP mode only for now */ - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_STA || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_IBSS || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI) { - /* In case of STA and IBSS case eosp and txop limit is 0. */ - } else { - if(bQosNull) { - qc |= 1 << 4; - } - } - - /* append Qos control field to mac header */ - bufPtr[0] = qc; - /* txop limit is 0 */ - bufPtr[1] = 0; - macHeaderLengthInBytes -= QOS_CONTROL_HEADER_SIZE; - } - if (macHeaderLengthInBytes) { - unifi_warning(priv, " Mac header not appended properly\n"); - return -1; - } - return 0; -} - -/* - * --------------------------------------------------------------------------- - * send_ma_pkt_request - * - * These functions send a data packet to UniFi for transmission. - * EAP protocol packets are also sent as send_ma_pkt_request(). - * - * Arguments: - * priv Pointer to device private context struct - * skb Socket buffer containing data packet to transmit - * ehdr Pointer to Ethernet header within skb. - * - * Returns: - * Zero on success or error code. - * --------------------------------------------------------------------------- - */ - -static int -send_ma_pkt_request(unifi_priv_t *priv, struct sk_buff *skb, const struct ethhdr *ehdr, CSR_PRIORITY priority) -{ - int r; - u16 i; - u8 eapolStore = FALSE; - struct sk_buff *newSkb = NULL; - bulk_data_param_t bulkdata; - const int proto = ntohs(ehdr->h_proto); - u16 interfaceTag; - CsrWifiMacAddress peerAddress; - CSR_TRANSMISSION_CONTROL transmissionControl = CSR_NO_CONFIRM_REQUIRED; - s8 protection; - netInterface_priv_t *interfacePriv = NULL; - CSR_RATE TransmitRate = (CSR_RATE)0; - - unifi_trace(priv, UDBG5, "entering send_ma_pkt_request\n"); - - /* Get the interface Tag by means of source Mac address */ - for (i = 0; i < CSR_WIFI_NUM_INTERFACES; i++) { - if (!memcmp(priv->netdev[i]->dev_addr, ehdr->h_source, ETH_ALEN)) { - interfaceTag = i; - interfacePriv = priv->interfacePriv[interfaceTag]; - break; - } - } - - if (interfacePriv == NULL) { - /* No match found - error */ - interfaceTag = 0; - interfacePriv = priv->interfacePriv[interfaceTag]; - unifi_warning(priv, "Mac address not matching ... debugging needed\n"); - interfacePriv->stats.tx_dropped++; - kfree_skb(skb); - return -1; - } - - /* Add a SNAP header if necessary */ - if (skb_add_llc_snap(priv->netdev[interfaceTag], skb, proto) != 0) { - /* convert failed */ - unifi_error(priv, "skb_add_llc_snap failed.\n"); - kfree_skb(skb); - return -1; - } - - bulkdata.d[0].os_data_ptr = skb->data; - bulkdata.d[0].os_net_buf_ptr = (unsigned char*)skb; - bulkdata.d[0].net_buf_length = bulkdata.d[0].data_length = skb->len; - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].os_net_buf_ptr = NULL; - bulkdata.d[1].net_buf_length = bulkdata.d[1].data_length = 0; - -#ifdef CSR_SUPPORT_SME - /* Notify the TA module for the Tx frame for non AP/P2PGO mode*/ - if ((interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_AP) && - (interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_P2PGO)) { - unifi_ta_sample(priv->card, CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_TX, - &bulkdata.d[0], ehdr->h_source, - priv->netdev[interfaceTag]->dev_addr, - jiffies_to_msecs(jiffies), - 0); /* rate is unknown on tx */ - } -#endif /* CSR_SUPPORT_SME */ - - if ((proto == ETH_P_PAE) -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - || (proto == ETH_P_WAI) -#endif - ) - { - /* check for m4 detection */ - if (0 == uf_verify_m4(priv, bulkdata.d[0].os_data_ptr, bulkdata.d[0].data_length)) { - eapolStore = TRUE; - } - } - -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - if (proto == ETH_P_WAI) - { - protection = 0; /*WAI packets always sent unencrypted*/ - } - else - { -#endif -#ifdef CSR_SUPPORT_SME - if ((protection = uf_get_protection_bit_from_interfacemode(priv, interfaceTag, ehdr->h_dest)) < 0) { - unifi_warning(priv, "unicast address, but destination not in station record database\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return -1; - } -#else - protection = 0; -#endif -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - } -#endif - - /* append Mac header for Eapol as well as data packet */ - if (prepare_and_add_macheader(priv, skb, newSkb, priority, &bulkdata, interfaceTag, ehdr->h_dest, ehdr->h_source, protection)) { - unifi_error(priv, "failed to create MAC header\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return -1; - } - - /* RA address must contain the immediate destination MAC address that is similar to - * the Address 1 field of 802.11 Mac header here 4 is: (sizeof(framecontrol) + sizeof (durationID)) - * which is address 1 field - */ - memcpy(peerAddress.a, ((u8 *) bulkdata.d[0].os_data_ptr) + 4, ETH_ALEN); - - unifi_trace(priv, UDBG5, "RA[0]=%x, RA[1]=%x, RA[2]=%x, RA[3]=%x, RA[4]=%x, RA[5]=%x\n", - peerAddress.a[0], peerAddress.a[1], peerAddress.a[2], peerAddress.a[3], - peerAddress.a[4], peerAddress.a[5]); - - - if ((proto == ETH_P_PAE) -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - || (proto == ETH_P_WAI) -#endif - ) - { - CSR_SIGNAL signal; - CSR_MA_PACKET_REQUEST *req = &signal.u.MaPacketRequest; - - /* initialize signal to zero */ - memset(&signal, 0, sizeof(CSR_SIGNAL)); - - /* Frame MA_PACKET request */ - signal.SignalPrimitiveHeader.SignalId = CSR_MA_PACKET_REQUEST_ID; - signal.SignalPrimitiveHeader.ReceiverProcessId = 0; - signal.SignalPrimitiveHeader.SenderProcessId = priv->netdev_client->sender_id; - - transmissionControl = req->TransmissionControl = 0; -#ifdef CSR_SUPPORT_SME - if (eapolStore) - { - netInterface_priv_t *netpriv = (netInterface_priv_t *)netdev_priv(priv->netdev[interfaceTag]); - - /* Fill the MA-PACKET.req */ - - req->Priority = priority; - unifi_trace(priv, UDBG3, "Tx Frame with Priority: %x\n", req->Priority); - - /* rate selected by firmware */ - req->TransmitRate = 0; - req->HostTag = CSR_WIFI_EAPOL_M4_HOST_TAG; - /* RA address matching with address 1 of Mac header */ - memcpy(req->Ra.x, ((u8 *) bulkdata.d[0].os_data_ptr) + 4, ETH_ALEN); - - spin_lock(&priv->m4_lock); - /* Store the M4-PACKET.req for later */ - interfacePriv->m4_signal = signal; - interfacePriv->m4_bulk_data.net_buf_length = bulkdata.d[0].net_buf_length; - interfacePriv->m4_bulk_data.data_length = bulkdata.d[0].data_length; - interfacePriv->m4_bulk_data.os_data_ptr = bulkdata.d[0].os_data_ptr; - interfacePriv->m4_bulk_data.os_net_buf_ptr = bulkdata.d[0].os_net_buf_ptr; - spin_unlock(&priv->m4_lock); - - /* Signal the workqueue to call CsrWifiRouterCtrlM4ReadyToSendIndSend(). - * It cannot be called directly from the tx path because it - * does a non-atomic kmalloc via the framework's CsrPmemAlloc(). - */ - queue_work(priv->unifi_workqueue, &netpriv->send_m4_ready_task); - - return 0; - } -#endif - }/*EAPOL or WAI packet*/ - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) - if ((CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode) && \ - (priv->wapi_unicast_filter) && \ - (proto != ETH_P_PAE) && \ - (proto != ETH_P_WAI) && \ - (skb->len > 0)) - { - CSR_SIGNAL signal; - CSR_MA_PACKET_REQUEST *req = &signal.u.MaPacketRequest; - netInterface_priv_t *netpriv = (netInterface_priv_t *)netdev_priv(priv->netdev[interfaceTag]); - - unifi_trace(priv, UDBG4, "send_ma_pkt_request() - WAPI unicast data packet when USKID = 1 \n"); - - /* initialize signal to zero */ - memset(&signal, 0, sizeof(CSR_SIGNAL)); - /* Frame MA_PACKET request */ - signal.SignalPrimitiveHeader.SignalId = CSR_MA_PACKET_REQUEST_ID; - signal.SignalPrimitiveHeader.ReceiverProcessId = 0; - signal.SignalPrimitiveHeader.SenderProcessId = priv->netdev_client->sender_id; - - /* Fill the MA-PACKET.req */ - req->TransmissionControl = 0; - req->Priority = priority; - unifi_trace(priv, UDBG3, "Tx Frame with Priority: %x\n", req->Priority); - req->TransmitRate = (CSR_RATE) 0; /* rate selected by firmware */ - req->HostTag = 0xffffffff; /* Ask for a new HostTag */ - /* RA address matching with address 1 of Mac header */ - memcpy(req->Ra.x, ((u8 *) bulkdata.d[0].os_data_ptr) + 4, ETH_ALEN); - - /* Store the M4-PACKET.req for later */ - spin_lock(&priv->wapi_lock); - interfacePriv->wapi_unicast_ma_pkt_sig = signal; - interfacePriv->wapi_unicast_bulk_data.net_buf_length = bulkdata.d[0].net_buf_length; - interfacePriv->wapi_unicast_bulk_data.data_length = bulkdata.d[0].data_length; - interfacePriv->wapi_unicast_bulk_data.os_data_ptr = bulkdata.d[0].os_data_ptr; - interfacePriv->wapi_unicast_bulk_data.os_net_buf_ptr = bulkdata.d[0].os_net_buf_ptr; - spin_unlock(&priv->wapi_lock); - - /* Signal the workqueue to call CsrWifiRouterCtrlWapiUnicastTxEncryptIndSend(). - * It cannot be called directly from the tx path because it - * does a non-atomic kmalloc via the framework's CsrPmemAlloc(). - */ - queue_work(priv->unifi_workqueue, &netpriv->send_pkt_to_encrypt); - - return 0; - } -#endif - - if(priv->cmanrTestMode) - { - TransmitRate = priv->cmanrTestModeTransmitRate; - unifi_trace(priv, UDBG2, "send_ma_pkt_request: cmanrTestModeTransmitRate = %d TransmitRate=%d\n", - priv->cmanrTestModeTransmitRate, - TransmitRate - ); - } - - /* Send UniFi msg */ - /* Here hostTag is been sent as 0xffffffff, its been appended properly while framing MA-Packet request in pdu_processing.c file */ - r = uf_process_ma_packet_req(priv, - peerAddress.a, - 0xffffffff, /* Ask for a new HostTag */ - interfaceTag, - transmissionControl, - TransmitRate, - priority, - priv->netdev_client->sender_id, - &bulkdata); - - if (r) { - unifi_trace(priv, UDBG1, "(HIP validation failure) r = %x\n", r); - unifi_net_data_free(priv, &bulkdata.d[0]); - return -1; - } - - unifi_trace(priv, UDBG3, "leaving send_ma_pkt_request, UNITDATA result code = %d\n", r); - - return r; -} /* send_ma_pkt_request() */ - -/* - * --------------------------------------------------------------------------- - * uf_net_xmit - * - * This function is called by the higher level stack to transmit an - * ethernet packet. - * - * Arguments: - * skb Ethernet packet to send. - * dev Pointer to the linux net device. - * - * Returns: - * 0 on success (packet was consumed, not necessarily transmitted) - * 1 if packet was requeued - * -1 on error - * - * - * Notes: - * The controlled port is handled in the qdisc dequeue handler. - * --------------------------------------------------------------------------- - */ -static netdev_tx_t -uf_net_xmit(struct sk_buff *skb, struct net_device *dev) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct ethhdr ehdr; - int proto, port; - int result; - static tx_signal_handler tx_handler; - CSR_PRIORITY priority; - CsrWifiRouterCtrlPortAction port_action; - - unifi_trace(priv, UDBG5, "unifi_net_xmit: skb = %x\n", skb); - - memcpy(&ehdr, skb->data, ETH_HLEN); - proto = ntohs(ehdr.h_proto); - priority = get_packet_priority(priv, skb, &ehdr, interfacePriv); - - /* All frames are sent as MA-PACKET.req (EAPOL also) */ - tx_handler = send_ma_pkt_request; - - /* 802.1x - apply controlled/uncontrolled port rules */ - if ((proto != ETH_P_PAE) -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - && (proto != ETH_P_WAI) -#endif - ) { - port = UF_CONTROLLED_PORT_Q; - } else { - /* queue 4 */ - port = UF_UNCONTROLLED_PORT_Q; - } - - /* Uncontrolled port rules apply */ - port_action = verify_port(priv - , (((CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode)||(CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI== interfacePriv->interfaceMode))? interfacePriv->bssid.a: ehdr.h_dest) - , port - , interfacePriv->InterfaceTag); - - if (port_action == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN) { - unifi_trace(priv, UDBG5, - "uf_net_xmit: %s controlled port open\n", - port ? "" : "un"); - /* Remove the ethernet header */ - skb_pull(skb, ETH_HLEN); - result = tx_handler(priv, skb, &ehdr, priority); - } else { - - /* Discard the packet if necessary */ - unifi_trace(priv, UDBG2, - "uf_net_xmit: %s controlled port %s\n", - port ? "" : "un", port_action==CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_BLOCK ? "blocked" : "closed"); - interfacePriv->stats.tx_dropped++; - kfree_skb(skb); - - return NETDEV_TX_OK; - } - - if (result == NETDEV_TX_OK) { -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) - /* Don't update the tx stats when the pkt is to be sent for sw encryption*/ - if (!((CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode) && - (priv->wapi_unicast_filter == 1))) - { - dev->trans_start = jiffies; - /* Should really count tx stats in the UNITDATA.status signal but - * that doesn't have the length. - */ - interfacePriv->stats.tx_packets++; - /* count only the packet payload */ - interfacePriv->stats.tx_bytes += skb->len; - - } -#else - dev->trans_start = jiffies; - - /* - * Should really count tx stats in the UNITDATA.status signal but - * that doesn't have the length. - */ - interfacePriv->stats.tx_packets++; - /* count only the packet payload */ - interfacePriv->stats.tx_bytes += skb->len; -#endif - } else if (result < 0) { - - /* Failed to send: fh queue was full, and the skb was discarded. - * Return OK to indicate that the buffer was consumed, to stop the - * kernel re-transmitting the freed buffer. - */ - interfacePriv->stats.tx_dropped++; - unifi_trace(priv, UDBG1, "unifi_net_xmit: (Packet Drop), dropped count = %x\n", interfacePriv->stats.tx_dropped); - result = NETDEV_TX_OK; - } - - /* The skb will have been freed by send_XXX_request() */ - - return result; -} /* uf_net_xmit() */ - -/* - * --------------------------------------------------------------------------- - * unifi_pause_xmit - * unifi_restart_xmit - * - * These functions are called from the UniFi core to control the flow - * of packets from the upper layers. - * unifi_pause_xmit() is called when the internal queue is full and - * should take action to stop unifi_ma_unitdata() being called. - * When the queue has drained, unifi_restart_xmit() will be called to - * re-enable the flow of packets for transmission. - * - * Arguments: - * ospriv OS private context pointer. - * - * Returns: - * unifi_pause_xmit() is called from interrupt context. - * --------------------------------------------------------------------------- - */ -void -unifi_pause_xmit(void *ospriv, unifi_TrafficQueue queue) -{ - unifi_priv_t *priv = ospriv; - int i; /* used as a loop counter */ - - unifi_trace(priv, UDBG2, "Stopping queue %d\n", queue); - - for(i=0;i<CSR_WIFI_NUM_INTERFACES;i++) - { - if (netif_running(priv->netdev[i])) - { - netif_stop_subqueue(priv->netdev[i], (u16)queue); - } - } - -#ifdef CSR_SUPPORT_SME - if(queue<=3) { - routerStartBuffering(priv, queue); - unifi_trace(priv, UDBG2, "Start buffering %d\n", queue); - } else { - routerStartBuffering(priv, 0); - unifi_error(priv, "Start buffering %d defaulting to 0\n", queue); - } -#endif - -} /* unifi_pause_xmit() */ - -void -unifi_restart_xmit(void *ospriv, unifi_TrafficQueue queue) -{ - unifi_priv_t *priv = ospriv; - int i=0; /* used as a loop counter */ - - unifi_trace(priv, UDBG2, "Waking queue %d\n", queue); - - for(i=0;i<CSR_WIFI_NUM_INTERFACES;i++) - { - if (netif_running(priv->netdev[i])) - { - netif_wake_subqueue(priv->netdev[i], (u16)queue); - } - } - -#ifdef CSR_SUPPORT_SME - if(queue <=3) { - routerStopBuffering(priv, queue); - uf_send_buffered_frames(priv, queue); - } else { - routerStopBuffering(priv, 0); - uf_send_buffered_frames(priv, 0); - } -#endif -} /* unifi_restart_xmit() */ - - -static void -indicate_rx_skb(unifi_priv_t *priv, u16 ifTag, u8* dst_a, u8* src_a, struct sk_buff *skb, CSR_SIGNAL *signal, - bulk_data_param_t *bulkdata) -{ - int r, sr = 0; - struct net_device *dev; - -#ifdef CSR_SUPPORT_SME - llc_snap_hdr_t *snap; - - snap = (llc_snap_hdr_t *)skb->data; - - sr = _identify_sme_ma_pkt_ind(priv, - snap->oui, ntohs(snap->protocol), - signal, - bulkdata, - dst_a, src_a ); -#endif - - /* - * Decapsulate any SNAP header and - * prepend an ethernet header so that the skb manipulation and ARP - * stuff works. - */ - r = skb_80211_to_ether(priv, skb, dst_a, src_a, - signal, bulkdata); - if (r == -1) { - /* Drop the packet and return */ - priv->interfacePriv[ifTag]->stats.rx_errors++; - priv->interfacePriv[ifTag]->stats.rx_frame_errors++; - unifi_net_data_free(priv, &bulkdata->d[0]); - unifi_notice(priv, "indicate_rx_skb: Discard unknown frame.\n"); - return; - } - - /* Handle the case where packet is sent up through the subscription - * API but should not be given to the network stack (AMP PAL case) - * LLC header is different from WiFi and the packet has been subscribed for - */ - if (r == 1 && sr == 1) { - unifi_net_data_free(priv, &bulkdata->d[0]); - unifi_trace(priv, UDBG5, "indicate_rx_skb: Data given to subscription" - "API, not being given to kernel\n"); - return; - } - - dev = priv->netdev[ifTag]; - /* Now we look like a regular ethernet frame */ - /* Fill in SKB meta data */ - skb->dev = dev; - skb->protocol = eth_type_trans(skb, dev); - skb->ip_summed = CHECKSUM_UNNECESSARY; - - /* Test for an overlength frame */ - if (skb->len > (dev->mtu + ETH_HLEN)) { - /* A bogus length ethfrm has been encap'd. */ - /* Is someone trying an oflow attack? */ - unifi_error(priv, "%s: oversize frame (%d > %d)\n", - dev->name, - skb->len, dev->mtu + ETH_HLEN); - - /* Drop the packet and return */ - priv->interfacePriv[ifTag]->stats.rx_errors++; - priv->interfacePriv[ifTag]->stats.rx_length_errors++; - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - - if(priv->cmanrTestMode) - { - const CSR_MA_PACKET_INDICATION *pkt_ind = &signal->u.MaPacketIndication; - priv->cmanrTestModeTransmitRate = pkt_ind->ReceivedRate; - unifi_trace(priv, UDBG2, "indicate_rx_skb: cmanrTestModeTransmitRate=%d\n", priv->cmanrTestModeTransmitRate); - } - - /* Pass SKB up the stack */ -#ifdef CSR_WIFI_USE_NETIF_RX - netif_rx(skb); -#else - netif_rx_ni(skb); -#endif - - if (dev != NULL) { - dev->last_rx = jiffies; - } - - /* Bump rx stats */ - priv->interfacePriv[ifTag]->stats.rx_packets++; - priv->interfacePriv[ifTag]->stats.rx_bytes += bulkdata->d[0].data_length; - - return; -} - -void -uf_process_rx_pending_queue(unifi_priv_t *priv, int queue, - CsrWifiMacAddress source_address, - int indicate, u16 interfaceTag) -{ - rx_buffered_packets_t *rx_q_item; - struct list_head *rx_list; - struct list_head *n; - struct list_head *l_h; - static const CsrWifiMacAddress broadcast_address = {{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}}; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "uf_process_rx_pending_queue bad interfaceTag\n"); - return; - } - - if (queue == UF_CONTROLLED_PORT_Q) { - rx_list = &interfacePriv->rx_controlled_list; - } else { - rx_list = &interfacePriv->rx_uncontrolled_list; - } - - down(&priv->rx_q_sem); - list_for_each_safe(l_h, n, rx_list) { - rx_q_item = list_entry(l_h, rx_buffered_packets_t, q); - - /* Validate against the source address */ - if (memcmp(broadcast_address.a, source_address.a, ETH_ALEN) && - memcmp(rx_q_item->sa.a, source_address.a, ETH_ALEN)) { - - unifi_trace(priv, UDBG2, - "uf_process_rx_pending_queue: Skipping sa=%02X%02X%02X%02X%02X%02X skb=%p, bulkdata=%p\n", - rx_q_item->sa.a[0], rx_q_item->sa.a[1], - rx_q_item->sa.a[2], rx_q_item->sa.a[3], - rx_q_item->sa.a[4], rx_q_item->sa.a[5], - rx_q_item->skb, &rx_q_item->bulkdata.d[0]); - continue; - } - - list_del(l_h); - - - unifi_trace(priv, UDBG2, - "uf_process_rx_pending_queue: Was Blocked skb=%p, bulkdata=%p\n", - rx_q_item->skb, &rx_q_item->bulkdata); - - if (indicate) { - indicate_rx_skb(priv, interfaceTag, rx_q_item->da.a, rx_q_item->sa.a, rx_q_item->skb, &rx_q_item->signal, &rx_q_item->bulkdata); - } else { - interfacePriv->stats.rx_dropped++; - unifi_net_data_free(priv, &rx_q_item->bulkdata.d[0]); - } - - /* It is our resposibility to free the Rx structure object. */ - kfree(rx_q_item); - } - up(&priv->rx_q_sem); -} - -/* - * --------------------------------------------------------------------------- - * uf_resume_data_plane - * - * Is called when the (un)controlled port is set to open, - * to notify the network stack to schedule for transmission - * any packets queued in the qdisk while port was closed and - * indicated to the stack any packets buffered in the Rx queues. - * - * Arguments: - * priv Pointer to device private struct - * - * Returns: - * --------------------------------------------------------------------------- - */ -void -uf_resume_data_plane(unifi_priv_t *priv, int queue, - CsrWifiMacAddress peer_address, - u16 interfaceTag) -{ -#ifdef CSR_SUPPORT_WEXT - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; -#endif - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "uf_resume_data_plane bad interfaceTag\n"); - return; - } - - unifi_trace(priv, UDBG2, "Resuming netif\n"); - - /* - * If we are waiting for the net device to enter the up state, don't - * process the rx queue yet as it will be done by the callback when - * the device is ready. - */ -#ifdef CSR_SUPPORT_WEXT - if (!interfacePriv->wait_netdev_change) -#endif - { -#ifdef CONFIG_NET_SCHED - if (netif_running(priv->netdev[interfaceTag])) { - netif_tx_schedule_all(priv->netdev[interfaceTag]); - } -#endif - uf_process_rx_pending_queue(priv, queue, peer_address, 1, interfaceTag); - } -} /* uf_resume_data_plane() */ - - -void uf_free_pending_rx_packets(unifi_priv_t *priv, int queue, CsrWifiMacAddress peer_address, u16 interfaceTag) -{ - uf_process_rx_pending_queue(priv, queue, peer_address, 0, interfaceTag); - -} /* uf_free_pending_rx_packets() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_rx - * - * Reformat a UniFi data received packet into a p80211 packet and - * pass it up the protocol stack. - * - * Arguments: - * None. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void -unifi_rx(unifi_priv_t *priv, CSR_SIGNAL *signal, bulk_data_param_t *bulkdata) -{ - u16 interfaceTag; - bulk_data_desc_t *pData; - const CSR_MA_PACKET_INDICATION *pkt_ind = &signal->u.MaPacketIndication; - struct sk_buff *skb; - CsrWifiRouterCtrlPortAction port_action; - u8 dataFrameType; - int proto; - int queue; - - u8 da[ETH_ALEN], sa[ETH_ALEN]; - u8 toDs, fromDs, frameType, macHeaderLengthInBytes = MAC_HEADER_SIZE; - u16 frameControl; - netInterface_priv_t *interfacePriv; - struct ethhdr ehdr; - - interfaceTag = (pkt_ind->VirtualInterfaceIdentifier & 0xff); - interfacePriv = priv->interfacePriv[interfaceTag]; - - /* Sanity check that the VIF refers to a sensible interface */ - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) - { - unifi_error(priv, "%s: MA-PACKET indication with bad interfaceTag %d\n", __FUNCTION__, interfaceTag); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - /* Sanity check that the VIF refers to an allocated netdev */ - if (!interfacePriv->netdev_registered) - { - unifi_error(priv, "%s: MA-PACKET indication with unallocated interfaceTag %d\n", __FUNCTION__, interfaceTag); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - if (bulkdata->d[0].data_length == 0) { - unifi_warning(priv, "%s: MA-PACKET indication with zero bulk data\n", __FUNCTION__); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - - skb = (struct sk_buff*)bulkdata->d[0].os_net_buf_ptr; - skb->len = bulkdata->d[0].data_length; - - /* Point to the addresses */ - toDs = (skb->data[1] & 0x01) ? 1 : 0; - fromDs = (skb->data[1] & 0x02) ? 1 : 0; - - memcpy(da, (skb->data+4+toDs*12), ETH_ALEN);/* Address1 or 3 */ - memcpy(sa, (skb->data+10+fromDs*(6+toDs*8)), ETH_ALEN); /* Address2, 3 or 4 */ - - - pData = &bulkdata->d[0]; - frameControl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(pData->os_data_ptr); - frameType = ((frameControl & 0x000C) >> 2); - - dataFrameType =((frameControl & 0x00f0) >> 4); - unifi_trace(priv, UDBG6, - "%s: Receive Data Frame Type %d \n", __FUNCTION__, dataFrameType); - - switch(dataFrameType) - { - case QOS_DATA: - case QOS_DATA_NULL: - /* If both are set then the Address4 exists (only for AP) */ - if (fromDs && toDs) - { - /* 6 is the size of Address4 field */ - macHeaderLengthInBytes += (QOS_CONTROL_HEADER_SIZE + 6); - } - else - { - macHeaderLengthInBytes += QOS_CONTROL_HEADER_SIZE; - } - - /* If order bit set then HT control field is the part of MAC header */ - if (frameControl & FRAME_CONTROL_ORDER_BIT) - macHeaderLengthInBytes += HT_CONTROL_HEADER_SIZE; - break; - default: - if (fromDs && toDs) - macHeaderLengthInBytes += 6; - } - - /* Prepare the ethernet header from snap header of skb data */ - switch(dataFrameType) - { - case DATA_NULL: - case QOS_DATA_NULL: - /* This is for only queue info fetching, EAPOL wont come as - * null data so the proto is initialized as zero - */ - proto = 0x0; - break; - default: - { - llc_snap_hdr_t *snap; - /* Fetch a snap header to find protocol (for IPV4/IPV6 packets - * the snap header fetching offset is same) - */ - snap = (llc_snap_hdr_t *) (skb->data + macHeaderLengthInBytes); - - /* prepare the ethernet header from the snap header & addresses */ - ehdr.h_proto = snap->protocol; - memcpy(ehdr.h_dest, da, ETH_ALEN); - memcpy(ehdr.h_source, sa, ETH_ALEN); - } - proto = ntohs(ehdr.h_proto); - } - unifi_trace(priv, UDBG3, "in unifi_rx protocol from snap header = 0x%x\n", proto); - - if ((proto != ETH_P_PAE) -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - && (proto != ETH_P_WAI) -#endif - ) { - queue = UF_CONTROLLED_PORT_Q; - } else { - queue = UF_UNCONTROLLED_PORT_Q; - } - - port_action = verify_port(priv, (unsigned char*)sa, queue, interfaceTag); - unifi_trace(priv, UDBG3, "in unifi_rx port action is = 0x%x & queue = %x\n", port_action, queue); - -#ifdef CSR_SUPPORT_SME - /* Notify the TA module for the Rx frame for non P2PGO and AP cases*/ - if((interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_AP) && - (interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_P2PGO)) - { - /* Remove MAC header of length(macHeaderLengthInBytes) before sampling */ - skb_pull(skb, macHeaderLengthInBytes); - pData->os_data_ptr = skb->data; - pData->data_length -= macHeaderLengthInBytes; - - if (pData->data_length) { - unifi_ta_sample(priv->card, CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_RX, - &bulkdata->d[0], - sa, priv->netdev[interfaceTag]->dev_addr, - jiffies_to_msecs(jiffies), - pkt_ind->ReceivedRate); - } - } else { - - /* AP/P2PGO specific handling here */ - CsrWifiRouterCtrlStaInfo_t * srcStaInfo = - CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, sa, interfaceTag); - - /* Defensive check only; Source address is already checked in - process_ma_packet_ind and we should have a valid source address here */ - - if(srcStaInfo == NULL) { - CsrWifiMacAddress peerMacAddress; - /* Unknown data PDU */ - memcpy(peerMacAddress.a, sa, ETH_ALEN); - unifi_trace(priv, UDBG1, "%s: Unexpected frame from peer = %x:%x:%x:%x:%x:%x\n", __FUNCTION__, - sa[0], sa[1], sa[2], sa[3], sa[4], sa[5]); - CsrWifiRouterCtrlUnexpectedFrameIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, peerMacAddress); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - /* For AP GO mode, don't store the PDUs */ - if (port_action != CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN) { - /* Drop the packet and return */ - CsrWifiMacAddress peerMacAddress; - memcpy(peerMacAddress.a, sa, ETH_ALEN); - unifi_trace(priv, UDBG3, "%s: Port is not open: unexpected frame from peer = %x:%x:%x:%x:%x:%x\n", - __FUNCTION__, sa[0], sa[1], sa[2], sa[3], sa[4], sa[5]); - - CsrWifiRouterCtrlUnexpectedFrameIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, peerMacAddress); - interfacePriv->stats.rx_dropped++; - unifi_net_data_free(priv, &bulkdata->d[0]); - unifi_notice(priv, "%s: Dropping packet, proto=0x%04x, %s port\n", __FUNCTION__, - proto, queue ? "Controlled" : "Un-controlled"); - return; - } - - /* Qos NULL/Data NULL are freed here and not processed further */ - if((dataFrameType == QOS_DATA_NULL) || (dataFrameType == DATA_NULL)){ - unifi_trace(priv, UDBG5, "%s: Null Frame Received and Freed\n", __FUNCTION__); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - /* Now we have done with MAC header so proceed with the real data part*/ - /* This function takes care of appropriate routing for AP/P2PGO case*/ - /* the function hadnles following things - 2. Routing the PDU to appropriate location - 3. Error case handling - */ - if(!(uf_ap_process_data_pdu(priv, skb, &ehdr, srcStaInfo, - signal, - bulkdata, - macHeaderLengthInBytes))) - { - return; - } - unifi_trace(priv, UDBG5, "unifi_rx: no specific AP handling process as normal frame, MAC Header len %d\n", macHeaderLengthInBytes); - /* Remove the MAC header for subsequent conversion */ - skb_pull(skb, macHeaderLengthInBytes); - pData->os_data_ptr = skb->data; - pData->data_length -= macHeaderLengthInBytes; - pData->os_net_buf_ptr = (unsigned char*)skb; - pData->net_buf_length = skb->len; - } -#endif /* CSR_SUPPORT_SME */ - - - /* Now that the MAC header is removed, null-data frames have zero length - * and can be dropped - */ - if (pData->data_length == 0) { - if (((frameControl & 0x00f0) >> 4) != QOS_DATA_NULL && - ((frameControl & 0x00f0) >> 4) != DATA_NULL) { - unifi_trace(priv, UDBG1, "Zero length frame, but not null-data %04x\n", frameControl); - } - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - if (port_action == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD) { - /* Drop the packet and return */ - interfacePriv->stats.rx_dropped++; - unifi_net_data_free(priv, &bulkdata->d[0]); - unifi_notice(priv, "%s: Dropping packet, proto=0x%04x, %s port\n", - __FUNCTION__, proto, queue ? "controlled" : "uncontrolled"); - return; - } else if ( (port_action == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_BLOCK) || - (interfacePriv->connected != UnifiConnected) ) { - - /* Buffer the packet into the Rx queues */ - rx_buffered_packets_t *rx_q_item; - struct list_head *rx_list; - - rx_q_item = kmalloc(sizeof(rx_buffered_packets_t), - GFP_KERNEL); - if (rx_q_item == NULL) { - unifi_error(priv, "%s: Failed to allocate %d bytes for rx packet record\n", - __FUNCTION__, sizeof(rx_buffered_packets_t)); - interfacePriv->stats.rx_dropped++; - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - INIT_LIST_HEAD(&rx_q_item->q); - rx_q_item->bulkdata = *bulkdata; - rx_q_item->skb = skb; - rx_q_item->signal = *signal; - memcpy(rx_q_item->sa.a, sa, ETH_ALEN); - memcpy(rx_q_item->da.a, da, ETH_ALEN); - unifi_trace(priv, UDBG2, "%s: Blocked skb=%p, bulkdata=%p\n", - __FUNCTION__, rx_q_item->skb, &rx_q_item->bulkdata); - - if (queue == UF_CONTROLLED_PORT_Q) { - rx_list = &interfacePriv->rx_controlled_list; - } else { - rx_list = &interfacePriv->rx_uncontrolled_list; - } - - /* Add to tail of packets queue */ - down(&priv->rx_q_sem); - list_add_tail(&rx_q_item->q, rx_list); - up(&priv->rx_q_sem); - - return; - - } - - indicate_rx_skb(priv, interfaceTag, da, sa, skb, signal, bulkdata); - -} /* unifi_rx() */ - -static void process_ma_packet_cfm(unifi_priv_t *priv, CSR_SIGNAL *signal, bulk_data_param_t *bulkdata) -{ - u16 interfaceTag; - const CSR_MA_PACKET_CONFIRM *pkt_cfm = &signal->u.MaPacketConfirm; - netInterface_priv_t *interfacePriv; - - interfaceTag = (pkt_cfm->VirtualInterfaceIdentifier & 0xff); - interfacePriv = priv->interfacePriv[interfaceTag]; - - /* Sanity check that the VIF refers to a sensible interface */ - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) - { - unifi_error(priv, "%s: MA-PACKET confirm with bad interfaceTag %d\n", __FUNCTION__, interfaceTag); - return; - } -#ifdef CSR_SUPPORT_SME - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - - uf_process_ma_pkt_cfm_for_ap(priv, interfaceTag, pkt_cfm); - } else if (interfacePriv->m4_sent && (pkt_cfm->HostTag == interfacePriv->m4_hostTag)) { - /* Check if this is a confirm for EAPOL M4 frame and we need to send transmistted ind*/ - CsrResult result = pkt_cfm->TransmissionStatus == CSR_TX_SUCCESSFUL?CSR_RESULT_SUCCESS:CSR_RESULT_FAILURE; - CsrWifiMacAddress peerMacAddress; - memcpy(peerMacAddress.a, interfacePriv->m4_signal.u.MaPacketRequest.Ra.x, ETH_ALEN); - - unifi_trace(priv, UDBG1, "%s: Sending M4 Transmit CFM\n", __FUNCTION__); - CsrWifiRouterCtrlM4TransmittedIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, - interfaceTag, - peerMacAddress, - result); - interfacePriv->m4_sent = FALSE; - interfacePriv->m4_hostTag = 0xffffffff; - } -#endif - return; -} - - -/* - * --------------------------------------------------------------------------- - * unifi_rx - * - * Reformat a UniFi data received packet into a p80211 packet and - * pass it up the protocol stack. - * - * Arguments: - * None. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void process_ma_packet_ind(unifi_priv_t *priv, CSR_SIGNAL *signal, bulk_data_param_t *bulkdata) -{ - u16 interfaceTag; - bulk_data_desc_t *pData; - CSR_MA_PACKET_INDICATION *pkt_ind = (CSR_MA_PACKET_INDICATION*)&signal->u.MaPacketIndication; - struct sk_buff *skb; - u16 frameControl; - netInterface_priv_t *interfacePriv; - u8 da[ETH_ALEN], sa[ETH_ALEN]; - u8 *bssid = NULL, *ba_addr = NULL; - u8 toDs, fromDs, frameType; - u8 i =0; - -#ifdef CSR_SUPPORT_SME - u8 dataFrameType = 0; - u8 powerSaveChanged = FALSE; - u8 pmBit = 0; - CsrWifiRouterCtrlStaInfo_t *srcStaInfo = NULL; - u16 qosControl; - -#endif - - interfaceTag = (pkt_ind->VirtualInterfaceIdentifier & 0xff); - interfacePriv = priv->interfacePriv[interfaceTag]; - - - /* Sanity check that the VIF refers to a sensible interface */ - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) - { - unifi_error(priv, "%s: MA-PACKET indication with bad interfaceTag %d\n", __FUNCTION__, interfaceTag); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - /* Sanity check that the VIF refers to an allocated netdev */ - if (!interfacePriv->netdev_registered) - { - unifi_error(priv, "%s: MA-PACKET indication with unallocated interfaceTag %d\n", __FUNCTION__, interfaceTag); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - if (bulkdata->d[0].data_length == 0) { - unifi_warning(priv, "%s: MA-PACKET indication with zero bulk data\n", __FUNCTION__); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - /* For monitor mode we need to pass this indication to the registered application - handle this separately*/ - /* MIC failure is already taken care of so no need to send the PDUs which are not successfully received in non-monitor mode*/ - if(pkt_ind->ReceptionStatus != CSR_RX_SUCCESS) - { - unifi_warning(priv, "%s: MA-PACKET indication with status = %d\n", __FUNCTION__, pkt_ind->ReceptionStatus); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - - skb = (struct sk_buff*)bulkdata->d[0].os_net_buf_ptr; - skb->len = bulkdata->d[0].data_length; - - /* Point to the addresses */ - toDs = (skb->data[1] & 0x01) ? 1 : 0; - fromDs = (skb->data[1] & 0x02) ? 1 : 0; - - memcpy(da, (skb->data+4+toDs*12), ETH_ALEN);/* Address1 or 3 */ - memcpy(sa, (skb->data+10+fromDs*(6+toDs*8)), ETH_ALEN); /* Address2, 3 or 4 */ - - /* Find the BSSID, which will be used to match the BA session */ - if (toDs && fromDs) - { - unifi_trace(priv, UDBG6, "4 address frame - don't try to find BSSID\n"); - bssid = NULL; - } - else - { - bssid = (u8 *) (skb->data + 4 + 12 - (fromDs * 6) - (toDs * 12)); - } - - pData = &bulkdata->d[0]; - frameControl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(pData->os_data_ptr); - frameType = ((frameControl & 0x000C) >> 2); - - unifi_trace(priv, UDBG3, "Rx Frame Type: %d sn: %d\n", frameType, - (le16_to_cpu(*((u16*)(bulkdata->d[0].os_data_ptr + IEEE802_11_SEQUENCE_CONTROL_OFFSET))) >> 4) & 0xfff); - if(frameType == IEEE802_11_FRAMETYPE_CONTROL){ -#ifdef CSR_SUPPORT_SME - unifi_trace(priv, UDBG6, "%s: Received Control Frame\n", __FUNCTION__); - - if((frameControl & 0x00f0) == 0x00A0){ - /* This is a PS-POLL request */ - u8 pmBit = (frameControl & 0x1000)?0x01:0x00; - unifi_trace(priv, UDBG6, "%s: Received PS-POLL Frame\n", __FUNCTION__); - - uf_process_ps_poll(priv, sa, da, pmBit, interfaceTag); - } - else { - unifi_warning(priv, "%s: Non PS-POLL control frame is received\n", __FUNCTION__); - } -#endif - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - if(frameType != IEEE802_11_FRAMETYPE_DATA) { - unifi_warning(priv, "%s: Non control Non Data frame is received\n", __FUNCTION__); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - -#ifdef CSR_SUPPORT_SME - if((interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP) || - (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO)){ - - srcStaInfo = CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, sa, interfaceTag); - - if(srcStaInfo == NULL) { - CsrWifiMacAddress peerMacAddress; - /* Unknown data PDU */ - memcpy(peerMacAddress.a, sa, ETH_ALEN); - unifi_trace(priv, UDBG1, "%s: Unexpected frame from peer = %x:%x:%x:%x:%x:%x\n", __FUNCTION__, - sa[0], sa[1], sa[2], sa[3], sa[4], sa[5]); - CsrWifiRouterCtrlUnexpectedFrameIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, peerMacAddress); - unifi_net_data_free(priv, &bulkdata->d[0]); - return; - } - - /* - verify power management bit here so as to ensure host and unifi are always - in sync with power management status of peer. - - If we do it later, it may so happen we have stored the frame in BA re-ordering - buffer and hence host and unifi are out of sync for power management status - */ - - pmBit = (frameControl & 0x1000)?0x01:0x00; - powerSaveChanged = uf_process_pm_bit_for_peer(priv, srcStaInfo, pmBit, interfaceTag); - - /* Update station last activity time */ - srcStaInfo->activity_flag = TRUE; - - /* For Qos Frame if PM bit is toggled to indicate the change in power save state then it shall not be - considered as Trigger Frame. Enter only if WMM STA and peer is in Power save */ - - dataFrameType = ((frameControl & 0x00f0) >> 4); - - if((powerSaveChanged == FALSE)&&(srcStaInfo->wmmOrQosEnabled == TRUE)&& - (srcStaInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE)){ - - if((dataFrameType == QOS_DATA) || (dataFrameType == QOS_DATA_NULL)){ - - /* - * QoS control field is offset from frame control by 2 (frame control) - * + 2 (duration/ID) + 2 (sequence control) + 3*ETH_ALEN or 4*ETH_ALEN - */ - if((frameControl & IEEE802_11_FC_TO_DS_MASK) && (frameControl & IEEE802_11_FC_FROM_DS_MASK)){ - qosControl= CSR_GET_UINT16_FROM_LITTLE_ENDIAN(pData->os_data_ptr + 30); - } - else{ - qosControl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(pData->os_data_ptr + 24); - } - unifi_trace(priv, UDBG5, "%s: Check if U-APSD operations are triggered for qosControl: 0x%x\n", __FUNCTION__, qosControl); - uf_process_wmm_deliver_ac_uapsd(priv, srcStaInfo, qosControl, interfaceTag); - } - } - } - -#endif - - if( ((frameControl & 0x00f0) >> 4) == QOS_DATA) { - u8 *qos_control_ptr = (u8*)bulkdata->d[0].os_data_ptr + (((frameControl & IEEE802_11_FC_TO_DS_MASK) && (frameControl & IEEE802_11_FC_FROM_DS_MASK))?30: 24); - int tID = *qos_control_ptr & IEEE802_11_QC_TID_MASK; /* using ls octet of qos control */ - ba_session_rx_struct *ba_session; - u8 ba_session_idx = 0; - /* Get the BA originator address */ - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO){ - ba_addr = sa; - }else{ - ba_addr = bssid; - } - - down(&priv->ba_mutex); - for (ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_RX; ba_session_idx++){ - ba_session = interfacePriv->ba_session_rx[ba_session_idx]; - if (ba_session){ - unifi_trace(priv, UDBG6, "found ba_session=0x%x ba_session_idx=%d", ba_session, ba_session_idx); - if ((!memcmp(ba_session->macAddress.a, ba_addr, ETH_ALEN)) && (ba_session->tID == tID)){ - frame_desc_struct frame_desc; - frame_desc.bulkdata = *bulkdata; - frame_desc.signal = *signal; - frame_desc.sn = (le16_to_cpu(*((u16*)(bulkdata->d[0].os_data_ptr + IEEE802_11_SEQUENCE_CONTROL_OFFSET))) >> 4) & 0xfff; - frame_desc.active = TRUE; - unifi_trace(priv, UDBG6, "%s: calling process_ba_frame (session=%d)\n", __FUNCTION__, ba_session_idx); - process_ba_frame(priv, interfacePriv, ba_session, &frame_desc); - up(&priv->ba_mutex); - process_ba_complete(priv, interfacePriv); - break; - } - } - } - if (ba_session_idx == MAX_SUPPORTED_BA_SESSIONS_RX){ - up(&priv->ba_mutex); - unifi_trace(priv, UDBG6, "%s: calling process_amsdu()", __FUNCTION__); - process_amsdu(priv, signal, bulkdata); - } - } else { - unifi_trace(priv, UDBG6, "calling unifi_rx()"); - unifi_rx(priv, signal, bulkdata); - } - - /* check if the frames in reorder buffer has aged, the check - * is done after receive processing so that if the missing frame - * has arrived in this receive process, then it is handled cleanly. - * - * And also this code here takes care that timeout check is made for all - * the receive indications - */ - down(&priv->ba_mutex); - for (i=0; i < MAX_SUPPORTED_BA_SESSIONS_RX; i++){ - ba_session_rx_struct *ba_session; - ba_session = interfacePriv->ba_session_rx[i]; - if (ba_session){ - check_ba_frame_age_timeout(priv, interfacePriv, ba_session); - } - } - up(&priv->ba_mutex); - process_ba_complete(priv, interfacePriv); - -} -/* - * --------------------------------------------------------------------------- - * uf_set_multicast_list - * - * This function is called by the higher level stack to set - * a list of multicast rx addresses. - * - * Arguments: - * dev Network Device pointer. - * - * Returns: - * None. - * - * Notes: - * --------------------------------------------------------------------------- - */ - -static void -uf_set_multicast_list(struct net_device *dev) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - -#ifdef CSR_NATIVE_LINUX - unifi_trace(priv, UDBG3, "uf_set_multicast_list unsupported\n"); - return; -#else - - u8 *mc_list = interfacePriv->mc_list; - struct netdev_hw_addr *mc_addr; - int mc_addr_count; - - if (priv->init_progress != UNIFI_INIT_COMPLETED) { - return; - } - - mc_addr_count = netdev_mc_count(dev); - - unifi_trace(priv, UDBG3, - "uf_set_multicast_list (count=%d)\n", mc_addr_count); - - - /* Not enough space? */ - if (mc_addr_count > UNIFI_MAX_MULTICAST_ADDRESSES) { - return; - } - - /* Store the list to be processed by the work item. */ - interfacePriv->mc_list_count = mc_addr_count; - netdev_hw_addr_list_for_each(mc_addr, &dev->mc) { - memcpy(mc_list, mc_addr->addr, ETH_ALEN); - mc_list += ETH_ALEN; - } - - /* Send a message to the workqueue */ - queue_work(priv->unifi_workqueue, &priv->multicast_list_task); -#endif - -} /* uf_set_multicast_list() */ - -/* - * --------------------------------------------------------------------------- - * netdev_mlme_event_handler - * - * Callback function to be used as the udi_event_callback when registering - * as a netdev client. - * To use it, a client specifies this function as the udi_event_callback - * to ul_register_client(). The signal dispatcher in - * unifi_receive_event() will call this function to deliver a signal. - * - * Arguments: - * pcli Pointer to the client instance. - * signal Pointer to the received signal. - * signal_len Size of the signal structure in bytes. - * bulkdata Pointer to structure containing any associated bulk data. - * dir Direction of the signal. Zero means from host, - * non-zero means to host. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void -netdev_mlme_event_handler(ul_client_t *pcli, const u8 *sig_packed, int sig_len, - const bulk_data_param_t *bulkdata_o, int dir) -{ - CSR_SIGNAL signal; - unifi_priv_t *priv = uf_find_instance(pcli->instance); - int id, r; - bulk_data_param_t bulkdata; - - /* Just a sanity check */ - if (sig_packed == NULL) { - return; - } - - /* - * This copy is to silence a compiler warning about discarding the - * const qualifier. - */ - bulkdata = *bulkdata_o; - - /* Get the unpacked signal */ - r = read_unpack_signal(sig_packed, &signal); - if (r) { - /* - * The CSR_MLME_CONNECTED_INDICATION_ID has a receiverID=0 so will - * fall through this case. It is safe to ignore this signal. - */ - unifi_trace(priv, UDBG1, - "Netdev - Received unknown signal 0x%.4X.\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sig_packed)); - return; - } - - id = signal.SignalPrimitiveHeader.SignalId; - unifi_trace(priv, UDBG3, "Netdev - Process signal 0x%.4X\n", id); - - /* - * Take the appropriate action for the signal. - */ - switch (id) { - case CSR_MA_PACKET_ERROR_INDICATION_ID: - process_ma_packet_error_ind(priv, &signal, &bulkdata); - break; - case CSR_MA_PACKET_INDICATION_ID: - process_ma_packet_ind(priv, &signal, &bulkdata); - break; - case CSR_MA_PACKET_CONFIRM_ID: - process_ma_packet_cfm(priv, &signal, &bulkdata); - break; -#ifdef CSR_SUPPORT_SME - case CSR_MLME_SET_TIM_CONFIRM_ID: - /* Handle TIM confirms from FW & set the station record's TIM state appropriately, - * In case of failures, tries with max_retransmit limit - */ - uf_handle_tim_cfm(priv, &signal.u.MlmeSetTimConfirm, signal.SignalPrimitiveHeader.ReceiverProcessId); - break; -#endif - case CSR_DEBUG_STRING_INDICATION_ID: - debug_string_indication(priv, bulkdata.d[0].os_data_ptr, bulkdata.d[0].data_length); - break; - - case CSR_DEBUG_WORD16_INDICATION_ID: - debug_word16_indication(priv, &signal); - break; - - case CSR_DEBUG_GENERIC_CONFIRM_ID: - case CSR_DEBUG_GENERIC_INDICATION_ID: - debug_generic_indication(priv, &signal); - break; - default: - break; - } - -} /* netdev_mlme_event_handler() */ - - -/* - * --------------------------------------------------------------------------- - * uf_net_get_name - * - * Retrieve the name (e.g. eth1) associated with this network device - * - * Arguments: - * dev Pointer to the network device. - * name Buffer to write name - * len Size of buffer in bytes - * - * Returns: - * None - * - * Notes: - * --------------------------------------------------------------------------- - */ -void uf_net_get_name(struct net_device *dev, char *name, int len) -{ - *name = '\0'; - if (dev) { - strlcpy(name, dev->name, (len > IFNAMSIZ) ? IFNAMSIZ : len); - } - -} /* uf_net_get_name */ - -#ifdef CSR_SUPPORT_WEXT - -/* - * --------------------------------------------------------------------------- - * uf_netdev_event - * - * Callback function to handle netdev state changes - * - * Arguments: - * notif Pointer to a notifier_block. - * event Event prompting notification - * ptr net_device pointer - * - * Returns: - * None - * - * Notes: - * The event handler is global, and may occur on non-UniFi netdevs. - * --------------------------------------------------------------------------- - */ -static int -uf_netdev_event(struct notifier_block *notif, unsigned long event, void* ptr) { - struct net_device *netdev = netdev_notifier_info_to_dev(ptr); - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(netdev); - unifi_priv_t *priv = NULL; - static const CsrWifiMacAddress broadcast_address = {{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}}; - - /* Check that the event is for a UniFi netdev. If it's not, the netdev_priv - * structure is not safe to use. - */ - if (uf_find_netdev_priv(interfacePriv) == -1) { - unifi_trace(NULL, UDBG1, "uf_netdev_event: ignore e=%d, ptr=%p, priv=%p %s\n", - event, ptr, interfacePriv, netdev->name); - return 0; - } - - switch(event) { - case NETDEV_CHANGE: - priv = interfacePriv->privPtr; - unifi_trace(priv, UDBG1, "NETDEV_CHANGE: %p %s %s waiting for it\n", - ptr, - netdev->name, - interfacePriv->wait_netdev_change ? "" : "not"); - - if (interfacePriv->wait_netdev_change) { - netif_tx_wake_all_queues(priv->netdev[interfacePriv->InterfaceTag]); - interfacePriv->connected = UnifiConnected; - interfacePriv->wait_netdev_change = FALSE; - /* Note: passing the broadcast address here will allow anyone to attempt to join our adhoc network */ - uf_process_rx_pending_queue(priv, UF_UNCONTROLLED_PORT_Q, broadcast_address, 1, interfacePriv->InterfaceTag); - uf_process_rx_pending_queue(priv, UF_CONTROLLED_PORT_Q, broadcast_address, 1, interfacePriv->InterfaceTag); - } - break; - - default: - break; - } - return 0; -} - -static struct notifier_block uf_netdev_notifier = { - .notifier_call = uf_netdev_event, -}; -#endif /* CSR_SUPPORT_WEXT */ - - -static void - process_amsdu(unifi_priv_t *priv, CSR_SIGNAL *signal, bulk_data_param_t *bulkdata) -{ - u32 offset; - u32 length = bulkdata->d[0].data_length; - u32 subframe_length, subframe_body_length, dot11_hdr_size; - u8 *ptr; - bulk_data_param_t subframe_bulkdata; - u8 *dot11_hdr_ptr = (u8*)bulkdata->d[0].os_data_ptr; - CsrResult csrResult; - u16 frameControl; - u8 *qos_control_ptr; - - frameControl = le16_to_cpu(*((u16*)dot11_hdr_ptr)); - qos_control_ptr = dot11_hdr_ptr + (((frameControl & IEEE802_11_FC_TO_DS_MASK) && (frameControl & IEEE802_11_FC_FROM_DS_MASK))?30: 24); - if(!(*qos_control_ptr & IEEE802_11_QC_A_MSDU_PRESENT)) { - unifi_trace(priv, UDBG6, "%s: calling unifi_rx()", __FUNCTION__); - unifi_rx(priv, signal, bulkdata); - return; - } - *qos_control_ptr &= ~(IEEE802_11_QC_A_MSDU_PRESENT); - - ptr = qos_control_ptr + 2; - offset = dot11_hdr_size = ptr - dot11_hdr_ptr; - - while(length > (offset + sizeof(struct ethhdr) + sizeof(llc_snap_hdr_t))) { - subframe_body_length = ntohs(((struct ethhdr*)ptr)->h_proto); - if(subframe_body_length > IEEE802_11_MAX_DATA_LEN) { - unifi_error(priv, "%s: bad subframe_body_length = %d\n", __FUNCTION__, subframe_body_length); - break; - } - subframe_length = sizeof(struct ethhdr) + subframe_body_length; - memset(&subframe_bulkdata, 0, sizeof(bulk_data_param_t)); - - csrResult = unifi_net_data_malloc(priv, &subframe_bulkdata.d[0], dot11_hdr_size + subframe_body_length); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "%s: unifi_net_data_malloc failed\n", __FUNCTION__); - break; - } - - memcpy((u8*)subframe_bulkdata.d[0].os_data_ptr, dot11_hdr_ptr, dot11_hdr_size); - - - /* When to DS=0 and from DS=0, address 3 will already have BSSID so no need to re-program */ - if ((frameControl & IEEE802_11_FC_TO_DS_MASK) && !(frameControl & IEEE802_11_FC_FROM_DS_MASK)){ - memcpy((u8*)subframe_bulkdata.d[0].os_data_ptr + IEEE802_11_ADDR3_OFFSET, ((struct ethhdr*)ptr)->h_dest, ETH_ALEN); - } - else if (!(frameControl & IEEE802_11_FC_TO_DS_MASK) && (frameControl & IEEE802_11_FC_FROM_DS_MASK)){ - memcpy((u8*)subframe_bulkdata.d[0].os_data_ptr + IEEE802_11_ADDR3_OFFSET, - ((struct ethhdr*)ptr)->h_source, - ETH_ALEN); - } - - memcpy((u8*)subframe_bulkdata.d[0].os_data_ptr + dot11_hdr_size, - ptr + sizeof(struct ethhdr), - subframe_body_length); - unifi_trace(priv, UDBG6, "%s: calling unifi_rx. length = %d subframe_length = %d\n", __FUNCTION__, length, subframe_length); - unifi_rx(priv, signal, &subframe_bulkdata); - - subframe_length = (subframe_length + 3)&(~0x3); - ptr += subframe_length; - offset += subframe_length; - } - unifi_net_data_free(priv, &bulkdata->d[0]); -} - - -#define SN_TO_INDEX(__ba_session, __sn) (((__sn - __ba_session->start_sn) & 0xFFF) % __ba_session->wind_size) - - -#define ADVANCE_EXPECTED_SN(__ba_session) \ -{ \ - __ba_session->expected_sn++; \ - __ba_session->expected_sn &= 0xFFF; \ -} - -#define FREE_BUFFER_SLOT(__ba_session, __index) \ -{ \ - __ba_session->occupied_slots--; \ - __ba_session->buffer[__index].active = FALSE; \ - ADVANCE_EXPECTED_SN(__ba_session); \ -} - -static void add_frame_to_ba_complete(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - frame_desc_struct *frame_desc) -{ - interfacePriv->ba_complete[interfacePriv->ba_complete_index] = *frame_desc; - interfacePriv->ba_complete_index++; -} - - -static void update_expected_sn(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session, - u16 sn) -{ - int i, j; - u16 gap; - - gap = (sn - ba_session->expected_sn) & 0xFFF; - unifi_trace(priv, UDBG6, "%s: process the frames up to new_expected_sn = %d gap = %d\n", __FUNCTION__, sn, gap); - for(j = 0; j < gap && j < ba_session->wind_size; j++) { - i = SN_TO_INDEX(ba_session, ba_session->expected_sn); - unifi_trace(priv, UDBG6, "%s: process the slot index = %d\n", __FUNCTION__, i); - if(ba_session->buffer[i].active) { - add_frame_to_ba_complete(priv, interfacePriv, &ba_session->buffer[i]); - unifi_trace(priv, UDBG6, "%s: process the frame at index = %d expected_sn = %d\n", __FUNCTION__, i, ba_session->expected_sn); - FREE_BUFFER_SLOT(ba_session, i); - } else { - unifi_trace(priv, UDBG6, "%s: empty slot at index = %d\n", __FUNCTION__, i); - ADVANCE_EXPECTED_SN(ba_session); - } - } - ba_session->expected_sn = sn; -} - - -static void complete_ready_sequence(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session) -{ - int i; - - i = SN_TO_INDEX(ba_session, ba_session->expected_sn); - while (ba_session->buffer[i].active) { - add_frame_to_ba_complete(priv, interfacePriv, &ba_session->buffer[i]); - unifi_trace(priv, UDBG6, "%s: completed stored frame(expected_sn=%d) at i = %d\n", __FUNCTION__, ba_session->expected_sn, i); - FREE_BUFFER_SLOT(ba_session, i); - i = SN_TO_INDEX(ba_session, ba_session->expected_sn); - } -} - - -void scroll_ba_window(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session, - u16 sn) -{ - if(((sn - ba_session->expected_sn) & 0xFFF) <= 2048) { - update_expected_sn(priv, interfacePriv, ba_session, sn); - complete_ready_sequence(priv, interfacePriv, ba_session); - } -} - - -static int consume_frame_or_get_buffer_index(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session, - u16 sn, - frame_desc_struct *frame_desc) { - int i; - u16 sn_temp; - - if(((sn - ba_session->expected_sn) & 0xFFF) <= 2048) { - - /* once we are in BA window, set the flag for BA trigger */ - if(!ba_session->trigger_ba_after_ssn){ - ba_session->trigger_ba_after_ssn = TRUE; - } - - sn_temp = ba_session->expected_sn + ba_session->wind_size; - unifi_trace(priv, UDBG6, "%s: new frame: sn=%d\n", __FUNCTION__, sn); - if(!(((sn - sn_temp) & 0xFFF) > 2048)) { - u16 new_expected_sn; - unifi_trace(priv, UDBG6, "%s: frame is out of window\n", __FUNCTION__); - sn_temp = (sn - ba_session->wind_size) & 0xFFF; - new_expected_sn = (sn_temp + 1) & 0xFFF; - update_expected_sn(priv, interfacePriv, ba_session, new_expected_sn); - } - i = -1; - if (sn == ba_session->expected_sn) { - unifi_trace(priv, UDBG6, "%s: sn = ba_session->expected_sn = %d\n", __FUNCTION__, sn); - ADVANCE_EXPECTED_SN(ba_session); - add_frame_to_ba_complete(priv, interfacePriv, frame_desc); - } else { - i = SN_TO_INDEX(ba_session, sn); - unifi_trace(priv, UDBG6, "%s: sn(%d) != ba_session->expected_sn(%d), i = %d\n", __FUNCTION__, sn, ba_session->expected_sn, i); - if (ba_session->buffer[i].active) { - unifi_trace(priv, UDBG6, "%s: free frame at i = %d\n", __FUNCTION__, i); - i = -1; - unifi_net_data_free(priv, &frame_desc->bulkdata.d[0]); - } - } - } else { - i = -1; - if(!ba_session->trigger_ba_after_ssn){ - unifi_trace(priv, UDBG6, "%s: frame before ssn, pass it up: sn=%d\n", __FUNCTION__, sn); - add_frame_to_ba_complete(priv, interfacePriv, frame_desc); - }else{ - unifi_trace(priv, UDBG6, "%s: old frame, drop: sn=%d, expected_sn=%d\n", __FUNCTION__, sn, ba_session->expected_sn); - unifi_net_data_free(priv, &frame_desc->bulkdata.d[0]); - } - } - return i; -} - - - -static void process_ba_frame(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session, - frame_desc_struct *frame_desc) -{ - int i; - u16 sn = frame_desc->sn; - - if (ba_session->timeout) { - mod_timer(&ba_session->timer, (jiffies + usecs_to_jiffies((ba_session->timeout) * 1024))); - } - unifi_trace(priv, UDBG6, "%s: got frame(sn=%d)\n", __FUNCTION__, sn); - - i = consume_frame_or_get_buffer_index(priv, interfacePriv, ba_session, sn, frame_desc); - if(i >= 0) { - unifi_trace(priv, UDBG6, "%s: store frame(sn=%d) at i = %d\n", __FUNCTION__, sn, i); - ba_session->buffer[i] = *frame_desc; - ba_session->buffer[i].recv_time = CsrTimeGet(NULL); - ba_session->occupied_slots++; - } else { - unifi_trace(priv, UDBG6, "%s: frame consumed - sn = %d\n", __FUNCTION__, sn); - } - complete_ready_sequence(priv, interfacePriv, ba_session); -} - - -static void process_ba_complete(unifi_priv_t *priv, netInterface_priv_t *interfacePriv) -{ - frame_desc_struct *frame_desc; - u8 i; - - for(i = 0; i < interfacePriv->ba_complete_index; i++) { - frame_desc = &interfacePriv->ba_complete[i]; - unifi_trace(priv, UDBG6, "%s: calling process_amsdu()\n", __FUNCTION__); - process_amsdu(priv, &frame_desc->signal, &frame_desc->bulkdata); - } - interfacePriv->ba_complete_index = 0; - -} - - -/* Check if the frames in BA reoder buffer has aged and - * if so release the frames to upper processes and move - * the window - */ -static void check_ba_frame_age_timeout( unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session) -{ - u32 now; - u32 age; - u8 i, j; - u16 sn_temp; - - /* gap is started at 1 because we have buffered frames and - * hence a minimum gap of 1 exists - */ - u8 gap=1; - - now = CsrTimeGet(NULL); - - if (ba_session->occupied_slots) - { - /* expected sequence has not arrived so start searching from next - * sequence number until a frame is available and determine the gap. - * Check if the frame available has timedout, if so advance the - * expected sequence number and release the frames - */ - sn_temp = (ba_session->expected_sn + 1) & 0xFFF; - - for(j = 0; j < ba_session->wind_size; j++) - { - i = SN_TO_INDEX(ba_session, sn_temp); - - if(ba_session->buffer[i].active) - { - unifi_trace(priv, UDBG6, "check age at slot index = %d sn = %d recv_time = %u now = %u\n", - i, - ba_session->buffer[i].sn, - ba_session->buffer[i].recv_time, - now); - - if (ba_session->buffer[i].recv_time > now) - { - /* timer wrap */ - age = CsrTimeAdd((u32)CsrTimeSub(CSR_SCHED_TIME_MAX, ba_session->buffer[i].recv_time), now); - } - else - { - age = (u32)CsrTimeSub(now, ba_session->buffer[i].recv_time); - } - - if (age >= CSR_WIFI_BA_MPDU_FRAME_AGE_TIMEOUT) - { - unifi_trace(priv, UDBG2, "release the frame at index = %d gap = %d expected_sn = %d sn = %d\n", - i, - gap, - ba_session->expected_sn, - ba_session->buffer[i].sn); - - /* if it has timedout don't wait for missing frames, move the window */ - while (gap--) - { - ADVANCE_EXPECTED_SN(ba_session); - } - add_frame_to_ba_complete(priv, interfacePriv, &ba_session->buffer[i]); - FREE_BUFFER_SLOT(ba_session, i); - complete_ready_sequence(priv, interfacePriv, ba_session); - } - break; - - } - else - { - /* advance temp sequence number and frame gap */ - sn_temp = (sn_temp + 1) & 0xFFF; - gap++; - } - } - } -} - - -static void process_ma_packet_error_ind(unifi_priv_t *priv, CSR_SIGNAL *signal, bulk_data_param_t *bulkdata) -{ - u16 interfaceTag; - const CSR_MA_PACKET_ERROR_INDICATION *pkt_err_ind = &signal->u.MaPacketErrorIndication; - netInterface_priv_t *interfacePriv; - ba_session_rx_struct *ba_session; - u8 ba_session_idx = 0; - CSR_PRIORITY UserPriority; - CSR_SEQUENCE_NUMBER sn; - - interfaceTag = (pkt_err_ind->VirtualInterfaceIdentifier & 0xff); - - - /* Sanity check that the VIF refers to a sensible interface */ - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) - { - unifi_error(priv, "%s: MaPacketErrorIndication indication with bad interfaceTag %d\n", __FUNCTION__, interfaceTag); - return; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - UserPriority = pkt_err_ind->UserPriority; - if(UserPriority > 15) { - unifi_error(priv, "%s: MaPacketErrorIndication indication with bad UserPriority=%d\n", __FUNCTION__, UserPriority); - } - sn = pkt_err_ind->SequenceNumber; - - down(&priv->ba_mutex); - /* To find the right ba_session loop through the BA sessions, compare MAC address and tID */ - for (ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_RX; ba_session_idx++){ - ba_session = interfacePriv->ba_session_rx[ba_session_idx]; - if (ba_session){ - if ((!memcmp(ba_session->macAddress.a, pkt_err_ind->PeerQstaAddress.x, ETH_ALEN)) && (ba_session->tID == UserPriority)){ - if (ba_session->timeout) { - mod_timer(&ba_session->timer, (jiffies + usecs_to_jiffies((ba_session->timeout) * 1024))); - } - scroll_ba_window(priv, interfacePriv, ba_session, sn); - break; - } - } - } - - up(&priv->ba_mutex); - process_ba_complete(priv, interfacePriv); -} - - diff --git a/drivers/staging/csr/os.c b/drivers/staging/csr/os.c deleted file mode 100644 index 37ec59d..0000000 --- a/drivers/staging/csr/os.c +++ /dev/null @@ -1,477 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: os.c - * - * PURPOSE: - * Routines to fulfil the OS-abstraction for the HIP lib. - * It is part of the porting exercise. - * - * Copyright (C) 2005-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ - -/** - * The HIP lib OS abstraction consists of the implementation - * of the functions in this file. It is part of the porting exercise. - */ - -#include "unifi_priv.h" - - -/* - * --------------------------------------------------------------------------- - * unifi_net_data_malloc - * - * Allocate an OS specific net data buffer of "size" bytes. - * The bulk_data_slot.os_data_ptr must be initialised to point - * to the buffer allocated. The bulk_data_slot.length must be - * initialised to the requested size, zero otherwise. - * The bulk_data_slot.os_net_buf_ptr can be initialised to - * an OS specific pointer to be used in the unifi_net_data_free(). - * - * - * Arguments: - * ospriv Pointer to device private context struct. - * bulk_data_slot Pointer to the bulk data structure to initialise. - * size Size of the buffer to be allocated. - * - * Returns: - * CSR_RESULT_SUCCESS on success, CSR_RESULT_FAILURE otherwise. - * --------------------------------------------------------------------------- - */ -CsrResult -unifi_net_data_malloc(void *ospriv, bulk_data_desc_t *bulk_data_slot, unsigned int size) -{ - struct sk_buff *skb; - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - int rounded_length; - - if (priv->card_info.sdio_block_size == 0) { - unifi_error(priv, "unifi_net_data_malloc: Invalid SDIO block size\n"); - return CSR_RESULT_FAILURE; - } - - rounded_length = (size + priv->card_info.sdio_block_size - 1) & ~(priv->card_info.sdio_block_size - 1); - - /* - * (ETH_HLEN + 2) bytes tailroom for header manipulation - * CSR_WIFI_ALIGN_BYTES bytes headroom for alignment manipulation - */ - skb = dev_alloc_skb(rounded_length + 2 + ETH_HLEN + CSR_WIFI_ALIGN_BYTES); - if (! skb) { - unifi_error(ospriv, "alloc_skb failed.\n"); - bulk_data_slot->os_net_buf_ptr = NULL; - bulk_data_slot->net_buf_length = 0; - bulk_data_slot->os_data_ptr = NULL; - bulk_data_slot->data_length = 0; - return CSR_RESULT_FAILURE; - } - - bulk_data_slot->os_net_buf_ptr = (const unsigned char*)skb; - bulk_data_slot->net_buf_length = rounded_length + 2 + ETH_HLEN + CSR_WIFI_ALIGN_BYTES; - bulk_data_slot->os_data_ptr = (const void*)skb->data; - bulk_data_slot->data_length = size; - - return CSR_RESULT_SUCCESS; -} /* unifi_net_data_malloc() */ - -/* - * --------------------------------------------------------------------------- - * unifi_net_data_free - * - * Free an OS specific net data buffer. - * The bulk_data_slot.length must be initialised to 0. - * - * - * Arguments: - * ospriv Pointer to device private context struct. - * bulk_data_slot Pointer to the bulk data structure that - * holds the data to be freed. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -unifi_net_data_free(void *ospriv, bulk_data_desc_t *bulk_data_slot) -{ - struct sk_buff *skb; - CSR_UNUSED(ospriv); - - skb = (struct sk_buff *)bulk_data_slot->os_net_buf_ptr; - dev_kfree_skb(skb); - - bulk_data_slot->net_buf_length = 0; - bulk_data_slot->data_length = 0; - bulk_data_slot->os_data_ptr = bulk_data_slot->os_net_buf_ptr = NULL; - -} /* unifi_net_data_free() */ - - -/* -* --------------------------------------------------------------------------- -* unifi_net_dma_align -* -* DMA align an OS specific net data buffer. -* The buffer must be empty. -* -* -* Arguments: -* ospriv Pointer to device private context struct. -* bulk_data_slot Pointer to the bulk data structure that -* holds the data to be aligned. -* -* Returns: -* None. -* --------------------------------------------------------------------------- -*/ -CsrResult -unifi_net_dma_align(void *ospriv, bulk_data_desc_t *bulk_data_slot) -{ - struct sk_buff *skb; - unsigned long buf_address; - int offset; - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - - if ((bulk_data_slot == NULL) || (CSR_WIFI_ALIGN_BYTES == 0)) { - return CSR_RESULT_SUCCESS; - } - - if ((bulk_data_slot->os_data_ptr == NULL) || (bulk_data_slot->data_length == 0)) { - return CSR_RESULT_SUCCESS; - } - - buf_address = (unsigned long)(bulk_data_slot->os_data_ptr) & (CSR_WIFI_ALIGN_BYTES - 1); - - unifi_trace(priv, UDBG5, - "unifi_net_dma_align: Allign buffer (0x%p) by %d bytes\n", - bulk_data_slot->os_data_ptr, buf_address); - - offset = CSR_WIFI_ALIGN_BYTES - buf_address; - if (offset < 0) { - unifi_error(priv, "unifi_net_dma_align: Failed (offset=%d)\n", offset); - return CSR_RESULT_FAILURE; - } - - skb = (struct sk_buff*)(bulk_data_slot->os_net_buf_ptr); - skb_reserve(skb, offset); - bulk_data_slot->os_net_buf_ptr = (const unsigned char*)skb; - bulk_data_slot->os_data_ptr = (const void*)(skb->data); - - return CSR_RESULT_SUCCESS; - -} /* unifi_net_dma_align() */ - -#ifdef ANDROID_TIMESTAMP -static volatile unsigned int printk_cpu = UINT_MAX; -char tbuf[30]; - -char* print_time(void ) -{ - unsigned long long t; - unsigned long nanosec_rem; - - t = cpu_clock(printk_cpu); - nanosec_rem = do_div(t, 1000000000); - sprintf(tbuf, "[%5lu.%06lu] ", - (unsigned long) t, - nanosec_rem / 1000); - - return tbuf; -} -#endif - - -/* Module parameters */ -extern int unifi_debug; - -#ifdef UNIFI_DEBUG -#define DEBUG_BUFFER_SIZE 120 - -#define FORMAT_TRACE(_s, _len, _args, _fmt) \ - do { \ - va_start(_args, _fmt); \ - _len += vsnprintf(&(_s)[_len], \ - (DEBUG_BUFFER_SIZE - _len), \ - _fmt, _args); \ - va_end(_args); \ - if (_len >= DEBUG_BUFFER_SIZE) { \ - (_s)[DEBUG_BUFFER_SIZE - 2] = '\n'; \ - (_s)[DEBUG_BUFFER_SIZE - 1] = 0; \ - } \ - } while (0) - -void -unifi_error(void* ospriv, const char *fmt, ...) -{ - unifi_priv_t *priv = (unifi_priv_t*) ospriv; - char s[DEBUG_BUFFER_SIZE]; - va_list args; - unsigned int len; -#ifdef ANDROID_TIMESTAMP - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_ERR "%s unifi%d: ", print_time(), priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_ERR "%s unifi: ", print_time()); - } -#else - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_ERR "unifi%d: ", priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_ERR "unifi: "); - } -#endif /* ANDROID_TIMESTAMP */ - FORMAT_TRACE(s, len, args, fmt); - - printk("%s", s); -} - -void -unifi_warning(void* ospriv, const char *fmt, ...) -{ - unifi_priv_t *priv = (unifi_priv_t*) ospriv; - char s[DEBUG_BUFFER_SIZE]; - va_list args; - unsigned int len; - -#ifdef ANDROID_TIMESTAMP - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_WARNING "%s unifi%d: ", print_time(), priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_WARNING "%s unifi: ", print_time()); - } -#else - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_WARNING "unifi%d: ", priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_WARNING "unifi: "); - } -#endif /* ANDROID_TIMESTAMP */ - - FORMAT_TRACE(s, len, args, fmt); - - printk("%s", s); -} - - -void -unifi_notice(void* ospriv, const char *fmt, ...) -{ - unifi_priv_t *priv = (unifi_priv_t*) ospriv; - char s[DEBUG_BUFFER_SIZE]; - va_list args; - unsigned int len; - -#ifdef ANDROID_TIMESTAMP - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_NOTICE "%s unifi%d: ", print_time(), priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_NOTICE "%s unifi: ", print_time()); - } -#else - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_NOTICE "unifi%d: ", priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_NOTICE "unifi: "); - } -#endif /* ANDROID_TIMESTAMP */ - - FORMAT_TRACE(s, len, args, fmt); - - printk("%s", s); -} - - -void -unifi_info(void* ospriv, const char *fmt, ...) -{ - unifi_priv_t *priv = (unifi_priv_t*) ospriv; - char s[DEBUG_BUFFER_SIZE]; - va_list args; - unsigned int len; - -#ifdef ANDROID_TIMESTAMP - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_INFO "%s unifi%d: ", print_time(), priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_INFO "%s unifi: ", print_time()); - } -#else - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_INFO "unifi%d: ", priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_INFO "unifi: "); - } -#endif /* ANDROID_TIMESTAMP */ - - FORMAT_TRACE(s, len, args, fmt); - - printk("%s", s); -} - -/* debugging */ -void -unifi_trace(void* ospriv, int level, const char *fmt, ...) -{ - unifi_priv_t *priv = (unifi_priv_t*) ospriv; - char s[DEBUG_BUFFER_SIZE]; - va_list args; - unsigned int len; - - if (unifi_debug >= level) { -#ifdef ANDROID_TIMESTAMP - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_ERR "%s unifi%d: ", print_time(), priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_ERR "%s unifi: ", print_time()); - } -#else - if (priv != NULL) { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_ERR "unifi%d: ", priv->instance); - } else { - len = snprintf(s, DEBUG_BUFFER_SIZE, KERN_ERR "unifi: "); - } -#endif /* ANDROID_TIMESTAMP */ - - FORMAT_TRACE(s, len, args, fmt); - - printk("%s", s); - } -} - -#else - -void -unifi_error_nop(void* ospriv, const char *fmt, ...) -{ -} - -void -unifi_trace_nop(void* ospriv, int level, const char *fmt, ...) -{ -} - -#endif /* UNIFI_DEBUG */ - - -/* - * --------------------------------------------------------------------------- - * - * Debugging support. - * - * --------------------------------------------------------------------------- - */ - -#ifdef UNIFI_DEBUG - -/* Memory dump with level filter controlled by unifi_debug */ -void -unifi_dump(void *ospriv, int level, const char *msg, void *mem, u16 len) -{ - unifi_priv_t *priv = (unifi_priv_t*) ospriv; - - if (unifi_debug >= level) { -#ifdef ANDROID_TIMESTAMP - if (priv != NULL) { - printk(KERN_ERR "%s unifi%d: --- dump: %s ---\n", print_time(), priv->instance, msg ? msg : ""); - } else { - printk(KERN_ERR "%s unifi: --- dump: %s ---\n", print_time(), msg ? msg : ""); - } -#else - if (priv != NULL) { - printk(KERN_ERR "unifi%d: --- dump: %s ---\n", priv->instance, msg ? msg : ""); - } else { - printk(KERN_ERR "unifi: --- dump: %s ---\n", msg ? msg : ""); - } -#endif /* ANDROID_TIMESTAMP */ - dump(mem, len); - - if (priv != NULL) { - printk(KERN_ERR "unifi%d: --- end of dump ---\n", priv->instance); - } else { - printk(KERN_ERR "unifi: --- end of dump ---\n"); - } - } -} - -/* Memory dump that appears all the time, use sparingly */ -void -dump(void *mem, u16 len) -{ - int i, col = 0; - unsigned char *pdata = (unsigned char *)mem; -#ifdef ANDROID_TIMESTAMP - printk("timestamp %s \n", print_time()); -#endif /* ANDROID_TIMESTAMP */ - if (mem == NULL) { - printk("(null dump)\n"); - return; - } - for (i = 0; i < len; i++) { - if (col == 0) - printk("0x%02X: ", i); - - printk(" %02X", pdata[i]); - - if (++col == 16) { - printk("\n"); - col = 0; - } - } - if (col) - printk("\n"); -} /* dump() */ - - -void -dump16(void *mem, u16 len) -{ - int i, col=0; - unsigned short *p = (unsigned short *)mem; -#ifdef ANDROID_TIMESTAMP - printk("timestamp %s \n", print_time()); -#endif /* ANDROID_TIMESTAMP */ - for (i = 0; i < len; i+=2) { - if (col == 0) - printk("0x%02X: ", i); - - printk(" %04X", *p++); - - if (++col == 8) { - printk("\n"); - col = 0; - } - } - if (col) - printk("\n"); -} - - -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -void -dump_str(void *mem, u16 len) -{ - int i; - unsigned char *pdata = (unsigned char *)mem; -#ifdef ANDROID_TIMESTAMP - printk("timestamp %s \n", print_time()); -#endif /* ANDROID_TIMESTAMP */ - for (i = 0; i < len; i++) { - printk("%c", pdata[i]); - } - printk("\n"); - -} /* dump_str() */ -#endif /* CSR_ONLY_NOTES */ - - -#endif /* UNIFI_DEBUG */ - - -/* --------------------------------------------------------------------------- - * - End - - * ------------------------------------------------------------------------- */ diff --git a/drivers/staging/csr/putest.c b/drivers/staging/csr/putest.c deleted file mode 100644 index 5613cf0..0000000 --- a/drivers/staging/csr/putest.c +++ /dev/null @@ -1,685 +0,0 @@ -/* - * *************************************************************************** - * FILE: putest.c - * - * PURPOSE: putest related functions. - * - * Copyright (C) 2008-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * *************************************************************************** - */ - -#include <linux/vmalloc.h> -#include <linux/firmware.h> - -#include "unifi_priv.h" -#include "csr_wifi_hip_chiphelper.h" - -#define UNIFI_PROC_BOTH 3 - - -int unifi_putest_cmd52_read(unifi_priv_t *priv, unsigned char *arg) -{ - struct unifi_putest_cmd52 cmd52_params; - u8 *arg_pos; - unsigned int cmd_param_size; - int r; - CsrResult csrResult; - unsigned char ret_buffer[32]; - u8 *ret_buffer_pos; - u8 retries; - - arg_pos = (u8*)(((unifi_putest_command_t*)arg) + 1); - if (get_user(cmd_param_size, (int*)arg_pos)) { - unifi_error(priv, - "unifi_putest_cmd52_read: Failed to get the argument\n"); - return -EFAULT; - } - - if (cmd_param_size != sizeof(struct unifi_putest_cmd52)) { - unifi_error(priv, - "unifi_putest_cmd52_read: cmd52 struct mismatch\n"); - return -EINVAL; - } - - arg_pos += sizeof(unsigned int); - if (copy_from_user(&cmd52_params, - (void*)arg_pos, - sizeof(struct unifi_putest_cmd52))) { - unifi_error(priv, - "unifi_putest_cmd52_read: Failed to get the cmd52 params\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG2, "cmd52r: func=%d addr=0x%x ", - cmd52_params.funcnum, cmd52_params.addr); - - retries = 3; - CsrSdioClaim(priv->sdio); - do { - if (cmd52_params.funcnum == 0) { - csrResult = CsrSdioF0Read8(priv->sdio, cmd52_params.addr, &cmd52_params.data); - } else { - csrResult = CsrSdioRead8(priv->sdio, cmd52_params.addr, &cmd52_params.data); - } - } while (--retries && ((csrResult == CSR_SDIO_RESULT_CRC_ERROR) || (csrResult == CSR_SDIO_RESULT_TIMEOUT))); - CsrSdioRelease(priv->sdio); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, - "\nunifi_putest_cmd52_read: Read8() failed (csrResult=0x%x)\n", csrResult); - return -EFAULT; - } - unifi_trace(priv, UDBG2, "data=%d\n", cmd52_params.data); - - /* Copy the info to the out buffer */ - *(unifi_putest_command_t*)ret_buffer = UNIFI_PUTEST_CMD52_READ; - ret_buffer_pos = (u8*)(((unifi_putest_command_t*)ret_buffer) + 1); - *(unsigned int*)ret_buffer_pos = sizeof(struct unifi_putest_cmd52); - ret_buffer_pos += sizeof(unsigned int); - memcpy(ret_buffer_pos, &cmd52_params, sizeof(struct unifi_putest_cmd52)); - ret_buffer_pos += sizeof(struct unifi_putest_cmd52); - - r = copy_to_user((void*)arg, - ret_buffer, - ret_buffer_pos - ret_buffer); - if (r) { - unifi_error(priv, - "unifi_putest_cmd52_read: Failed to return the data\n"); - return -EFAULT; - } - - return 0; -} - - -int unifi_putest_cmd52_write(unifi_priv_t *priv, unsigned char *arg) -{ - struct unifi_putest_cmd52 cmd52_params; - u8 *arg_pos; - unsigned int cmd_param_size; - CsrResult csrResult; - u8 retries; - - arg_pos = (u8*)(((unifi_putest_command_t*)arg) + 1); - if (get_user(cmd_param_size, (int*)arg_pos)) { - unifi_error(priv, - "unifi_putest_cmd52_write: Failed to get the argument\n"); - return -EFAULT; - } - - if (cmd_param_size != sizeof(struct unifi_putest_cmd52)) { - unifi_error(priv, - "unifi_putest_cmd52_write: cmd52 struct mismatch\n"); - return -EINVAL; - } - - arg_pos += sizeof(unsigned int); - if (copy_from_user(&cmd52_params, - (void*)(arg_pos), - sizeof(struct unifi_putest_cmd52))) { - unifi_error(priv, - "unifi_putest_cmd52_write: Failed to get the cmd52 params\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG2, "cmd52w: func=%d addr=0x%x data=%d\n", - cmd52_params.funcnum, cmd52_params.addr, cmd52_params.data); - - retries = 3; - CsrSdioClaim(priv->sdio); - do { - if (cmd52_params.funcnum == 0) { - csrResult = CsrSdioF0Write8(priv->sdio, cmd52_params.addr, cmd52_params.data); - } else { - csrResult = CsrSdioWrite8(priv->sdio, cmd52_params.addr, cmd52_params.data); - } - } while (--retries && ((csrResult == CSR_SDIO_RESULT_CRC_ERROR) || (csrResult == CSR_SDIO_RESULT_TIMEOUT))); - CsrSdioRelease(priv->sdio); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, - "unifi_putest_cmd52_write: Write8() failed (csrResult=0x%x)\n", csrResult); - return -EFAULT; - } - - return 0; -} - -int unifi_putest_gp_read16(unifi_priv_t *priv, unsigned char *arg) -{ - struct unifi_putest_gp_rw16 gp_r16_params; - u8 *arg_pos; - unsigned int cmd_param_size; - int r; - CsrResult csrResult; - unsigned char ret_buffer[32]; - u8 *ret_buffer_pos; - - arg_pos = (u8*)(((unifi_putest_command_t*)arg) + 1); - if (get_user(cmd_param_size, (int*)arg_pos)) { - unifi_error(priv, - "unifi_putest_gp_read16: Failed to get the argument\n"); - return -EFAULT; - } - - if (cmd_param_size != sizeof(struct unifi_putest_gp_rw16)) { - unifi_error(priv, - "unifi_putest_gp_read16: struct mismatch\n"); - return -EINVAL; - } - - arg_pos += sizeof(unsigned int); - if (copy_from_user(&gp_r16_params, - (void*)arg_pos, - sizeof(struct unifi_putest_gp_rw16))) { - unifi_error(priv, - "unifi_putest_gp_read16: Failed to get the params\n"); - return -EFAULT; - } - CsrSdioClaim(priv->sdio); - csrResult = unifi_card_read16(priv->card, gp_r16_params.addr, &gp_r16_params.data); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, - "unifi_putest_gp_read16: unifi_card_read16() GP=0x%x failed (csrResult=0x%x)\n", gp_r16_params.addr, csrResult); - return -EFAULT; - } - - unifi_trace(priv, UDBG2, "gp_r16: GP=0x%08x, data=0x%04x\n", gp_r16_params.addr, gp_r16_params.data); - - /* Copy the info to the out buffer */ - *(unifi_putest_command_t*)ret_buffer = UNIFI_PUTEST_GP_READ16; - ret_buffer_pos = (u8*)(((unifi_putest_command_t*)ret_buffer) + 1); - *(unsigned int*)ret_buffer_pos = sizeof(struct unifi_putest_gp_rw16); - ret_buffer_pos += sizeof(unsigned int); - memcpy(ret_buffer_pos, &gp_r16_params, sizeof(struct unifi_putest_gp_rw16)); - ret_buffer_pos += sizeof(struct unifi_putest_gp_rw16); - - r = copy_to_user((void*)arg, - ret_buffer, - ret_buffer_pos - ret_buffer); - if (r) { - unifi_error(priv, - "unifi_putest_gp_read16: Failed to return the data\n"); - return -EFAULT; - } - - return 0; -} - -int unifi_putest_gp_write16(unifi_priv_t *priv, unsigned char *arg) -{ - struct unifi_putest_gp_rw16 gp_w16_params; - u8 *arg_pos; - unsigned int cmd_param_size; - CsrResult csrResult; - - arg_pos = (u8*)(((unifi_putest_command_t*)arg) + 1); - if (get_user(cmd_param_size, (int*)arg_pos)) { - unifi_error(priv, - "unifi_putest_gp_write16: Failed to get the argument\n"); - return -EFAULT; - } - - if (cmd_param_size != sizeof(struct unifi_putest_gp_rw16)) { - unifi_error(priv, - "unifi_putest_gp_write16: struct mismatch\n"); - return -EINVAL; - } - - arg_pos += sizeof(unsigned int); - if (copy_from_user(&gp_w16_params, - (void*)(arg_pos), - sizeof(struct unifi_putest_gp_rw16))) { - unifi_error(priv, - "unifi_putest_gp_write16: Failed to get the params\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG2, "gp_w16: GP=0x%08x, data=0x%04x\n", gp_w16_params.addr, gp_w16_params.data); - CsrSdioClaim(priv->sdio); - csrResult = unifi_card_write16(priv->card, gp_w16_params.addr, gp_w16_params.data); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, - "unifi_putest_gp_write16: unifi_card_write16() GP=%x failed (csrResult=0x%x)\n", gp_w16_params.addr, csrResult); - return -EFAULT; - } - - return 0; -} - -int unifi_putest_set_sdio_clock(unifi_priv_t *priv, unsigned char *arg) -{ - int sdio_clock_speed; - CsrResult csrResult; - - if (get_user(sdio_clock_speed, (int*)(((unifi_putest_command_t*)arg) + 1))) { - unifi_error(priv, - "unifi_putest_set_sdio_clock: Failed to get the argument\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG2, "set sdio clock: %d KHz\n", sdio_clock_speed); - - CsrSdioClaim(priv->sdio); - csrResult = CsrSdioMaxBusClockFrequencySet(priv->sdio, sdio_clock_speed * 1000); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, - "unifi_putest_set_sdio_clock: Set clock failed (csrResult=0x%x)\n", csrResult); - return -EFAULT; - } - - return 0; -} - - -int unifi_putest_start(unifi_priv_t *priv, unsigned char *arg) -{ - int r; - CsrResult csrResult; - int already_in_test = priv->ptest_mode; - - /* Ensure that sme_sys_suspend() doesn't power down the chip because: - * 1) Power is needed anyway for ptest. - * 2) The app code uses the START ioctl as a reset, so it gets called - * multiple times. If the app stops the XAPs, but the power_down/up - * sequence doesn't actually power down the chip, there can be problems - * resetting, because part of the power_up sequence disables function 1 - */ - priv->ptest_mode = 1; - - /* Suspend the SME and UniFi */ - if (priv->sme_cli) { - r = sme_sys_suspend(priv); - if (r) { - unifi_error(priv, - "unifi_putest_start: failed to suspend UniFi\n"); - return r; - } - } - - /* Application may have stopped the XAPs, but they are needed for reset */ - if (already_in_test) { - CsrSdioClaim(priv->sdio); - csrResult = unifi_start_processors(priv->card); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "Failed to start XAPs. Hard reset required.\n"); - } - } else { - /* Ensure chip is powered for the case where there's no unifi_helper */ - CsrSdioClaim(priv->sdio); - csrResult = CsrSdioPowerOn(priv->sdio); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "CsrSdioPowerOn csrResult = %d\n", csrResult); - } - } - CsrSdioClaim(priv->sdio); - csrResult = unifi_init(priv->card); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, - "unifi_putest_start: failed to init UniFi\n"); - return CsrHipResultToStatus(csrResult); - } - - return 0; -} - - -int unifi_putest_stop(unifi_priv_t *priv, unsigned char *arg) -{ - int r = 0; - CsrResult csrResult; - - /* Application may have stopped the XAPs, but they are needed for reset */ - CsrSdioClaim(priv->sdio); - csrResult = unifi_start_processors(priv->card); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "Failed to start XAPs. Hard reset required.\n"); - } - - /* PUTEST_STOP is also used to resume the XAPs after SME coredump. - * Don't power off the chip, leave that to the normal wifi-off which is - * about to carry on. No need to resume the SME either, as it wasn't suspended. - */ - if (priv->coredump_mode) { - priv->coredump_mode = 0; - return 0; - } - - /* At this point function 1 is enabled and the XAPs are running, so it is - * safe to let the card power down. Power is restored later, asynchronously, - * during the wifi_on requested by the SME. - */ - CsrSdioClaim(priv->sdio); - CsrSdioPowerOff(priv->sdio); - CsrSdioRelease(priv->sdio); - - /* Resume the SME and UniFi */ - if (priv->sme_cli) { - r = sme_sys_resume(priv); - if (r) { - unifi_error(priv, - "unifi_putest_stop: failed to resume SME\n"); - } - } - priv->ptest_mode = 0; - - return r; -} - - -int unifi_putest_dl_fw(unifi_priv_t *priv, unsigned char *arg) -{ -#define UF_PUTEST_MAX_FW_FILE_NAME 16 -#define UNIFI_MAX_FW_PATH_LEN 32 - unsigned int fw_name_length; - unsigned char fw_name[UF_PUTEST_MAX_FW_FILE_NAME+1]; - unsigned char *name_buffer; - int postfix; - char fw_path[UNIFI_MAX_FW_PATH_LEN]; - const struct firmware *fw_entry; - struct dlpriv temp_fw_sta; - int r; - CsrResult csrResult; - - /* Get the f/w file name length */ - if (get_user(fw_name_length, (unsigned int*)(((unifi_putest_command_t*)arg) + 1))) { - unifi_error(priv, - "unifi_putest_dl_fw: Failed to get the length argument\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG2, "unifi_putest_dl_fw: file name size = %d\n", fw_name_length); - - /* Sanity check for the f/w file name length */ - if (fw_name_length > UF_PUTEST_MAX_FW_FILE_NAME) { - unifi_error(priv, - "unifi_putest_dl_fw: F/W file name is too long\n"); - return -EINVAL; - } - - /* Get the f/w file name */ - name_buffer = ((unsigned char*)arg) + sizeof(unifi_putest_command_t) + sizeof(unsigned int); - if (copy_from_user(fw_name, (void*)name_buffer, fw_name_length)) { - unifi_error(priv, "unifi_putest_dl_fw: Failed to get the file name\n"); - return -EFAULT; - } - fw_name[fw_name_length] = '\0'; - unifi_trace(priv, UDBG2, "unifi_putest_dl_fw: file = %s\n", fw_name); - - /* Keep the existing f/w to a temp, we need to restore it later */ - temp_fw_sta = priv->fw_sta; - - /* Get the putest f/w */ - postfix = priv->instance; - scnprintf(fw_path, UNIFI_MAX_FW_PATH_LEN, "unifi-sdio-%d/%s", - postfix, fw_name); - r = request_firmware(&fw_entry, fw_path, priv->unifi_device); - if (r == 0) { - priv->fw_sta.fw_desc = (void *)fw_entry; - priv->fw_sta.dl_data = fw_entry->data; - priv->fw_sta.dl_len = fw_entry->size; - } else { - unifi_error(priv, "Firmware file not available\n"); - return -EINVAL; - } - - /* Application may have stopped the XAPs, but they are needed for reset */ - CsrSdioClaim(priv->sdio); - csrResult = unifi_start_processors(priv->card); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "Failed to start XAPs. Hard reset required.\n"); - } - - /* Download the f/w. On UF6xxx this will cause the f/w file to convert - * into patch format and download via the ROM boot loader - */ - CsrSdioClaim(priv->sdio); - csrResult = unifi_download(priv->card, 0x0c00); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, - "unifi_putest_dl_fw: failed to download the f/w\n"); - goto free_fw; - } - - /* Free the putest f/w... */ -free_fw: - uf_release_firmware(priv, &priv->fw_sta); - /* ... and restore the original f/w */ - priv->fw_sta = temp_fw_sta; - - return CsrHipResultToStatus(csrResult); -} - - -int unifi_putest_dl_fw_buff(unifi_priv_t *priv, unsigned char *arg) -{ - unsigned int fw_length; - unsigned char *fw_buf = NULL; - unsigned char *fw_user_ptr; - struct dlpriv temp_fw_sta; - CsrResult csrResult; - - /* Get the f/w buffer length */ - if (get_user(fw_length, (unsigned int*)(((unifi_putest_command_t*)arg) + 1))) { - unifi_error(priv, - "unifi_putest_dl_fw_buff: Failed to get the length arg\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG2, "unifi_putest_dl_fw_buff: size = %d\n", fw_length); - - /* Sanity check for the buffer length */ - if (fw_length == 0 || fw_length > 0xfffffff) { - unifi_error(priv, - "unifi_putest_dl_fw_buff: buffer length bad %u\n", fw_length); - return -EINVAL; - } - - /* Buffer for kernel copy of the f/w image */ - fw_buf = kmalloc(fw_length, GFP_KERNEL); - if (!fw_buf) { - unifi_error(priv, "unifi_putest_dl_fw_buff: malloc fail\n"); - return -ENOMEM; - } - - /* Get the f/w image */ - fw_user_ptr = ((unsigned char*)arg) + sizeof(unifi_putest_command_t) + sizeof(unsigned int); - if (copy_from_user(fw_buf, (void*)fw_user_ptr, fw_length)) { - unifi_error(priv, "unifi_putest_dl_fw_buff: Failed to get the buffer\n"); - kfree(fw_buf); - return -EFAULT; - } - - /* Save the existing f/w to a temp, we need to restore it later */ - temp_fw_sta = priv->fw_sta; - - /* Setting fw_desc NULL indicates to the core that no f/w file was loaded - * via the kernel request_firmware() mechanism. This indicates to the core - * that it shouldn't call release_firmware() after the download is done. - */ - priv->fw_sta.fw_desc = NULL; /* No OS f/w resource */ - priv->fw_sta.dl_data = fw_buf; - priv->fw_sta.dl_len = fw_length; - - /* Application may have stopped the XAPs, but they are needed for reset */ - CsrSdioClaim(priv->sdio); - csrResult = unifi_start_processors(priv->card); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "Failed to start XAPs. Hard reset required.\n"); - } - - /* Download the f/w. On UF6xxx this will cause the f/w file to convert - * into patch format and download via the ROM boot loader - */ - CsrSdioClaim(priv->sdio); - csrResult = unifi_download(priv->card, 0x0c00); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, - "unifi_putest_dl_fw_buff: failed to download the f/w\n"); - goto free_fw; - } - -free_fw: - /* Finished with the putest f/w, so restore the station f/w */ - priv->fw_sta = temp_fw_sta; - kfree(fw_buf); - - return CsrHipResultToStatus(csrResult); -} - - -int unifi_putest_coredump_prepare(unifi_priv_t *priv, unsigned char *arg) -{ - u16 data_u16; - s32 i; - CsrResult r; - - unifi_info(priv, "Preparing for SDIO coredump\n"); -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) - unifi_debug_buf_dump(); -#endif - - /* Sanity check that userspace hasn't called a PUTEST_START, because that - * would have reset UniFi, potentially power cycling it and losing context - */ - if (priv->ptest_mode) { - unifi_error(priv, "PUTEST_START shouldn't be used before a coredump\n"); - } - - /* Flag that the userspace has requested coredump. Even if this preparation - * fails, the SME will call PUTEST_STOP to tidy up. - */ - priv->coredump_mode = 1; - - for (i = 0; i < 3; i++) { - CsrSdioClaim(priv->sdio); - r = CsrSdioRead16(priv->sdio, CHIP_HELPER_UNIFI_GBL_CHIP_VERSION*2, &data_u16); - CsrSdioRelease(priv->sdio); - if (r != CSR_RESULT_SUCCESS) { - unifi_info(priv, "Failed to read chip version! Try %d\n", i); - - /* First try, re-enable function which may have been disabled by f/w panic */ - if (i == 0) { - unifi_info(priv, "Try function enable\n"); - CsrSdioClaim(priv->sdio); - r = CsrSdioFunctionEnable(priv->sdio); - CsrSdioRelease(priv->sdio); - if (r != CSR_RESULT_SUCCESS) { - unifi_error(priv, "CsrSdioFunctionEnable failed %d\n", r); - } - continue; - } - - /* Subsequent tries, reset */ - - /* Set clock speed low */ - CsrSdioClaim(priv->sdio); - r = CsrSdioMaxBusClockFrequencySet(priv->sdio, UNIFI_SDIO_CLOCK_SAFE_HZ); - CsrSdioRelease(priv->sdio); - if (r != CSR_RESULT_SUCCESS) { - unifi_error(priv, "CsrSdioMaxBusClockFrequencySet() failed %d\n", r); - } - - /* Card software reset */ - CsrSdioClaim(priv->sdio); - r = unifi_card_hard_reset(priv->card); - CsrSdioRelease(priv->sdio); - if (r != CSR_RESULT_SUCCESS) { - unifi_error(priv, "unifi_card_hard_reset() failed %d\n", r); - } - } else { - unifi_info(priv, "Read chip version of 0x%04x\n", data_u16); - break; - } - } - - if (r != CSR_RESULT_SUCCESS) { - unifi_error(priv, "Failed to prepare chip\n"); - return -EIO; - } - - /* Stop the XAPs for coredump. The PUTEST_STOP must be called, e.g. at - * Raw SDIO deinit, to resume them. - */ - CsrSdioClaim(priv->sdio); - r = unifi_card_stop_processor(priv->card, UNIFI_PROC_BOTH); - CsrSdioRelease(priv->sdio); - if (r != CSR_RESULT_SUCCESS) { - unifi_error(priv, "Failed to stop processors\n"); - } - - return 0; -} - -int unifi_putest_cmd52_block_read(unifi_priv_t *priv, unsigned char *arg) -{ - struct unifi_putest_block_cmd52_r block_cmd52; - u8 *arg_pos; - unsigned int cmd_param_size; - CsrResult r; - u8 *block_local_buffer; - - arg_pos = (u8*)(((unifi_putest_command_t*)arg) + 1); - if (get_user(cmd_param_size, (int*)arg_pos)) { - unifi_error(priv, - "cmd52r_block: Failed to get the argument\n"); - return -EFAULT; - } - - if (cmd_param_size != sizeof(struct unifi_putest_block_cmd52_r)) { - unifi_error(priv, - "cmd52r_block: cmd52 struct mismatch\n"); - return -EINVAL; - } - - arg_pos += sizeof(unsigned int); - if (copy_from_user(&block_cmd52, - (void*)arg_pos, - sizeof(struct unifi_putest_block_cmd52_r))) { - unifi_error(priv, - "cmd52r_block: Failed to get the cmd52 params\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG2, "cmd52r_block: func=%d addr=0x%x len=0x%x ", - block_cmd52.funcnum, block_cmd52.addr, block_cmd52.length); - - block_local_buffer = vmalloc(block_cmd52.length); - if (block_local_buffer == NULL) { - unifi_error(priv, "cmd52r_block: Failed to allocate buffer\n"); - return -ENOMEM; - } - - CsrSdioClaim(priv->sdio); - r = unifi_card_readn(priv->card, block_cmd52.addr, block_local_buffer, block_cmd52.length); - CsrSdioRelease(priv->sdio); - if (r != CSR_RESULT_SUCCESS) { - unifi_error(priv, "cmd52r_block: unifi_readn failed\n"); - return -EIO; - } - - if (copy_to_user((void*)block_cmd52.data, - block_local_buffer, - block_cmd52.length)) { - unifi_error(priv, - "cmd52r_block: Failed to return the data\n"); - return -EFAULT; - } - - return 0; -} diff --git a/drivers/staging/csr/sdio_events.c b/drivers/staging/csr/sdio_events.c deleted file mode 100644 index 2a80b9e..0000000 --- a/drivers/staging/csr/sdio_events.c +++ /dev/null @@ -1,134 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: sdio_events.c - * - * PURPOSE: - * Process the events received by the SDIO glue layer. - * Optional part of the porting exercise. - * - * Copyright (C) 2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include "unifi_priv.h" - - -/* - * Porting Notes: - * There are two ways to support the suspend/resume system events in a driver. - * In some operating systems these events are delivered to the OS driver - * directly from the system. In this case, the OS driver needs to pass these - * events to the API described in the CSR SDIO Abstration API document. - * In Linux, and other embedded operating systems, the suspend/resume events - * come from the SDIO driver. In this case, simply get these events in the - * SDIO glue layer and notify the OS layer. - * - * In either case, typically, the events are processed by the SME. - * Use the unifi_sys_suspend_ind() and unifi_sys_resume_ind() to pass - * the events to the SME. - */ - -/* - * --------------------------------------------------------------------------- - * unifi_suspend - * - * Handles a suspend request from the SDIO driver. - * - * Arguments: - * ospriv Pointer to OS driver context. - * - * --------------------------------------------------------------------------- - */ -void unifi_suspend(void *ospriv) -{ - unifi_priv_t *priv = ospriv; - int interfaceTag=0; - - /* For powered suspend, tell the resume's wifi_on() not to reinit UniFi */ - priv->wol_suspend = (enable_wol == UNIFI_WOL_OFF) ? FALSE : TRUE; - - unifi_trace(priv, UDBG1, "unifi_suspend: wol_suspend %d, enable_wol %d", - priv->wol_suspend, enable_wol ); - - /* Stop network traffic. */ - /* need to stop all the netdevices*/ - for( interfaceTag=0;interfaceTag<CSR_WIFI_NUM_INTERFACES;interfaceTag++) - { - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - if (interfacePriv->netdev_registered == 1) - { - if( priv->wol_suspend ) { - unifi_trace(priv, UDBG1, "unifi_suspend: Don't netif_carrier_off"); - } else { - unifi_trace(priv, UDBG1, "unifi_suspend: netif_carrier_off"); - netif_carrier_off(priv->netdev[interfaceTag]); - } - netif_tx_stop_all_queues(priv->netdev[interfaceTag]); - } - } - - unifi_trace(priv, UDBG1, "unifi_suspend: suspend SME"); - - sme_sys_suspend(priv); - -} /* unifi_suspend() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_resume - * - * Handles a resume request from the SDIO driver. - * - * Arguments: - * ospriv Pointer to OS driver context. - * - * --------------------------------------------------------------------------- - */ -void unifi_resume(void *ospriv) -{ - unifi_priv_t *priv = ospriv; - int interfaceTag=0; - int r; - int wol = priv->wol_suspend; - - unifi_trace(priv, UDBG1, "unifi_resume: resume SME, enable_wol=%d", enable_wol); - - /* The resume causes wifi-on which will re-enable the BH and reinstall the ISR */ - r = sme_sys_resume(priv); - if (r) { - unifi_error(priv, "Failed to resume UniFi\n"); - } - - /* Resume the network interfaces. For the cold resume case, this will - * happen upon reconnection. - */ - if (wol) { - unifi_trace(priv, UDBG1, "unifi_resume: try to enable carrier"); - - /* need to start all the netdevices*/ - for( interfaceTag=0;interfaceTag<CSR_WIFI_NUM_INTERFACES;interfaceTag++) { - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - unifi_trace(priv, UDBG1, "unifi_resume: interfaceTag %d netdev_registered %d mode %d\n", - interfaceTag, interfacePriv->netdev_registered, interfacePriv->interfaceMode); - - if (interfacePriv->netdev_registered == 1) - { - netif_carrier_on(priv->netdev[interfaceTag]); - netif_tx_start_all_queues(priv->netdev[interfaceTag]); - } - } - - /* Kick the BH thread (with reason=host) to poll for data that may have - * arrived during a powered suspend. This caters for the case where the SME - * doesn't interact with the chip (e.g install autonomous scans) during resume. - */ - unifi_send_signal(priv->card, NULL, 0, NULL); - } - -} /* unifi_resume() */ - diff --git a/drivers/staging/csr/sdio_mmc.c b/drivers/staging/csr/sdio_mmc.c deleted file mode 100644 index 2b503c2..0000000 --- a/drivers/staging/csr/sdio_mmc.c +++ /dev/null @@ -1,1288 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * - * FILE: sdio_mmc.c - * - * PURPOSE: SDIO driver interface for generic MMC stack. - * - * Copyright (C) 2008-2009 by Cambridge Silicon Radio Ltd. - * - * --------------------------------------------------------------------------- - */ -#include <linux/module.h> -#include <linux/init.h> -#include <linux/kernel.h> -#include <linux/mutex.h> -#include <linux/gfp.h> -#include <linux/mmc/core.h> -#include <linux/mmc/card.h> -#include <linux/mmc/host.h> -#include <linux/mmc/sdio_func.h> -#include <linux/mmc/sdio_ids.h> -#include <linux/mmc/sdio.h> -#include <linux/suspend.h> - -#include "unifi_priv.h" - -#ifdef ANDROID_BUILD -struct wake_lock unifi_sdio_wake_lock; /* wakelock to prevent suspend while resuming */ -#endif - -static CsrSdioFunctionDriver *sdio_func_drv; - -#ifdef CONFIG_PM -static int uf_sdio_mmc_power_event(struct notifier_block *this, unsigned long event, void *ptr); -#endif - -/* - * We need to keep track of the power on/off because we can not call - * mmc_power_restore_host() when the card is already powered. - * Even then, we need to patch the MMC driver to add a power_restore handler - * in the mmc_sdio_ops structure. If the MMC driver before 2.6.37 is not patched, - * mmc_power_save_host() and mmc_power_restore_host() are no-ops in the kernel, - * returning immediately (at least on x86). - */ -static int card_is_powered = 1; - -/* MMC uses ENOMEDIUM to indicate card gone away */ - -static CsrResult -ConvertSdioToCsrSdioResult(int r) -{ - CsrResult csrResult = CSR_RESULT_FAILURE; - - switch (r) { - case 0: - csrResult = CSR_RESULT_SUCCESS; - break; - case -EIO: - case -EILSEQ: - csrResult = CSR_SDIO_RESULT_CRC_ERROR; - break; - /* Timeout errors */ - case -ETIMEDOUT: - case -EBUSY: - csrResult = CSR_SDIO_RESULT_TIMEOUT; - break; - case -ENODEV: - case -ENOMEDIUM: - csrResult = CSR_SDIO_RESULT_NO_DEVICE; - break; - case -EINVAL: - csrResult = CSR_SDIO_RESULT_INVALID_VALUE; - break; - case -ENOMEM: - case -ENOSYS: - case -ERANGE: - case -ENXIO: - csrResult = CSR_RESULT_FAILURE; - break; - default: - unifi_warning(NULL, "Unrecognised SDIO error code: %d\n", r); - break; - } - - return csrResult; -} - - -static int -csr_io_rw_direct(struct mmc_card *card, int write, uint8_t fn, - uint32_t addr, uint8_t in, uint8_t* out) -{ - struct mmc_command cmd; - int err; - - BUG_ON(!card); - BUG_ON(fn > 7); - - memset(&cmd, 0, sizeof(struct mmc_command)); - - cmd.opcode = SD_IO_RW_DIRECT; - cmd.arg = write ? 0x80000000 : 0x00000000; - cmd.arg |= fn << 28; - cmd.arg |= (write && out) ? 0x08000000 : 0x00000000; - cmd.arg |= addr << 9; - cmd.arg |= in; - cmd.flags = MMC_RSP_SPI_R5 | MMC_RSP_R5 | MMC_CMD_AC; - - err = mmc_wait_for_cmd(card->host, &cmd, 0); - if (err) - return err; - - /* this function is not exported, so we will need to sort it out here - * for now, lets hard code it to sdio */ - if (0) { - /* old arg (mmc_host_is_spi(card->host)) { */ - /* host driver already reported errors */ - } else { - if (cmd.resp[0] & R5_ERROR) { - printk(KERN_ERR "%s: r5 error 0x%02x\n", - __FUNCTION__, cmd.resp[0]); - return -EIO; - } - if (cmd.resp[0] & R5_FUNCTION_NUMBER) - return -EINVAL; - if (cmd.resp[0] & R5_OUT_OF_RANGE) - return -ERANGE; - } - - if (out) { - if (0) { /* old argument (mmc_host_is_spi(card->host)) */ - *out = (cmd.resp[0] >> 8) & 0xFF; - } - else { - *out = cmd.resp[0] & 0xFF; - } - } - - return CSR_RESULT_SUCCESS; -} - - -CsrResult -CsrSdioRead8(CsrSdioFunction *function, u32 address, u8 *data) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err = 0; - - _sdio_claim_host(func); - *data = sdio_readb(func, address, &err); - _sdio_release_host(func); - - if (err) { - return ConvertSdioToCsrSdioResult(err); - } - - return CSR_RESULT_SUCCESS; -} /* CsrSdioRead8() */ - -CsrResult -CsrSdioWrite8(CsrSdioFunction *function, u32 address, u8 data) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err = 0; - - _sdio_claim_host(func); - sdio_writeb(func, data, address, &err); - _sdio_release_host(func); - - if (err) { - return ConvertSdioToCsrSdioResult(err); - } - - return CSR_RESULT_SUCCESS; -} /* CsrSdioWrite8() */ - -CsrResult -CsrSdioRead16(CsrSdioFunction *function, u32 address, u16 *data) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err; - uint8_t b0, b1; - - _sdio_claim_host(func); - b0 = sdio_readb(func, address, &err); - if (err) { - _sdio_release_host(func); - return ConvertSdioToCsrSdioResult(err); - } - - b1 = sdio_readb(func, address+1, &err); - if (err) { - _sdio_release_host(func); - return ConvertSdioToCsrSdioResult(err); - } - _sdio_release_host(func); - - *data = ((uint16_t)b1 << 8) | b0; - - return CSR_RESULT_SUCCESS; -} /* CsrSdioRead16() */ - - -CsrResult -CsrSdioWrite16(CsrSdioFunction *function, u32 address, u16 data) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err; - uint8_t b0, b1; - - _sdio_claim_host(func); - b1 = (data >> 8) & 0xFF; - sdio_writeb(func, b1, address+1, &err); - if (err) { - _sdio_release_host(func); - return ConvertSdioToCsrSdioResult(err); - } - - b0 = data & 0xFF; - sdio_writeb(func, b0, address, &err); - if (err) { - _sdio_release_host(func); - return ConvertSdioToCsrSdioResult(err); - } - - _sdio_release_host(func); - return CSR_RESULT_SUCCESS; -} /* CsrSdioWrite16() */ - - -CsrResult -CsrSdioF0Read8(CsrSdioFunction *function, u32 address, u8 *data) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err = 0; - - _sdio_claim_host(func); -#ifdef MMC_QUIRK_LENIENT_FN0 - *data = sdio_f0_readb(func, address, &err); -#else - err = csr_io_rw_direct(func->card, 0, 0, address, 0, data); -#endif - _sdio_release_host(func); - - if (err) { - return ConvertSdioToCsrSdioResult(err); - } - - return CSR_RESULT_SUCCESS; -} /* CsrSdioF0Read8() */ - -CsrResult -CsrSdioF0Write8(CsrSdioFunction *function, u32 address, u8 data) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err = 0; - - _sdio_claim_host(func); -#ifdef MMC_QUIRK_LENIENT_FN0 - sdio_f0_writeb(func, data, address, &err); -#else - err = csr_io_rw_direct(func->card, 1, 0, address, data, NULL); -#endif - _sdio_release_host(func); - - if (err) { - return ConvertSdioToCsrSdioResult(err); - } - - return CSR_RESULT_SUCCESS; -} /* CsrSdioF0Write8() */ - - -CsrResult -CsrSdioRead(CsrSdioFunction *function, u32 address, void *data, u32 length) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err; - - _sdio_claim_host(func); - err = sdio_readsb(func, data, address, length); - _sdio_release_host(func); - - if (err) { - return ConvertSdioToCsrSdioResult(err); - } - - return CSR_RESULT_SUCCESS; -} /* CsrSdioRead() */ - -CsrResult -CsrSdioWrite(CsrSdioFunction *function, u32 address, const void *data, u32 length) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err; - - _sdio_claim_host(func); - err = sdio_writesb(func, address, (void*)data, length); - _sdio_release_host(func); - - if (err) { - return ConvertSdioToCsrSdioResult(err); - } - - return CSR_RESULT_SUCCESS; -} /* CsrSdioWrite() */ - - -static int -csr_sdio_enable_hs(struct mmc_card *card) -{ - int ret; - u8 speed; - - if (!(card->host->caps & MMC_CAP_SD_HIGHSPEED)) { - /* We've asked for HS clock rates, but controller doesn't - * claim to support it. We should limit the clock - * to 25MHz via module parameter. - */ - printk(KERN_INFO "unifi: request HS but not MMC_CAP_SD_HIGHSPEED"); - return 0; - } - - if (!card->cccr.high_speed) - return 0; - -#if 1 - ret = csr_io_rw_direct(card, 0, 0, SDIO_CCCR_SPEED, 0, &speed); - if (ret) - return ret; - - speed |= SDIO_SPEED_EHS; -#else - /* Optimisation: Eliminate read by always assuming SHS and that reserved bits can be zero */ - speed = SDIO_SPEED_EHS | SDIO_SPEED_SHS; -#endif - - ret = csr_io_rw_direct(card, 1, 0, SDIO_CCCR_SPEED, speed, NULL); - if (ret) - return ret; - - mmc_card_set_highspeed(card); - card->host->ios.timing = MMC_TIMING_SD_HS; - card->host->ops->set_ios(card->host, &card->host->ios); - - return 0; -} - -static int -csr_sdio_disable_hs(struct mmc_card *card) -{ - int ret; - u8 speed; - - if (!(card->host->caps & MMC_CAP_SD_HIGHSPEED)) - return 0; - - if (!card->cccr.high_speed) - return 0; -#if 1 - ret = csr_io_rw_direct(card, 0, 0, SDIO_CCCR_SPEED, 0, &speed); - if (ret) - return ret; - - speed &= ~SDIO_SPEED_EHS; -#else - /* Optimisation: Eliminate read by always assuming SHS and that reserved bits can be zero */ - speed = SDIO_SPEED_SHS; /* clear SDIO_SPEED_EHS */ -#endif - - ret = csr_io_rw_direct(card, 1, 0, SDIO_CCCR_SPEED, speed, NULL); - if (ret) - return ret; - - card->state &= ~MMC_STATE_HIGHSPEED; - card->host->ios.timing = MMC_TIMING_LEGACY; - card->host->ops->set_ios(card->host, &card->host->ios); - - return 0; -} - - -/* - * --------------------------------------------------------------------------- - * CsrSdioMaxBusClockFrequencySet - * - * Set the maximum SDIO bus clock speed to use. - * - * Arguments: - * sdio SDIO context pointer - * maxFrequency maximum clock speed in Hz - * - * Returns: - * an error code. - * --------------------------------------------------------------------------- - */ -CsrResult -CsrSdioMaxBusClockFrequencySet(CsrSdioFunction *function, u32 maxFrequency) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - struct mmc_host *host = func->card->host; - struct mmc_ios *ios = &host->ios; - unsigned int max_hz; - int err; - u32 max_khz = maxFrequency/1000; - - if (!max_khz || max_khz > sdio_clock) { - max_khz = sdio_clock; - } - - _sdio_claim_host(func); - max_hz = 1000 * max_khz; - if (max_hz > host->f_max) { - max_hz = host->f_max; - } - - if (max_hz > 25000000) { - err = csr_sdio_enable_hs(func->card); - } else { - err = csr_sdio_disable_hs(func->card); - } - if (err) { - printk(KERN_ERR "SDIO warning: Failed to configure SDIO clock mode\n"); - _sdio_release_host(func); - return CSR_RESULT_SUCCESS; - } - - ios->clock = max_hz; - host->ops->set_ios(host, ios); - - _sdio_release_host(func); - - return CSR_RESULT_SUCCESS; -} /* CsrSdioMaxBusClockFrequencySet() */ - - -/* - * --------------------------------------------------------------------------- - * CsrSdioInterruptEnable - * CsrSdioInterruptDisable - * - * Enable or disable the SDIO interrupt. - * The driver disables the SDIO interrupt until the i/o thread can - * process it. - * The SDIO interrupt can be disabled by modifying the SDIO_INT_ENABLE - * register in the Card Common Control Register block, but this requires - * two CMD52 operations. A better solution is to mask the interrupt at - * the host controller. - * - * Arguments: - * sdio SDIO context pointer - * - * Returns: - * Zero on success or a UniFi driver error code. - * - * --------------------------------------------------------------------------- - */ -CsrResult -CsrSdioInterruptEnable(CsrSdioFunction *function) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err = 0; - -#ifdef CSR_CONFIG_MMC_INT_BYPASS_KSOFTIRQD - sdio_unblock_card_irq(func); -#else - _sdio_claim_host(func); - /* Write the Int Enable in CCCR block */ -#ifdef MMC_QUIRK_LENIENT_FN0 - sdio_f0_writeb(func, 0x3, SDIO_CCCR_IENx, &err); -#else - err = csr_io_rw_direct(func->card, 1, 0, SDIO_CCCR_IENx, 0x03, NULL); -#endif - _sdio_release_host(func); - - if (err) { - printk(KERN_ERR "unifi: %s: error %d writing IENx\n", __FUNCTION__, err); - return ConvertSdioToCsrSdioResult(err); - } -#endif - return CSR_RESULT_SUCCESS; -} /* CsrSdioInterruptEnable() */ - -CsrResult -CsrSdioInterruptDisable(CsrSdioFunction *function) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err = 0; - -#ifdef CSR_CONFIG_MMC_INT_BYPASS_KSOFTIRQD - sdio_block_card_irq(func); -#else - _sdio_claim_host(func); - /* Write the Int Enable in CCCR block */ -#ifdef MMC_QUIRK_LENIENT_FN0 - sdio_f0_writeb(func, 0, SDIO_CCCR_IENx, &err); -#else - err = csr_io_rw_direct(func->card, 1, 0, SDIO_CCCR_IENx, 0x00, NULL); -#endif - _sdio_release_host(func); - - if (err) { - printk(KERN_ERR "unifi: %s: error %d writing IENx\n", __FUNCTION__, err); - return ConvertSdioToCsrSdioResult(err); - } -#endif - return CSR_RESULT_SUCCESS; -} /* CsrSdioInterruptDisable() */ - - -void CsrSdioInterruptAcknowledge(CsrSdioFunction *function) -{ -} - - -/* - * --------------------------------------------------------------------------- - * CsrSdioFunctionEnable - * - * Enable i/o on function 1. - * - * Arguments: - * sdio SDIO context pointer - * - * Returns: - * UniFi driver error code. - * --------------------------------------------------------------------------- - */ -CsrResult -CsrSdioFunctionEnable(CsrSdioFunction *function) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err; - - /* Enable UniFi function 1 (the 802.11 part). */ - _sdio_claim_host(func); - err = sdio_enable_func(func); - _sdio_release_host(func); - if (err) { - unifi_error(NULL, "Failed to enable SDIO function %d\n", func->num); - } - - return ConvertSdioToCsrSdioResult(err); -} /* CsrSdioFunctionEnable() */ - - -/* - * --------------------------------------------------------------------------- - * CsrSdioFunctionDisable - * - * Enable i/o on function 1. - * - * Arguments: - * sdio SDIO context pointer - * - * Returns: - * UniFi driver error code. - * --------------------------------------------------------------------------- - */ -CsrResult -CsrSdioFunctionDisable(CsrSdioFunction *function) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int err; - - /* Disable UniFi function 1 (the 802.11 part). */ - _sdio_claim_host(func); - err = sdio_disable_func(func); - _sdio_release_host(func); - if (err) { - unifi_error(NULL, "Failed to disable SDIO function %d\n", func->num); - } - - return ConvertSdioToCsrSdioResult(err); -} /* CsrSdioFunctionDisable() */ - - -/* - * --------------------------------------------------------------------------- - * CsrSdioFunctionActive - * - * No-op as the bus goes to an active state at the start of every - * command. - * - * Arguments: - * sdio SDIO context pointer - * --------------------------------------------------------------------------- - */ -void -CsrSdioFunctionActive(CsrSdioFunction *function) -{ -} /* CsrSdioFunctionActive() */ - -/* - * --------------------------------------------------------------------------- - * CsrSdioFunctionIdle - * - * Set the function as idle. - * - * Arguments: - * sdio SDIO context pointer - * --------------------------------------------------------------------------- - */ -void -CsrSdioFunctionIdle(CsrSdioFunction *function) -{ -} /* CsrSdioFunctionIdle() */ - - -/* - * --------------------------------------------------------------------------- - * CsrSdioPowerOn - * - * Power on UniFi. - * - * Arguments: - * sdio SDIO context pointer - * --------------------------------------------------------------------------- - */ -CsrResult -CsrSdioPowerOn(CsrSdioFunction *function) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - struct mmc_host *host = func->card->host; - - _sdio_claim_host(func); - if (!card_is_powered) { - mmc_power_restore_host(host); - card_is_powered = 1; - } else { - printk(KERN_INFO "SDIO: Skip power on; card is already powered.\n"); - } - _sdio_release_host(func); - - return CSR_RESULT_SUCCESS; -} /* CsrSdioPowerOn() */ - -/* - * --------------------------------------------------------------------------- - * CsrSdioPowerOff - * - * Power off UniFi. - * - * Arguments: - * sdio SDIO context pointer - * --------------------------------------------------------------------------- - */ -void -CsrSdioPowerOff(CsrSdioFunction *function) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - struct mmc_host *host = func->card->host; - - _sdio_claim_host(func); - if (card_is_powered) { - mmc_power_save_host(host); - card_is_powered = 0; - } else { - printk(KERN_INFO "SDIO: Skip power off; card is already powered off.\n"); - } - _sdio_release_host(func); -} /* CsrSdioPowerOff() */ - - -static int -sdio_set_block_size_ignore_first_error(struct sdio_func *func, unsigned blksz) -{ - int ret; - - if (blksz > func->card->host->max_blk_size) - return -EINVAL; - - if (blksz == 0) { - blksz = min(func->max_blksize, func->card->host->max_blk_size); - blksz = min(blksz, 512u); - } - - /* - * Ignore -ERANGE (OUT_OF_RANGE in R5) on the first byte as - * the block size may be invalid until both bytes are written. - */ - ret = csr_io_rw_direct(func->card, 1, 0, - SDIO_FBR_BASE(func->num) + SDIO_FBR_BLKSIZE, - blksz & 0xff, NULL); - if (ret && ret != -ERANGE) - return ret; - ret = csr_io_rw_direct(func->card, 1, 0, - SDIO_FBR_BASE(func->num) + SDIO_FBR_BLKSIZE + 1, - (blksz >> 8) & 0xff, NULL); - if (ret) - return ret; - func->cur_blksize = blksz; - - return 0; -} - -CsrResult -CsrSdioBlockSizeSet(CsrSdioFunction *function, u16 blockSize) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int r = 0; - - /* Module parameter overrides */ - if (sdio_block_size > -1) { - blockSize = sdio_block_size; - } - - unifi_trace(NULL, UDBG1, "Set SDIO function block size to %d\n", - blockSize); - - _sdio_claim_host(func); - r = sdio_set_block_size(func, blockSize); - _sdio_release_host(func); - - /* - * The MMC driver for kernels prior to 2.6.32 may fail this request - * with -ERANGE. In this case use our workaround. - */ - if (r == -ERANGE) { - _sdio_claim_host(func); - r = sdio_set_block_size_ignore_first_error(func, blockSize); - _sdio_release_host(func); - } - if (r) { - unifi_error(NULL, "Error %d setting block size\n", r); - } - - /* Determine the achieved block size to pass to the core */ - function->blockSize = func->cur_blksize; - - return ConvertSdioToCsrSdioResult(r); -} /* CsrSdioBlockSizeSet() */ - - -/* - * --------------------------------------------------------------------------- - * CsrSdioHardReset - * - * Hard Resets UniFi is possible. - * - * Arguments: - * sdio SDIO context pointer - * --------------------------------------------------------------------------- - */ -CsrResult -CsrSdioHardReset(CsrSdioFunction *function) -{ - return CSR_RESULT_FAILURE; -} /* CsrSdioHardReset() */ - - - -/* - * --------------------------------------------------------------------------- - * uf_glue_sdio_int_handler - * - * Interrupt callback function for SDIO interrupts. - * This is called in kernel context (i.e. not interrupt context). - * - * Arguments: - * func SDIO context pointer - * - * Returns: - * None. - * - * Note: Called with host already claimed. - * --------------------------------------------------------------------------- - */ -static void -uf_glue_sdio_int_handler(struct sdio_func *func) -{ - CsrSdioFunction *sdio_ctx; - CsrSdioInterruptDsrCallback func_dsr_callback; - int r; - - sdio_ctx = sdio_get_drvdata(func); - if (!sdio_ctx) { - return; - } - -#ifndef CSR_CONFIG_MMC_INT_BYPASS_KSOFTIRQD - /* - * Normally, we are not allowed to do any SDIO commands here. - * However, this is called in a thread context and with the SDIO lock - * so we disable the interrupts here instead of trying to do complicated - * things with the SDIO lock. - */ -#ifdef MMC_QUIRK_LENIENT_FN0 - sdio_f0_writeb(func, 0, SDIO_CCCR_IENx, &r); -#else - r = csr_io_rw_direct(func->card, 1, 0, SDIO_CCCR_IENx, 0x00, NULL); -#endif - if (r) { - printk(KERN_ERR "UniFi MMC Int handler: Failed to disable interrupts %d\n", r); - } -#endif - - /* If the function driver has registered a handler, call it */ - if (sdio_func_drv && sdio_func_drv->intr) { - - func_dsr_callback = sdio_func_drv->intr(sdio_ctx); - - /* If interrupt handle returns a DSR handle, call it */ - if (func_dsr_callback) { - func_dsr_callback(sdio_ctx); - } - } - -} /* uf_glue_sdio_int_handler() */ - - - -/* - * --------------------------------------------------------------------------- - * csr_sdio_linux_remove_irq - * - * Unregister the interrupt handler. - * This means that the linux layer can not process interrupts any more. - * - * Arguments: - * sdio SDIO context pointer - * - * Returns: - * Status of the removal. - * --------------------------------------------------------------------------- - */ -int csr_sdio_linux_remove_irq(CsrSdioFunction *function) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int r; - - unifi_trace(NULL, UDBG1, "csr_sdio_linux_remove_irq\n"); - - sdio_claim_host(func); - r = sdio_release_irq(func); - sdio_release_host(func); - - return r; - -} /* csr_sdio_linux_remove_irq() */ - - -/* - * --------------------------------------------------------------------------- - * csr_sdio_linux_install_irq - * - * Register the interrupt handler. - * This means that the linux layer can process interrupts. - * - * Arguments: - * sdio SDIO context pointer - * - * Returns: - * Status of the removal. - * --------------------------------------------------------------------------- - */ -int csr_sdio_linux_install_irq(CsrSdioFunction *function) -{ - struct sdio_func *func = (struct sdio_func *)function->priv; - int r; - - unifi_trace(NULL, UDBG1, "csr_sdio_linux_install_irq\n"); - - /* Register our interrupt handle */ - sdio_claim_host(func); - r = sdio_claim_irq(func, uf_glue_sdio_int_handler); - sdio_release_host(func); - - /* If the interrupt was installed earlier, is fine */ - if (r == -EBUSY) - r = 0; - - return r; -} /* csr_sdio_linux_install_irq() */ - -#ifdef CONFIG_PM - -/* - * Power Management notifier - */ -struct uf_sdio_mmc_pm_notifier -{ - struct list_head list; - - CsrSdioFunction *sdio_ctx; - struct notifier_block pm_notifier; -}; - -/* PM notifier list head */ -static struct uf_sdio_mmc_pm_notifier uf_sdio_mmc_pm_notifiers = { - .sdio_ctx = NULL, -}; - -/* - * --------------------------------------------------------------------------- - * uf_sdio_mmc_register_pm_notifier - * uf_sdio_mmc_unregister_pm_notifier - * - * Register/unregister for power management events. A list is used to - * allow multiple card instances to be supported. - * - * Arguments: - * sdio_ctx - CSR SDIO context to associate PM notifier to - * - * Returns: - * Register function returns NULL on error - * --------------------------------------------------------------------------- - */ -static struct uf_sdio_mmc_pm_notifier * -uf_sdio_mmc_register_pm_notifier(CsrSdioFunction *sdio_ctx) -{ - /* Allocate notifier context for this card instance */ - struct uf_sdio_mmc_pm_notifier *notifier_ctx = kmalloc(sizeof(struct uf_sdio_mmc_pm_notifier), GFP_KERNEL); - - if (notifier_ctx) - { - notifier_ctx->sdio_ctx = sdio_ctx; - notifier_ctx->pm_notifier.notifier_call = uf_sdio_mmc_power_event; - - list_add(¬ifier_ctx->list, &uf_sdio_mmc_pm_notifiers.list); - - if (register_pm_notifier(¬ifier_ctx->pm_notifier)) { - printk(KERN_ERR "unifi: register_pm_notifier failed\n"); - } - } - - return notifier_ctx; -} - -static void -uf_sdio_mmc_unregister_pm_notifier(CsrSdioFunction *sdio_ctx) -{ - struct uf_sdio_mmc_pm_notifier *notifier_ctx; - struct list_head *node, *q; - - list_for_each_safe(node, q, &uf_sdio_mmc_pm_notifiers.list) { - notifier_ctx = list_entry(node, struct uf_sdio_mmc_pm_notifier, list); - - /* If it matches, unregister and free the notifier context */ - if (notifier_ctx && notifier_ctx->sdio_ctx == sdio_ctx) - { - if (unregister_pm_notifier(¬ifier_ctx->pm_notifier)) { - printk(KERN_ERR "unifi: unregister_pm_notifier failed\n"); - } - - /* Remove from list */ - notifier_ctx->sdio_ctx = NULL; - list_del(node); - kfree(notifier_ctx); - } - } -} - -/* - * --------------------------------------------------------------------------- - * uf_sdio_mmc_power_event - * - * Handler for power management events. - * - * We need to handle suspend/resume events while the userspace is unsuspended - * to allow the SME to run its suspend/resume state machines. - * - * Arguments: - * event event ID - * - * Returns: - * Status of the event handling - * --------------------------------------------------------------------------- - */ -static int -uf_sdio_mmc_power_event(struct notifier_block *this, unsigned long event, void *ptr) -{ - struct uf_sdio_mmc_pm_notifier *notifier_ctx = container_of(this, - struct uf_sdio_mmc_pm_notifier, - pm_notifier); - - /* Call the CSR SDIO function driver's suspend/resume method - * while the userspace is unsuspended. - */ - switch (event) { - case PM_POST_HIBERNATION: - case PM_POST_SUSPEND: - printk(KERN_INFO "%s:%d resume\n", __FUNCTION__, __LINE__ ); - if (sdio_func_drv && sdio_func_drv->resume) { - sdio_func_drv->resume(notifier_ctx->sdio_ctx); - } - break; - - case PM_HIBERNATION_PREPARE: - case PM_SUSPEND_PREPARE: - printk(KERN_INFO "%s:%d suspend\n", __FUNCTION__, __LINE__ ); - if (sdio_func_drv && sdio_func_drv->suspend) { - sdio_func_drv->suspend(notifier_ctx->sdio_ctx); - } - break; - } - return NOTIFY_DONE; -} - -#endif /* CONFIG_PM */ - -/* - * --------------------------------------------------------------------------- - * uf_glue_sdio_probe - * - * Card insert callback. - * - * Arguments: - * func Our (glue layer) context pointer. - * - * Returns: - * UniFi driver error code. - * --------------------------------------------------------------------------- - */ -static int -uf_glue_sdio_probe(struct sdio_func *func, - const struct sdio_device_id *id) -{ - int instance; - CsrSdioFunction *sdio_ctx; - - /* First of all claim the SDIO driver */ - sdio_claim_host(func); - - /* Assume that the card is already powered */ - card_is_powered = 1; - - /* Assumes one card per host, which is true for SDIO */ - instance = func->card->host->index; - printk("sdio bus_id: %16s - UniFi card 0x%X inserted\n", - sdio_func_id(func), instance); - - /* Allocate context */ - sdio_ctx = kmalloc(sizeof(CsrSdioFunction), GFP_KERNEL); - if (sdio_ctx == NULL) { - sdio_release_host(func); - return -ENOMEM; - } - - /* Initialise the context */ - sdio_ctx->sdioId.manfId = func->vendor; - sdio_ctx->sdioId.cardId = func->device; - sdio_ctx->sdioId.sdioFunction = func->num; - sdio_ctx->sdioId.sdioInterface = func->class; - sdio_ctx->blockSize = func->cur_blksize; - sdio_ctx->priv = (void *)func; - sdio_ctx->features = 0; - - /* Module parameter enables byte mode */ - if (sdio_byte_mode) { - sdio_ctx->features |= CSR_SDIO_FEATURE_BYTE_MODE; - } - - if (func->card->host->caps & MMC_CAP_SD_HIGHSPEED) { - unifi_trace(NULL, UDBG1, "MMC_CAP_SD_HIGHSPEED is available\n"); - } - -#ifdef MMC_QUIRK_LENIENT_FN0 - func->card->quirks |= MMC_QUIRK_LENIENT_FN0; -#endif - - /* Pass context to the SDIO driver */ - sdio_set_drvdata(func, sdio_ctx); - -#ifdef CONFIG_PM - /* Register to get PM events */ - if (uf_sdio_mmc_register_pm_notifier(sdio_ctx) == NULL) { - unifi_error(NULL, "%s: Failed to register for PM events\n", __FUNCTION__); - } -#endif - - /* Register this device with the SDIO function driver */ - /* Call the main UniFi driver inserted handler */ - if (sdio_func_drv && sdio_func_drv->inserted) { - uf_add_os_device(instance, &func->dev); - sdio_func_drv->inserted(sdio_ctx); - } - - /* We have finished, so release the SDIO driver */ - sdio_release_host(func); - -#ifdef ANDROID_BUILD - /* Take the wakelock */ - unifi_trace(NULL, UDBG1, "probe: take wake lock\n"); - wake_lock(&unifi_sdio_wake_lock); -#endif - - return 0; -} /* uf_glue_sdio_probe() */ - - -/* - * --------------------------------------------------------------------------- - * uf_glue_sdio_remove - * - * Card removal callback. - * - * Arguments: - * func Our (glue layer) context pointer. - * - * Returns: - * UniFi driver error code. - * --------------------------------------------------------------------------- - */ -static void -uf_glue_sdio_remove(struct sdio_func *func) -{ - CsrSdioFunction *sdio_ctx; - - sdio_ctx = sdio_get_drvdata(func); - if (!sdio_ctx) { - return; - } - - unifi_info(NULL, "UniFi card removed\n"); - - /* Clean up the SDIO function driver */ - if (sdio_func_drv && sdio_func_drv->removed) { - uf_remove_os_device(func->card->host->index); - sdio_func_drv->removed(sdio_ctx); - } - -#ifdef CONFIG_PM - /* Unregister for PM events */ - uf_sdio_mmc_unregister_pm_notifier(sdio_ctx); -#endif - - kfree(sdio_ctx); - -} /* uf_glue_sdio_remove */ - - -/* - * SDIO ids *must* be statically declared, so we can't take - * them from the list passed in csr_sdio_register_driver(). - */ -static const struct sdio_device_id unifi_ids[] = { - { SDIO_DEVICE(SDIO_MANF_ID_CSR, SDIO_CARD_ID_UNIFI_3) }, - { SDIO_DEVICE(SDIO_MANF_ID_CSR, SDIO_CARD_ID_UNIFI_4) }, - { /* end: all zeroes */ }, -}; - -MODULE_DEVICE_TABLE(sdio, unifi_ids); - -#ifdef CONFIG_PM - -/* - * --------------------------------------------------------------------------- - * uf_glue_sdio_suspend - * - * Card suspend callback. The userspace will already be suspended. - * - * Arguments: - * dev The struct device owned by the MMC driver - * - * Returns: - * None - * --------------------------------------------------------------------------- - */ -static int -uf_glue_sdio_suspend(struct device *dev) -{ - unifi_trace(NULL, UDBG1, "uf_glue_sdio_suspend"); - - return 0; -} /* uf_glue_sdio_suspend */ - - -/* - * --------------------------------------------------------------------------- - * uf_glue_sdio_resume - * - * Card resume callback. The userspace will still be suspended. - * - * Arguments: - * dev The struct device owned by the MMC driver - * - * Returns: - * None - * --------------------------------------------------------------------------- - */ -static int -uf_glue_sdio_resume(struct device *dev) -{ - unifi_trace(NULL, UDBG1, "uf_glue_sdio_resume"); - -#ifdef ANDROID_BUILD - unifi_trace(NULL, UDBG1, "resume: take wakelock\n"); - wake_lock(&unifi_sdio_wake_lock); -#endif - - return 0; - -} /* uf_glue_sdio_resume */ - -static struct dev_pm_ops unifi_pm_ops = { - .suspend = uf_glue_sdio_suspend, - .resume = uf_glue_sdio_resume, -}; - -#define UNIFI_PM_OPS (&unifi_pm_ops) - -#else - -#define UNIFI_PM_OPS NULL - -#endif /* CONFIG_PM */ - -static struct sdio_driver unifi_driver = { - .probe = uf_glue_sdio_probe, - .remove = uf_glue_sdio_remove, - .name = "unifi", - .id_table = unifi_ids, - .drv.pm = UNIFI_PM_OPS, -}; - - -/* - * --------------------------------------------------------------------------- - * CsrSdioFunctionDriverRegister - * CsrSdioFunctionDriverUnregister - * - * These functions are called from the main module load and unload - * functions. They perform the appropriate operations for the - * linux MMC/SDIO driver. - * - * Arguments: - * sdio_drv Pointer to the function driver's SDIO structure. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -CsrResult -CsrSdioFunctionDriverRegister(CsrSdioFunctionDriver *sdio_drv) -{ - int r; - - printk("UniFi: Using native Linux MMC driver for SDIO.\n"); - - if (sdio_func_drv) { - unifi_error(NULL, "sdio_mmc: UniFi driver already registered\n"); - return CSR_SDIO_RESULT_INVALID_VALUE; - } - -#ifdef ANDROID_BUILD - wake_lock_init(&unifi_sdio_wake_lock, WAKE_LOCK_SUSPEND, "unifi_sdio_work"); -#endif - - /* Save the registered driver description */ - /* - * FIXME: - * Need a table here to handle a call to register for just one function. - * mmc only allows us to register for the whole device - */ - sdio_func_drv = sdio_drv; - -#ifdef CONFIG_PM - /* Initialise PM notifier list */ - INIT_LIST_HEAD(&uf_sdio_mmc_pm_notifiers.list); -#endif - - /* Register ourself with mmc_core */ - r = sdio_register_driver(&unifi_driver); - if (r) { - printk(KERN_ERR "unifi_sdio: Failed to register UniFi SDIO driver: %d\n", r); - return ConvertSdioToCsrSdioResult(r); - } - - return CSR_RESULT_SUCCESS; -} /* CsrSdioFunctionDriverRegister() */ - - - -void -CsrSdioFunctionDriverUnregister(CsrSdioFunctionDriver *sdio_drv) -{ - printk(KERN_INFO "UniFi: unregister from MMC sdio\n"); - -#ifdef ANDROID_BUILD - wake_lock_destroy(&unifi_sdio_wake_lock); -#endif - sdio_unregister_driver(&unifi_driver); - - sdio_func_drv = NULL; - -} /* CsrSdioFunctionDriverUnregister() */ - diff --git a/drivers/staging/csr/sdio_stubs.c b/drivers/staging/csr/sdio_stubs.c deleted file mode 100644 index 839fae0..0000000 --- a/drivers/staging/csr/sdio_stubs.c +++ /dev/null @@ -1,82 +0,0 @@ -/* - * Stubs for some of the bottom edge functions. - * - * These stubs are optional functions in the bottom edge (SDIO driver - * interface) API that not all platforms or SDIO drivers may support. - * - * They're declared as weak symbols so they can be overridden by - * simply providing a non-weak declaration. - * - * Copyright (C) 2007-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - */ -#include "csr_wifi_hip_unifi.h" - -void __attribute__((weak)) CsrSdioFunctionIdle(CsrSdioFunction *function) -{ -} - -void __attribute__((weak)) CsrSdioFunctionActive(CsrSdioFunction *function) -{ -} - -CsrResult __attribute__((weak)) CsrSdioPowerOn(CsrSdioFunction *function) -{ - return CSR_RESULT_SUCCESS; -} - -void __attribute__((weak)) CsrSdioPowerOff(CsrSdioFunction *function) -{ -} - -CsrResult __attribute__((weak)) CsrSdioHardReset(CsrSdioFunction *function) -{ - return CSR_SDIO_RESULT_NOT_RESET; -} - -CsrResult __attribute__((weak)) CsrSdioBlockSizeSet(CsrSdioFunction *function, - u16 blockSize) -{ - return CSR_RESULT_SUCCESS; -} - -CsrResult __attribute__((weak)) CsrSdioSuspend(CsrSdioFunction *function) -{ - return CSR_RESULT_SUCCESS; -} - -CsrResult __attribute__((weak)) CsrSdioResume(CsrSdioFunction *function) -{ - return CSR_RESULT_SUCCESS; -} - -int __attribute__((weak)) csr_sdio_linux_install_irq(CsrSdioFunction *function) -{ - return 0; -} - -int __attribute__((weak)) csr_sdio_linux_remove_irq(CsrSdioFunction *function) -{ - return 0; -} - -void __attribute__((weak)) CsrSdioInsertedAcknowledge(CsrSdioFunction *function, CsrResult result) -{ -} - -void __attribute__((weak)) CsrSdioRemovedAcknowledge(CsrSdioFunction *function) -{ -} - -void __attribute__((weak)) CsrSdioSuspendAcknowledge(CsrSdioFunction *function, CsrResult result) -{ -} - -void __attribute__((weak)) CsrSdioResumeAcknowledge(CsrSdioFunction *function, CsrResult result) -{ -} - - diff --git a/drivers/staging/csr/sme_blocking.c b/drivers/staging/csr/sme_blocking.c deleted file mode 100644 index 0c6e216..0000000 --- a/drivers/staging/csr/sme_blocking.c +++ /dev/null @@ -1,1466 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: sme_mgt_blocking.c - * - * PURPOSE: - * This file contains the driver specific implementation of - * the WEXT <==> SME MGT interface for all SME builds that support WEXT. - * - * Copyright (C) 2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ - -#include "unifi_priv.h" - - -/* - * This file also contains the implementation of the asynchronous - * requests to the SME. - * - * Before calling an asynchronous SME function, we call sme_init_request() - * which gets hold of the SME semaphore and updates the request status. - * The semaphore makes sure that there is only one pending request to - * the SME at a time. - * - * Now we are ready to call the SME function, but only if - * sme_init_request() has returned 0. - * - * When the SME function returns, we need to wait - * for the reply. This is done in sme_wait_for_reply(). - * If the request times-out, the request status is set to SME_REQUEST_TIMEDOUT - * and the sme_wait_for_reply() returns. - * - * If the SME replies in time, we call sme_complete_request(). - * There we change the request status to SME_REQUEST_RECEIVED. This will - * wake up the process waiting on sme_wait_for_reply(). - * It is important that we copy the reply data in priv->sme_reply - * before calling sme_complete_request(). - * - * Handling the wext requests, we need to block - * until the SME sends the response to our request. - * We use the sme_init_request() and sme_wait_for_reply() - * to implement this behavior in the following functions: - * sme_mgt_wifi_on() - * sme_mgt_wifi_off() - * sme_mgt_scan_full() - * sme_mgt_scan_results_get_async() - * sme_mgt_connect() - * unifi_mgt_media_status_ind() - * sme_mgt_disconnect() - * sme_mgt_pmkid() - * sme_mgt_key() - * sme_mgt_mib_get() - * sme_mgt_mib_set() - * sme_mgt_versions_get() - * sme_mgt_set_value() - * sme_mgt_get_value() - * sme_mgt_set_value_async() - * sme_mgt_get_value_async() - * sme_mgt_packet_filter_set() - * sme_mgt_tspec() - */ - - -/* - * Handling the suspend and resume system events, we need to block - * until the SME sends the response to our indication. - * We use the sme_init_request() and sme_wait_for_reply() - * to implement this behavior in the following functions: - * sme_sys_suspend() - * sme_sys_resume() - */ - -#define UNIFI_SME_MGT_SHORT_TIMEOUT 10000 -#define UNIFI_SME_MGT_LONG_TIMEOUT 19000 -#define UNIFI_SME_SYS_LONG_TIMEOUT 10000 - -#ifdef UNIFI_DEBUG -# define sme_wait_for_reply(priv, t) _sme_wait_for_reply(priv, t, __func__) -#else -# define sme_wait_for_reply(priv, t) _sme_wait_for_reply(priv, t, NULL) -#endif - -static int -sme_init_request(unifi_priv_t *priv) -{ - if (priv == NULL) { - unifi_error(priv, "sme_init_request: Invalid priv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG5, "sme_init_request: wait sem\n"); - - /* Grab the SME semaphore until the reply comes, or timeout */ - if (down_interruptible(&priv->sme_sem)) { - unifi_error(priv, "sme_init_request: Failed to get SME semaphore\n"); - return -EIO; - } - unifi_trace(priv, UDBG5, "sme_init_request: got sem: pending\n"); - - priv->sme_reply.request_status = SME_REQUEST_PENDING; - - return 0; - -} /* sme_init_request() */ - - -void -uf_sme_complete_request(unifi_priv_t *priv, CsrResult reply_status, const char *func) -{ - if (priv == NULL) { - unifi_error(priv, "sme_complete_request: Invalid priv\n"); - return; - } - - if (priv->sme_reply.request_status != SME_REQUEST_PENDING) { - unifi_notice(priv, - "sme_complete_request: request not pending %s (s:%d)\n", - (func ? func : ""), priv->sme_reply.request_status); - return; - } - unifi_trace(priv, UDBG5, - "sme_complete_request: completed %s (s:%d)\n", - (func ? func : ""), priv->sme_reply.request_status); - - priv->sme_reply.request_status = SME_REQUEST_RECEIVED; - priv->sme_reply.reply_status = reply_status; - - wake_up_interruptible(&priv->sme_request_wq); - - return; -} - - -void -uf_sme_cancel_request(unifi_priv_t *priv, CsrResult reply_status) -{ - /* Check for a blocking SME request in progress, and cancel the wait. - * This should be used when the character device is closed. - */ - - if (priv == NULL) { - unifi_error(priv, "sme_cancel_request: Invalid priv\n"); - return; - } - - /* If no request is pending, nothing to wake up */ - if (priv->sme_reply.request_status != SME_REQUEST_PENDING) { - unifi_trace(priv, UDBG5, - "sme_cancel_request: no request was pending (s:%d)\n", - priv->sme_reply.request_status); - /* Nothing to do */ - return; - } - unifi_trace(priv, UDBG5, - "sme_cancel_request: request cancelled (s:%d)\n", - priv->sme_reply.request_status); - - /* Wake up the wait with an error status */ - priv->sme_reply.request_status = SME_REQUEST_CANCELLED; - priv->sme_reply.reply_status = reply_status; /* unimportant since the CANCELLED state will fail the ioctl */ - - wake_up_interruptible(&priv->sme_request_wq); - - return; -} - - -static int -_sme_wait_for_reply(unifi_priv_t *priv, - unsigned long timeout, const char *func) -{ - long r; - - unifi_trace(priv, UDBG5, "sme_wait_for_reply: %s sleep\n", func ? func : ""); - r = wait_event_interruptible_timeout(priv->sme_request_wq, - (priv->sme_reply.request_status != SME_REQUEST_PENDING), - msecs_to_jiffies(timeout)); - unifi_trace(priv, UDBG5, "sme_wait_for_reply: %s awake (%d)\n", func ? func : "", r); - - if (r == -ERESTARTSYS) { - /* The thread was killed */ - unifi_info(priv, "ERESTARTSYS in _sme_wait_for_reply\n"); - up(&priv->sme_sem); - return r; - } - if (priv->sme_reply.request_status == SME_REQUEST_CANCELLED) { - unifi_trace(priv, UDBG5, "Cancelled waiting for SME to reply (%s s:%d, t:%d, r:%d)\n", - (func ? func : ""), priv->sme_reply.request_status, timeout, r); - - /* Release the SME semaphore that was downed in sme_init_request() */ - up(&priv->sme_sem); - return -EIO; /* fail the ioctl */ - } - if ((r == 0) && (priv->sme_reply.request_status != SME_REQUEST_RECEIVED)) { - unifi_notice(priv, "Timeout waiting for SME to reply (%s s:%d, t:%d)\n", - (func ? func : ""), priv->sme_reply.request_status, timeout); - - priv->sme_reply.request_status = SME_REQUEST_TIMEDOUT; - - /* Release the SME semaphore that was downed in sme_init_request() */ - up(&priv->sme_sem); - - return -ETIMEDOUT; - } - - unifi_trace(priv, UDBG5, "sme_wait_for_reply: %s received (%d)\n", - func ? func : "", r); - - /* Release the SME semaphore that was downed in sme_init_request() */ - up(&priv->sme_sem); - - return 0; -} /* sme_wait_for_reply() */ - - - - -#ifdef CSR_SUPPORT_WEXT -int sme_mgt_wifi_on(unifi_priv_t *priv) -{ - u16 numElements; - CsrWifiSmeDataBlock* dataList; -#ifdef CSR_SUPPORT_WEXT_AP - int r; -#endif - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_wifi_on: invalid smepriv\n"); - return -EIO; - } - - if (priv->mib_data.length) { - numElements = 1; - dataList = &priv->mib_data; - } else { - numElements = 0; - dataList = NULL; - } - /* Start the SME */ -#ifdef CSR_SUPPORT_WEXT_AP - r = sme_init_request(priv); - if (r) { - return -EIO; - } -#endif - CsrWifiSmeWifiOnReqSend(0, priv->sta_mac_address, numElements, dataList); -#ifdef CSR_SUPPORT_WEXT_AP - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_LONG_TIMEOUT); - unifi_trace(priv, UDBG4, - "sme_mgt_wifi_on: unifi_mgt_wifi_oo_req <-- (r=%d, status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -#else - return 0; -#endif -} /* sme_mgt_wifi_on() */ - - -int sme_mgt_wifi_off(unifi_priv_t *priv) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_wifi_off: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - /* Stop the SME */ - CsrWifiSmeWifiOffReqSend(0); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_LONG_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_mgt_wifi_off: unifi_mgt_wifi_off_req <-- (r=%d, status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); - -} /* sme_mgt_wifi_off */ - -int sme_mgt_key(unifi_priv_t *priv, CsrWifiSmeKey *sme_key, - CsrWifiSmeListAction action) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_key: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeKeyReqSend(0, CSR_WIFI_INTERFACE_IN_USE, action, *sme_key); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - return convert_sme_error(priv->sme_reply.reply_status); -} - - -int sme_mgt_scan_full(unifi_priv_t *priv, - CsrWifiSsid *specific_ssid, - int num_channels, - unsigned char *channel_list) -{ - CsrWifiMacAddress bcastAddress = {{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }}; - u8 is_active = (num_channels > 0) ? TRUE : FALSE; - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_scan_full: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_scan_full: -->\n"); - - r = sme_init_request(priv); - if (r) - return -EIO; - - /* If a channel list is provided, do an active scan */ - if (is_active) { - unifi_trace(priv, UDBG1, - "channel list - num_channels: %d, active scan\n", - num_channels); - } - - CsrWifiSmeScanFullReqSend(0, - specific_ssid->length?1:0, /* 0 or 1 SSIDS */ - specific_ssid, - bcastAddress, - is_active, - CSR_WIFI_SME_BSS_TYPE_ANY_BSS, - CSR_WIFI_SME_SCAN_TYPE_ALL, - (u16)num_channels, channel_list, - 0, NULL); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_LONG_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, "sme_mgt_scan_full: <-- (status=%d)\n", priv->sme_reply.reply_status); - if (priv->sme_reply.reply_status == CSR_WIFI_RESULT_UNAVAILABLE) - return 0; /* initial scan already underway */ - else - return convert_sme_error(priv->sme_reply.reply_status); -} - - -int sme_mgt_scan_results_get_async(unifi_priv_t *priv, - struct iw_request_info *info, - char *scan_results, - long scan_results_len) -{ - u16 scan_result_list_count; - CsrWifiSmeScanResult *scan_result_list; - CsrWifiSmeScanResult *scan_result; - int r; - int i; - char *current_ev = scan_results; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_scan_results_get_async: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeScanResultsGetReqSend(0); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_LONG_TIMEOUT); - if (r) - return r; - - scan_result_list_count = priv->sme_reply.reply_scan_results_count; - scan_result_list = priv->sme_reply.reply_scan_results; - unifi_trace(priv, UDBG2, - "scan_results: Scan returned %d, numElements=%d\n", - r, scan_result_list_count); - - /* OK, now we have the scan results */ - for (i = 0; i < scan_result_list_count; ++i) { - scan_result = &scan_result_list[i]; - - unifi_trace(priv, UDBG2, "Scan Result: %.*s\n", - scan_result->ssid.length, - scan_result->ssid.ssid); - - r = unifi_translate_scan(priv->netdev[0], info, - current_ev, - scan_results + scan_results_len, - scan_result, i+1); - - if (r < 0) { - kfree(scan_result_list); - priv->sme_reply.reply_scan_results_count = 0; - priv->sme_reply.reply_scan_results = NULL; - return r; - } - - current_ev += r; - } - - /* - * Free the scan results allocated in unifi_mgt_scan_results_get_cfm() - * and invalidate the reply_scan_results to avoid re-using - * the freed pointers. - */ - kfree(scan_result_list); - priv->sme_reply.reply_scan_results_count = 0; - priv->sme_reply.reply_scan_results = NULL; - - unifi_trace(priv, UDBG2, - "scan_results: Scan translated to %d bytes\n", - current_ev - scan_results); - return (current_ev - scan_results); -} - - -int sme_mgt_connect(unifi_priv_t *priv) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_connect: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG2, "sme_mgt_connect: %.*s\n", - priv->connection_config.ssid.length, - priv->connection_config.ssid.ssid); - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeConnectReqSend(0, CSR_WIFI_INTERFACE_IN_USE, priv->connection_config); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - if (priv->sme_reply.reply_status) - unifi_trace(priv, UDBG1, "sme_mgt_connect: failed with SME status %d\n", - priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -} - - -int sme_mgt_disconnect(unifi_priv_t *priv) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_disconnect: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeDisconnectReqSend(0, CSR_WIFI_INTERFACE_IN_USE); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, "sme_mgt_disconnect: <-- (status=%d)\n", priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -} - - -int sme_mgt_pmkid(unifi_priv_t *priv, - CsrWifiSmeListAction action, - CsrWifiSmePmkidList *pmkid_list) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_pmkid: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmePmkidReqSend(0, CSR_WIFI_INTERFACE_IN_USE, action, - pmkid_list->pmkidsCount, pmkid_list->pmkids); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, "sme_mgt_pmkid: <-- (status=%d)\n", priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -} - - -int sme_mgt_mib_get(unifi_priv_t *priv, - unsigned char *varbind, int *length) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_mib_get: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - priv->mib_cfm_buffer = varbind; - priv->mib_cfm_buffer_length = MAX_VARBIND_LENGTH; - - CsrWifiSmeMibGetReqSend(0, *length, varbind); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) { - priv->mib_cfm_buffer_length = 0; - priv->mib_cfm_buffer = NULL; - return r; - } - - *length = priv->mib_cfm_buffer_length; - - priv->mib_cfm_buffer_length = 0; - priv->mib_cfm_buffer = NULL; - unifi_trace(priv, UDBG4, "sme_mgt_mib_get: <-- (status=%d)\n", priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -} - -int sme_mgt_mib_set(unifi_priv_t *priv, - unsigned char *varbind, int length) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_mib_get: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeMibSetReqSend(0, length, varbind); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, "sme_mgt_mib_set: <-- (status=%d)\n", priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -} - -#endif /* CSR_SUPPORT_WEXT */ - -int sme_mgt_power_config_set(unifi_priv_t *priv, CsrWifiSmePowerConfig *powerConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_set_value_async: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmePowerConfigSetReqSend(0, *powerConfig); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_mgt_set_value_async: unifi_mgt_set_value_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_set_value: invalid smepriv\n"); - return -EIO; - } - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtPowerConfigSetReq(priv->smepriv, *powerConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_sme_config_set(unifi_priv_t *priv, CsrWifiSmeStaConfig *staConfig, CsrWifiSmeDeviceConfig *deviceConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_sme_config_set: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeSmeStaConfigSetReqSend(0, CSR_WIFI_INTERFACE_IN_USE, *staConfig); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_mgt_sme_config_set: CsrWifiSmeSmeStaConfigSetReq <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeSmeCommonConfigSetReqSend(0, *deviceConfig); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_mgt_sme_config_set: CsrWifiSmeSmeCommonConfigSetReq <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_sme_config_set: invalid smepriv\n"); - return -EIO; - } - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtSmeConfigSetReq(priv->smepriv, *staConfig); - status = CsrWifiSmeMgtDeviceConfigSetReq(priv->smepriv, *deviceConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -#ifdef CSR_SUPPORT_WEXT - -int sme_mgt_mib_config_set(unifi_priv_t *priv, CsrWifiSmeMibConfig *mibConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_mib_config_set: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeMibConfigSetReqSend(0, *mibConfig); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_mgt_mib_config_set: unifi_mgt_set_mib_config_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_mib_config_set: invalid smepriv\n"); - return -EIO; - } - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtMibConfigSetReq(priv->smepriv, *mibConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_coex_config_set(unifi_priv_t *priv, CsrWifiSmeCoexConfig *coexConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_coex_config_set: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeCoexConfigSetReqSend(0, *coexConfig); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_mgt_coex_config_set: unifi_mgt_set_mib_config_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_coex_config_set: invalid smepriv\n"); - return -EIO; - } - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtCoexConfigSetReq(priv->smepriv, *coexConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -#endif /* CSR_SUPPORT_WEXT */ - -int sme_mgt_host_config_set(unifi_priv_t *priv, CsrWifiSmeHostConfig *hostConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_host_config_set: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeHostConfigSetReqSend(0, CSR_WIFI_INTERFACE_IN_USE, *hostConfig); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_mgt_host_config_set: unifi_mgt_set_host_config_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_host_config_set: invalid smepriv\n"); - return -EIO; - } - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtHostConfigSetReq(priv->smepriv, *hostConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -#ifdef CSR_SUPPORT_WEXT - -int sme_mgt_versions_get(unifi_priv_t *priv, CsrWifiSmeVersions *versions) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_versions_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_versions_get: unifi_mgt_versions_get_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeVersionsGetReqSend(0); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (versions != NULL) { - memcpy((unsigned char*)versions, - (unsigned char*)&priv->sme_reply.versions, - sizeof(CsrWifiSmeVersions)); - } - - unifi_trace(priv, UDBG4, - "sme_mgt_versions_get: unifi_mgt_versions_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtVersionsGetReq(priv->smepriv, versions); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -#endif /* CSR_SUPPORT_WEXT */ - -int sme_mgt_power_config_get(unifi_priv_t *priv, CsrWifiSmePowerConfig *powerConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_power_config_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_power_config_get: unifi_mgt_power_config_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmePowerConfigGetReqSend(0); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (powerConfig != NULL) { - memcpy((unsigned char*)powerConfig, - (unsigned char*)&priv->sme_reply.powerConfig, - sizeof(CsrWifiSmePowerConfig)); - } - - unifi_trace(priv, UDBG4, - "sme_mgt_get_versions: unifi_mgt_power_config_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtPowerConfigGetReq(priv->smepriv, powerConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_host_config_get(unifi_priv_t *priv, CsrWifiSmeHostConfig *hostConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_host_config_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_host_config_get: unifi_mgt_host_config_get_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeHostConfigGetReqSend(0, CSR_WIFI_INTERFACE_IN_USE); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (hostConfig != NULL) - memcpy((unsigned char*)hostConfig, - (unsigned char*)&priv->sme_reply.hostConfig, - sizeof(CsrWifiSmeHostConfig)); - - unifi_trace(priv, UDBG4, - "sme_mgt_host_config_get: unifi_mgt_host_config_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtHostConfigGetReq(priv->smepriv, hostConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_sme_config_get(unifi_priv_t *priv, CsrWifiSmeStaConfig *staConfig, CsrWifiSmeDeviceConfig *deviceConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_sme_config_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_sme_config_get: unifi_mgt_sme_config_get_req -->\n"); - - /* Common device config */ - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeSmeCommonConfigGetReqSend(0); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (deviceConfig != NULL) - memcpy((unsigned char*)deviceConfig, - (unsigned char*)&priv->sme_reply.deviceConfig, - sizeof(CsrWifiSmeDeviceConfig)); - - /* STA config */ - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeSmeStaConfigGetReqSend(0, CSR_WIFI_INTERFACE_IN_USE); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (staConfig != NULL) - memcpy((unsigned char*)staConfig, - (unsigned char*)&priv->sme_reply.staConfig, - sizeof(CsrWifiSmeStaConfig)); - - unifi_trace(priv, UDBG4, - "sme_mgt_sme_config_get: unifi_mgt_sme_config_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtSmeConfigGetReq(priv->smepriv, staConfig); - status = CsrWifiSmeMgtDeviceConfigGetReq(priv->smepriv, deviceConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_coex_info_get(unifi_priv_t *priv, CsrWifiSmeCoexInfo *coexInfo) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_coex_info_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_coex_info_get: unifi_mgt_coex_info_get_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeCoexInfoGetReqSend(0); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (coexInfo != NULL) - memcpy((unsigned char*)coexInfo, - (unsigned char*)&priv->sme_reply.coexInfo, - sizeof(CsrWifiSmeCoexInfo)); - - unifi_trace(priv, UDBG4, - "sme_mgt_coex_info_get: unifi_mgt_coex_info_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtCoexInfoGetReq(priv->smepriv, coexInfo); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -#ifdef CSR_SUPPORT_WEXT - -int sme_mgt_coex_config_get(unifi_priv_t *priv, CsrWifiSmeCoexConfig *coexConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_coex_config_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_coex_config_get: unifi_mgt_coex_config_get_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeCoexConfigGetReqSend(0); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (coexConfig != NULL) - memcpy((unsigned char*)coexConfig, - (unsigned char*)&priv->sme_reply.coexConfig, - sizeof(CsrWifiSmeCoexConfig)); - - unifi_trace(priv, UDBG4, - "sme_mgt_coex_config_get: unifi_mgt_coex_config_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtCoexConfigGetReq(priv->smepriv, coexConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_mib_config_get(unifi_priv_t *priv, CsrWifiSmeMibConfig *mibConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_mib_config_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_mib_config_get: unifi_mgt_mib_config_get_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeMibConfigGetReqSend(0); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (mibConfig != NULL) - memcpy((unsigned char*)mibConfig, - (unsigned char*)&priv->sme_reply.mibConfig, - sizeof(CsrWifiSmeMibConfig)); - - unifi_trace(priv, UDBG4, - "sme_mgt_mib_config_get: unifi_mgt_mib_config_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtMibConfigGetReq(priv->smepriv, mibConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_connection_info_get(unifi_priv_t *priv, CsrWifiSmeConnectionInfo *connectionInfo) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_connection_info_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_connection_info_get: unifi_mgt_connection_info_get_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeConnectionInfoGetReqSend(0, CSR_WIFI_INTERFACE_IN_USE); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (connectionInfo != NULL) - memcpy((unsigned char*)connectionInfo, - (unsigned char*)&priv->sme_reply.connectionInfo, - sizeof(CsrWifiSmeConnectionInfo)); - - unifi_trace(priv, UDBG4, - "sme_mgt_connection_info_get: unifi_mgt_connection_info_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtConnectionInfoGetReq(priv->smepriv, connectionInfo); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_connection_config_get(unifi_priv_t *priv, CsrWifiSmeConnectionConfig *connectionConfig) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_connection_config_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_connection_config_get: unifi_mgt_connection_config_get_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeConnectionConfigGetReqSend(0, CSR_WIFI_INTERFACE_IN_USE); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (connectionConfig != NULL) - memcpy((unsigned char*)connectionConfig, - (unsigned char*)&priv->sme_reply.connectionConfig, - sizeof(CsrWifiSmeConnectionConfig)); - - unifi_trace(priv, UDBG4, - "sme_mgt_connection_config_get: unifi_mgt_connection_config_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtConnectionConfigGetReq(priv->smepriv, connectionConfig); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -int sme_mgt_connection_stats_get(unifi_priv_t *priv, CsrWifiSmeConnectionStats *connectionStats) -{ -#ifdef CSR_SME_USERSPACE - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_connection_stats_get: invalid smepriv\n"); - return -EIO; - } - - unifi_trace(priv, UDBG4, "sme_mgt_connection_stats_get: unifi_mgt_connection_stats_get_req -->\n"); - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeConnectionStatsGetReqSend(0, CSR_WIFI_INTERFACE_IN_USE); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - /* store the reply */ - if (connectionStats != NULL) - memcpy((unsigned char*)connectionStats, - (unsigned char*)&priv->sme_reply.connectionStats, - sizeof(CsrWifiSmeConnectionStats)); - - unifi_trace(priv, UDBG4, - "sme_mgt_connection_stats_get: unifi_mgt_connection_stats_get_req <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - - return convert_sme_error(priv->sme_reply.reply_status); -#else - CsrResult status; - CsrWifiSmeMgtClaimSyncAccess(priv->smepriv); - status = CsrWifiSmeMgtConnectionStatsGetReq(priv->smepriv, connectionStats); - CsrWifiSmeMgtReleaseSyncAccess(priv->smepriv); - return convert_sme_error(status); -#endif -} - -#endif /* CSR_SUPPORT_WEXT */ - -int sme_mgt_packet_filter_set(unifi_priv_t *priv) -{ - CsrWifiIp4Address ipAddress = {{0xFF, 0xFF, 0xFF, 0xFF }}; - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_packet_filter_set: invalid smepriv\n"); - return -EIO; - } - if (priv->packet_filters.arp_filter) { - ipAddress.a[0] = (priv->sta_ip_address ) & 0xFF; - ipAddress.a[1] = (priv->sta_ip_address >> 8) & 0xFF; - ipAddress.a[2] = (priv->sta_ip_address >> 16) & 0xFF; - ipAddress.a[3] = (priv->sta_ip_address >> 24) & 0xFF; - } - - unifi_trace(priv, UDBG5, - "sme_mgt_packet_filter_set: IP address %d.%d.%d.%d\n", - ipAddress.a[0], ipAddress.a[1], - ipAddress.a[2], ipAddress.a[3]); - - /* Doesn't block for a confirm */ - CsrWifiSmePacketFilterSetReqSend(0, CSR_WIFI_INTERFACE_IN_USE, - priv->packet_filters.tclas_ies_length, - priv->filter_tclas_ies, - priv->packet_filters.filter_mode, - ipAddress); - return 0; -} - -int sme_mgt_tspec(unifi_priv_t *priv, CsrWifiSmeListAction action, - u32 tid, CsrWifiSmeDataBlock *tspec, CsrWifiSmeDataBlock *tclas) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_mgt_tspec: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiSmeTspecReqSend(0, CSR_WIFI_INTERFACE_IN_USE, - action, tid, TRUE, 0, - tspec->length, tspec->data, - tclas->length, tclas->data); - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, "sme_mgt_tspec: <-- (status=%d)\n", priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -} - - - -int sme_sys_suspend(unifi_priv_t *priv) -{ - int r; - CsrResult csrResult; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_sys_suspend: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - /* Suspend the SME, which MAY cause it to power down UniFi */ - CsrWifiRouterCtrlSuspendIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, 0, priv->wol_suspend); - r = sme_wait_for_reply(priv, UNIFI_SME_SYS_LONG_TIMEOUT); - if (r) { - /* No reply - forcibly power down in case the request wasn't processed */ - unifi_notice(priv, - "suspend: SME did not reply %s, ", - (priv->ptest_mode | priv->wol_suspend) ? "leave powered" : "power off UniFi anyway\n"); - - /* Leave power on for production test, though */ - if (!priv->ptest_mode) { - /* Put UniFi to deep sleep, in case we can not power it off */ - CsrSdioClaim(priv->sdio); - unifi_trace(priv, UDBG1, "Force deep sleep"); - csrResult = unifi_force_low_power_mode(priv->card); - - /* For WOL, the UniFi must stay powered */ - if (!priv->wol_suspend) { - unifi_trace(priv, UDBG1, "Power off\n"); - CsrSdioPowerOff(priv->sdio); - } - CsrSdioRelease(priv->sdio); - } - } - - if (priv->wol_suspend) { - unifi_trace(priv, UDBG1, "UniFi left powered for WOL\n"); - - /* Remove the IRQ, which also disables the card SDIO interrupt. - * Disabling the card SDIO interrupt enables the PIO WOL source. - * Removal of the of the handler ensures that in both SDIO and PIO cases - * the card interrupt only wakes the host. The card will be polled - * after resume to handle any pending data. - */ - if (csr_sdio_linux_remove_irq(priv->sdio)) { - unifi_notice(priv, "WOL csr_sdio_linux_remove_irq failed\n"); - } - - if (enable_wol == UNIFI_WOL_SDIO) { - /* Because csr_sdio_linux_remove_irq() disabled the card SDIO interrupt, - * it must be left enabled to wake-on-SDIO. - */ - unifi_trace(priv, UDBG1, "Enable card SDIO interrupt for SDIO WOL\n"); - - CsrSdioClaim(priv->sdio); - csrResult = CsrSdioInterruptEnable(priv->sdio); - CsrSdioRelease(priv->sdio); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "WOL CsrSdioInterruptEnable failed %d\n", csrResult); - } - } else { - unifi_trace(priv, UDBG1, "Disabled card SDIO interrupt for PIO WOL\n"); - } - - /* Prevent the BH thread from running during the suspend. - * Upon resume, sme_sys_resume() will trigger a wifi-on, this will cause - * the BH thread to be re-enabled and reinstall the ISR. - */ - priv->bh_thread.block_thread = 1; - - unifi_trace(priv, UDBG1, "unifi_suspend: suspended BH"); - } - - /* Consider UniFi to be uninitialised */ - priv->init_progress = UNIFI_INIT_NONE; - - unifi_trace(priv, UDBG1, "sme_sys_suspend: <-- (r=%d status=%d)\n", r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -} - - -int sme_sys_resume(unifi_priv_t *priv) -{ - int r; - - unifi_trace(priv, UDBG1, "sme_sys_resume %s\n", priv->wol_suspend ? "warm" : ""); - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_sys_resume: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiRouterCtrlResumeIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, priv->wol_suspend); - - r = sme_wait_for_reply(priv, UNIFI_SME_SYS_LONG_TIMEOUT); - if (r) - unifi_notice(priv, - "resume: SME did not reply, return success anyway\n"); - - return 0; -} - -#ifdef CSR_SUPPORT_WEXT_AP -int sme_ap_stop(unifi_priv_t *priv, u16 interface_tag) -{ - int r; - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_ap_stop: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiNmeApStopReqSend(0, interface_tag); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_ap_stop <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); - -} - -int sme_ap_start(unifi_priv_t *priv, u16 interface_tag, - CsrWifiSmeApConfig_t * ap_config) -{ - int r; - CsrWifiSmeApP2pGoConfig p2p_go_param; - memset(&p2p_go_param, 0, sizeof(CsrWifiSmeApP2pGoConfig)); - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_ap_start: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiNmeApStartReqSend(0, interface_tag, CSR_WIFI_AP_TYPE_LEGACY, FALSE, - ap_config->ssid, 1, ap_config->channel, - ap_config->credentials, ap_config->max_connections, - p2p_go_param, FALSE); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_ap_start <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -} - -int sme_ap_config(unifi_priv_t *priv, - CsrWifiSmeApMacConfig *ap_mac_config, - CsrWifiNmeApConfig *group_security_config) -{ - int r; - CsrWifiSmeApP2pGoConfig p2p_go_param; - memset(&p2p_go_param, 0, sizeof(CsrWifiSmeApP2pGoConfig)); - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_ap_config: invalid smepriv\n"); - return -EIO; - } - - r = sme_init_request(priv); - if (r) - return -EIO; - - CsrWifiNmeApConfigSetReqSend(0, *group_security_config, - *ap_mac_config); - - r = sme_wait_for_reply(priv, UNIFI_SME_MGT_SHORT_TIMEOUT); - if (r) - return r; - - unifi_trace(priv, UDBG4, - "sme_ap_config <-- (r=%d status=%d)\n", - r, priv->sme_reply.reply_status); - return convert_sme_error(priv->sme_reply.reply_status); -} -#endif diff --git a/drivers/staging/csr/sme_mgt.c b/drivers/staging/csr/sme_mgt.c deleted file mode 100644 index 58d1b3b..0000000 --- a/drivers/staging/csr/sme_mgt.c +++ /dev/null @@ -1,1012 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: sme_mgt.c - * - * PURPOSE: - * This file contains the driver specific implementation of - * the SME MGT SAP. - * It is part of the porting exercise. - * - * Copyright (C) 2008-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ - -#include "csr_wifi_hip_unifiversion.h" -#include "unifi_priv.h" -#include "csr_wifi_hip_conversions.h" -/* - * This file implements the SME MGT API. It contains the following functions: - * CsrWifiSmeWifiFlightmodeCfmSend() - * CsrWifiSmeWifiOnCfmSend() - * CsrWifiSmeWifiOffCfmSend() - * CsrWifiSmeWifiOffIndSend() - * CsrWifiSmeScanFullCfmSend() - * CsrWifiSmeScanResultsGetCfmSend() - * CsrWifiSmeScanResultIndSend() - * CsrWifiSmeScanResultsFlushCfmSend() - * CsrWifiSmeConnectCfmSend() - * CsrWifiSmeMediaStatusIndSend() - * CsrWifiSmeDisconnectCfmSend() - * CsrWifiSmeKeyCfmSend() - * CsrWifiSmeMulticastAddressCfmSend() - * CsrWifiSmeSetValueCfmSend() - * CsrWifiSmeGetValueCfmSend() - * CsrWifiSmeMicFailureIndSend() - * CsrWifiSmePmkidCfmSend() - * CsrWifiSmePmkidCandidateListIndSend() - * CsrWifiSmeMibSetCfmSend() - * CsrWifiSmeMibGetCfmSend() - * CsrWifiSmeMibGetNextCfmSend() - * CsrWifiSmeConnectionQualityIndSend() - * CsrWifiSmePacketFilterSetCfmSend() - * CsrWifiSmeTspecCfmSend() - * CsrWifiSmeTspecIndSend() - * CsrWifiSmeBlacklistCfmSend() - * CsrWifiSmeEventMaskSetCfmSend() - * CsrWifiSmeRoamStartIndSend() - * CsrWifiSmeRoamCompleteIndSend() - * CsrWifiSmeAssociationStartIndSend() - * CsrWifiSmeAssociationCompleteIndSend() - * CsrWifiSmeIbssStationIndSend() - */ - - -void CsrWifiSmeMicFailureIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeMicFailureInd* ind = (CsrWifiSmeMicFailureInd*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeMicFailureIndSend: invalid priv\n"); - return; - } - - unifi_trace(priv, UDBG1, - "CsrWifiSmeMicFailureIndSend: count=%d, KeyType=%d\n", - ind->count, ind->keyType); - - wext_send_michaelmicfailure_event(priv, ind->count, ind->address, ind->keyType, ind->interfaceTag); -#endif -} - - -void CsrWifiSmePmkidCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmePmkidCfm* cfm = (CsrWifiSmePmkidCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmePmkidCfmSend: Invalid ospriv.\n"); - return; - } - - /* - * WEXT never does a GET operation the PMKIDs, so we don't need - * handle data returned in pmkids. - */ - - sme_complete_request(priv, cfm->status); -#endif -} - - -void CsrWifiSmePmkidCandidateListIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmePmkidCandidateListInd* ind = (CsrWifiSmePmkidCandidateListInd*)msg; - int i; - - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiSmePmkidCandidateListIndSend: invalid smepriv\n"); - return; - } - - for (i = 0; i < ind->pmkidCandidatesCount; i++) - { - wext_send_pmkid_candidate_event(priv, ind->pmkidCandidates[i].bssid, ind->pmkidCandidates[i].preAuthAllowed, ind->interfaceTag); - } -#endif -} - -void CsrWifiSmeScanResultsFlushCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeScanResultsGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeScanResultsGetCfm* cfm = (CsrWifiSmeScanResultsGetCfm*)msg; - int bytesRequired = cfm->scanResultsCount * sizeof(CsrWifiSmeScanResult); - int i; - u8* current_buff; - CsrWifiSmeScanResult* scanCopy; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeScanResultsGetCfmSend: Invalid ospriv.\n"); - return; - } - - /* Calc the size of the buffer reuired */ - for (i = 0; i < cfm->scanResultsCount; ++i) { - const CsrWifiSmeScanResult *scan_result = &cfm->scanResults[i]; - bytesRequired += scan_result->informationElementsLength; - } - - /* Take a Copy of the scan Results :-) */ - scanCopy = kmalloc(bytesRequired, GFP_KERNEL); - memcpy(scanCopy, cfm->scanResults, sizeof(CsrWifiSmeScanResult) * cfm->scanResultsCount); - - /* Take a Copy of the Info Elements AND update the scan result pointers */ - current_buff = (u8*)&scanCopy[cfm->scanResultsCount]; - for (i = 0; i < cfm->scanResultsCount; ++i) - { - CsrWifiSmeScanResult *scan_result = &scanCopy[i]; - memcpy(current_buff, scan_result->informationElements, scan_result->informationElementsLength); - scan_result->informationElements = current_buff; - current_buff += scan_result->informationElementsLength; - } - - priv->sme_reply.reply_scan_results_count = cfm->scanResultsCount; - priv->sme_reply.reply_scan_results = scanCopy; - - sme_complete_request(priv, cfm->status); -#endif -} - - -void CsrWifiSmeScanFullCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeScanFullCfm* cfm = (CsrWifiSmeScanFullCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeScanFullCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - - -void CsrWifiSmeScanResultIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - -} - - -void CsrWifiSmeConnectCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeConnectCfm* cfm = (CsrWifiSmeConnectCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeConnectCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - - -void CsrWifiSmeDisconnectCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeDisconnectCfm* cfm = (CsrWifiSmeDisconnectCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeDisconnectCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - - -void CsrWifiSmeKeyCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeKeyCfm* cfm = (CsrWifiSmeKeyCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeKeyCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - - -void CsrWifiSmeMulticastAddressCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeMulticastAddressCfm* cfm = (CsrWifiSmeMulticastAddressCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeMulticastAddressCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeWifiFlightmodeCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeWifiFlightmodeCfm* cfm = (CsrWifiSmeWifiFlightmodeCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeWifiFlightmodeCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeWifiOnCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeWifiOnCfm* cfm = (CsrWifiSmeWifiOnCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeWifiOnCfmSend: Invalid ospriv.\n"); - return; - } - - unifi_trace(priv, UDBG4, - "CsrWifiSmeWifiOnCfmSend: wake up status %d\n", cfm->status); -#ifdef CSR_SUPPORT_WEXT_AP - sme_complete_request(priv, cfm->status); -#endif - -#endif -} - -void CsrWifiSmeWifiOffCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeWifiOffCfm* cfm = (CsrWifiSmeWifiOffCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeWifiOffCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - - -void CsrWifiSmeWifiOffIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeWifiOffInd* ind = (CsrWifiSmeWifiOffInd*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiRouterCtrlStoppedReqSend: Invalid ospriv.\n"); - return; - } - - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlStoppedReqSend: invalid smepriv\n"); - return; - } - - /* - * If the status indicates an error, the SME is in a stopped state. - * We need to start it again in order to reinitialise UniFi. - */ - switch (ind->reason) { - case CSR_WIFI_SME_CONTROL_INDICATION_ERROR: - unifi_trace(priv, UDBG1, - "CsrWifiRouterCtrlStoppedReqSend: Restarting SME (ind:%d)\n", - ind->reason); - - /* On error, restart the SME */ - sme_mgt_wifi_on(priv); - break; - case CSR_WIFI_SME_CONTROL_INDICATION_EXIT: -#ifdef CSR_SUPPORT_WEXT_AP - sme_complete_request(priv, 0); -#endif - break; - default: - break; - } - -#endif -} - -void CsrWifiSmeVersionsGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeVersionsGetCfm* cfm = (CsrWifiSmeVersionsGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeVersionsGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.versions = cfm->versions; - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmePowerConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmePowerConfigGetCfm* cfm = (CsrWifiSmePowerConfigGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmePowerConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.powerConfig = cfm->powerConfig; - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeHostConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeHostConfigGetCfm* cfm = (CsrWifiSmeHostConfigGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeHostConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.hostConfig = cfm->hostConfig; - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeCoexInfoGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeCoexInfoGetCfm* cfm = (CsrWifiSmeCoexInfoGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeCoexInfoGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.coexInfo = cfm->coexInfo; - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeCoexConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeCoexConfigGetCfm* cfm = (CsrWifiSmeCoexConfigGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeCoexConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.coexConfig = cfm->coexConfig; - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeMibConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeMibConfigGetCfm* cfm = (CsrWifiSmeMibConfigGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeMibConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.mibConfig = cfm->mibConfig; - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeConnectionInfoGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeConnectionInfoGetCfm* cfm = (CsrWifiSmeConnectionInfoGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeConnectionInfoGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.connectionInfo = cfm->connectionInfo; - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeConnectionConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeConnectionConfigGetCfm* cfm = (CsrWifiSmeConnectionConfigGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeConnectionConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.connectionConfig = cfm->connectionConfig; - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeConnectionStatsGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeConnectionStatsGetCfm* cfm = (CsrWifiSmeConnectionStatsGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeConnectionStatsGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.connectionStats = cfm->connectionStats; - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeMibSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeMibSetCfm* cfm = (CsrWifiSmeMibSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeMibSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeMibGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeMibGetCfm* cfm = (CsrWifiSmeMibGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeMibGetCfmSend: Invalid ospriv.\n"); - return; - } - - if (cfm->mibAttribute == NULL) { - unifi_error(priv, "CsrWifiSmeMibGetCfmSend: Empty reply.\n"); - sme_complete_request(priv, cfm->status); - return; - } - - if ((priv->mib_cfm_buffer != NULL) && - (priv->mib_cfm_buffer_length >= cfm->mibAttributeLength)) { - memcpy(priv->mib_cfm_buffer, cfm->mibAttribute, cfm->mibAttributeLength); - priv->mib_cfm_buffer_length = cfm->mibAttributeLength; - } else { - unifi_error(priv, - "CsrWifiSmeMibGetCfmSend: No room to store MIB data (have=%d need=%d).\n", - priv->mib_cfm_buffer_length, cfm->mibAttributeLength); - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeMibGetNextCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeMibGetNextCfm* cfm = (CsrWifiSmeMibGetNextCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeMibGetNextCfmSend: Invalid ospriv.\n"); - return; - } - - /* Need to copy MIB data */ - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeConnectionQualityIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeConnectionQualityInd* ind = (CsrWifiSmeConnectionQualityInd*)msg; - int signal, noise, snr; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeConnectionQualityIndSend: Invalid ospriv.\n"); - return; - } - - /* - * level and noise below are mapped into an unsigned 8 bit number, - * ranging from [-192; 63]. The way this is achieved is simply to - * add 0x100 onto the number if it is negative, - * once clipped to the correct range. - */ - signal = ind->linkQuality.unifiRssi; - /* Clip range of snr */ - snr = (ind->linkQuality.unifiSnr > 0) ? ind->linkQuality.unifiSnr : 0; /* In dB relative, from 0 - 255 */ - snr = (snr < 255) ? snr : 255; - noise = signal - snr; - - /* Clip range of signal */ - signal = (signal < 63) ? signal : 63; - signal = (signal > -192) ? signal : -192; - - /* Clip range of noise */ - noise = (noise < 63) ? noise : 63; - noise = (noise > -192) ? noise : -192; - - /* Make u8 */ - signal = ( signal < 0 ) ? signal + 0x100 : signal; - noise = ( noise < 0 ) ? noise + 0x100 : noise; - - priv->wext_wireless_stats.qual.level = (u8)signal; /* -192 : 63 */ - priv->wext_wireless_stats.qual.noise = (u8)noise; /* -192 : 63 */ - priv->wext_wireless_stats.qual.qual = snr; /* 0 : 255 */ - priv->wext_wireless_stats.qual.updated = 0; - -#if WIRELESS_EXT > 16 - priv->wext_wireless_stats.qual.updated |= IW_QUAL_LEVEL_UPDATED | - IW_QUAL_NOISE_UPDATED | - IW_QUAL_QUAL_UPDATED; -#if WIRELESS_EXT > 18 - priv->wext_wireless_stats.qual.updated |= IW_QUAL_DBM; -#endif -#endif -#endif -} - -void CsrWifiSmePacketFilterSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmePacketFilterSetCfmSend: Invalid ospriv.\n"); - return; - } - - /* The packet filter set request does not block for a reply */ -} - -void CsrWifiSmeTspecCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeTspecCfm* cfm = (CsrWifiSmeTspecCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeTspecCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeTspecIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeBlacklistCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeEventMaskSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - - -void CsrWifiSmeRoamStartIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeRoamCompleteIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - /* This is called when the association completes, before any 802.1x authentication */ -} - -void CsrWifiSmeAssociationStartIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeAssociationCompleteIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeIbssStationIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeWifiOnIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeRestrictedAccessEnableCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeRestrictedAccessDisableCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - - -void CsrWifiSmeAdhocConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeAdhocConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeAdhocConfigSetCfm* cfm = (CsrWifiSmeAdhocConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeCalibrationDataGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeCalibrationDataSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeCalibrationDataSetCfm* cfm = (CsrWifiSmeCalibrationDataSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeCcxConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeCcxConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeCcxConfigSetCfm* cfm = (CsrWifiSmeCcxConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeCloakedSsidsGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeCloakedSsidsSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeCloakedSsidsSetCfm* cfm = (CsrWifiSmeCloakedSsidsSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - - -void CsrWifiSmeCoexConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeCoexConfigSetCfm* cfm = (CsrWifiSmeCoexConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeHostConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeHostConfigSetCfm* cfm = (CsrWifiSmeHostConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeLinkQualityGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - - -void CsrWifiSmeMibConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeMibConfigSetCfm* cfm = (CsrWifiSmeMibConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmePermanentMacAddressGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmePowerConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmePowerConfigSetCfm* cfm = (CsrWifiSmePowerConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeRegulatoryDomainInfoGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeRoamingConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeMediaStatusIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeMediaStatusInd* ind = (CsrWifiSmeMediaStatusInd*)msg; - - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiSmeMediaStatusIndSend: invalid smepriv\n"); - return; - } - - if (ind->mediaStatus == CSR_WIFI_SME_MEDIA_STATUS_CONNECTED) { - /* - * Send wireless-extension event up to userland to announce - * connection. - */ - wext_send_assoc_event(priv, - (unsigned char *)ind->connectionInfo.bssid.a, - (unsigned char *)ind->connectionInfo.assocReqInfoElements, - ind->connectionInfo.assocReqInfoElementsLength, - (unsigned char *)ind->connectionInfo.assocRspInfoElements, - ind->connectionInfo.assocRspInfoElementsLength, - (unsigned char *)ind->connectionInfo.assocScanInfoElements, - ind->connectionInfo.assocScanInfoElementsLength); - - unifi_trace(priv, UDBG2, "CsrWifiSmeMediaStatusIndSend: IBSS=%pM\n", - ind->connectionInfo.bssid.a); - - sme_mgt_packet_filter_set(priv); - - } else { - /* - * Send wireless-extension event up to userland to announce - * connection lost to a BSS. - */ - wext_send_disassoc_event(priv); - } -#endif -} - -void CsrWifiSmeRoamingConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeRoamingConfigSetCfm* cfm = (CsrWifiSmeRoamingConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeRoamingConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeScanConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeScanConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_SUPPORT_WEXT - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeScanConfigSetCfm* cfm = (CsrWifiSmeScanConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -#endif -} - -void CsrWifiSmeStationMacAddressGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeSmeCommonConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeSmeCommonConfigGetCfm* cfm = (CsrWifiSmeSmeCommonConfigGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeCommonConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.deviceConfig = cfm->deviceConfig; - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeSmeStaConfigGetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeSmeStaConfigGetCfm* cfm = (CsrWifiSmeSmeStaConfigGetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeStaConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - priv->sme_reply.staConfig = cfm->smeConfig; - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeSmeCommonConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeSmeCommonConfigSetCfm* cfm = (CsrWifiSmeSmeCommonConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeCommonConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeSmeStaConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiSmeSmeStaConfigSetCfm* cfm = (CsrWifiSmeSmeStaConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiSmeSmeStaConfigGetCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -} - -void CsrWifiSmeGetInterfaceCapabilityCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeErrorIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeInfoIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeCoreDumpIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} -void CsrWifiSmeAmpStatusChangeIndHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiSmeActivateCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} -void CsrWifiSmeDeactivateCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -#ifdef CSR_SUPPORT_WEXT -#ifdef CSR_SUPPORT_WEXT_AP -void CsrWifiNmeApStartCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiNmeApStartCfm* cfm = (CsrWifiNmeApStartCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiNmeApStartCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -} - -void CsrWifiNmeApStopCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiNmeApStopCfm* cfm = (CsrWifiNmeApStopCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiNmeApStopCfmSend: Invalid ospriv.\n"); - return; - } - - sme_complete_request(priv, cfm->status); -} - -void CsrWifiNmeApConfigSetCfmHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiNmeApConfigSetCfm* cfm = (CsrWifiNmeApConfigSetCfm*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiNmeApConfigSetCfmSend: Invalid ospriv.\n"); - return; - } - sme_complete_request(priv, cfm->status); -} -#endif -#endif diff --git a/drivers/staging/csr/sme_native.c b/drivers/staging/csr/sme_native.c deleted file mode 100644 index d0b9be3..0000000 --- a/drivers/staging/csr/sme_native.c +++ /dev/null @@ -1,566 +0,0 @@ -/* - * *************************************************************************** - * - * FILE: sme_native.c - * - * Copyright (C) 2005-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * *************************************************************************** - */ - -#include <linux/netdevice.h> -#include "unifi_priv.h" -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" - -static const unsigned char wildcard_address[ETH_ALEN] = {0x00, 0x00, 0x00, 0x00, 0x00, 0x00}; - -int -uf_sme_init(unifi_priv_t *priv) -{ - sema_init(&priv->mlme_blocking_mutex, 1); - -#ifdef CSR_SUPPORT_WEXT - { - int r = uf_init_wext_interface(priv); - if (r != 0) { - return r; - } - } -#endif - - return 0; -} /* uf_sme_init() */ - - -void -uf_sme_deinit(unifi_priv_t *priv) -{ - - /* Free memory allocated for the scan table */ -/* unifi_clear_scan_table(priv); */ - - /* Cancel any pending workqueue tasks */ - flush_workqueue(priv->unifi_workqueue); - -#ifdef CSR_SUPPORT_WEXT - uf_deinit_wext_interface(priv); -#endif - -} /* uf_sme_deinit() */ - - -int sme_mgt_wifi_on(unifi_priv_t *priv) -{ - int r, i; - s32 csrResult; - - if (priv == NULL) { - return -EINVAL; - } - /* Initialize the interface mode to None */ - for (i=0; i<CSR_WIFI_NUM_INTERFACES; i++) { - priv->interfacePriv[i]->interfaceMode = 0; - } - - /* Set up interface mode so that get_packet_priority() can - * select the right QOS priority when WMM is enabled. - */ - priv->interfacePriv[0]->interfaceMode = CSR_WIFI_ROUTER_CTRL_MODE_STA; - - r = uf_request_firmware_files(priv, UNIFI_FW_STA); - if (r) { - unifi_error(priv, "sme_mgt_wifi_on: Failed to get f/w\n"); - return r; - } - - /* - * The request to initialise UniFi might come while UniFi is running. - * We need to block all I/O activity until the reset completes, otherwise - * an SDIO error might occur resulting an indication to the SME which - * makes it think that the initialisation has failed. - */ - priv->bh_thread.block_thread = 1; - - /* Power on UniFi */ - CsrSdioClaim(priv->sdio); - csrResult = CsrSdioPowerOn(priv->sdio); - CsrSdioRelease(priv->sdio); - if(csrResult != CSR_RESULT_SUCCESS && csrResult != CSR_SDIO_RESULT_NOT_RESET) { - return -EIO; - } - - if (csrResult == CSR_RESULT_SUCCESS) { - /* Initialise UniFi hardware */ - r = uf_init_hw(priv); - if (r) { - return r; - } - } - - /* Re-enable the I/O thread */ - priv->bh_thread.block_thread = 0; - - /* Disable deep sleep signalling during the firmware initialisation, to - * prevent the wakeup mechanism raising the SDIO clock beyond INIT before - * the first MLME-RESET.ind. It gets re-enabled at the CONNECTED.ind, - * immediately after the MLME-RESET.ind - */ - csrResult = unifi_configure_low_power_mode(priv->card, - UNIFI_LOW_POWER_DISABLED, - UNIFI_PERIODIC_WAKE_HOST_DISABLED); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_warning(priv, - "sme_mgt_wifi_on: unifi_configure_low_power_mode() returned an error\n"); - } - - - /* Start the I/O thread */ - CsrSdioClaim(priv->sdio); - r = uf_init_bh(priv); - if (r) { - CsrSdioPowerOff(priv->sdio); - CsrSdioRelease(priv->sdio); - return r; - } - CsrSdioRelease(priv->sdio); - - priv->init_progress = UNIFI_INIT_FW_DOWNLOADED; - - return 0; -} - -int -sme_sys_suspend(unifi_priv_t *priv) -{ - const int interfaceNum = 0; /* FIXME */ - CsrResult csrResult; - - /* Abort any pending requests. */ - uf_abort_mlme(priv); - - /* Allow our mlme request to go through. */ - priv->io_aborted = 0; - - /* Send MLME-RESET.req to UniFi. */ - unifi_reset_state(priv, priv->netdev[interfaceNum]->dev_addr, 0); - - /* Stop the network traffic */ - netif_carrier_off(priv->netdev[interfaceNum]); - - /* Put UniFi to deep sleep */ - CsrSdioClaim(priv->sdio); - csrResult = unifi_force_low_power_mode(priv->card); - CsrSdioRelease(priv->sdio); - - return 0; -} /* sme_sys_suspend() */ - - -int -sme_sys_resume(unifi_priv_t *priv) -{ -#ifdef CSR_SUPPORT_WEXT - /* Send disconnect event so clients will re-initialise connection. */ - memset(priv->wext_conf.current_ssid, 0, UNIFI_MAX_SSID_LEN); - memset((void*)priv->wext_conf.current_bssid, 0, ETH_ALEN); - priv->wext_conf.capability = 0; - wext_send_disassoc_event(priv); -#endif - return 0; -} /* sme_sys_resume() */ - - -/* - * --------------------------------------------------------------------------- - * sme_native_log_event - * - * Callback function to be registered as the SME event callback. - * Copies the signal content into a new udi_log_t struct and adds - * it to the read queue for the SME client. - * - * Arguments: - * arg This is the value given to unifi_add_udi_hook, in - * this case a pointer to the client instance. - * signal Pointer to the received signal. - * signal_len Size of the signal structure in bytes. - * bulkdata Pointers to any associated bulk data. - * dir Direction of the signal. Zero means from host, - * non-zero means to host. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -sme_native_log_event(ul_client_t *pcli, - const u8 *sig_packed, int sig_len, - const bulk_data_param_t *bulkdata, - int dir) -{ - unifi_priv_t *priv; - udi_log_t *logptr; - u8 *p; - int i, r; - int signal_len; - int total_len; - udi_msg_t *msgptr; - CSR_SIGNAL signal; - ul_client_t *client = pcli; - - if (client == NULL) { - unifi_error(NULL, "sme_native_log_event: client has exited\n"); - return; - } - - priv = uf_find_instance(client->instance); - if (!priv) { - unifi_error(priv, "invalid priv\n"); - return; - } - - /* Just a sanity check */ - if ((sig_packed == NULL) || (sig_len <= 0)) { - return; - } - - /* Get the unpacked signal */ - r = read_unpack_signal(sig_packed, &signal); - if (r == 0) { - signal_len = SigGetSize(&signal); - } else { - u16 receiver_id = CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sig_packed) + sizeof(u16)) & 0xFF00; - - /* The control indications are 1 byte, pass them to client. */ - if (sig_len == 1) { - unifi_trace(priv, UDBG5, - "Control indication (0x%x) for native SME.\n", - *sig_packed); - - *(u8*)&signal = *sig_packed; - signal_len = sig_len; - } else if (receiver_id == 0) { - /* - * Also "unknown" signals with a ReceiverId of 0 are passed to the client - * without unpacking. (This is a code size optimisation to allow signals - * that the driver not interested in to be dropped from the unpack code). - */ - unifi_trace(priv, UDBG5, - "Signal 0x%.4X with ReceiverId 0 for native SME.\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sig_packed)); - - *(u8*)&signal = *sig_packed; - signal_len = sig_len; - } else { - unifi_error(priv, - "sme_native_log_event - Received unknown signal 0x%.4X.\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sig_packed)); - return; - } - } - - unifi_trace(priv, UDBG3, "sme_native_log_event: signal 0x%.4X for %d\n", - signal.SignalPrimitiveHeader.SignalId, - client->client_id); - - total_len = signal_len; - /* Calculate the buffer we need to store signal plus bulk data */ - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - total_len += bulkdata->d[i].data_length; - } - - /* Allocate log structure plus actual signal. */ - logptr = kmalloc(sizeof(udi_log_t) + total_len, GFP_KERNEL); - - if (logptr == NULL) { - unifi_error(priv, - "Failed to allocate %d bytes for a UDI log record\n", - sizeof(udi_log_t) + total_len); - return; - } - - /* Fill in udi_log struct */ - INIT_LIST_HEAD(&logptr->q); - msgptr = &logptr->msg; - msgptr->length = sizeof(udi_msg_t) + total_len; - msgptr->timestamp = jiffies_to_msecs(jiffies); - msgptr->direction = dir; - msgptr->signal_length = signal_len; - - /* Copy signal and bulk data to the log */ - p = (u8 *)(msgptr + 1); - memcpy(p, &signal, signal_len); - p += signal_len; - - /* Append any bulk data */ - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - int len = bulkdata->d[i].data_length; - - /* - * Len here might not be the same as the length in the bulk data slot. - * The slot length will always be even, but len could be odd. - */ - if (len > 0) { - if (bulkdata->d[i].os_data_ptr) { - memcpy(p, bulkdata->d[i].os_data_ptr, len); - } else { - memset(p, 0, len); - } - p += len; - } - } - - /* Add to tail of log queue */ - down(&client->udi_sem); - list_add_tail(&logptr->q, &client->udi_log); - up(&client->udi_sem); - - /* Wake any waiting user process */ - wake_up_interruptible(&client->udi_wq); - -} /* sme_native_log_event() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_ta_indicate_protocol - * - * Report that a packet of a particular type has been seen - * - * Arguments: - * drv_priv The device context pointer passed to ta_init. - * protocol The protocol type enum value. - * direction Whether the packet was a tx or rx. - * src_addr The source MAC address from the data packet. - * - * Returns: - * None. - * - * Notes: - * We defer the actual sending to a background workqueue, - * see uf_ta_ind_wq(). - * --------------------------------------------------------------------------- - */ -void -unifi_ta_indicate_protocol(void *ospriv, - CsrWifiRouterCtrlTrafficPacketType packet_type, - CsrWifiRouterCtrlProtocolDirection direction, - const CsrWifiMacAddress *src_addr) -{ - -} /* unifi_ta_indicate_protocol */ - -/* - * --------------------------------------------------------------------------- - * unifi_ta_indicate_sampling - * - * Send the TA sampling information to the SME. - * - * Arguments: - * drv_priv The device context pointer passed to ta_init. - * stats The TA sampling data to send. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -unifi_ta_indicate_sampling(void *ospriv, CsrWifiRouterCtrlTrafficStats *stats) -{ - -} /* unifi_ta_indicate_sampling() */ - - -void -unifi_ta_indicate_l4stats(void *ospriv, - u32 rxTcpThroughput, - u32 txTcpThroughput, - u32 rxUdpThroughput, - u32 txUdpThroughput) -{ - -} /* unifi_ta_indicate_l4stats() */ - -/* - * --------------------------------------------------------------------------- - * uf_native_process_udi_signal - * - * Process interesting signals from the UDI interface. - * - * Arguments: - * pcli A pointer to the client instance. - * signal Pointer to the received signal. - * signal_len Size of the signal structure in bytes. - * bulkdata Pointers to any associated bulk data. - * dir Direction of the signal. Zero means from host, - * non-zero means to host. - * - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -uf_native_process_udi_signal(ul_client_t *pcli, - const u8 *packed_signal, int packed_signal_len, - const bulk_data_param_t *bulkdata, int dir) -{ - -} /* uf_native_process_udi_signal() */ - - -/* - * --------------------------------------------------------------------------- - * sme_native_mlme_event_handler - * - * Callback function to be used as the udi_event_callback when registering - * as a client. - * This function implements a blocking request-reply interface for WEXT. - * To use it, a client specifies this function as the udi_event_callback - * to ul_register_client(). The signal dispatcher in - * unifi_receive_event() will call this function to deliver a signal. - * - * Arguments: - * pcli Pointer to the client instance. - * signal Pointer to the received signal. - * signal_len Size of the signal structure in bytes. - * bulkdata Pointer to structure containing any associated bulk data. - * dir Direction of the signal. Zero means from host, - * non-zero means to host. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -sme_native_mlme_event_handler(ul_client_t *pcli, - const u8 *sig_packed, int sig_len, - const bulk_data_param_t *bulkdata, - int dir) -{ - CSR_SIGNAL signal; - int signal_len; - unifi_priv_t *priv = uf_find_instance(pcli->instance); - int id, r; - - /* Just a sanity check */ - if ((sig_packed == NULL) || (sig_len <= 0)) { - return; - } - - /* Get the unpacked signal */ - r = read_unpack_signal(sig_packed, &signal); - if (r == 0) { - signal_len = SigGetSize(&signal); - } else { - unifi_error(priv, - "sme_native_mlme_event_handler - Received unknown signal 0x%.4X.\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sig_packed)); - return; - } - - id = signal.SignalPrimitiveHeader.SignalId; - unifi_trace(priv, UDBG4, "wext - Process signal 0x%.4X\n", id); - - /* - * Take the appropriate action for the signal. - */ - switch (id) { - /* - * Confirm replies from UniFi. - * These all have zero or one CSR_DATAREF member. (FIXME: check this is still true for softmac) - */ - case CSR_MA_PACKET_CONFIRM_ID: - case CSR_MLME_RESET_CONFIRM_ID: - case CSR_MLME_GET_CONFIRM_ID: - case CSR_MLME_SET_CONFIRM_ID: - case CSR_MLME_GET_NEXT_CONFIRM_ID: - case CSR_MLME_POWERMGT_CONFIRM_ID: - case CSR_MLME_SCAN_CONFIRM_ID: - case CSR_MLME_HL_SYNC_CONFIRM_ID: - case CSR_MLME_MEASURE_CONFIRM_ID: - case CSR_MLME_SETKEYS_CONFIRM_ID: - case CSR_MLME_DELETEKEYS_CONFIRM_ID: - case CSR_MLME_HL_SYNC_CANCEL_CONFIRM_ID: - case CSR_MLME_ADD_PERIODIC_CONFIRM_ID: - case CSR_MLME_DEL_PERIODIC_CONFIRM_ID: - case CSR_MLME_ADD_AUTONOMOUS_SCAN_CONFIRM_ID: - case CSR_MLME_DEL_AUTONOMOUS_SCAN_CONFIRM_ID: - case CSR_MLME_SET_PACKET_FILTER_CONFIRM_ID: - case CSR_MLME_STOP_MEASURE_CONFIRM_ID: - case CSR_MLME_PAUSE_AUTONOMOUS_SCAN_CONFIRM_ID: - case CSR_MLME_ADD_TRIGGERED_GET_CONFIRM_ID: - case CSR_MLME_DEL_TRIGGERED_GET_CONFIRM_ID: - case CSR_MLME_ADD_BLACKOUT_CONFIRM_ID: - case CSR_MLME_DEL_BLACKOUT_CONFIRM_ID: - case CSR_MLME_ADD_RX_TRIGGER_CONFIRM_ID: - case CSR_MLME_DEL_RX_TRIGGER_CONFIRM_ID: - case CSR_MLME_CONNECT_STATUS_CONFIRM_ID: - case CSR_MLME_MODIFY_BSS_PARAMETER_CONFIRM_ID: - case CSR_MLME_ADD_TEMPLATE_CONFIRM_ID: - case CSR_MLME_CONFIG_QUEUE_CONFIRM_ID: - case CSR_MLME_ADD_TSPEC_CONFIRM_ID: - case CSR_MLME_DEL_TSPEC_CONFIRM_ID: - case CSR_MLME_START_AGGREGATION_CONFIRM_ID: - case CSR_MLME_STOP_AGGREGATION_CONFIRM_ID: - case CSR_MLME_SM_START_CONFIRM_ID: - case CSR_MLME_LEAVE_CONFIRM_ID: - case CSR_MLME_SET_TIM_CONFIRM_ID: - case CSR_MLME_GET_KEY_SEQUENCE_CONFIRM_ID: - case CSR_MLME_SET_CHANNEL_CONFIRM_ID: - case CSR_MLME_ADD_MULTICAST_ADDRESS_CONFIRM_ID: - case CSR_DEBUG_GENERIC_CONFIRM_ID: - unifi_mlme_copy_reply_and_wakeup_client(pcli, &signal, signal_len, bulkdata); - break; - - case CSR_MLME_CONNECTED_INDICATION_ID: - /* We currently ignore the connected-ind for softmac f/w development */ - unifi_info(priv, "CSR_MLME_CONNECTED_INDICATION_ID ignored\n"); - break; - - default: - break; - } - -} /* sme_native_mlme_event_handler() */ - - - -/* - * ------------------------------------------------------------------------- - * unifi_reset_state - * - * Ensure that a MAC address has been set. - * Send the MLME-RESET signal. - * This must be called at least once before starting to do any - * network activities (e.g. scan, join etc). - * - * Arguments: - * priv Pointer to device private context struct - * macaddr Pointer to chip MAC address. - * If this is FF:FF:FF:FF:FF:FF it will be replaced - * with the MAC address from the chip. - * set_default_mib 1 if the f/w must reset the MIB to the default values - * 0 otherwise - * - * Returns: - * 0 on success, an error code otherwise. - * ------------------------------------------------------------------------- - */ -int -unifi_reset_state(unifi_priv_t *priv, unsigned char *macaddr, - unsigned char set_default_mib) -{ - int r = 0; - -#ifdef CSR_SUPPORT_WEXT - /* The reset clears any 802.11 association. */ - priv->wext_conf.flag_associated = 0; -#endif - - return r; -} /* unifi_reset_state() */ - diff --git a/drivers/staging/csr/sme_sys.c b/drivers/staging/csr/sme_sys.c deleted file mode 100644 index b5258d7..0000000 --- a/drivers/staging/csr/sme_sys.c +++ /dev/null @@ -1,3260 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: sme_sys.c - * - * PURPOSE: - * Driver specific implementation of the SME SYS SAP. - * It is part of the porting exercise. - * - * Copyright (C) 2008-2011 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ - -#include "csr_wifi_hip_unifiversion.h" -#include "unifi_priv.h" -#include "csr_wifi_hip_conversions.h" -#ifdef CSR_SUPPORT_WEXT_AP -#include "csr_wifi_sme_sef.h" -#endif - -/* - * This file implements the SME SYS API and contains the following functions: - * CsrWifiRouterCtrlMediaStatusReqHandler() - * CsrWifiRouterCtrlHipReqHandler() - * CsrWifiRouterCtrlPortConfigureReqHandler() - * CsrWifiRouterCtrlWifiOnReqHandler() - * CsrWifiRouterCtrlWifiOffReqHandler() - * CsrWifiRouterCtrlSuspendResHandler() - * CsrWifiRouterCtrlResumeResHandler() - * CsrWifiRouterCtrlQosControlReqHandler() - * CsrWifiRouterCtrlConfigurePowerModeReqHandler() - * CsrWifiRouterCtrlWifiOnResHandler() - * CsrWifiRouterCtrlWifiOffRspHandler() - * CsrWifiRouterCtrlMulticastAddressResHandler() - * CsrWifiRouterCtrlTrafficConfigReqHandler() - * CsrWifiRouterCtrlTrafficClassificationReqHandler() - * CsrWifiRouterCtrlTclasAddReqHandler() - * CsrWifiRouterCtrlTclasDelReqHandler() - * CsrWifiRouterCtrlSetModeReqHandler() - * CsrWifiRouterCtrlWapiMulticastFilterReqHandler() - * CsrWifiRouterCtrlWapiUnicastFilterReqHandler() - * CsrWifiRouterCtrlWapiUnicastTxPktReqHandler() - * CsrWifiRouterCtrlWapiRxPktReqHandler() - * CsrWifiRouterCtrlWapiFilterReqHandler() - */ - -#ifdef CSR_SUPPORT_SME -static void check_inactivity_timer_expire_func(unsigned long data); -void uf_send_disconnected_ind_wq(struct work_struct *work); -#endif - -void send_auto_ma_packet_confirm(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - struct list_head *buffered_frames_list) -{ - tx_buffered_packets_t *buffered_frame_item = NULL; - struct list_head *listHead; - struct list_head *placeHolder; - int client_id; - - CSR_SIGNAL unpacked_signal; - u8 sigbuf[UNIFI_PACKED_SIGBUF_SIZE]; - u16 packed_siglen; - - - list_for_each_safe(listHead, placeHolder, buffered_frames_list) - { - buffered_frame_item = list_entry(listHead, tx_buffered_packets_t, q); - - if(!buffered_frame_item) { - unifi_error(priv, "Entry should exist, otherwise it is a (BUG)\n"); - continue; - } - - if ((interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_NONE) && - (priv->wifi_on_state == wifi_on_done)) - { - - unifi_warning(priv, "Send MA_PACKET_CONFIRM to SenderProcessId = %x for (HostTag = %x TransmissionControl = %x)\n", - (buffered_frame_item->leSenderProcessId), - buffered_frame_item->hostTag, - buffered_frame_item->transmissionControl); - - client_id = buffered_frame_item->leSenderProcessId & 0xFF00; - - if (client_id == priv->sme_cli->sender_id) - { - /* construct a MA-PACKET.confirm message for SME */ - memset(&unpacked_signal, 0, sizeof(unpacked_signal)); - unpacked_signal.SignalPrimitiveHeader.SignalId = CSR_MA_PACKET_CONFIRM_ID; - unpacked_signal.SignalPrimitiveHeader.ReceiverProcessId = buffered_frame_item->leSenderProcessId; - unpacked_signal.SignalPrimitiveHeader.SenderProcessId = CSR_WIFI_ROUTER_IFACEQUEUE; - - unpacked_signal.u.MaPacketConfirm.VirtualInterfaceIdentifier = uf_get_vif_identifier(interfacePriv->interfaceMode, - interfacePriv->InterfaceTag); - unpacked_signal.u.MaPacketConfirm.TransmissionStatus = CSR_RESULT_FAILURE; - unpacked_signal.u.MaPacketConfirm.RetryCount = 0; - unpacked_signal.u.MaPacketConfirm.Rate = buffered_frame_item->rate; - unpacked_signal.u.MaPacketConfirm.HostTag = buffered_frame_item->hostTag; - - write_pack(&unpacked_signal, sigbuf, &packed_siglen); - unifi_warning(priv, "MA_PACKET_CONFIRM for SME (0x%x, 0x%x, 0x%x, 0x%x)\n", - unpacked_signal.SignalPrimitiveHeader.ReceiverProcessId, - unpacked_signal.SignalPrimitiveHeader.SenderProcessId, - unpacked_signal.u.MaPacketConfirm.VirtualInterfaceIdentifier, - unpacked_signal.u.MaPacketConfirm.HostTag); - - CsrWifiRouterCtrlHipIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, - packed_siglen, - (u8 *)sigbuf, - 0, NULL, - 0, NULL); - } - else if((buffered_frame_item->hostTag & 0x80000000)) - { - /* construct a MA-PACKET.confirm message for NME */ - unifi_warning(priv, "MA_PACKET_CONFIRM for NME (0x%x, 0x%x, 0x%x, 0x%x)\n", - buffered_frame_item->leSenderProcessId, - buffered_frame_item->interfaceTag, - buffered_frame_item->transmissionControl, - (buffered_frame_item->hostTag & 0x3FFFFFFF)); - - CsrWifiRouterMaPacketCfmSend((buffered_frame_item->leSenderProcessId & 0xFF), - buffered_frame_item->interfaceTag, - CSR_RESULT_FAILURE, - (buffered_frame_item->hostTag & 0x3FFFFFFF), - buffered_frame_item->rate); - - } - else - { - unifi_warning(priv, "Buffered packet dropped without sending a confirm\n"); - } - - } - - list_del(listHead); - kfree(buffered_frame_item); - buffered_frame_item = NULL; - } -} - -void CsrWifiRouterCtrlMediaStatusReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlMediaStatusReq* req = (CsrWifiRouterCtrlMediaStatusReq*)msg; - netInterface_priv_t *interfacePriv = priv->interfacePriv[req->interfaceTag]; - unsigned long flags; - - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlMediaStatusReqHandler: invalid smepriv\n"); - return; - } - if (req->interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "CsrWifiRouterCtrlMediaStatusReqHandler: invalid interfaceTag\n"); - return; - } - unifi_trace(priv, UDBG3, "CsrWifiRouterCtrlMediaStatusReqHandler: Mode = %d req->mediaStatus = %d\n", interfacePriv->interfaceMode, req->mediaStatus); - if (interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_AMP) { - bulk_data_desc_t bulk_data; - - bulk_data.data_length = 0; - - spin_lock_irqsave(&priv->m4_lock, flags); - if (interfacePriv->m4_bulk_data.data_length > 0) { - bulk_data = interfacePriv->m4_bulk_data; - interfacePriv->m4_bulk_data.net_buf_length = 0; - interfacePriv->m4_bulk_data.data_length = 0; - interfacePriv->m4_bulk_data.os_data_ptr = interfacePriv->m4_bulk_data.os_net_buf_ptr = NULL; - } - spin_unlock_irqrestore(&priv->m4_lock, flags); - - if (bulk_data.data_length != 0) { - unifi_trace(priv, UDBG5, "CsrWifiRouterCtrlMediaStatusReqHandler: free M4\n"); - unifi_net_data_free(priv, &bulk_data); - } - - if ((req->mediaStatus == CSR_WIFI_SME_MEDIA_STATUS_CONNECTED) && - (interfacePriv->connected != UnifiConnected)) { - - switch(interfacePriv->interfaceMode){ - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - interfacePriv->connected = UnifiConnected; - netif_carrier_on(priv->netdev[req->interfaceTag]); -#ifdef CSR_SUPPORT_WEXT - wext_send_started_event(priv); -#endif - unifi_trace(priv, UDBG1, - "CsrWifiRouterCtrlMediaStatusReqHandler: AP/P2PGO setting netif_carrier_on\n"); - netif_tx_wake_all_queues(priv->netdev[req->interfaceTag]); - break; - - default: -#ifdef CSR_SUPPORT_WEXT - /* In the WEXT builds (sme and native), the userspace is not ready - * to process any EAPOL or WAPI packets, until it has been informed - * of the NETDEV_CHANGE. - */ - if (interfacePriv->netdev_callback_registered && (interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI)) { - interfacePriv->wait_netdev_change = TRUE; - unifi_trace(priv, UDBG1, - "CsrWifiRouterCtrlMediaStatusReqHandler: waiting for NETDEV_CHANGE\n"); - /* - * Carrier can go to on, only after wait_netdev_change is set to TRUE. - * Otherwise there can be a race in uf_netdev_event(). - */ - netif_carrier_on(priv->netdev[req->interfaceTag]); - unifi_trace(priv, UDBG1, - "CsrWifiRouterCtrlMediaStatusReqHandler: STA/P2PCLI setting netif_carrier_on\n"); - } - else -#endif - { - /* In the NME build, the userspace does not wait for the NETDEV_CHANGE - * so it is ready to process all the EAPOL or WAPI packets. - * At this point, we enable all the Tx queues, and we indicate any packets - * that are queued (and the respective port is opened). - */ - static const CsrWifiMacAddress broadcast_address = {{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}}; - interfacePriv->connected = UnifiConnected; - unifi_trace(priv, UDBG1, - "CsrWifiRouterMediaStatusReqHandler: UnifiConnected && netif_carrier_on\n"); - netif_carrier_on(priv->netdev[req->interfaceTag]); - netif_tx_wake_all_queues(priv->netdev[req->interfaceTag]); - uf_process_rx_pending_queue(priv, UF_UNCONTROLLED_PORT_Q, broadcast_address, 1, interfacePriv->InterfaceTag); - uf_process_rx_pending_queue(priv, UF_CONTROLLED_PORT_Q, broadcast_address, 1, interfacePriv->InterfaceTag); - } - break; - } - } - - if (req->mediaStatus == CSR_WIFI_SME_MEDIA_STATUS_DISCONNECTED) { -#ifdef CSR_SUPPORT_WEXT - unifi_trace(priv, UDBG1, - "CsrWifiRouterMediaStatusReqHandler: cancel waiting for NETDEV_CHANGE\n"); - interfacePriv->wait_netdev_change = FALSE; -#endif - unifi_trace(priv, UDBG1, - "CsrWifiRouterMediaStatusReqHandler: setting netif_carrier_off\n"); - netif_carrier_off(priv->netdev[req->interfaceTag]); -#ifdef CSR_SUPPORT_WEXT - switch(interfacePriv->interfaceMode){ - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - wext_send_started_event(priv); - break; - default: - break; - } -#endif - interfacePriv->connected = UnifiNotConnected; - } - } else { - /* For AMP, just update the L2 connected flag */ - if (req->mediaStatus == CSR_WIFI_SME_MEDIA_STATUS_CONNECTED) { - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlMediaStatusReqHandler: AMP connected\n"); - interfacePriv->connected = UnifiConnected; - } else { - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlMediaStatusReqHandler: AMP disconnected\n"); - interfacePriv->connected = UnifiNotConnected; - } - } -} - - -void CsrWifiRouterCtrlHipReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlHipReq* hipreq = (CsrWifiRouterCtrlHipReq*)msg; - bulk_data_param_t bulkdata; - u8 *signal_ptr; - int signal_length; - int r=0; - void *dest; - CsrResult csrResult; - CSR_SIGNAL *signal; - u16 interfaceTag = 0; - CSR_MA_PACKET_REQUEST *req; - netInterface_priv_t *interfacePriv; - - if (priv == NULL) { - return; - } - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlHipReqHandler: invalid smepriv\n"); - return; - } - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "CsrWifiRouterCtrlHipReqHandler: invalid interfaceTag\n"); - return; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - - /* Initialize bulkdata to avoid os_net_buf is garbage */ - memset(&bulkdata, 0, sizeof(bulk_data_param_t)); - - signal = (CSR_SIGNAL *)hipreq->mlmeCommand; - - unifi_trace(priv, UDBG4, "CsrWifiRouterCtrlHipReqHandler: 0x04%X ---->\n", - *((u16*)hipreq->mlmeCommand)); - - /* Construct the signal. */ - signal_ptr = (u8*)hipreq->mlmeCommand; - signal_length = hipreq->mlmeCommandLength; - - /* - * The MSB of the sender ID needs to be set to the client ID. - * The LSB is controlled by the SME. - */ - signal_ptr[5] = (priv->sme_cli->sender_id >> 8) & 0xff; - - /* Allocate buffers for the bulk data. */ - if (hipreq->dataRef1Length) { - csrResult = unifi_net_data_malloc(priv, &bulkdata.d[0], hipreq->dataRef1Length); - if (csrResult == CSR_RESULT_SUCCESS) { - dest = (void*)bulkdata.d[0].os_data_ptr; - memcpy(dest, hipreq->dataRef1, hipreq->dataRef1Length); - bulkdata.d[0].data_length = hipreq->dataRef1Length; - } else { - unifi_warning(priv, "signal not sent down, allocation failed in CsrWifiRouterCtrlHipReqHandler\n"); - return; - } - } else { - bulkdata.d[0].os_data_ptr = NULL; - bulkdata.d[0].data_length = 0; - } - if (hipreq->dataRef2Length) { - csrResult = unifi_net_data_malloc(priv, &bulkdata.d[1], hipreq->dataRef2Length); - if (csrResult == CSR_RESULT_SUCCESS) { - dest = (void*)bulkdata.d[1].os_data_ptr; - memcpy(dest, hipreq->dataRef2, hipreq->dataRef2Length); - bulkdata.d[1].data_length = hipreq->dataRef2Length; - } else { - if (bulkdata.d[0].data_length) - { - unifi_net_data_free(priv, &bulkdata.d[0]); - } - unifi_warning(priv, "signal not sent down, allocation failed in CsrWifiRouterCtrlHipReqHandler\n"); - return; - } - } else { - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].data_length = 0; - } - - unifi_trace(priv, UDBG3, "SME SEND: Signal 0x%.4X \n", - *((u16*)signal_ptr)); - if (signal->SignalPrimitiveHeader.SignalId == CSR_MA_PACKET_REQUEST_ID) - { - CSR_SIGNAL unpacked_signal; - read_unpack_signal((u8 *) signal, &unpacked_signal); - req = &unpacked_signal.u.MaPacketRequest; - interfaceTag = req->VirtualInterfaceIdentifier & 0xff; - switch(interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_NONE: - unifi_error(priv, "CsrWifiRouterCtrlHipReqHandler: invalid mode: NONE \n"); - break; - default: - unifi_trace(priv, UDBG5, "mode is %x\n", interfacePriv->interfaceMode); - } - /* While sending ensure that first 2 bits b31 and b30 are 00. These are used for local routing*/ - r = uf_process_ma_packet_req(priv, req->Ra.x, (req->HostTag & 0x3FFFFFFF), interfaceTag, - req->TransmissionControl, req->TransmitRate, - req->Priority, signal->SignalPrimitiveHeader.SenderProcessId, - &bulkdata); - if (r) - { - if (bulkdata.d[0].data_length) - { - unifi_net_data_free(priv, &bulkdata.d[0]); - } - if (bulkdata.d[1].data_length) - { - unifi_net_data_free(priv, &bulkdata.d[1]); - } - } - } else { - /* ul_send_signal_raw frees the bulk data if it fails */ - r = ul_send_signal_raw(priv, signal_ptr, signal_length, &bulkdata); - } - - if (r) { - unifi_error(priv, - "CsrWifiRouterCtrlHipReqHandler: Failed to send signal (0x%.4X - %u)\n", - *((u16*)signal_ptr), r); - CsrWifiRouterCtrlWifiOffIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, CSR_WIFI_SME_CONTROL_INDICATION_ERROR); - } - - unifi_trace(priv, UDBG4, "CsrWifiRouterCtrlHipReqHandler: <----\n"); -} - -#ifdef CSR_WIFI_SEND_GRATUITOUS_ARP -static void -uf_send_gratuitous_arp(unifi_priv_t *priv, u16 interfaceTag) -{ - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - CSR_PRIORITY priority; - CSR_SIGNAL signal; - bulk_data_param_t bulkdata; - CsrResult csrResult; - struct sk_buff *skb, *newSkb = NULL; - s8 protection; - int r; - static const u8 arp_req[36] = {0xaa, 0xaa, 0x03, 0x00, 0x00, 0x00, - 0x08, 0x06, 0x00, 0x01, 0x08, 0x00, 0x06, 0x04, 0x00, 0x01, - 0x00, 0x02, 0x5f, 0x20, 0x2f, 0x02, - 0xc0, 0xa8, 0x00, 0x02, - 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, - 0xc0, 0xa8, 0x00, 0x02}; - - csrResult = unifi_net_data_malloc(priv, &bulkdata.d[0], sizeof(arp_req)); - if (csrResult != CSR_RESULT_SUCCESS) - { - unifi_error(priv, "Failed to allocate bulk data in CsrWifiSmeRoamCompleteIndHandler()\n"); - return; - } - skb = (struct sk_buff *)(bulkdata.d[0].os_net_buf_ptr); - skb->len = bulkdata.d[0].data_length; - - memcpy(skb->data, arp_req, sizeof(arp_req)); - /* add MAC and IP address */ - memcpy(skb->data + 16, priv->netdev[interfaceTag]->dev_addr, ETH_ALEN); - skb->data[22] = (priv->sta_ip_address ) & 0xFF; - skb->data[23] = (priv->sta_ip_address >> 8) & 0xFF; - skb->data[24] = (priv->sta_ip_address >> 16) & 0xFF; - skb->data[25] = (priv->sta_ip_address >> 24) & 0xFF; - skb->data[32] = (priv->sta_ip_address ) & 0xFF; - skb->data[33] = (priv->sta_ip_address >> 8) & 0xFF; - skb->data[34] = (priv->sta_ip_address >> 16) & 0xFF; - skb->data[35] = (priv->sta_ip_address >> 24) & 0xFF; - - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].os_net_buf_ptr = NULL; - bulkdata.d[1].net_buf_length = bulkdata.d[1].data_length = 0; - - if ((protection = uf_get_protection_bit_from_interfacemode(priv, interfaceTag, &arp_req[26])) < 0) - { - unifi_error(priv, "CsrWifiSmeRoamCompleteIndHandler: Failed to determine protection mode\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return; - } - - if ((priv->sta_wmm_capabilities & QOS_CAPABILITY_WMM_ENABLED) == 1) - { - priority = CSR_QOS_UP0; - } - else - { - priority = CSR_CONTENTION; - } - - if (prepare_and_add_macheader(priv, skb, newSkb, priority, &bulkdata, - interfaceTag, &arp_req[26], - priv->netdev[interfaceTag]->dev_addr, protection)) - { - unifi_error(priv, "CsrWifiSmeRoamCompleteIndHandler: failed to create MAC header\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return; - } - bulkdata.d[0].os_data_ptr = skb->data; - bulkdata.d[0].os_net_buf_ptr = skb; - bulkdata.d[0].data_length = skb->len; - - unifi_frame_ma_packet_req(priv, priority, 0, 0xffffffff, interfaceTag, - CSR_NO_CONFIRM_REQUIRED, priv->netdev_client->sender_id, - interfacePriv->bssid.a, &signal); - - r = ul_send_signal_unpacked(priv, &signal, &bulkdata); - if (r) - { - unifi_error(priv, "CsrWifiSmeRoamCompleteIndHandler: failed to send QOS data null packet result: %d\n", r); - unifi_net_data_free(priv, &bulkdata.d[0]); - return; - } - -} -#endif /* CSR_WIFI_SEND_GRATUITOUS_ARP */ - -/* - * --------------------------------------------------------------------------- - * configure_data_port - * - * Store the new controlled port configuration. - * - * Arguments: - * priv Pointer to device private context struct - * port_cfg Pointer to the port configuration - * - * Returns: - * An unifi_ControlledPortAction value. - * --------------------------------------------------------------------------- - */ -static int -configure_data_port(unifi_priv_t *priv, - CsrWifiRouterCtrlPortAction port_action, - const CsrWifiMacAddress *macAddress, - const int queue, - u16 interfaceTag) -{ - const u8 broadcast_mac_address[] = {0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}; - unifi_port_config_t *port; - netInterface_priv_t *interfacePriv; - int i; - const char* controlled_string; /* cosmetic "controlled"/"uncontrolled" for trace */ - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "configure_data_port: bad interfaceTag\n"); - return -EFAULT; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - - if (queue == UF_CONTROLLED_PORT_Q) { - port = &interfacePriv->controlled_data_port; - controlled_string = "controlled"; - } else { - port = &interfacePriv->uncontrolled_data_port; - controlled_string = "uncontrolled"; - } - - unifi_trace(priv, UDBG2, - "port config request %pM %s with port_action %d.\n", - macAddress->a, controlled_string, port_action); - - /* If the new configuration has the broadcast MAC address or if we are in infrastructure mode then clear the list first and set port overide mode */ - if ((CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI) || - !memcmp(macAddress->a, broadcast_mac_address, ETH_ALEN)) { - - port->port_cfg[0].port_action = port_action; - port->port_cfg[0].mac_address = *macAddress; - port->port_cfg[0].in_use = TRUE; - port->entries_in_use = 1; - port->overide_action = UF_DATA_PORT_OVERIDE; - - unifi_trace(priv, UDBG2, "%s port override on\n", - (queue == UF_CONTROLLED_PORT_Q) ? "Controlled" : "Uncontrolled"); - - /* Discard the remaining entries in the port config table */ - for (i = 1; i < UNIFI_MAX_CONNECTIONS; i++) { - port->port_cfg[i].in_use = FALSE; - } - - if (port_action == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN) { - unifi_trace(priv, UDBG1, "%s port broadcast set to open.\n", - (queue == UF_CONTROLLED_PORT_Q) ? "Controlled" : "Uncontrolled"); - - /* - * Ask stack to schedule for transmission any packets queued - * while controlled port was not open. - * Use netif_schedule() instead of netif_wake_queue() because - * transmission should be already enabled at this point. If it - * is not, probably the interface is down and should remain as is. - */ - uf_resume_data_plane(priv, queue, *macAddress, interfaceTag); - -#ifdef CSR_WIFI_SEND_GRATUITOUS_ARP - if ((CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode) && - (queue == UF_CONTROLLED_PORT_Q) && (priv->sta_ip_address != 0xFFFFFFFF)) - { - uf_send_gratuitous_arp(priv, interfaceTag); - } -#endif - } else { - unifi_trace(priv, UDBG1, "%s port broadcast set to %s.\n", - (queue == UF_CONTROLLED_PORT_Q) ? "Controlled" : "Uncontrolled", - (port_action == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD) ? "discard": "closed"); - - /* If port is closed, discard all the pending Rx packets */ - if (port_action == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD) { - uf_free_pending_rx_packets(priv, queue, *macAddress, interfaceTag); - } - } - } else { - /* store the new configuration, either in the entry with matching mac address (if already present), - * otherwise in a new entry - */ - - int found_entry_flag; - int first_free_slot = -1; - - /* If leaving override mode, free the port entry used for override */ - if (port->overide_action == UF_DATA_PORT_OVERIDE) { - port->port_cfg[0].in_use = FALSE; - port->entries_in_use = 0; - port->overide_action = UF_DATA_PORT_NOT_OVERIDE; - - unifi_trace(priv, UDBG2, "%s port override off\n", - (queue == UF_CONTROLLED_PORT_Q) ? "Controlled" : "Uncontrolled"); - } - - found_entry_flag = 0; - for (i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - if (port->port_cfg[i].in_use) { - if (!memcmp(&port->port_cfg[i].mac_address.a, macAddress->a, ETH_ALEN)) { - /* We've seen this address before, reconfigure it */ - port->port_cfg[i].port_action = port_action; - found_entry_flag = 1; - break; - } - } else if (first_free_slot == -1) { - /* Remember the first free slot on the way past so it can be claimed - * if this turns out to be a new MAC address (to save walking the list again). - */ - first_free_slot = i; - } - } - - /* At this point we found an existing entry and have updated it, or need to - * add a new entry. If all slots are allocated, give up and return an error. - */ - if (!found_entry_flag) { - if (first_free_slot == -1) { - unifi_error(priv, "no free slot found in port config array (%d used)\n", port->entries_in_use); - return -EFAULT; - } else { - port->entries_in_use++; - } - - unifi_trace(priv, UDBG3, "port config index assigned in config_data_port = %d\n", first_free_slot); - port->port_cfg[first_free_slot].in_use = TRUE; - port->port_cfg[first_free_slot].port_action = port_action; - port->port_cfg[first_free_slot].mac_address = *macAddress; - } - - if (port_action == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN) { - /* - * Ask stack to schedule for transmission any packets queued - * while controlled port was not open. - * Use netif_schedule() instead of netif_wake_queue() because - * transmission should be already enabled at this point. If it - * is not, probably the interface is down and should remain as is. - */ - uf_resume_data_plane(priv, queue, *macAddress, interfaceTag); - } - - /* - * If port is closed, discard all the pending Rx packets - * coming from the peer station. - */ - if (port_action == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD) { - uf_free_pending_rx_packets(priv, queue, *macAddress, interfaceTag); - } - - unifi_trace(priv, UDBG2, - "port config %pM with port_action %d.\n", - macAddress->a, port_action); - } - return 0; -} /* configure_data_port() */ - - -void CsrWifiRouterCtrlPortConfigureReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlPortConfigureReq* req = (CsrWifiRouterCtrlPortConfigureReq*)msg; - netInterface_priv_t *interfacePriv = priv->interfacePriv[req->interfaceTag]; - - unifi_trace(priv, UDBG3, "entering CsrWifiRouterCtrlPortConfigureReqHandler\n"); - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlPortConfigureReqHandler: invalid smepriv\n"); - return; - } - - /* To update the protection status of the peer/station */ - switch(interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_AMP: - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - /* Since for Unifi as a station, the station record not maintained & interfaceID is - * only needed to update the peer protection status - */ - interfacePriv->protect = req->setProtection; - break; - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - { - u8 i; - CsrWifiRouterCtrlStaInfo_t *staRecord; - /* Ifscontrolled port is open means, The peer has been added to station record - * so that the protection corresponding to the peer is valid in this req - */ - if (req->controlledPortAction == CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN) { - for(i =0; i < UNIFI_MAX_CONNECTIONS; i++) { - staRecord = (CsrWifiRouterCtrlStaInfo_t *) (interfacePriv->staInfo[i]); - if (staRecord) { - /* Find the matching station record & set the protection type */ - if (!memcmp(req->macAddress.a, staRecord->peerMacAddress.a, ETH_ALEN)) { - staRecord->protection = req->setProtection; - break; - } - } - } - } - } - break; - default: - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlPortConfigureReqHandler(0x%.4X) Uncaught mode %d\n", - msg->source, interfacePriv->interfaceMode); - } - - configure_data_port(priv, req->uncontrolledPortAction, (const CsrWifiMacAddress *)&req->macAddress, - UF_UNCONTROLLED_PORT_Q, req->interfaceTag); - configure_data_port(priv, req->controlledPortAction, (const CsrWifiMacAddress *)&req->macAddress, - UF_CONTROLLED_PORT_Q, req->interfaceTag); - - CsrWifiRouterCtrlPortConfigureCfmSend(msg->source, req->clientData, req->interfaceTag, - CSR_RESULT_SUCCESS, req->macAddress); - unifi_trace(priv, UDBG3, "leaving CsrWifiRouterCtrlPortConfigureReqHandler\n"); -} - - -void CsrWifiRouterCtrlWifiOnReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlVersions versions; - CsrWifiRouterCtrlWifiOnReq* req = (CsrWifiRouterCtrlWifiOnReq*)msg; - int r, i; - CsrResult csrResult; - - if (priv == NULL) { - return; - } - if( priv->wol_suspend ) { - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWifiOnReqHandler: Don't reset mode\n"); - } else { -#ifdef ANDROID_BUILD - /* Take the wakelock while Wi-Fi On is in progress */ - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWifiOnReqHandler: take wake lock\n"); - wake_lock(&unifi_sdio_wake_lock); -#endif - for (i=0; i<CSR_WIFI_NUM_INTERFACES; i++) { - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWifiOnReqHandler: Setting interface %d to NONE\n", i ); - - priv->interfacePriv[i]->interfaceMode = 0; - } - } - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWifiOnReqHandler(0x%.4X) req->dataLength=%d req->data=0x%x\n", msg->source, req->dataLength, req->data); - - if(req->dataLength==3 && req->data && req->data[0]==0 && req->data[1]==1 && req->data[2]==1) - { - priv->cmanrTestMode = TRUE; - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWifiOnReqHandler: cmanrTestMode=%d\n", priv->cmanrTestMode); - } - else - { - priv->cmanrTestMode = FALSE; - } - - /* - * The request to initialise UniFi might come while UniFi is running. - * We need to block all I/O activity until the reset completes, otherwise - * an SDIO error might occur resulting an indication to the SME which - * makes it think that the initialisation has failed. - */ - priv->bh_thread.block_thread = 1; - - /* Update the wifi_on state */ - priv->wifi_on_state = wifi_on_in_progress; - - /* If UniFi was unpowered, acquire the firmware for download to chip */ - if (!priv->wol_suspend) { - r = uf_request_firmware_files(priv, UNIFI_FW_STA); - if (r) { - unifi_error(priv, "CsrWifiRouterCtrlWifiOnReqHandler: Failed to get f/w\n"); - CsrWifiRouterCtrlWifiOnCfmSend(msg->source, req->clientData, CSR_RESULT_FAILURE); - return; - } - } else { - unifi_trace(priv, UDBG1, "Don't need firmware\n"); - } - - /* Power on UniFi (which may not necessarily have been off) */ - CsrSdioClaim(priv->sdio); - csrResult = CsrSdioPowerOn(priv->sdio); - CsrSdioRelease(priv->sdio); - if (csrResult != CSR_RESULT_SUCCESS && csrResult != CSR_SDIO_RESULT_NOT_RESET) { - unifi_error(priv, "CsrWifiRouterCtrlWifiOnReqHandler: Failed to power on UniFi\n"); - CsrWifiRouterCtrlWifiOnCfmSend(msg->source, req->clientData, CSR_RESULT_FAILURE); - return; - } - - /* If CsrSdioPowerOn() returns CSR_RESULT_SUCCESS, it means that we need to initialise UniFi */ - if (csrResult == CSR_RESULT_SUCCESS && !priv->wol_suspend) { - /* Initialise UniFi hardware */ - r = uf_init_hw(priv); - if (r) { - unifi_error(priv, "CsrWifiRouterCtrlWifiOnReqHandler: Failed to initialise h/w, error %d\n", r); - CsrWifiRouterCtrlWifiOnCfmSend(msg->source, req->clientData, CSR_RESULT_FAILURE); - return; - } - } else { - unifi_trace(priv, UDBG1, "UniFi already initialised\n"); - } - - /* Completed handling of wake up from suspend with UniFi powered */ - priv->wol_suspend = FALSE; - - /* Re-enable the I/O thread */ - priv->bh_thread.block_thread = 0; - - /* - * Start the I/O thread. The thread might be already running. - * This fine, just carry on with the request. - */ - r = uf_init_bh(priv); - if (r) { - CsrSdioClaim(priv->sdio); - CsrSdioPowerOff(priv->sdio); - CsrSdioRelease(priv->sdio); - CsrWifiRouterCtrlWifiOnCfmSend(msg->source, req->clientData, CSR_RESULT_FAILURE); - return; - } - - /* Get the version information from the core */ - unifi_card_info(priv->card, &priv->card_info); - - /* Set the sme queue id */ - priv->CSR_WIFI_SME_IFACEQUEUE = msg->source; - CSR_WIFI_SME_IFACEQUEUE = msg->source; - - - /* Copy to the unifiio_card_info structure. */ - versions.chipId = priv->card_info.chip_id; - versions.chipVersion = priv->card_info.chip_version; - versions.firmwareBuild = priv->card_info.fw_build; - versions.firmwareHip = priv->card_info.fw_hip_version; - versions.routerBuild = (char*)CSR_WIFI_VERSION; - versions.routerHip = (UNIFI_HIP_MAJOR_VERSION << 8) | UNIFI_HIP_MINOR_VERSION; - - CsrWifiRouterCtrlWifiOnIndSend(msg->source, 0, CSR_RESULT_SUCCESS, versions); - - /* Update the wifi_on state */ - priv->wifi_on_state = wifi_on_done; -} - - -/* - * wifi_off: - * Common code for CsrWifiRouterCtrlWifiOffReqHandler() and - * CsrWifiRouterCtrlWifiOffRspHandler(). - */ -static void -wifi_off(unifi_priv_t *priv) -{ - int power_off; - int priv_instance; - int i; - CsrResult csrResult; - - - /* Already off? */ - if (priv->wifi_on_state == wifi_on_unspecified) { - unifi_trace(priv, UDBG1, "wifi_off already\n"); - return; - } - - unifi_trace(priv, UDBG1, "wifi_off\n"); - - /* Destroy the Traffic Analysis Module */ - cancel_work_sync(&priv->ta_ind_work.task); - cancel_work_sync(&priv->ta_sample_ind_work.task); -#ifdef CSR_SUPPORT_WEXT - cancel_work_sync(&priv->sme_config_task); - wext_send_disassoc_event(priv); -#endif - - /* Cancel pending M4 stuff */ - for (i = 0; i < CSR_WIFI_NUM_INTERFACES; i++) { - if (priv->netdev[i]) { - netInterface_priv_t *netpriv = (netInterface_priv_t *) netdev_priv(priv->netdev[i]); - cancel_work_sync(&netpriv->send_m4_ready_task); - } - } - flush_workqueue(priv->unifi_workqueue); - - /* fw_init parameter can prevent power off UniFi, for debugging */ - priv_instance = uf_find_priv(priv); - if (priv_instance == -1) { - unifi_warning(priv, - "CsrWifiRouterCtrlStopReqHandler: Unknown priv instance, will power off card.\n"); - power_off = 1; - } else { - power_off = (fw_init[priv_instance] > 0) ? 0 : 1; - } - - /* Production test mode requires power to the chip, too */ - if (priv->ptest_mode) { - power_off = 0; - } - - /* Stop the bh_thread */ - uf_stop_thread(priv, &priv->bh_thread); - - /* Read the f/w panic codes, if any. Protect against second wifi_off() call, - * which may happen if SME requests a wifi_off and closes the char device */ - if (priv->init_progress != UNIFI_INIT_NONE) { - CsrSdioClaim(priv->sdio); - unifi_capture_panic(priv->card); - CsrSdioRelease(priv->sdio); - } - - /* Unregister the interrupt handler */ - if (csr_sdio_linux_remove_irq(priv->sdio)) { - unifi_notice(priv, - "csr_sdio_linux_remove_irq failed to talk to card.\n"); - } - - if (power_off) { - unifi_trace(priv, UDBG2, - "Force low power and try to power off\n"); - /* Put UniFi to deep sleep, in case we can not power it off */ - CsrSdioClaim(priv->sdio); - csrResult = unifi_force_low_power_mode(priv->card); - CsrSdioRelease(priv->sdio); - - CsrSdioPowerOff(priv->sdio); - } - - /* Consider UniFi to be uninitialised */ - priv->init_progress = UNIFI_INIT_NONE; - priv->wifi_on_state = wifi_on_unspecified; - - -} /* wifi_off() */ - - -void CsrWifiRouterCtrlWifiOffReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlWifiOffReq* req = (CsrWifiRouterCtrlWifiOffReq*)msg; - int i = 0; - - if (priv == NULL) { - return; - } - - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWifiOffReqHandler(0x%.4X)\n", msg->source); - - /* Stop the network traffic on all interfaces before freeing the core. */ - for (i=0; i<CSR_WIFI_NUM_INTERFACES; i++) { - netInterface_priv_t *interfacePriv = priv->interfacePriv[i]; - if (interfacePriv->netdev_registered == 1) { - netif_carrier_off(priv->netdev[i]); - netif_tx_stop_all_queues(priv->netdev[i]); - interfacePriv->connected = UnifiConnectedUnknown; - } - interfacePriv->interfaceMode = 0; - - /* Enable all queues by default */ - interfacePriv->queueEnabled[0] = 1; - interfacePriv->queueEnabled[1] = 1; - interfacePriv->queueEnabled[2] = 1; - interfacePriv->queueEnabled[3] = 1; - } - wifi_off(priv); - - CsrWifiRouterCtrlWifiOffCfmSend(msg->source, req->clientData); - - /* If this is called in response to closing the character device, the - * caller must use uf_sme_cancel_request() to terminate any pending SME - * blocking request or there will be a delay while the operation times out. - */ -} - - -void CsrWifiRouterCtrlQosControlReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlQosControlReq* req = (CsrWifiRouterCtrlQosControlReq*)msg; - netInterface_priv_t *interfacePriv; - - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlQosControlReqHandler: invalid smepriv\n"); - return; - } - - unifi_trace(priv, UDBG4, "CsrWifiRouterCtrlQosControlReqHandler:scontrol = %d", req->control); - - if (req->interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "CsrWifiRouterCtrlQosControlReqHandler: interfaceID >= CSR_WIFI_NUM_INTERFACES.\n"); - return; - } - interfacePriv = priv->interfacePriv[req->interfaceTag]; - - if (req->control == CSR_WIFI_ROUTER_CTRL_QOS_CONTROL_WMM_ON) { - priv->sta_wmm_capabilities |= QOS_CAPABILITY_WMM_ENABLED; - unifi_trace(priv, UDBG1, "WMM enabled\n"); - - unifi_trace(priv, UDBG1, "Queue Config %x\n", req->queueConfig); - - interfacePriv->queueEnabled[UNIFI_TRAFFIC_Q_BK] = (req->queueConfig & CSR_WIFI_ROUTER_CTRL_QUEUE_BK_ENABLE)?1:0; - interfacePriv->queueEnabled[UNIFI_TRAFFIC_Q_BE] = (req->queueConfig & CSR_WIFI_ROUTER_CTRL_QUEUE_BE_ENABLE)?1:0; - interfacePriv->queueEnabled[UNIFI_TRAFFIC_Q_VI] = (req->queueConfig & CSR_WIFI_ROUTER_CTRL_QUEUE_VI_ENABLE)?1:0; - interfacePriv->queueEnabled[UNIFI_TRAFFIC_Q_VO] = (req->queueConfig & CSR_WIFI_ROUTER_CTRL_QUEUE_VO_ENABLE)?1:0; - - } else { - priv->sta_wmm_capabilities = 0; - unifi_trace(priv, UDBG1, "WMM disabled\n"); - } -} - - -void CsrWifiRouterCtrlTclasAddReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlTclasAddReq* req = (CsrWifiRouterCtrlTclasAddReq*)msg; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlTclasAddReqHandler: invalid smepriv\n"); - return; - } - - CsrWifiRouterCtrlTclasAddCfmSend(msg->source, req->clientData, req->interfaceTag , CSR_RESULT_SUCCESS); -} - -void CsrWifiRouterCtrlTclasDelReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlTclasDelReq* req = (CsrWifiRouterCtrlTclasDelReq*)msg; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlTclasDelReqHandler: invalid smepriv\n"); - return; - } - - CsrWifiRouterCtrlTclasDelCfmSend(msg->source, req->clientData, req->interfaceTag, CSR_RESULT_SUCCESS); -} - - -void CsrWifiRouterCtrlConfigurePowerModeReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlConfigurePowerModeReq* req = (CsrWifiRouterCtrlConfigurePowerModeReq*)msg; - enum unifi_low_power_mode pm; - CsrResult csrResult; - - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlConfigurePowerModeReqHandler: invalid smepriv\n"); - return; - } - - if (req->mode == CSR_WIFI_ROUTER_CTRL_LOW_POWER_MODE_DISABLED) { - pm = UNIFI_LOW_POWER_DISABLED; - } else { - pm = UNIFI_LOW_POWER_ENABLED; - } - - unifi_trace(priv, UDBG2, - "CsrWifiRouterCtrlConfigurePowerModeReqHandler (mode=%d, wake=%d)\n", - req->mode, req->wakeHost); - csrResult = unifi_configure_low_power_mode(priv->card, pm, - (req->wakeHost ? UNIFI_PERIODIC_WAKE_HOST_ENABLED : UNIFI_PERIODIC_WAKE_HOST_DISABLED)); -} - - -void CsrWifiRouterCtrlWifiOnResHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlWifiOnRes* res = (CsrWifiRouterCtrlWifiOnRes*)msg; - - if (priv == NULL) { - unifi_error(NULL, "CsrWifiRouterCtrlWifiOnResHandler: Invalid ospriv.\n"); - return; - } - - unifi_trace(priv, UDBG1, - "CsrWifiRouterCtrlWifiOnResHandler: status %d (patch %u)\n", res->status, res->smeVersions.firmwarePatch); - - if (res->smeVersions.firmwarePatch != 0) { - unifi_info(priv, "Firmware patch %d\n", res->smeVersions.firmwarePatch); - } - - if (res->numInterfaceAddress > CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "WifiOnResHandler bad numInterfaceAddress %d\n", res->numInterfaceAddress); - return; - } - - /* UniFi is now initialised, complete the init. */ - if (res->status == CSR_RESULT_SUCCESS) - { - int i; /* used as a loop counter */ - u32 intmode = CSR_WIFI_INTMODE_DEFAULT; -#ifdef CSR_WIFI_SPLIT_PATCH - u8 switching_ap_fw = FALSE; -#endif - /* Register the UniFi device with the OS network manager */ - unifi_trace(priv, UDBG3, "Card Init Completed Successfully\n"); - - /* Store the MAC address in the netdev */ - for(i=0;i<res->numInterfaceAddress;i++) - { - memcpy(priv->netdev[i]->dev_addr, res->stationMacAddress[i].a, ETH_ALEN); - } - - /* Copy version structure into the private versions field */ - priv->sme_versions = res->smeVersions; - - unifi_trace(priv, UDBG2, "network interfaces count = %d\n", - res->numInterfaceAddress); - - /* Register the netdevs for each interface. */ - for(i=0;i<res->numInterfaceAddress;i++) - { - netInterface_priv_t *interfacePriv = priv->interfacePriv[i]; - if(!interfacePriv->netdev_registered) - { - int r; - unifi_trace(priv, UDBG3, "registering net device %d\n", i); - r = uf_register_netdev(priv, i); - if (r) - { - /* unregister the net_device that are registered in the previous iterations */ - uf_unregister_netdev(priv); - unifi_error(priv, "Failed to register the network device.\n"); - CsrWifiRouterCtrlWifiOnCfmSend(msg->source, res->clientData, CSR_RESULT_FAILURE); - return; - } - } -#ifdef CSR_WIFI_SPLIT_PATCH - else - { - /* If a netdev is already registered, we have received this WifiOnRes - * in response to switching AP/STA firmware in a ModeSetReq. - * Rememeber this in order to send a ModeSetCfm once - */ - switching_ap_fw = TRUE; - } -#endif - } - priv->totalInterfaceCount = res->numInterfaceAddress; - - /* If the MIB has selected f/w scheduled interrupt mode, apply it now - * but let module param override. - */ - if (run_bh_once != -1) { - intmode = (u32)run_bh_once; - } else if (res->scheduledInterrupt) { - intmode = CSR_WIFI_INTMODE_RUN_BH_ONCE; - } - unifi_set_interrupt_mode(priv->card, intmode); - - priv->init_progress = UNIFI_INIT_COMPLETED; - - /* Acknowledge the CsrWifiRouterCtrlWifiOnReq now */ - CsrWifiRouterCtrlWifiOnCfmSend(msg->source, res->clientData, CSR_RESULT_SUCCESS); - -#ifdef CSR_WIFI_SPLIT_PATCH - if (switching_ap_fw && (priv->pending_mode_set.common.destination != 0xaaaa)) { - unifi_info(priv, "Completed firmware reload with %s patch\n", - CSR_WIFI_HIP_IS_AP_FW(priv->interfacePriv[0]->interfaceMode) ? "AP" : "STA"); - - /* Confirm the ModeSetReq that requested the AP/STA patch switch */ - CsrWifiRouterCtrlModeSetCfmSend(priv->pending_mode_set.common.source, - priv->pending_mode_set.clientData, - priv->pending_mode_set.interfaceTag, - priv->pending_mode_set.mode, - CSR_RESULT_SUCCESS); - priv->pending_mode_set.common.destination = 0xaaaa; - } -#endif - unifi_info(priv, "UniFi ready\n"); - -#ifdef ANDROID_BUILD - /* Release the wakelock */ - unifi_trace(priv, UDBG1, "ready: release wake lock\n"); - wake_unlock(&unifi_sdio_wake_lock); -#endif - /* Firmware initialisation is complete, so let the SDIO bus - * clock be raised when convienent to the core. - */ - unifi_request_max_sdio_clock(priv->card); - -#ifdef CSR_SUPPORT_WEXT - /* Notify the Android wpa_supplicant that we are ready */ - wext_send_started_event(priv); - - queue_work(priv->unifi_workqueue, &priv->sme_config_task); -#endif - - } else { - /* Acknowledge the CsrWifiRouterCtrlWifiOnReq now */ - CsrWifiRouterCtrlWifiOnCfmSend(msg->source, res->clientData, CSR_RESULT_FAILURE); - } -} - - -void CsrWifiRouterCtrlWifiOffResHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - - -void CsrWifiRouterCtrlMulticastAddressResHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - - -void CsrWifiRouterMaPacketSubscribeReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterMaPacketSubscribeReq* req = (CsrWifiRouterMaPacketSubscribeReq*)msg; - u8 i; - CsrResult result; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterMaPacketSubscribeReqHandler: invalid priv\n"); - return; - } - - /* Look for an unused filter */ - - result = CSR_WIFI_RESULT_NO_ROOM; - for (i = 0; i < MAX_MA_UNIDATA_IND_FILTERS; i++) { - - if (!priv->sme_unidata_ind_filters[i].in_use) { - - priv->sme_unidata_ind_filters[i].in_use = 1; - priv->sme_unidata_ind_filters[i].appHandle = msg->source; - priv->sme_unidata_ind_filters[i].encapsulation = req->encapsulation; - priv->sme_unidata_ind_filters[i].protocol = req->protocol; - - priv->sme_unidata_ind_filters[i].oui[2] = (u8) (req->oui & 0xFF); - priv->sme_unidata_ind_filters[i].oui[1] = (u8) ((req->oui >> 8) & 0xFF); - priv->sme_unidata_ind_filters[i].oui[0] = (u8) ((req->oui >> 16) & 0xFF); - - result = CSR_RESULT_SUCCESS; - break; - } - } - - unifi_trace(priv, UDBG1, - "subscribe_req: encap=%d, handle=%d, result=%d\n", - req->encapsulation, i, result); - CsrWifiRouterMaPacketSubscribeCfmSend(msg->source, req->interfaceTag, i, result, 0); -} - - -void CsrWifiRouterMaPacketUnsubscribeReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterMaPacketUnsubscribeReq* req = (CsrWifiRouterMaPacketUnsubscribeReq*)msg; - CsrResult result; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterMaPacketUnsubscribeReqHandler: invalid priv\n"); - return; - } - - result = CSR_WIFI_RESULT_NOT_FOUND; - - if (req->subscriptionHandle < MAX_MA_UNIDATA_IND_FILTERS) { - if (priv->sme_unidata_ind_filters[req->subscriptionHandle].in_use) { - priv->sme_unidata_ind_filters[req->subscriptionHandle].in_use = 0; - result = CSR_RESULT_SUCCESS; - } else { - result = CSR_WIFI_RESULT_NOT_FOUND; - } - } - - unifi_trace(priv, UDBG1, - "unsubscribe_req: handle=%d, result=%d\n", - req->subscriptionHandle, result); - CsrWifiRouterMaPacketUnsubscribeCfmSend(msg->source, req->interfaceTag, result); -} - - -void CsrWifiRouterCtrlCapabilitiesReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlCapabilitiesReq* req = (CsrWifiRouterCtrlCapabilitiesReq*)msg; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlCapabilitiesReqHandler: invalid priv\n"); - return; - } - - CsrWifiRouterCtrlCapabilitiesCfmSend(msg->source, req->clientData, - UNIFI_SOFT_COMMAND_Q_LENGTH - 1, - UNIFI_SOFT_TRAFFIC_Q_LENGTH - 1); -} - - -void CsrWifiRouterCtrlSuspendResHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlSuspendRes* res = (CsrWifiRouterCtrlSuspendRes*)msg; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlSuspendResHandler: invalid priv\n"); - return; - } - - sme_complete_request(priv, res->status); -} - - -void CsrWifiRouterCtrlResumeResHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlResumeRes* res = (CsrWifiRouterCtrlResumeRes*)msg; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlResumeResHandler: invalid priv\n"); - return; - } - - sme_complete_request(priv, res->status); -} - - -void CsrWifiRouterCtrlTrafficConfigReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlTrafficConfigReq* req = (CsrWifiRouterCtrlTrafficConfigReq*)msg; - CsrResult csrResult; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlTrafficConfigReqHandler: invalid smepriv\n"); - return; - } - if (req->trafficConfigType == CSR_WIFI_ROUTER_CTRL_TRAFFIC_CONFIG_TYPE_FILTER) - { - req->config.packetFilter |= CSR_WIFI_ROUTER_CTRL_TRAFFIC_PACKET_TYPE_CUSTOM; - } - csrResult = unifi_ta_configure(priv->card, req->trafficConfigType, (const CsrWifiRouterCtrlTrafficConfig *)&req->config); -} - -void CsrWifiRouterCtrlTrafficClassificationReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlTrafficClassificationReq* req = (CsrWifiRouterCtrlTrafficClassificationReq*)msg; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlTrafficClassificationReqHandler: invalid smepriv\n"); - return; - } - - unifi_ta_classification(priv->card, req->trafficType, req->period); -} - -static int -_sys_packet_req(unifi_priv_t *priv, const CSR_SIGNAL *signal, - u8 subscriptionHandle, - u16 frameLength, u8 *frame, - int proto) -{ - int r; - const sme_ma_unidata_ind_filter_t *subs; - bulk_data_param_t bulkdata; - CSR_MA_PACKET_REQUEST req = signal->u.MaPacketRequest; - struct sk_buff *skb, *newSkb = NULL; - CsrWifiMacAddress peerMacAddress; - CsrResult csrResult; - u16 interfaceTag = req.VirtualInterfaceIdentifier & 0xff; - u8 eapolStore = FALSE; - s8 protection = 0; - netInterface_priv_t *interfacePriv; - unsigned long flags; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "_sys_packet_req: interfaceID >= CSR_WIFI_NUM_INTERFACES.\n"); - return -EINVAL; - } - interfacePriv = priv->interfacePriv[interfaceTag]; - if (!priv->sme_unidata_ind_filters[subscriptionHandle].in_use) { - unifi_error(priv, "_sys_packet_req: unknown subscription.\n"); - return -EINVAL; - } - - subs = &priv->sme_unidata_ind_filters[subscriptionHandle]; - unifi_trace(priv, UDBG1, - "_sys_packet_req: handle=%d, subs=%p, encap=%d\n", - subscriptionHandle, subs, subs->encapsulation); - - csrResult = unifi_net_data_malloc(priv, &bulkdata.d[0], frameLength); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "_sys_packet_req: failed to allocate bulkdata.\n"); - return (int)CsrHipResultToStatus(csrResult); - } - - /* get the peer Mac address */ - memcpy(&peerMacAddress, frame, ETH_ALEN); - - /* Determine if we need to add encapsulation header */ - if (subs->encapsulation == CSR_WIFI_ROUTER_ENCAPSULATION_ETHERNET) { - memcpy((void*)bulkdata.d[0].os_data_ptr, frame, frameLength); - - /* The translation is performed on the skb */ - skb = (struct sk_buff*)bulkdata.d[0].os_net_buf_ptr; - - unifi_trace(priv, UDBG1, - "_sys_packet_req: skb_add_llc_snap -->\n"); - r = skb_add_llc_snap(priv->netdev[interfaceTag], skb, proto); - unifi_trace(priv, UDBG1, - "_sys_packet_req: skb_add_llc_snap <--\n"); - if (r) { - unifi_error(priv, - "_sys_packet_req: failed to translate eth frame.\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return r; - } - - bulkdata.d[0].data_length = skb->len; - } else { - /* Crop the MAC addresses from the packet */ - memcpy((void*)bulkdata.d[0].os_data_ptr, frame + 2*ETH_ALEN, frameLength - 2*ETH_ALEN); - bulkdata.d[0].data_length = frameLength - 2*ETH_ALEN; - skb = (struct sk_buff*)bulkdata.d[0].os_net_buf_ptr; - skb->len = bulkdata.d[0].data_length; - - } - - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].os_net_buf_ptr = NULL; - bulkdata.d[1].data_length = 0; - - /* check for m4 detection */ - if (0 == uf_verify_m4(priv, bulkdata.d[0].os_data_ptr, bulkdata.d[0].data_length)) { - eapolStore = TRUE; - } - -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - if (proto == ETH_P_WAI) - { - protection = 0; /*WAI packets always sent unencrypted*/ - } - else - { -#endif - -#ifdef CSR_SUPPORT_SME - if ((protection = uf_get_protection_bit_from_interfacemode(priv, interfaceTag, peerMacAddress.a)) < 0) { - unifi_error(priv, "unicast address, but destination not in station record database\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return -1; - } -#else - protection = 0; -#endif - -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - } -#endif - - /* add Mac header */ - if (prepare_and_add_macheader(priv, skb, newSkb, req.Priority, &bulkdata, interfaceTag, frame, frame + ETH_ALEN, protection)) { - unifi_error(priv, "failed to create MAC header\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return -1; - } - - if (eapolStore) { - spin_lock_irqsave(&priv->m4_lock, flags); - /* Store the EAPOL M4 packet for later */ - interfacePriv->m4_signal = *signal; - interfacePriv->m4_bulk_data.net_buf_length = bulkdata.d[0].net_buf_length; - interfacePriv->m4_bulk_data.data_length = bulkdata.d[0].data_length; - interfacePriv->m4_bulk_data.os_data_ptr = bulkdata.d[0].os_data_ptr; - interfacePriv->m4_bulk_data.os_net_buf_ptr = bulkdata.d[0].os_net_buf_ptr; - spin_unlock_irqrestore(&priv->m4_lock, flags); - /* Send a signal to SME */ - unifi_trace(priv, UDBG1, "_sys_packet_req: Sending CsrWifiRouterCtrlM4ReadyToSendInd\n"); - CsrWifiRouterCtrlM4ReadyToSendIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, peerMacAddress); - return 0; - } - - /* Send the signal to UniFi */ - /* Set the B31 to 1 for local routing*/ - r= uf_process_ma_packet_req(priv, peerMacAddress.a, (req.HostTag | 0x80000000), interfaceTag, 0, - (CSR_RATE)0, req.Priority, signal->SignalPrimitiveHeader.SenderProcessId, &bulkdata); - if (r) { - unifi_error(priv, - "_sys_packet_req: failed to send signal.\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return r; - } - /* The final CsrWifiRouterMaPacketCfmSend() will called when the actual MA-PACKET.cfm is received from the chip */ - - return 0; -} - -void CsrWifiRouterMaPacketReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - int r; - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterMaPacketReq* mareq = (CsrWifiRouterMaPacketReq*)msg; - llc_snap_hdr_t *snap; - u16 snap_protocol; - CSR_SIGNAL signal; - CSR_MA_PACKET_REQUEST *req = &signal.u.MaPacketRequest; - CsrWifiRouterCtrlPortAction controlPortaction; - u8 *daddr, *saddr; - u16 interfaceTag = mareq->interfaceTag & 0x00ff; - int queue; - netInterface_priv_t *interfacePriv; - - if (!mareq->frame || !priv || !priv->smepriv) - { - unifi_error(priv, "CsrWifiRouterMaPacketReqHandler: invalid frame/priv/priv->smepriv\n"); - return; - } - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "CsrWifiRouterMaPacketReqHandler: interfaceID >= CSR_WIFI_NUM_INTERFACES.\n"); - return; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - /* get a pointer to dest & source Mac address */ - daddr = mareq->frame; - saddr = (mareq->frame + ETH_ALEN); - /* point to the proper position of frame, since frame has MAC header */ - snap = (llc_snap_hdr_t *) (mareq->frame + 2 * ETH_ALEN); - snap_protocol = ntohs(snap->protocol); - if((snap_protocol == ETH_P_PAE) -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - || (snap_protocol == ETH_P_WAI) -#endif - ) - { - queue = UF_UNCONTROLLED_PORT_Q; - } - else - { - queue = UF_CONTROLLED_PORT_Q; - } - - /* Controlled port restrictions apply to the packets */ - controlPortaction = uf_sme_port_state(priv, daddr, queue, interfaceTag); - if (controlPortaction != CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN) - { - unifi_warning(priv, "CsrWifiRouterMaPacketReqHandler: (%s)controlled port is closed.\n", (queue == UF_CONTROLLED_PORT_Q)?"":"un"); - if(mareq->cfmRequested) - { - CsrWifiRouterMaPacketCfmSend(msg->source, - interfaceTag, - CSR_RESULT_FAILURE, - mareq->hostTag, 0); - } - return; - } - - signal.SignalPrimitiveHeader.SignalId = CSR_MA_PACKET_REQUEST_ID; - /* Store the appHandle in the LSB of the SenderId. */ - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(((priv->sme_cli->sender_id & 0xff00) | (unsigned int)msg->source), - (u8*)&signal.SignalPrimitiveHeader.SenderProcessId); - signal.SignalPrimitiveHeader.ReceiverProcessId = 0; - - /* Fill in the MA-PACKET.req signal */ - memcpy(req->Ra.x, daddr, ETH_ALEN); - req->Priority = mareq->priority; - req->TransmitRate = 0; /* Let firmware select the rate*/ - req->VirtualInterfaceIdentifier = uf_get_vif_identifier(interfacePriv->interfaceMode, interfaceTag); - req->HostTag = mareq->hostTag; - - if(mareq->cfmRequested) - req->TransmissionControl = 0; - else - req->TransmissionControl = CSR_NO_CONFIRM_REQUIRED; - - r = _sys_packet_req(priv, &signal, mareq->subscriptionHandle, - mareq->frameLength, mareq->frame, snap_protocol); - - if (r && mareq->cfmRequested) - { - CsrWifiRouterMaPacketCfmSend(msg->source, interfaceTag, - CSR_RESULT_FAILURE, - mareq->hostTag, 0); - } - return; -} - -void CsrWifiRouterMaPacketCancelReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -void CsrWifiRouterCtrlM4TransmitReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlM4TransmitReq* req = (CsrWifiRouterCtrlM4TransmitReq*)msg; - int r; - bulk_data_param_t bulkdata; - netInterface_priv_t *interfacePriv; - CSR_SIGNAL m4_signal; - unsigned long flags; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlM4TransmitReqHandler: invalid smepriv\n"); - return; - } - if (req->interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "M4TransmitReqHandler: interfaceTag >= CSR_WIFI_NUM_INTERFACES\n"); - return; - } - - interfacePriv = priv->interfacePriv[req->interfaceTag]; - spin_lock_irqsave(&priv->m4_lock, flags); - if (interfacePriv->m4_bulk_data.data_length == 0) { - spin_unlock_irqrestore(&priv->m4_lock, flags); - unifi_error(priv, "CsrWifiRouterCtrlM4TransmitReqHandler: invalid buffer\n"); - return; - } - - memcpy(&bulkdata.d[0], &interfacePriv->m4_bulk_data, sizeof(bulk_data_desc_t)); - - interfacePriv->m4_bulk_data.net_buf_length = 0; - interfacePriv->m4_bulk_data.data_length = 0; - interfacePriv->m4_bulk_data.os_data_ptr = interfacePriv->m4_bulk_data.os_net_buf_ptr = NULL; - m4_signal = interfacePriv->m4_signal; - spin_unlock_irqrestore(&priv->m4_lock, flags); - - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].data_length = 0; - - interfacePriv->m4_sent = TRUE; - m4_signal.u.MaPacketRequest.HostTag |= 0x80000000; - /* Store the hostTag for later varification */ - interfacePriv->m4_hostTag = m4_signal.u.MaPacketRequest.HostTag; - r = ul_send_signal_unpacked(priv, &m4_signal, &bulkdata); - unifi_trace(priv, UDBG1, - "CsrWifiRouterCtrlM4TransmitReqHandler: sent\n"); - if (r) { - unifi_error(priv, - "CsrWifiRouterCtrlM4TransmitReqHandler: failed to send signal.\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - } -} - -/* reset the station records when the mode is set as CSR_WIFI_ROUTER_CTRL_MODE_NONE */ -static void CsrWifiRouterCtrlResetStationRecordList(unifi_priv_t *priv, u16 interfaceTag) -{ - u8 i, j; - CsrWifiRouterCtrlStaInfo_t *staInfo=NULL; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - unsigned long lock_flags; - - /* create a list for sending confirms of un-delivered packets */ - struct list_head send_cfm_list; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "CsrWifiRouterCtrlResetStationRecordList: bad interfaceTag\n"); - return; - } - - INIT_LIST_HEAD(&send_cfm_list); - - /* Reset the station record to NULL if mode is NONE */ - for(i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - if ((staInfo=interfacePriv->staInfo[i]) != NULL) { - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(staInfo->mgtFrames)); - uf_flush_list(priv, &(staInfo->mgtFrames)); - for(j=0;j<MAX_ACCESS_CATOGORY;j++){ - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(staInfo->dataPdu[j])); - uf_flush_list(priv, &(staInfo->dataPdu[j])); - } - - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - /* Removing station record information from port config array */ - memset(staInfo->peerControlledPort, 0, sizeof(unifi_port_cfg_t)); - staInfo->peerControlledPort->port_action = CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - staInfo->peerControlledPort->in_use = FALSE; - interfacePriv->controlled_data_port.entries_in_use--; - - memset(staInfo->peerUnControlledPort, 0, sizeof(unifi_port_cfg_t)); - staInfo->peerUnControlledPort->port_action = CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - staInfo->peerUnControlledPort->in_use = FALSE; - interfacePriv->uncontrolled_data_port.entries_in_use--; - - kfree(interfacePriv->staInfo[i]); - interfacePriv->staInfo[i] = NULL; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } - } - /* after the critical region process the list of frames that requested cfm - * and send cfm to requestor one by one - */ - send_auto_ma_packet_confirm(priv, interfacePriv, &send_cfm_list); - -#ifdef CSR_SUPPORT_SME - /* Interface Independent, no of packet queued, incase of mode is None or AP set to 0 */ - switch(interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - case CSR_WIFI_ROUTER_CTRL_MODE_NONE: - if (priv->noOfPktQueuedInDriver) { - unifi_warning(priv, "After reset the noOfPktQueuedInDriver = %x\n", priv->noOfPktQueuedInDriver); - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - priv->noOfPktQueuedInDriver = 0; - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - } - break; - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - break; - default: - unifi_error(priv, "interfacemode is not correct in CsrWifiRouterCtrlResetStationRecordList: debug\n"); - } -#endif - - if (((interfacePriv->controlled_data_port.entries_in_use != 0) || (interfacePriv->uncontrolled_data_port.entries_in_use != 0)) - && (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_NONE)) { - /* Print in case if the value of entries goes to -ve/+ve (apart from 0) - * we expect the entries should be zero here if mode is set as NONE - */ - unifi_trace(priv, UDBG3, "In %s controlled port entries = %d, uncontrolled port entries = %d\n", - __FUNCTION__, interfacePriv->controlled_data_port.entries_in_use, - interfacePriv->uncontrolled_data_port.entries_in_use); - } -} - -void CsrWifiRouterCtrlInterfaceReset(unifi_priv_t *priv, u16 interfaceTag) -{ - netInterface_priv_t *interfacePriv; - - /* create a list for sending confirms of un-delivered packets */ - struct list_head send_cfm_list; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "CsrWifiRouterCtrlInterfaceReset: bad interfaceTag\n"); - return; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - - INIT_LIST_HEAD(&send_cfm_list); - - /* Enable all queues by default */ - interfacePriv->queueEnabled[0] = 1; - interfacePriv->queueEnabled[1] = 1; - interfacePriv->queueEnabled[2] = 1; - interfacePriv->queueEnabled[3] = 1; - - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(interfacePriv->genericMgtFrames)); - uf_flush_list(priv, &(interfacePriv->genericMgtFrames)); - - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(interfacePriv->genericMulticastOrBroadCastMgtFrames)); - uf_flush_list(priv, &(interfacePriv->genericMulticastOrBroadCastMgtFrames)); - - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(interfacePriv->genericMulticastOrBroadCastFrames)); - - uf_flush_list(priv, &(interfacePriv->genericMulticastOrBroadCastFrames)); - - /* process the list of frames that requested cfm - and send cfm to requestor one by one */ - send_auto_ma_packet_confirm(priv, interfacePriv, &send_cfm_list); - - /* Reset the station record to NULL if mode is tried to set as NONE */ - switch(interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - case CSR_WIFI_ROUTER_CTRL_MODE_MONITOR: - case CSR_WIFI_ROUTER_CTRL_MODE_AMP: - /* station records not available in these modes */ - break; - default: - CsrWifiRouterCtrlResetStationRecordList(priv, interfaceTag); - } - - interfacePriv->num_stations_joined = 0; - interfacePriv->sta_activity_check_enabled = FALSE; -} - - -void CsrWifiRouterCtrlModeSetReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlModeSetReq* req = (CsrWifiRouterCtrlModeSetReq*)msg; - - if (priv == NULL) - { - unifi_error(priv, "CsrWifiRouterCtrlModeSetReqHandler: invalid smepriv\n"); - return; - } - - if (req->interfaceTag < CSR_WIFI_NUM_INTERFACES) - { - netInterface_priv_t *interfacePriv = priv->interfacePriv[req->interfaceTag]; -#ifdef CSR_WIFI_SPLIT_PATCH - u8 old_mode = interfacePriv->interfaceMode; -#endif - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlModeSetReqHandler: interfacePriv->interfaceMode = %d\n", - interfacePriv->interfaceMode); - - interfacePriv->interfaceMode = req->mode; - -#ifdef CSR_WIFI_SPLIT_PATCH - /* Detect a change in mode that requires a switch to/from the AP firmware patch. - * This should only happen when transitioning in/out of AP modes. - */ - if (CSR_WIFI_HIP_IS_AP_FW(req->mode) != CSR_WIFI_HIP_IS_AP_FW(old_mode)) - { - CsrWifiRouterCtrlVersions versions; - int r; - -#ifdef ANDROID_BUILD - /* Take the wakelock while switching patch */ - unifi_trace(priv, UDBG1, "patch switch: take wake lock\n"); - wake_lock(&unifi_sdio_wake_lock); -#endif - unifi_info(priv, "Resetting UniFi with %s patch\n", CSR_WIFI_HIP_IS_AP_FW(req->mode) ? "AP" : "STA"); - - r = uf_request_firmware_files(priv, UNIFI_FW_STA); - if (r) { - unifi_error(priv, "CsrWifiRouterCtrlModeSetReqHandler: Failed to get f/w\n"); - CsrWifiRouterCtrlModeSetCfmSend(msg->source, req->clientData, req->interfaceTag, - req->mode, CSR_RESULT_FAILURE); - return; - } - - /* Block the I/O thread */ - priv->bh_thread.block_thread = 1; - - /* Reset and download the new patch */ - r = uf_init_hw(priv); - if (r) { - unifi_error(priv, "CsrWifiRouterCtrlWifiOnReqHandler: Failed to initialise h/w, error %d\n", r); - CsrWifiRouterCtrlModeSetCfmSend(msg->source, req->clientData, req->interfaceTag, - req->mode, CSR_RESULT_FAILURE); - return; - } - - /* Re-enable the I/O thread */ - priv->bh_thread.block_thread = 0; - - /* Get the version information from the core */ - unifi_card_info(priv->card, &priv->card_info); - - /* Copy to the unifiio_card_info structure. */ - versions.chipId = priv->card_info.chip_id; - versions.chipVersion = priv->card_info.chip_version; - versions.firmwareBuild = priv->card_info.fw_build; - versions.firmwareHip = priv->card_info.fw_hip_version; - versions.routerBuild = (char*)CSR_WIFI_VERSION; - versions.routerHip = (UNIFI_HIP_MAJOR_VERSION << 8) | UNIFI_HIP_MINOR_VERSION; - - /* Now that new firmware is running, send a WifiOnInd to the NME. This will - * cause it to retransfer the MIB. - */ - CsrWifiRouterCtrlWifiOnIndSend(msg->source, 0, CSR_RESULT_SUCCESS, versions); - - /* Store the request so we know where to send the ModeSetCfm */ - priv->pending_mode_set = *req; - } - else -#endif - { - /* No patch switch, confirm straightaway */ - CsrWifiRouterCtrlModeSetCfmSend(msg->source, req->clientData, req->interfaceTag, - req->mode, CSR_RESULT_SUCCESS); - } - - interfacePriv->bssid = req->bssid; - /* For modes other than AP/P2PGO, set below member FALSE */ - interfacePriv->intraBssEnabled = FALSE; - /* Initialise the variable bcTimSet with a value - * other then CSR_WIFI_TIM_SET or CSR_WIFI_TIM_RESET value - */ - interfacePriv->bcTimSet = 0xFF; - interfacePriv->bcTimSetReqPendingFlag = FALSE; - /* Initialise the variable bcTimSetReqQueued with a value - * other then CSR_WIFI_TIM_SET or CSR_WIFI_TIM_RESET value - */ - interfacePriv->bcTimSetReqQueued =0xFF; - CsrWifiRouterCtrlInterfaceReset(priv, req->interfaceTag); - - if(req->mode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - req->mode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - interfacePriv->protect = req->protection; - interfacePriv->dtimActive=FALSE; - interfacePriv->multicastPduHostTag = 0xffffffff; - /* For AP/P2PGO mode SME sending intraBssDistEnabled - * i.e. for AP: intraBssDistEnabled = TRUE, for P2PGO - * intraBssDistEnabled = TRUE/FALSE on requirement - */ - interfacePriv->intraBssEnabled = req->intraBssDistEnabled; - unifi_trace(priv, UDBG3, "CsrWifiRouterCtrlModeSetReqHandler: IntraBssDisEnabled = %d\n", - req->intraBssDistEnabled); - } else if (req->mode == CSR_WIFI_ROUTER_CTRL_MODE_NONE) { - netif_carrier_off(priv->netdev[req->interfaceTag]); - interfacePriv->connected = UnifiConnectedUnknown; - } - } - else { - unifi_error(priv, "CsrWifiRouterCtrlModeSetReqHandler: invalid interfaceTag :%d\n", req->interfaceTag); - } -} - -void CsrWifiRouterMaPacketResHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -} - -/* delete the station record from the station record data base */ -static int peer_delete_record(unifi_priv_t *priv, CsrWifiRouterCtrlPeerDelReq *req) -{ - u8 j; - CsrWifiRouterCtrlStaInfo_t *staInfo = NULL; - unifi_port_config_t *controlledPort; - unifi_port_config_t *unControlledPort; - netInterface_priv_t *interfacePriv; - - u8 ba_session_idx = 0; - ba_session_rx_struct *ba_session_rx = NULL; - ba_session_tx_struct *ba_session_tx = NULL; - - /* create a list for sending confirms of un-delivered packets */ - struct list_head send_cfm_list; - - unsigned long lock_flags; - - if ((req->peerRecordHandle >= UNIFI_MAX_CONNECTIONS) || (req->interfaceTag >= CSR_WIFI_NUM_INTERFACES)) { - unifi_error(priv, "handle/interfaceTag is not proper, handle = %d, interfaceTag = %d\n", req->peerRecordHandle, req->interfaceTag); - return CSR_RESULT_FAILURE; - } - - INIT_LIST_HEAD(&send_cfm_list); - - interfacePriv = priv->interfacePriv[req->interfaceTag]; - /* remove the station record & make it NULL */ - if ((staInfo=interfacePriv->staInfo[req->peerRecordHandle])!=NULL) { - - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(staInfo->mgtFrames)); - - uf_flush_list(priv, &(staInfo->mgtFrames)); - for(j=0;j<MAX_ACCESS_CATOGORY;j++){ - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(staInfo->dataPdu[j])); - uf_flush_list(priv, &(staInfo->dataPdu[j])); - } - - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - /* clear the port configure array info, for the corresponding peer entry */ - controlledPort = &interfacePriv->controlled_data_port; - unControlledPort = &interfacePriv->uncontrolled_data_port; - - unifi_trace(priv, UDBG1, "peer_delete_record: Peer found handle = %d, port in use: cont(%d), unCont(%d)\n", - req->peerRecordHandle, controlledPort->entries_in_use, unControlledPort->entries_in_use); - - memset(staInfo->peerControlledPort, 0, sizeof(unifi_port_cfg_t)); - staInfo->peerControlledPort->port_action = CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - staInfo->peerControlledPort->in_use = FALSE; - if (controlledPort->entries_in_use) { - controlledPort->entries_in_use--; - } else { - unifi_warning(priv, "number of controlled port entries is zero, trying to decrement: debug\n"); - } - - memset(staInfo->peerUnControlledPort, 0, sizeof(unifi_port_cfg_t)); - staInfo->peerUnControlledPort->port_action = CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - staInfo->peerUnControlledPort->in_use = FALSE; - if (unControlledPort->entries_in_use) { - unControlledPort->entries_in_use--; - } else { - unifi_warning(priv, "number of uncontrolled port entries is zero, trying to decrement: debug\n"); - } - - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - /* update the TIM with zero */ - if (interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_IBSS && - staInfo->timSet == CSR_WIFI_TIM_SET) { - unifi_trace(priv, UDBG3, "peer is deleted so TIM updated to 0, in firmware\n"); - update_tim(priv, staInfo->aid, 0, req->interfaceTag, req->peerRecordHandle); - } - - - /* Stop BA session if it is active, for this peer address all BA sessions - (per tID per role) are closed */ - - down(&priv->ba_mutex); - for(ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_RX; ba_session_idx++){ - ba_session_rx = priv->interfacePriv[req->interfaceTag]->ba_session_rx[ba_session_idx]; - if(ba_session_rx) { - if(!memcmp(ba_session_rx->macAddress.a, staInfo->peerMacAddress.a, ETH_ALEN)){ - blockack_session_stop(priv, - req->interfaceTag, - CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_RECIPIENT, - ba_session_rx->tID, - ba_session_rx->macAddress); - } - } - } - - for(ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_TX; ba_session_idx++){ - ba_session_tx = priv->interfacePriv[req->interfaceTag]->ba_session_tx[ba_session_idx]; - if(ba_session_tx) { - if(!memcmp(ba_session_tx->macAddress.a, staInfo->peerMacAddress.a, ETH_ALEN)){ - blockack_session_stop(priv, - req->interfaceTag, - CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ORIGINATOR, - ba_session_tx->tID, - ba_session_tx->macAddress); - } - } - } - - up(&priv->ba_mutex); - -#ifdef CSR_SUPPORT_SME - unifi_trace(priv, UDBG1, "Canceling work queue for STA with AID: %d\n", staInfo->aid); - cancel_work_sync(&staInfo->send_disconnected_ind_task); -#endif - - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); -#ifdef CSR_SUPPORT_SME - interfacePriv->num_stations_joined--; - - staInfo->nullDataHostTag = INVALID_HOST_TAG; - - if ((interfacePriv->sta_activity_check_enabled) && - (interfacePriv->num_stations_joined < STA_INACTIVE_DETECTION_TRIGGER_THRESHOLD)) - { - unifi_trace(priv, UDBG1, "STOPPING the Inactivity Timer (num of stations = %d)\n", interfacePriv->num_stations_joined); - interfacePriv->sta_activity_check_enabled = FALSE; - del_timer_sync(&interfacePriv->sta_activity_check_timer); - } -#endif - - /* Free the station record for corresponding peer */ - kfree(interfacePriv->staInfo[req->peerRecordHandle]); - interfacePriv->staInfo[req->peerRecordHandle] = NULL; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - - /* after the critical region process the list of frames that requested cfm - and send cfm to requestor one by one */ - send_auto_ma_packet_confirm(priv, interfacePriv, &send_cfm_list); - - - } - else - { - unifi_trace(priv, UDBG3, " peer not found: Delete request Peer handle[%d]\n", req->peerRecordHandle); - } - - return CSR_RESULT_SUCCESS; -} - -void CsrWifiRouterCtrlPeerDelReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - CsrWifiRouterCtrlPeerDelReq* req = (CsrWifiRouterCtrlPeerDelReq*)msg; - CsrResult status = CSR_RESULT_SUCCESS; - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - netInterface_priv_t *interfacePriv; - - unifi_trace(priv, UDBG2, "entering CsrWifiRouterCtrlPeerDelReqHandler\n"); - if (priv == NULL) - { - unifi_error(priv, "CsrWifiRouterCtrlPeerDelReqHandler: invalid smepriv\n"); - return; - } - - if (req->interfaceTag >= CSR_WIFI_NUM_INTERFACES) - { - unifi_error(priv, "CsrWifiRouterCtrlPeerDelReqHandler: bad interfaceTag\n"); - return; - } - - interfacePriv = priv->interfacePriv[req->interfaceTag]; - - switch(interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - /* remove the station from station record data base */ - status = peer_delete_record(priv, req); - break; - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - default: - /* No station record to maintain in these modes */ - break; - } - - CsrWifiRouterCtrlPeerDelCfmSend(msg->source, req->clientData, req->interfaceTag, status); - unifi_trace(priv, UDBG2, "leaving CsrWifiRouterCtrlPeerDelReqHandler \n"); -} - -/* Add the new station to the station record data base */ -static int peer_add_new_record(unifi_priv_t *priv, CsrWifiRouterCtrlPeerAddReq *req, u32 *handle) -{ - u8 i, powerModeTemp = 0; - u8 freeSlotFound = FALSE; - CsrWifiRouterCtrlStaInfo_t *newRecord = NULL; - netInterface_priv_t *interfacePriv = priv->interfacePriv[req->interfaceTag]; - u32 currentTime, currentTimeHi; - unsigned long lock_flags; - - if (req->interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "peer_add_new_record: bad interfaceTag\n"); - return CSR_RESULT_FAILURE; - } - - currentTime = CsrTimeGet(¤tTimeHi); - - for(i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - if(interfacePriv->staInfo[i] == NULL) { - /* Slot is empty, so can be used for station record */ - freeSlotFound = TRUE; - *handle = i; - - /* Allocate for the new station record , to avoid race condition would happen between ADD_PEER & - * DEL_PEER the allocation made atomic memory rather than kernel memory - */ - newRecord = kmalloc(sizeof(CsrWifiRouterCtrlStaInfo_t), GFP_ATOMIC); - if (!newRecord) { - unifi_error(priv, "failed to allocate the %d bytes of mem for station record\n", - sizeof(CsrWifiRouterCtrlStaInfo_t)); - return CSR_RESULT_FAILURE; - } - - unifi_trace(priv, UDBG1, "peer_add_new_record: handle = %d AID = %d addr = %x:%x:%x:%x:%x:%x LI=%u\n", - *handle, req->associationId, req->peerMacAddress.a[0], req->peerMacAddress.a[1], req->peerMacAddress.a[2], - req->peerMacAddress.a[3], req->peerMacAddress.a[4], req->peerMacAddress.a[5], - req->staInfo.listenIntervalInTus); - - /* disable the preemption until station record updated */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - - interfacePriv->staInfo[i] = newRecord; - /* Initialize the record*/ - memset(newRecord, 0, sizeof(CsrWifiRouterCtrlStaInfo_t)); - /* update the station record */ - memcpy(newRecord->peerMacAddress.a, req->peerMacAddress.a, ETH_ALEN); - newRecord->wmmOrQosEnabled = req->staInfo.wmmOrQosEnabled; - - /* maxSpLength is bit map in qosInfo field, so converting accordingly */ - newRecord->maxSpLength = req->staInfo.maxSpLength * 2; - - /*Max SP 0 mean any number of packets. since we buffer only 512 - packets we are hard coding this to zero for the moment */ - - if(newRecord->maxSpLength == 0) - newRecord->maxSpLength=512; - - newRecord->assignedHandle = i; - - /* copy power save mode of all access catagory (Trigger/Delivery/both enabled/disabled) */ - powerModeTemp = (u8) ((req->staInfo.powersaveMode >> 4) & 0xff); - - if(!(req->staInfo.powersaveMode & 0x0001)) - newRecord->powersaveMode[UNIFI_TRAFFIC_Q_BK]= CSR_WIFI_AC_LEGACY_POWER_SAVE; - else - newRecord->powersaveMode[UNIFI_TRAFFIC_Q_BK]= powerModeTemp & 0x03; - - if(!(req->staInfo.powersaveMode & 0x0002)) - newRecord->powersaveMode[UNIFI_TRAFFIC_Q_BE]= CSR_WIFI_AC_LEGACY_POWER_SAVE; - else - newRecord->powersaveMode[UNIFI_TRAFFIC_Q_BE]= ((powerModeTemp & 0x0C)>> 2); - - if(!(req->staInfo.powersaveMode & 0x0004)) - newRecord->powersaveMode[UNIFI_TRAFFIC_Q_VI]= CSR_WIFI_AC_LEGACY_POWER_SAVE; - else - newRecord->powersaveMode[UNIFI_TRAFFIC_Q_VI]= ((powerModeTemp & 0x30)>> 4); - - if(!(req->staInfo.powersaveMode & 0x0008)) - newRecord->powersaveMode[UNIFI_TRAFFIC_Q_VO]= CSR_WIFI_AC_LEGACY_POWER_SAVE; - else - newRecord->powersaveMode[UNIFI_TRAFFIC_Q_VO]= ((powerModeTemp & 0xC0)>> 6); - - { - u8 k; - for(k=0; k< MAX_ACCESS_CATOGORY ;k++) - unifi_trace(priv, UDBG2, "peer_add_new_record: WMM : %d ,AC %d, powersaveMode %x \n", - req->staInfo.wmmOrQosEnabled, k, newRecord->powersaveMode[k]); - } - - unifi_trace(priv, UDBG3, "newRecord->wmmOrQosEnabled : %d , MAX SP : %d\n", - newRecord->wmmOrQosEnabled, newRecord->maxSpLength); - - /* Initialize the mgtFrames & data Pdu list */ - { - u8 j; - INIT_LIST_HEAD(&newRecord->mgtFrames); - for(j = 0; j < MAX_ACCESS_CATOGORY; j++) { - INIT_LIST_HEAD(&newRecord->dataPdu[j]); - } - } - - newRecord->lastActivity = currentTime; - newRecord->activity_flag = TRUE; - - /* enable the preemption as station record updated */ - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - - /* First time port actions are set for the peer with below information */ - configure_data_port(priv, CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN, &newRecord->peerMacAddress, - UF_UNCONTROLLED_PORT_Q, req->interfaceTag); - - if (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_IBSS) { - configure_data_port(priv, CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN, &newRecord->peerMacAddress, - UF_CONTROLLED_PORT_Q, req->interfaceTag); - } else { - configure_data_port(priv, CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD, &newRecord->peerMacAddress, - UF_CONTROLLED_PORT_Q, req->interfaceTag); - } - - - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - /* Port status must be already set before calling the Add Peer request */ - newRecord->peerControlledPort = uf_sme_port_config_handle(priv, newRecord->peerMacAddress.a, - UF_CONTROLLED_PORT_Q, req->interfaceTag); - newRecord->peerUnControlledPort = uf_sme_port_config_handle(priv, newRecord->peerMacAddress.a, - UF_UNCONTROLLED_PORT_Q, req->interfaceTag); - - if (!newRecord->peerControlledPort || !newRecord->peerUnControlledPort) { - /* enable the preemption as station record failed to update */ - unifi_warning(priv, "Un/ControlledPort record not found in port configuration array index = %d\n", i); - kfree(interfacePriv->staInfo[i]); - interfacePriv->staInfo[i] = NULL; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - return CSR_RESULT_FAILURE; - } - - newRecord->currentPeerState = CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE; - - /* changes done during block ack handling */ - newRecord->txSuspend = FALSE; - - /*U-APSD related data structure*/ - newRecord->timRequestPendingFlag = FALSE; - - /* Initialise the variable updateTimReqQueued with a value - * other then CSR_WIFI_TIM_SET or CSR_WIFI_TIM_RESET value - */ - newRecord->updateTimReqQueued = 0xFF; - newRecord->timSet = CSR_WIFI_TIM_RESET; - newRecord->uapsdActive = FALSE; - newRecord->noOfSpFramesSent =0; - newRecord->triggerFramePriority = CSR_QOS_UP0; - - /* The protection bit is updated once the port opens for corresponding peer in - * routerPortConfigure request */ - - /* update the association ID */ - newRecord->aid = req->associationId; - -#ifdef CSR_SUPPORT_SME - interfacePriv->num_stations_joined++; - newRecord->interfacePriv = interfacePriv; - newRecord->listenIntervalInTus = req->staInfo.listenIntervalInTus; - newRecord->nullDataHostTag = INVALID_HOST_TAG; - - INIT_WORK(&newRecord->send_disconnected_ind_task, uf_send_disconnected_ind_wq); - - if(!(interfacePriv->sta_activity_check_enabled) && - (interfacePriv->num_stations_joined >= STA_INACTIVE_DETECTION_TRIGGER_THRESHOLD)){ - unifi_trace(priv, UDBG1, - "peer_add_new_record: STARTING the Inactivity Timer (num of stations = %d)", - interfacePriv->num_stations_joined); - - interfacePriv->sta_activity_check_enabled = TRUE; - interfacePriv->sta_activity_check_timer.function = check_inactivity_timer_expire_func; - interfacePriv->sta_activity_check_timer.data = (unsigned long)interfacePriv; - - init_timer(&interfacePriv->sta_activity_check_timer); - mod_timer(&interfacePriv->sta_activity_check_timer, - (jiffies + usecs_to_jiffies(STA_INACTIVE_DETECTION_TIMER_INTERVAL * 1000 * 1000))); - - } -#endif - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - break; - } - } - - if(!freeSlotFound) { - unifi_error(priv, "Limited connectivity, Free slot not found for station record addition\n"); - return CSR_RESULT_FAILURE; - } - return CSR_RESULT_SUCCESS; -} - -#ifdef CSR_SUPPORT_SME -static void check_inactivity_timer_expire_func(unsigned long data) -{ - struct unifi_priv *priv; - CsrWifiRouterCtrlStaInfo_t *sta_record = NULL; - u8 i = 0; - u32 now; - u32 inactive_time; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *) data; - - if (!interfacePriv) - { - return; - } - - priv = interfacePriv->privPtr; - - if (interfacePriv->InterfaceTag >= CSR_WIFI_NUM_INTERFACES) - { - unifi_error(priv, "check_inactivity_timer_expire_func: Invalid interfaceTag\n"); - return; - } - - /* RUN Algorithm to check inactivity for each connected station */ - now = CsrTimeGet(NULL); - - for(i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - if(interfacePriv->staInfo[i] != NULL) { - sta_record = interfacePriv->staInfo[i]; - - if (sta_record->activity_flag == TRUE){ - sta_record->activity_flag = FALSE; - sta_record->lastActivity = now; - continue; - } - - if (sta_record->lastActivity > now) - { - /* simple timer wrap (for 1 wrap) */ - inactive_time = CsrTimeAdd((u32)CsrTimeSub(CSR_SCHED_TIME_MAX, sta_record->lastActivity), now); - } - else - { - inactive_time = (u32)CsrTimeSub(now, sta_record->lastActivity); - } - - if (inactive_time >= STA_INACTIVE_TIMEOUT_VAL) - { - unifi_trace(priv, UDBG1, "STA is Inactive - AID = %d inactive_time = %d\n", - sta_record->aid, - inactive_time); - - /* station is in-active, if it is in active mode send a null frame - * and the station should acknowledge the null frame, if acknowledgement - * is not received throw out the station. - * If the station is in Power Save, update TIM for the station so - * that it wakes up and register some activity through PS-Poll or - * trigger frame. - */ - if (sta_record->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE) - { - unifi_trace(priv, UDBG1, "STA power save state - Active, send a NULL frame to check if it is ALIVE\n"); - uf_send_nulldata ( priv, - sta_record->interfacePriv->InterfaceTag, - sta_record->peerMacAddress.a, - CSR_CONTENTION, - sta_record); - } - else if (sta_record->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE) - { - if((sta_record->timSet == CSR_WIFI_TIM_SET) || - (sta_record->timSet == CSR_WIFI_TIM_SETTING)) - { - unifi_trace(priv, UDBG1, "STA power save state - PS, TIM is already SET\n"); - - /* If TIM is set and we do not have any activity for - * more than 3 listen intervals then send a disconnected - * indication to SME, to delete the station from station - * record list. - * The inactivity is already more than STA_INACTIVE_TIMEOUT_VAL - * and this check ensures if the listen interval is a larger - * value than STA_INACTIVE_TIMEOUT_VAL. - */ - if (inactive_time > (3 * (sta_record->listenIntervalInTus * 1024))) - { - unifi_trace(priv, UDBG1, "STA is inactive for more than 3 listen intervals\n"); - queue_work( priv->unifi_workqueue, - &sta_record->send_disconnected_ind_task); - } - - } - else - { - unifi_trace(priv, UDBG1, "STA power save state - PS, update TIM to see if it is ALIVE\n"); - update_tim(priv, - sta_record->aid, - CSR_WIFI_TIM_SET, - interfacePriv->InterfaceTag, - sta_record->assignedHandle); - } - } - } - } - } - - /* re-run the timer interrupt */ - mod_timer(&interfacePriv->sta_activity_check_timer, - (jiffies + usecs_to_jiffies(STA_INACTIVE_DETECTION_TIMER_INTERVAL * 1000 * 1000))); - -} - - -void uf_send_disconnected_ind_wq(struct work_struct *work) -{ - - CsrWifiRouterCtrlStaInfo_t *staInfo = container_of(work, CsrWifiRouterCtrlStaInfo_t, send_disconnected_ind_task); - unifi_priv_t *priv; - u16 interfaceTag; - struct list_head send_cfm_list; - u8 j; - - if(!staInfo) { - return; - } - - if(!staInfo->interfacePriv) { - return; - } - - priv = staInfo->interfacePriv->privPtr; - interfaceTag = staInfo->interfacePriv->InterfaceTag; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "uf_send_disconnected_ind_wq: invalid interfaceTag\n"); - return; - } - - /* The SME/NME may be waiting for confirmation for requested frames to this station. - * So loop through buffered frames for this station and if confirmation is - * requested, send auto confirmation with failure status. Also flush the frames so - * that these are not processed again in PEER_DEL_REQ handler. - */ - INIT_LIST_HEAD(&send_cfm_list); - - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(staInfo->mgtFrames)); - - uf_flush_list(priv, &(staInfo->mgtFrames)); - - for(j = 0; j < MAX_ACCESS_CATOGORY; j++){ - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(staInfo->dataPdu[j])); - - uf_flush_list(priv, &(staInfo->dataPdu[j])); - } - - send_auto_ma_packet_confirm(priv, staInfo->interfacePriv, &send_cfm_list); - - unifi_warning(priv, "uf_send_disconnected_ind_wq: Router Disconnected IND Peer (%x-%x-%x-%x-%x-%x)\n", - staInfo->peerMacAddress.a[0], - staInfo->peerMacAddress.a[1], - staInfo->peerMacAddress.a[2], - staInfo->peerMacAddress.a[3], - staInfo->peerMacAddress.a[4], - staInfo->peerMacAddress.a[5]); - - CsrWifiRouterCtrlConnectedIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, - 0, - staInfo->interfacePriv->InterfaceTag, - staInfo->peerMacAddress, - CSR_WIFI_ROUTER_CTRL_PEER_DISCONNECTED); - - - return; -} - - -#endif -void CsrWifiRouterCtrlPeerAddReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - CsrWifiRouterCtrlPeerAddReq* req = (CsrWifiRouterCtrlPeerAddReq*)msg; - CsrResult status = CSR_RESULT_SUCCESS; - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - u32 handle = 0; - netInterface_priv_t *interfacePriv; - - unifi_trace(priv, UDBG2, "entering CsrWifiRouterCtrlPeerAddReqHandler \n"); - if (priv == NULL) - { - unifi_error(priv, "CsrWifiRouterCtrlPeerAddReqHandler: invalid smepriv\n"); - return; - } - - if (req->interfaceTag >= CSR_WIFI_NUM_INTERFACES) - { - unifi_error(priv, "CsrWifiRouterCtrlPeerAddReqHandler: bad interfaceTag\n"); - return; - } - - interfacePriv = priv->interfacePriv[req->interfaceTag]; - - switch(interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - /* Add station record */ - status = peer_add_new_record(priv, req, &handle); - break; - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - default: - /* No station record to maintain in these modes */ - break; - } - - CsrWifiRouterCtrlPeerAddCfmSend(msg->source, req->clientData, req->interfaceTag, req->peerMacAddress, handle, status); - unifi_trace(priv, UDBG2, "leaving CsrWifiRouterCtrlPeerAddReqHandler \n"); -} - -void CsrWifiRouterCtrlPeerUpdateReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - CsrWifiRouterCtrlPeerUpdateReq* req = (CsrWifiRouterCtrlPeerUpdateReq*)msg; - CsrResult status = CSR_RESULT_SUCCESS; - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - - unifi_trace(priv, UDBG2, "entering CsrWifiRouterCtrlPeerUpdateReqHandler \n"); - if (priv == NULL) - { - unifi_error(priv, "CsrWifiRouterCtrlPeerUpdateReqHandler: invalid smepriv\n"); - return; - } - - CsrWifiRouterCtrlPeerUpdateCfmSend(msg->source, req->clientData, req->interfaceTag, status); - unifi_trace(priv, UDBG2, "leaving CsrWifiRouterCtrlPeerUpdateReqHandler \n"); -} - - - void CsrWifiRouterCtrlRawSdioDeinitialiseReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - /* This will never be called as it is intercepted in the Userspace */ -} - -void CsrWifiRouterCtrlRawSdioInitialiseReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - /* This will never be called as it is intercepted in the Userspace */ -} - -void -uf_send_ba_err_wq(struct work_struct *work) -{ - ba_session_rx_struct *ba_session = container_of(work, ba_session_rx_struct, send_ba_err_task); - unifi_priv_t *priv; - - if(!ba_session) { - return; - } - - if(!ba_session->interfacePriv) { - return; - } - - priv = ba_session->interfacePriv->privPtr; - - if (ba_session->interfacePriv->InterfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "%s: invalid interfaceTag\n", __FUNCTION__); - return; - } - - unifi_warning(priv, "%s: Calling CsrWifiRouterCtrlBlockAckErrorIndSend(%d, %d, %d, %d, %x:%x:%x:%x:%x:%x, %d)\n", - __FUNCTION__, - priv->CSR_WIFI_SME_IFACEQUEUE, - 0, - ba_session->interfacePriv->InterfaceTag, - ba_session->tID, - ba_session->macAddress.a[0], - ba_session->macAddress.a[1], - ba_session->macAddress.a[2], - ba_session->macAddress.a[3], - ba_session->macAddress.a[4], - ba_session->macAddress.a[5], - CSR_RESULT_SUCCESS - ); - CsrWifiRouterCtrlBlockAckErrorIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, - 0, - ba_session->interfacePriv->InterfaceTag, - ba_session->tID, - ba_session->macAddress, - CSR_RESULT_SUCCESS); -} - - -static void ba_session_terminate_timer_func(unsigned long data) -{ - ba_session_rx_struct *ba_session = (ba_session_rx_struct*)data; - struct unifi_priv *priv; - - if(!ba_session) { - return; - } - - if(!ba_session->interfacePriv) { - return; - } - - priv = ba_session->interfacePriv->privPtr; - - if (ba_session->interfacePriv->InterfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "%s: invalid interfaceTag\n", __FUNCTION__); - return; - } - - queue_work(priv->unifi_workqueue, &ba_session->send_ba_err_task); -} - - -u8 blockack_session_stop(unifi_priv_t *priv, - u16 interfaceTag, - CsrWifiRouterCtrlBlockAckRole role, - u16 tID, - CsrWifiMacAddress macAddress) -{ - netInterface_priv_t *interfacePriv; - ba_session_rx_struct *ba_session_rx = NULL; - ba_session_tx_struct *ba_session_tx = NULL; - u8 ba_session_idx = 0; - int i; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "%s: bad interfaceTag = %d\n", __FUNCTION__, interfaceTag); - return FALSE; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - - if(!interfacePriv) { - unifi_error(priv, "%s: bad interfacePriv\n", __FUNCTION__); - return FALSE; - } - - if(tID > 15) { - unifi_error(priv, "%s: bad tID = %d\n", __FUNCTION__, tID); - return FALSE; - } - - if((role != CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ORIGINATOR) && - (role != CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_RECIPIENT)) { - unifi_error(priv, "%s: bad role = %d\n", __FUNCTION__, role); - return FALSE; - } - - unifi_warning(priv, - "%s: stopping ba_session for peer = %pM role = %d tID = %d\n", - __func__, macAddress.a, role, tID); - - /* find out the appropriate ba session (/station /tid /role) for which stop is requested */ - if (role == CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_RECIPIENT){ - for (ba_session_idx =0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_RX; ba_session_idx++){ - - ba_session_rx = interfacePriv->ba_session_rx[ba_session_idx]; - - if(ba_session_rx){ - if ((!memcmp(ba_session_rx->macAddress.a, macAddress.a, ETH_ALEN)) && (ba_session_rx->tID == tID)){ - break; - } - } - } - - if (!ba_session_rx || (ba_session_idx == MAX_SUPPORTED_BA_SESSIONS_RX)) { - unifi_error(priv, "%s: bad ba_session for Rx [tID=%d]\n", __FUNCTION__, tID); - return FALSE; - } - - - if(ba_session_rx->timeout) { - del_timer_sync(&ba_session_rx->timer); - } - cancel_work_sync(&ba_session_rx->send_ba_err_task); - for (i = 0; i < ba_session_rx->wind_size; i++) { - if(ba_session_rx->buffer[i].active) { - frame_desc_struct *frame_desc = &ba_session_rx->buffer[i]; - unifi_net_data_free(priv, &frame_desc->bulkdata.d[0]); - } - } - kfree(ba_session_rx->buffer); - - interfacePriv->ba_session_rx[ba_session_idx] = NULL; - kfree(ba_session_rx); - }else if (role == CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ORIGINATOR){ - for (ba_session_idx =0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_TX; ba_session_idx++){ - ba_session_tx = interfacePriv->ba_session_tx[ba_session_idx]; - if(ba_session_tx){ - if ((!memcmp(ba_session_tx->macAddress.a, macAddress.a, ETH_ALEN)) && (ba_session_tx->tID == tID)){ - break; - } - } - } - - if (!ba_session_tx || (ba_session_idx == MAX_SUPPORTED_BA_SESSIONS_TX)) { - unifi_error(priv, "%s: bad ba_session for Tx [tID=%d]\n", __FUNCTION__, tID); - return FALSE; - } - interfacePriv->ba_session_tx[ba_session_idx] = NULL; - kfree(ba_session_tx); - - } - - return TRUE; -} - - -void CsrWifiRouterCtrlBlockAckDisableReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - CsrWifiRouterCtrlBlockAckDisableReq* req = (CsrWifiRouterCtrlBlockAckDisableReq*)msg; - u8 r; - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - - unifi_trace(priv, UDBG6, "%s: in ok\n", __FUNCTION__); - - down(&priv->ba_mutex); - r = blockack_session_stop(priv, - req->interfaceTag, - req->role, - req->trafficStreamID, - req->macAddress); - up(&priv->ba_mutex); - - CsrWifiRouterCtrlBlockAckDisableCfmSend(msg->source, - req->clientData, - req->interfaceTag, - r?CSR_RESULT_SUCCESS:CSR_RESULT_FAILURE); - - unifi_trace(priv, UDBG6, "%s: out ok\n", __FUNCTION__); -} - - -u8 blockack_session_start(unifi_priv_t *priv, - u16 interfaceTag, - u16 tID, - u16 timeout, - CsrWifiRouterCtrlBlockAckRole role, - u16 wind_size, - u16 start_sn, - CsrWifiMacAddress macAddress - ) -{ - netInterface_priv_t *interfacePriv; - ba_session_rx_struct *ba_session_rx = NULL; - ba_session_tx_struct *ba_session_tx = NULL; - u8 ba_session_idx = 0; - - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "%s: bad interfaceTag = %d\n", __FUNCTION__, interfaceTag); - return FALSE; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - - if(!interfacePriv) { - unifi_error(priv, "%s: bad interfacePriv\n", __FUNCTION__); - return FALSE; - } - - if(tID > 15) - { - unifi_error(priv, "%s: bad tID=%d\n", __FUNCTION__, tID); - return FALSE; - } - - if(wind_size > MAX_BA_WIND_SIZE) { - unifi_error(priv, "%s: bad wind_size = %d\n", __FUNCTION__, wind_size); - return FALSE; - } - - if(role != CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ORIGINATOR && - role != CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_RECIPIENT) { - unifi_error(priv, "%s: bad role = %d\n", __FUNCTION__, role); - return FALSE; - } - - unifi_warning(priv, - "%s: ba session with peer= (%pM)\n", __func__, - macAddress.a); - - unifi_warning(priv, "%s: ba session for tID=%d timeout=%d role=%d wind_size=%d start_sn=%d\n", __FUNCTION__, - tID, - timeout, - role, - wind_size, - start_sn); - - /* Check if BA session exists for per station, per TID, per role or not. - if BA session exists update parameters and if it does not exist - create a new BA session */ - if (role == CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ORIGINATOR){ - for (ba_session_idx =0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_TX; ba_session_idx++){ - ba_session_tx = interfacePriv->ba_session_tx[ba_session_idx]; - if (ba_session_tx) { - if ((!memcmp(ba_session_tx->macAddress.a, macAddress.a, ETH_ALEN)) && (ba_session_tx->tID == tID)){ - unifi_warning(priv, "%s: ba_session for Tx already exists\n", __FUNCTION__); - return TRUE; - } - } - } - - /* we have to create new ba_session_tx struct */ - ba_session_tx = NULL; - - /* loop through until an empty BA session slot is there and save the session there */ - for (ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_TX ; ba_session_idx++){ - if (!(interfacePriv->ba_session_tx[ba_session_idx])){ - break; - } - } - if (ba_session_idx == MAX_SUPPORTED_BA_SESSIONS_TX){ - unifi_error(priv, "%s: All ba_session used for Tx, NO free session available\n", __FUNCTION__); - return FALSE; - } - - /* create and populate the new BA session structure */ - ba_session_tx = kzalloc(sizeof(ba_session_tx_struct), GFP_KERNEL); - if (!ba_session_tx) { - unifi_error(priv, "%s: kmalloc failed for ba_session_tx\n", __FUNCTION__); - return FALSE; - } - - ba_session_tx->interfacePriv = interfacePriv; - ba_session_tx->tID = tID; - ba_session_tx->macAddress = macAddress; - - interfacePriv->ba_session_tx[ba_session_idx] = ba_session_tx; - - } else if (role == CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_RECIPIENT){ - - for (ba_session_idx =0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_RX; ba_session_idx++){ - ba_session_rx = interfacePriv->ba_session_rx[ba_session_idx]; - if (ba_session_rx) { - if ((!memcmp(ba_session_rx->macAddress.a, macAddress.a, ETH_ALEN)) && (ba_session_rx->tID == tID)){ - unifi_warning(priv, "%s: ba_session for Rx[tID = %d] already exists\n", __FUNCTION__, tID); - - if(ba_session_rx->wind_size == wind_size && - ba_session_rx->timeout == timeout && - ba_session_rx->expected_sn == start_sn) { - return TRUE; - } - - if(ba_session_rx->timeout) { - del_timer_sync(&ba_session_rx->timer); - ba_session_rx->timeout = 0; - } - - if(ba_session_rx->wind_size != wind_size) { - blockack_session_stop(priv, interfaceTag, role, tID, macAddress); - } else { - if (timeout) { - ba_session_rx->timeout = timeout; - ba_session_rx->timer.function = ba_session_terminate_timer_func; - ba_session_rx->timer.data = (unsigned long)ba_session_rx; - init_timer(&ba_session_rx->timer); - mod_timer(&ba_session_rx->timer, (jiffies + usecs_to_jiffies((ba_session_rx->timeout) * 1024))); - } - /* - * The starting sequence number shall remain same if the BA - * enable request is issued to update BA parameters only. If - * it is not same, then we scroll our window to the new starting - * sequence number. This could happen if the DELBA frame from - * originator is lost and then we receive ADDBA frame with new SSN. - */ - if(ba_session_rx->start_sn != start_sn) { - scroll_ba_window(priv, interfacePriv, ba_session_rx, start_sn); - } - return TRUE; - } - } - } - } - - /* we could have a valid BA session pointer here or un-initialized - ba session pointer. but in any case we have to create a new session. - so re-initialize the ba_session pointer */ - ba_session_rx = NULL; - - /* loop through until an empty BA session slot is there and save the session there */ - for (ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_RX ; ba_session_idx++){ - if (!(interfacePriv->ba_session_rx[ba_session_idx])){ - break; - } - } - if (ba_session_idx == MAX_SUPPORTED_BA_SESSIONS_RX){ - unifi_error(priv, "%s: All ba_session used for Rx, NO free session available\n", __FUNCTION__); - return FALSE; - } - - /* It is observed that with some devices there is a race between - * EAPOL exchanges and BA session establishment. This results in - * some EAPOL authentication packets getting stuck in BA reorder - * buffer and hence the conection cannot be established. To avoid - * this we check here if the EAPOL authentication is complete and - * if so then only allow the BA session to establish. - * - * It is verified that the peers normally re-establish - * the BA session after the initial rejection. - */ - if (CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN != uf_sme_port_state(priv, macAddress.a, UF_CONTROLLED_PORT_Q, interfacePriv->InterfaceTag)) - { - unifi_warning(priv, "blockack_session_start: Controlled port not opened, Reject BA request\n"); - return FALSE; - } - - ba_session_rx = kzalloc(sizeof(ba_session_rx_struct), GFP_KERNEL); - if (!ba_session_rx) { - unifi_error(priv, "%s: kmalloc failed for ba_session_rx\n", __FUNCTION__); - return FALSE; - } - - ba_session_rx->wind_size = wind_size; - ba_session_rx->start_sn = ba_session_rx->expected_sn = start_sn; - ba_session_rx->trigger_ba_after_ssn = FALSE; - - ba_session_rx->buffer = kzalloc(ba_session_rx->wind_size*sizeof(frame_desc_struct), GFP_KERNEL); - if (!ba_session_rx->buffer) { - kfree(ba_session_rx); - unifi_error(priv, "%s: kmalloc failed for buffer\n", __FUNCTION__); - return FALSE; - } - - INIT_WORK(&ba_session_rx->send_ba_err_task, uf_send_ba_err_wq); - if (timeout) { - ba_session_rx->timeout = timeout; - ba_session_rx->timer.function = ba_session_terminate_timer_func; - ba_session_rx->timer.data = (unsigned long)ba_session_rx; - init_timer(&ba_session_rx->timer); - mod_timer(&ba_session_rx->timer, (jiffies + usecs_to_jiffies((ba_session_rx->timeout) * 1024))); - } - - ba_session_rx->interfacePriv = interfacePriv; - ba_session_rx->tID = tID; - ba_session_rx->macAddress = macAddress; - - interfacePriv->ba_session_rx[ba_session_idx] = ba_session_rx; - } - return TRUE; -} - -void CsrWifiRouterCtrlBlockAckEnableReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ - CsrWifiRouterCtrlBlockAckEnableReq* req = (CsrWifiRouterCtrlBlockAckEnableReq*)msg; - u8 r; - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - - unifi_trace(priv, UDBG6, ">>%s\n", __FUNCTION__); - down(&priv->ba_mutex); - r = blockack_session_start(priv, - req->interfaceTag, - req->trafficStreamID, - req->timeout, - req->role, - req->bufferSize, - req->ssn, - req->macAddress - ); - up(&priv->ba_mutex); - - CsrWifiRouterCtrlBlockAckEnableCfmSend(msg->source, - req->clientData, - req->interfaceTag, - r?CSR_RESULT_SUCCESS:CSR_RESULT_FAILURE); - unifi_trace(priv, UDBG6, "<<%s: r=%d\n", __FUNCTION__, r); - -} - -void CsrWifiRouterCtrlWapiMulticastFilterReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlWapiMulticastFilterReq* req = (CsrWifiRouterCtrlWapiMulticastFilterReq*)msg; - netInterface_priv_t *interfacePriv = priv->interfacePriv[req->interfaceTag]; - - if (CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode) { - - unifi_trace(priv, UDBG6, ">>%s\n", __FUNCTION__); - - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWapiMulticastFilterReq: req->status = %d\n", req->status); - - /* status 1 - Filter on - * status 0 - Filter off */ - priv->wapi_multicast_filter = req->status; - - unifi_trace(priv, UDBG6, "<<%s\n", __FUNCTION__); - } else { - - unifi_warning(priv, "%s is NOT applicable for interface mode - %d\n", __FUNCTION__, interfacePriv->interfaceMode); - - } -#elif defined(UNIFI_DEBUG) - /*WAPI Disabled*/ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - unifi_error(priv, "CsrWifiRouterCtrlWapiMulticastFilterReqHandler: called when WAPI isn't enabled\n"); -#endif -} - -void CsrWifiRouterCtrlWapiUnicastFilterReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlWapiUnicastFilterReq* req = (CsrWifiRouterCtrlWapiUnicastFilterReq*)msg; - netInterface_priv_t *interfacePriv = priv->interfacePriv[req->interfaceTag]; - - if (CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode) { - - unifi_trace(priv, UDBG6, ">>%s\n", __FUNCTION__); - - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWapiUnicastFilterReq: req->status= %d\n", req->status); - - if ((priv->wapi_unicast_filter == 1) && (req->status == 0)) { - /* When we have successfully re-associated and obtained a new unicast key with keyid = 0 */ - priv->wapi_unicast_queued_pkt_filter = 1; - } - - /* status 1 - Filter ON - * status 0 - Filter OFF */ - priv->wapi_unicast_filter = req->status; - - unifi_trace(priv, UDBG6, "<<%s\n", __FUNCTION__); - } else { - - unifi_warning(priv, "%s is NOT applicable for interface mode - %d\n", __FUNCTION__, interfacePriv->interfaceMode); - - } -#elif defined(UNIFI_DEBUG) - /*WAPI Disabled*/ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - unifi_error(priv, "CsrWifiRouterCtrlWapiUnicastFilterReqHandler: called when WAPI isn't enabled\n"); -#endif -} - -void CsrWifiRouterCtrlWapiRxPktReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlWapiRxPktReq* req = (CsrWifiRouterCtrlWapiRxPktReq*)msg; - int client_id, receiver_id; - bulk_data_param_t bulkdata; - CsrResult res; - ul_client_t *client; - CSR_SIGNAL signal; - CSR_MA_PACKET_INDICATION *pkt_ind; - netInterface_priv_t *interfacePriv; - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlWapiRxPktReq : invalid priv\n", __func__); - return; - } - - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlWapiRxPktReq : invalid sme priv\n", __func__); - return; - } - - interfacePriv = priv->interfacePriv[req->interfaceTag]; - - if (CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode) { - - unifi_trace(priv, UDBG6, ">>%s\n", __FUNCTION__); - - - if (req->dataLength == 0 || req->data == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlWapiRxPktReq: invalid request\n", __FUNCTION__); - return; - } - - res = unifi_net_data_malloc(priv, &bulkdata.d[0], req->dataLength); - if (res != CSR_RESULT_SUCCESS) { - unifi_error(priv, "CsrWifiRouterCtrlWapiRxPktReq: Could not allocate net data\n", __FUNCTION__); - return; - } - - /* This function is expected to be called only when the MIC has been verified by SME to be correct - * So reset the reception status to rx_success */ - res = read_unpack_signal(req->signal, &signal); - if (res) { - unifi_error(priv, "CsrWifiRouterCtrlWapiRxPktReqHandler: Received unknown or corrupted signal.\n"); - return; - } - pkt_ind = (CSR_MA_PACKET_INDICATION*) (&((&signal)->u).MaPacketIndication); - if (pkt_ind->ReceptionStatus != CSR_MICHAEL_MIC_ERROR) { - unifi_error(priv, "CsrWifiRouterCtrlWapiRxPktReqHandler: Unknown signal with reception status = %d\n", pkt_ind->ReceptionStatus); - return; - } else { - unifi_trace(priv, UDBG4, "CsrWifiRouterCtrlWapiRxPktReqHandler: MIC verified , RX_SUCCESS \n", __FUNCTION__); - pkt_ind->ReceptionStatus = CSR_RX_SUCCESS; - write_pack(&signal, req->signal, &(req->signalLength)); - } - - memcpy((void*)bulkdata.d[0].os_data_ptr, req->data, req->dataLength); - - receiver_id = CSR_GET_UINT16_FROM_LITTLE_ENDIAN((req->signal) + sizeof(s16)) & 0xFFF0; - client_id = (receiver_id & 0x0F00) >> UDI_SENDER_ID_SHIFT; - - client = &priv->ul_clients[client_id]; - - if (client && client->event_hook) { - unifi_trace(priv, UDBG3, - "CsrWifiRouterCtrlWapiRxPktReq: " - "Sending signal to client %d, (s:0x%X, r:0x%X) - Signal 0x%X \n", - client->client_id, client->sender_id, receiver_id, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(req->signal)); - - client->event_hook(client, req->signal, req->signalLength, &bulkdata, UDI_TO_HOST); - } else { - unifi_trace(priv, UDBG4, "No client to give the packet to\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - } - - unifi_trace(priv, UDBG6, "<<%s\n", __FUNCTION__); - } else { - unifi_warning(priv, "%s is NOT applicable for interface mode - %d\n", __FUNCTION__, interfacePriv->interfaceMode); - } -#elif defined(UNIFI_DEBUG) - /*WAPI Disabled*/ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - unifi_error(priv, "CsrWifiRouterCtrlWapiRxPktReqHandler: called when WAPI isn't enabled\n"); -#endif -} - -void CsrWifiRouterCtrlWapiUnicastTxPktReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) - - unifi_priv_t *priv = (unifi_priv_t*) drvpriv; - CsrWifiRouterCtrlWapiUnicastTxPktReq *req = (CsrWifiRouterCtrlWapiUnicastTxPktReq*) msg; - netInterface_priv_t *interfacePriv = priv->interfacePriv[req->interfaceTag]; - bulk_data_param_t bulkdata; - u8 macHeaderLengthInBytes = MAC_HEADER_SIZE; - /*KeyID, Reserved, PN, MIC*/ - u8 appendedCryptoFields = 1 + 1 + 16 + 16; - CsrResult result; - /* Retrieve the MA PACKET REQ fields from the Signal retained from send_ma_pkt_request() */ - CSR_MA_PACKET_REQUEST *storedSignalMAPktReq = &interfacePriv->wapi_unicast_ma_pkt_sig.u.MaPacketRequest; - - if (CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode) { - - unifi_trace(priv, UDBG6, ">>%s\n", __FUNCTION__); - - if (priv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlWapiUnicastTxPktReqHandler : invalid priv\n", __FUNCTION__); - return; - } - if (priv->smepriv == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlWapiUnicastTxPktReqHandler : invalid sme priv\n", __FUNCTION__); - return; - } - if (req->data == NULL) { - unifi_error(priv, "CsrWifiRouterCtrlWapiUnicastTxPktReqHandler: invalid request\n", __FUNCTION__); - return; - } else { - /* If it is QoS data (type = data subtype = QoS), frame header contains QoS control field */ - if ((req->data[0] & 0x88) == 0x88) { - macHeaderLengthInBytes = macHeaderLengthInBytes + QOS_CONTROL_HEADER_SIZE; - } - } - if ( !(req->dataLength>(macHeaderLengthInBytes+appendedCryptoFields)) ) { - unifi_error(priv, "CsrWifiRouterCtrlWapiUnicastTxPktReqHandler: invalid dataLength\n", __FUNCTION__); - return; - } - - /* Encrypted DATA Packet contained in (req->data) - * ------------------------------------------------------------------- - * |MAC Header| KeyId | Reserved | PN | xxDataxx | xxMICxxx | - * ------------------------------------------------------------------- - * (<-----Encrypted----->) - * ------------------------------------------------------------------- - * |24/26(QoS)| 1 | 1 | 16 | x | 16 | - * ------------------------------------------------------------------- - */ - result = unifi_net_data_malloc(priv, &bulkdata.d[0], req->dataLength); - if (result != CSR_RESULT_SUCCESS) { - unifi_error(priv, "CsrWifiRouterCtrlWapiUnicastTxPktReqHandler: Could not allocate net data\n", __FUNCTION__); - return; - } - memcpy((void*)bulkdata.d[0].os_data_ptr, req->data, req->dataLength); - bulkdata.d[0].data_length = req->dataLength; - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].data_length = 0; - - /* Send UniFi msg */ - /* Here hostTag is been sent as 0xffffffff, its been appended properly while framing MA-Packet request in pdu_processing.c file */ - result = uf_process_ma_packet_req(priv, - storedSignalMAPktReq->Ra.x, - storedSignalMAPktReq->HostTag,/* Ask for a new HostTag */ - req->interfaceTag, - storedSignalMAPktReq->TransmissionControl, - storedSignalMAPktReq->TransmitRate, - storedSignalMAPktReq->Priority, /* Retained value */ - interfacePriv->wapi_unicast_ma_pkt_sig.SignalPrimitiveHeader.SenderProcessId, /*FIXME AP: VALIDATE ???*/ - &bulkdata); - - if (result == NETDEV_TX_OK) { - (priv->netdev[req->interfaceTag])->trans_start = jiffies; - /* Should really count tx stats in the UNITDATA.status signal but - * that doesn't have the length. - */ - interfacePriv->stats.tx_packets++; - - /* count only the packet payload */ - interfacePriv->stats.tx_bytes += req->dataLength - macHeaderLengthInBytes - appendedCryptoFields; - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWapiUnicastTxPktReqHandler: (Packet Sent), sent count = %x\n", interfacePriv->stats.tx_packets); - } else { - /* Failed to send: fh queue was full, and the skb was discarded*/ - unifi_trace(priv, UDBG1, "(HIP validation failure) Result = %d\n", result); - unifi_net_data_free(priv, &bulkdata.d[0]); - - interfacePriv->stats.tx_dropped++; - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWapiUnicastTxPktReqHandler: (Packet Drop), dropped count = %x\n", interfacePriv->stats.tx_dropped); - } - - unifi_trace(priv, UDBG6, "<<%s\n", __FUNCTION__); - - } else { - - unifi_warning(priv, "%s is NOT applicable for interface mode - %d\n", __FUNCTION__, interfacePriv->interfaceMode); - - } -#elif defined(UNIFI_DEBUG) - /*WAPI Disabled*/ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - unifi_error(priv, "CsrWifiRouterCtrlWapiUnicastTxPktReqHandler: called when WAPI SW ENCRYPTION isn't enabled\n"); -#endif -} - -void CsrWifiRouterCtrlWapiFilterReqHandler(void* drvpriv, CsrWifiFsmEvent* msg) -{ -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - -#ifdef CSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - CsrWifiRouterCtrlWapiFilterReq* req = (CsrWifiRouterCtrlWapiFilterReq*)msg; - netInterface_priv_t *interfacePriv = priv->interfacePriv[req->interfaceTag]; - - if (CSR_WIFI_ROUTER_CTRL_MODE_STA == interfacePriv->interfaceMode) { - - unifi_trace(priv, UDBG6, ">>%s\n", __FUNCTION__); - - unifi_trace(priv, UDBG1, "CsrWifiRouterCtrlWapiFilterReq: req->isWapiConnected [0/1] = %d \n", req->isWapiConnected); - - priv->isWapiConnection = req->isWapiConnected; - - unifi_trace(priv, UDBG6, "<<%s\n", __FUNCTION__); - } else { - - unifi_warning(priv, "%s is NOT applicable for interface mode - %d\n", __FUNCTION__, interfacePriv->interfaceMode); - - } -#endif - -#elif defined(UNIFI_DEBUG) - /*WAPI Disabled*/ - unifi_priv_t *priv = (unifi_priv_t*)drvpriv; - unifi_error(priv, "CsrWifiRouterCtrlWapiFilterReq: called when WAPI isn't enabled\n"); -#endif -} diff --git a/drivers/staging/csr/sme_userspace.c b/drivers/staging/csr/sme_userspace.c deleted file mode 100644 index b919b00..0000000 --- a/drivers/staging/csr/sme_userspace.c +++ /dev/null @@ -1,315 +0,0 @@ -/* - ***************************************************************************** - * - * FILE : sme_userspace.c - * - * PURPOSE : Support functions for userspace SME helper application. - * - * - * Copyright (C) 2008-2011 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - ***************************************************************************** - */ - -#include "unifi_priv.h" - -/* - * Fix Me..... These need to be the correct values... - * Dynamic from the user space. - */ -CsrSchedQid CSR_WIFI_ROUTER_IFACEQUEUE = 0xFFFF; -CsrSchedQid CSR_WIFI_SME_IFACEQUEUE = 0xFFFF; -#ifdef CSR_SUPPORT_WEXT_AP -CsrSchedQid CSR_WIFI_NME_IFACEQUEUE = 0xFFFF; -#endif -int -uf_sme_init(unifi_priv_t *priv) -{ - int i, j; - - CsrWifiRouterTransportInit(priv); - - priv->smepriv = priv; - - init_waitqueue_head(&priv->sme_request_wq); - - priv->filter_tclas_ies = NULL; - memset(&priv->packet_filters, 0, sizeof(uf_cfg_bcast_packet_filter_t)); - -#ifdef CSR_SUPPORT_WEXT - priv->ignore_bssid_join = FALSE; - priv->mib_data.length = 0; - - uf_sme_wext_set_defaults(priv); -#endif /* CSR_SUPPORT_WEXT*/ - - priv->sta_ip_address = 0xFFFFFFFF; - - priv->wifi_on_state = wifi_on_unspecified; - - sema_init(&priv->sme_sem, 1); - memset(&priv->sme_reply, 0, sizeof(sme_reply_t)); - - priv->ta_ind_work.in_use = 0; - priv->ta_sample_ind_work.in_use = 0; - - priv->CSR_WIFI_SME_IFACEQUEUE = 0xFFFF; - - for (i = 0; i < MAX_MA_UNIDATA_IND_FILTERS; i++) { - priv->sme_unidata_ind_filters[i].in_use = 0; - } - - /* Create a work queue item for Traffic Analysis indications to SME */ - INIT_WORK(&priv->ta_ind_work.task, uf_ta_ind_wq); - INIT_WORK(&priv->ta_sample_ind_work.task, uf_ta_sample_ind_wq); -#ifdef CSR_SUPPORT_WEXT - INIT_WORK(&priv->sme_config_task, uf_sme_config_wq); -#endif - - for (i = 0; i < CSR_WIFI_NUM_INTERFACES; i++) { - netInterface_priv_t *interfacePriv = priv->interfacePriv[i]; - interfacePriv->m4_sent = FALSE; - interfacePriv->m4_bulk_data.net_buf_length = 0; - interfacePriv->m4_bulk_data.data_length = 0; - interfacePriv->m4_bulk_data.os_data_ptr = interfacePriv->m4_bulk_data.os_net_buf_ptr = NULL; - - memset(&interfacePriv->controlled_data_port, 0, sizeof(unifi_port_config_t)); - interfacePriv->controlled_data_port.entries_in_use = 1; - interfacePriv->controlled_data_port.port_cfg[0].in_use = TRUE; - interfacePriv->controlled_data_port.port_cfg[0].port_action = CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - interfacePriv->controlled_data_port.overide_action = UF_DATA_PORT_OVERIDE; - - memset(&interfacePriv->uncontrolled_data_port, 0, sizeof(unifi_port_config_t)); - interfacePriv->uncontrolled_data_port.entries_in_use = 1; - interfacePriv->uncontrolled_data_port.port_cfg[0].in_use = TRUE; - interfacePriv->uncontrolled_data_port.port_cfg[0].port_action = CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - interfacePriv->uncontrolled_data_port.overide_action = UF_DATA_PORT_OVERIDE; - - /* Mark the remainder of the port config table as unallocated */ - for(j = 1; j < UNIFI_MAX_CONNECTIONS; j++) { - interfacePriv->controlled_data_port.port_cfg[j].in_use = FALSE; - interfacePriv->controlled_data_port.port_cfg[j].port_action = CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - - interfacePriv->uncontrolled_data_port.port_cfg[j].in_use = FALSE; - interfacePriv->uncontrolled_data_port.port_cfg[j].port_action = CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - } - - /* intializing the lists */ - INIT_LIST_HEAD(&interfacePriv->genericMgtFrames); - INIT_LIST_HEAD(&interfacePriv->genericMulticastOrBroadCastMgtFrames); - INIT_LIST_HEAD(&interfacePriv->genericMulticastOrBroadCastFrames); - - for(j = 0; j < UNIFI_MAX_CONNECTIONS; j++) { - interfacePriv->staInfo[j] = NULL; - } - - interfacePriv->num_stations_joined = 0; - interfacePriv->sta_activity_check_enabled = FALSE; - } - - - return 0; -} /* uf_sme_init() */ - - -void -uf_sme_deinit(unifi_priv_t *priv) -{ - int i, j; - u8 ba_session_idx; - ba_session_rx_struct *ba_session_rx = NULL; - ba_session_tx_struct *ba_session_tx = NULL; - CsrWifiRouterCtrlStaInfo_t *staInfo = NULL; - netInterface_priv_t *interfacePriv = NULL; - - /* Free any TCLASs previously allocated */ - if (priv->packet_filters.tclas_ies_length) { - priv->packet_filters.tclas_ies_length = 0; - kfree(priv->filter_tclas_ies); - priv->filter_tclas_ies = NULL; - } - - for (i = 0; i < MAX_MA_UNIDATA_IND_FILTERS; i++) { - priv->sme_unidata_ind_filters[i].in_use = 0; - } - - /* Remove all the Peer database, before going down */ - for (i = 0; i < CSR_WIFI_NUM_INTERFACES; i++) { - down(&priv->ba_mutex); - for(ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_RX; ba_session_idx++){ - ba_session_rx = priv->interfacePriv[i]->ba_session_rx[ba_session_idx]; - if(ba_session_rx) { - blockack_session_stop(priv, - i, - CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_RECIPIENT, - ba_session_rx->tID, - ba_session_rx->macAddress); - } - } - for(ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_TX; ba_session_idx++){ - ba_session_tx = priv->interfacePriv[i]->ba_session_tx[ba_session_idx]; - if(ba_session_tx) { - blockack_session_stop(priv, - i, - CSR_WIFI_ROUTER_CTRL_BLOCK_ACK_ORIGINATOR, - ba_session_tx->tID, - ba_session_tx->macAddress); - } - } - - up(&priv->ba_mutex); - interfacePriv = priv->interfacePriv[i]; - if(interfacePriv){ - for(j = 0; j < UNIFI_MAX_CONNECTIONS; j++) { - if ((staInfo=interfacePriv->staInfo[j]) != NULL) { - /* Clear the STA activity parameters before freeing station Record */ - unifi_trace(priv, UDBG1, "uf_sme_deinit: Canceling work queue for STA with AID: %d\n", staInfo->aid); - cancel_work_sync(&staInfo->send_disconnected_ind_task); - staInfo->nullDataHostTag = INVALID_HOST_TAG; - } - } - if (interfacePriv->sta_activity_check_enabled){ - interfacePriv->sta_activity_check_enabled = FALSE; - del_timer_sync(&interfacePriv->sta_activity_check_timer); - } - } - CsrWifiRouterCtrlInterfaceReset(priv, i); - priv->interfacePriv[i]->interfaceMode = CSR_WIFI_ROUTER_CTRL_MODE_NONE; - } - - -} /* uf_sme_deinit() */ - - - - - -/* - * --------------------------------------------------------------------------- - * unifi_ta_indicate_protocol - * - * Report that a packet of a particular type has been seen - * - * Arguments: - * drv_priv The device context pointer passed to ta_init. - * protocol The protocol type enum value. - * direction Whether the packet was a tx or rx. - * src_addr The source MAC address from the data packet. - * - * Returns: - * None. - * - * Notes: - * We defer the actual sending to a background workqueue, - * see uf_ta_ind_wq(). - * --------------------------------------------------------------------------- - */ -void -unifi_ta_indicate_protocol(void *ospriv, - CsrWifiRouterCtrlTrafficPacketType packet_type, - CsrWifiRouterCtrlProtocolDirection direction, - const CsrWifiMacAddress *src_addr) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - - if (priv->ta_ind_work.in_use) { - unifi_warning(priv, - "unifi_ta_indicate_protocol: workqueue item still in use, not sending\n"); - return; - } - - if (CSR_WIFI_ROUTER_CTRL_PROTOCOL_DIRECTION_RX == direction) - { - u16 interfaceTag = 0; - CsrWifiRouterCtrlTrafficProtocolIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, - interfaceTag, - packet_type, - direction, - *src_addr); - } - else - { - priv->ta_ind_work.packet_type = packet_type; - priv->ta_ind_work.direction = direction; - priv->ta_ind_work.src_addr = *src_addr; - - queue_work(priv->unifi_workqueue, &priv->ta_ind_work.task); - } - -} /* unifi_ta_indicate_protocol() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_ta_indicate_sampling - * - * Send the TA sampling information to the SME. - * - * Arguments: - * drv_priv The device context pointer passed to ta_init. - * stats The TA sampling data to send. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -unifi_ta_indicate_sampling(void *ospriv, CsrWifiRouterCtrlTrafficStats *stats) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - - if (!priv) { - return; - } - - if (priv->ta_sample_ind_work.in_use) { - unifi_warning(priv, - "unifi_ta_indicate_sampling: workqueue item still in use, not sending\n"); - return; - } - - priv->ta_sample_ind_work.stats = *stats; - - queue_work(priv->unifi_workqueue, &priv->ta_sample_ind_work.task); - -} /* unifi_ta_indicate_sampling() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_ta_indicate_l4stats - * - * Send the TA TCP/UDP throughput information to the driver. - * - * Arguments: - * drv_priv The device context pointer passed to ta_init. - * rxTcpThroughput TCP RX throughput in KiloBytes - * txTcpThroughput TCP TX throughput in KiloBytes - * rxUdpThroughput UDP RX throughput in KiloBytes - * txUdpThroughput UDP TX throughput in KiloBytes - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -unifi_ta_indicate_l4stats(void *ospriv, - u32 rxTcpThroughput, - u32 txTcpThroughput, - u32 rxUdpThroughput, - u32 txUdpThroughput) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - - if (!priv) { - return; - } - /* Save the info. The actual action will be taken in unifi_ta_indicate_sampling() */ - priv->rxTcpThroughput = rxTcpThroughput; - priv->txTcpThroughput = txTcpThroughput; - priv->rxUdpThroughput = rxUdpThroughput; - priv->txUdpThroughput = txUdpThroughput; -} /* unifi_ta_indicate_l4stats() */ diff --git a/drivers/staging/csr/sme_userspace.h b/drivers/staging/csr/sme_userspace.h deleted file mode 100644 index ebe371c..0000000 --- a/drivers/staging/csr/sme_userspace.h +++ /dev/null @@ -1,38 +0,0 @@ -/* - * *************************************************************************** - * FILE: sme_userspace.h - * - * PURPOSE: SME related definitions. - * - * Copyright (C) 2007-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * *************************************************************************** - */ -#ifndef __LINUX_SME_USERSPACE_H__ -#define __LINUX_SME_USERSPACE_H__ 1 - -#include <linux/kernel.h> - -int uf_sme_init(unifi_priv_t *priv); -void uf_sme_deinit(unifi_priv_t *priv); -int uf_sme_queue_message(unifi_priv_t *priv, u8 *buffer, int length); - - -#include "csr_wifi_router_lib.h" -#include "csr_wifi_router_sef.h" -#include "csr_wifi_router_ctrl_lib.h" -#include "csr_wifi_router_ctrl_sef.h" -#include "csr_wifi_sme_task.h" -#ifdef CSR_SUPPORT_WEXT_AP -#include "csr_wifi_nme_ap_lib.h" -#endif -#include "csr_wifi_sme_lib.h" - -void CsrWifiRouterTransportInit(unifi_priv_t *priv); -void CsrWifiRouterTransportRecv(unifi_priv_t *priv, u8 *buffer, size_t bufferLength); -void CsrWifiRouterTransportDeInit(unifi_priv_t *priv); - -#endif /* __LINUX_SME_USERSPACE_H__ */ diff --git a/drivers/staging/csr/sme_wext.c b/drivers/staging/csr/sme_wext.c deleted file mode 100644 index 84f11cb..0000000 --- a/drivers/staging/csr/sme_wext.c +++ /dev/null @@ -1,3327 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: sme_wext.c - * - * PURPOSE: - * Handlers for ioctls from iwconfig. - * These provide the control plane operations. - * - * Copyright (C) 2007-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include <linux/types.h> -#include <linux/etherdevice.h> -#include <linux/if_arp.h> -#include <asm/uaccess.h> -#include <linux/ctype.h> -#include "unifi_priv.h" -#include <linux/rtnetlink.h> - -#define CHECK_INITED(_priv) \ - do { \ - if (_priv->init_progress != UNIFI_INIT_COMPLETED) { \ - unifi_trace(_priv, UDBG2, "%s unifi not ready, failing wext call\n", __FUNCTION__); \ - return -ENODEV; \ - } \ - } while (0) - -/* Workaround for the wpa_supplicant hanging issue - disabled on Android */ -#ifndef ANDROID_BUILD -#define CSR_WIFI_WEXT_HANG_WORKAROUND -#endif - -#ifdef CSR_WIFI_WEXT_HANG_WORKAROUND -# define UF_RTNL_LOCK() rtnl_lock() -# define UF_RTNL_UNLOCK() rtnl_unlock() -#else -# define UF_RTNL_LOCK() -# define UF_RTNL_UNLOCK() -#endif - - -/* - * --------------------------------------------------------------------------- - * Helper functions - * --------------------------------------------------------------------------- - */ - -/* - * --------------------------------------------------------------------------- - * wext_freq_to_channel - * channel_to_mhz - * - * These functions convert between channel number and frequency. - * - * Arguments: - * ch Channel number, as defined in 802.11 specs - * m, e Mantissa and exponent as provided by wireless extension. - * - * Returns: - * channel or frequency (in MHz) value - * --------------------------------------------------------------------------- - */ -static int -wext_freq_to_channel(int m, int e) -{ - int mhz; - - mhz = m; - while (e < 6) { - mhz /= 10; - e++; - } - while (e > 6) { - mhz *= 10; - e--; - } - - if (mhz >= 5000) { - return ((mhz - 5000) / 5); - } - - if (mhz == 2482) { - return 14; - } - - if (mhz >= 2407) { - return ((mhz - 2407) / 5); - } - - return 0; -} /* wext_freq_to_channel() */ - -static int -channel_to_mhz(int ch, int dot11a) -{ - - if (ch == 0) return 0; - if (ch > 200) return 0; - - /* 5G */ - if (dot11a) { - return (5000 + (5 * ch)); - } - - /* 2.4G */ - if (ch == 14) { - return 2484; - } - - if ((ch < 14) && (ch > 0)) { - return (2407 + (5 * ch)); - } - - return 0; -} -#ifdef CSR_SUPPORT_WEXT_AP -void uf_sme_wext_ap_set_defaults(unifi_priv_t *priv) -{ - memcpy(priv->ap_config.ssid.ssid, "defaultssid", sizeof("defaultssid")); - - priv->ap_config.ssid.length = 8; - priv->ap_config.channel = 6; - priv->ap_config.if_index = 1; - priv->ap_config.credentials.authType = 0; - priv->ap_config.max_connections=8; - - priv->group_sec_config.apGroupkeyTimeout = 0; - priv->group_sec_config.apStrictGtkRekey = 0; - priv->group_sec_config.apGmkTimeout = 0; - priv->group_sec_config.apResponseTimeout = 100; /* Default*/ - priv->group_sec_config.apRetransLimit = 3; /* Default*/ - /* Set default params even if they may not be used*/ - /* Until Here*/ - - priv->ap_mac_config.preamble = CSR_WIFI_SME_USE_LONG_PREAMBLE; - priv->ap_mac_config.shortSlotTimeEnabled = FALSE; - priv->ap_mac_config.ctsProtectionType=CSR_WIFI_SME_CTS_PROTECTION_AUTOMATIC; - - priv->ap_mac_config.wmmEnabled = TRUE; - priv->ap_mac_config.wmmApParams[0].cwMin=4; - priv->ap_mac_config.wmmApParams[0].cwMax=10; - priv->ap_mac_config.wmmApParams[0].aifs=3; - priv->ap_mac_config.wmmApParams[0].txopLimit=0; - priv->ap_mac_config.wmmApParams[0].admissionControlMandatory=FALSE; - priv->ap_mac_config.wmmApParams[1].cwMin=4; - priv->ap_mac_config.wmmApParams[1].cwMax=10; - priv->ap_mac_config.wmmApParams[1].aifs=7; - priv->ap_mac_config.wmmApParams[1].txopLimit=0; - priv->ap_mac_config.wmmApParams[1].admissionControlMandatory=FALSE; - priv->ap_mac_config.wmmApParams[2].cwMin=3; - priv->ap_mac_config.wmmApParams[2].cwMax=4; - priv->ap_mac_config.wmmApParams[2].aifs=1; - priv->ap_mac_config.wmmApParams[2].txopLimit=94; - priv->ap_mac_config.wmmApParams[2].admissionControlMandatory=FALSE; - priv->ap_mac_config.wmmApParams[3].cwMin=2; - priv->ap_mac_config.wmmApParams[3].cwMax=3; - priv->ap_mac_config.wmmApParams[3].aifs=1; - priv->ap_mac_config.wmmApParams[3].txopLimit=47; - priv->ap_mac_config.wmmApParams[3].admissionControlMandatory=FALSE; - - priv->ap_mac_config.wmmApBcParams[0].cwMin=4; - priv->ap_mac_config.wmmApBcParams[0].cwMax=10; - priv->ap_mac_config.wmmApBcParams[0].aifs=3; - priv->ap_mac_config.wmmApBcParams[0].txopLimit=0; - priv->ap_mac_config.wmmApBcParams[0].admissionControlMandatory=FALSE; - priv->ap_mac_config.wmmApBcParams[1].cwMin=4; - priv->ap_mac_config.wmmApBcParams[1].cwMax=10; - priv->ap_mac_config.wmmApBcParams[1].aifs=7; - priv->ap_mac_config.wmmApBcParams[1].txopLimit=0; - priv->ap_mac_config.wmmApBcParams[1].admissionControlMandatory=FALSE; - priv->ap_mac_config.wmmApBcParams[2].cwMin=3; - priv->ap_mac_config.wmmApBcParams[2].cwMax=4; - priv->ap_mac_config.wmmApBcParams[2].aifs=2; - priv->ap_mac_config.wmmApBcParams[2].txopLimit=94; - priv->ap_mac_config.wmmApBcParams[2].admissionControlMandatory=FALSE; - priv->ap_mac_config.wmmApBcParams[3].cwMin=2; - priv->ap_mac_config.wmmApBcParams[3].cwMax=3; - priv->ap_mac_config.wmmApBcParams[3].aifs=2; - priv->ap_mac_config.wmmApBcParams[3].txopLimit=47; - priv->ap_mac_config.wmmApBcParams[3].admissionControlMandatory=FALSE; - - priv->ap_mac_config.accessType=CSR_WIFI_AP_ACCESS_TYPE_NONE; - priv->ap_mac_config.macAddressListCount=0; - priv->ap_mac_config.macAddressList=NULL; - - priv->ap_mac_config.apHtParams.rxStbc=1; - priv->ap_mac_config.apHtParams.rifsModeAllowed=TRUE; - priv->ap_mac_config.apHtParams.greenfieldSupported=FALSE; - priv->ap_mac_config.apHtParams.shortGi20MHz=TRUE; - priv->ap_mac_config.apHtParams.htProtection=0; - priv->ap_mac_config.apHtParams.dualCtsProtection=FALSE; - - priv->ap_mac_config.phySupportedBitmap = - (CSR_WIFI_SME_AP_PHY_SUPPORT_B|CSR_WIFI_SME_AP_PHY_SUPPORT_G|CSR_WIFI_SME_AP_PHY_SUPPORT_N); - priv->ap_mac_config.beaconInterval= 100; - priv->ap_mac_config.dtimPeriod=3; - priv->ap_mac_config.maxListenInterval=0x00ff;/* Set it to a large value - to enable different types of - devices to join us */ - priv->ap_mac_config.supportedRatesCount = - uf_configure_supported_rates(priv->ap_mac_config.supportedRates, priv->ap_mac_config.phySupportedBitmap); -} -#endif -/* - * --------------------------------------------------------------------------- - * uf_sme_wext_set_defaults - * - * Set up power-on defaults for driver config. - * - * Note: The SME Management API *cannot* be used in this function. - * - * Arguments: - * priv Pointer to device private context struct - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -uf_sme_wext_set_defaults(unifi_priv_t *priv) -{ - memset(&priv->connection_config, 0, sizeof(CsrWifiSmeConnectionConfig)); - - priv->connection_config.bssType = CSR_WIFI_SME_BSS_TYPE_INFRASTRUCTURE; - priv->connection_config.authModeMask = CSR_WIFI_SME_AUTH_MODE_80211_OPEN; - priv->connection_config.encryptionModeMask = CSR_WIFI_SME_ENCRYPTION_CIPHER_NONE; - priv->connection_config.privacyMode = CSR_WIFI_SME_80211_PRIVACY_MODE_DISABLED; - priv->connection_config.wmmQosInfo = 0xFF; - priv->connection_config.ifIndex = CSR_WIFI_SME_RADIO_IF_BOTH; - priv->connection_config.adhocJoinOnly = FALSE; - priv->connection_config.adhocChannel = 6; - - priv->wep_tx_key_index = 0; - - priv->wext_wireless_stats.qual.qual = 0; - priv->wext_wireless_stats.qual.level = 0; - priv->wext_wireless_stats.qual.noise = 0; - priv->wext_wireless_stats.qual.updated = 0x70; -#ifdef CSR_SUPPORT_WEXT_AP - /* Initialize the default configuration for AP */ - uf_sme_wext_ap_set_defaults(priv); -#endif - - -} /* uf_sme_wext_set_defaults() */ - - -/* - * --------------------------------------------------------------------------- - * WEXT methods - * --------------------------------------------------------------------------- - */ - -/* - * --------------------------------------------------------------------------- - * unifi_giwname - handler for SIOCGIWNAME - * unifi_siwfreq - handler for SIOCSIWFREQ - * unifi_giwfreq - handler for SIOCGIWFREQ - * unifi_siwmode - handler for SIOCSIWMODE - * unifi_giwmode - handler for SIOCGIWMODE - * unifi_giwrange - handler for SIOCGIWRANGE - * unifi_siwap - handler for SIOCSIWAP - * unifi_giwap - handler for SIOCGIWAP - * unifi_siwscan - handler for SIOCSIWSCAN - * unifi_giwscan - handler for SIOCGIWSCAN - * unifi_siwessid - handler for SIOCSIWESSID - * unifi_giwessid - handler for SIOCGIWESSID - * unifi_siwencode - handler for SIOCSIWENCODE - * unifi_giwencode - handler for SIOCGIWENCODE - * - * Handler functions for IW extensions. - * These are registered via the unifi_iw_handler_def struct below - * and called by the generic IW driver support code. - * See include/net/iw_handler.h. - * - * Arguments: - * None. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static int -iwprivsdefs(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - int r; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - CsrWifiSmeMibConfig mibConfig; - CsrWifiSmePowerConfig powerConfig; - - unifi_trace(priv, UDBG1, "iwprivs80211defaults: reload defaults\n"); - - uf_sme_wext_set_defaults(priv); - - /* Get, modify and set the MIB data */ - r = sme_mgt_mib_config_get(priv, &mibConfig); - if (r) { - unifi_error(priv, "iwprivs80211defaults: Get CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - mibConfig.dot11RtsThreshold = 2347; - mibConfig.dot11FragmentationThreshold = 2346; - r = sme_mgt_mib_config_set(priv, &mibConfig); - if (r) { - unifi_error(priv, "iwprivs80211defaults: Set CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_LOW; - powerConfig.listenIntervalTu = 100; - powerConfig.rxDtims = 1; - - r = sme_mgt_power_config_set(priv, &powerConfig); - if (r) { - unifi_error(priv, "iwprivs80211defaults: Set unifi_PowerConfigValue failed.\n"); - return r; - } - - return 0; -} /* iwprivsdefs() */ - -static int -iwprivs80211ps(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - int r = 0; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - int ps_mode = (int)(*extra); - CsrWifiSmePowerConfig powerConfig; - - unifi_trace(priv, UDBG1, "iwprivs80211ps: power save mode = %d\n", ps_mode); - - r = sme_mgt_power_config_get(priv, &powerConfig); - if (r) { - unifi_error(priv, "iwprivs80211ps: Get unifi_PowerConfigValue failed.\n"); - return r; - } - - switch (ps_mode) { - case CSR_PMM_ACTIVE_MODE: - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_LOW; - break; - case CSR_PMM_POWER_SAVE: - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_HIGH; - break; - case CSR_PMM_FAST_POWER_SAVE: - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_MED; - break; - default: - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_AUTO; - break; - } - - r = sme_mgt_power_config_set(priv, &powerConfig); - if (r) { - unifi_error(priv, "iwprivs80211ps: Set unifi_PowerConfigValue failed.\n"); - } - - return r; -} - -static int -iwprivg80211ps(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - CsrWifiSmePowerConfig powerConfig; - int r; - - r = sme_mgt_power_config_get(priv, &powerConfig); - if (r) { - unifi_error(priv, "iwprivg80211ps: Get 802.11 power mode failed.\n"); - return r; - } - - switch (powerConfig.powerSaveLevel) { - case CSR_WIFI_SME_POWER_SAVE_LEVEL_LOW: - snprintf(extra, IWPRIV_POWER_SAVE_MAX_STRING, - "Power save mode: %d (Active)", - powerConfig.powerSaveLevel); - break; - case CSR_WIFI_SME_POWER_SAVE_LEVEL_MED: - snprintf(extra, IWPRIV_POWER_SAVE_MAX_STRING, - "Power save mode: %d (Fast)", - powerConfig.powerSaveLevel); - break; - case CSR_WIFI_SME_POWER_SAVE_LEVEL_HIGH: - snprintf(extra, IWPRIV_POWER_SAVE_MAX_STRING, - "Power save mode: %d (Full)", - powerConfig.powerSaveLevel); - break; - case CSR_WIFI_SME_POWER_SAVE_LEVEL_AUTO: - snprintf(extra, IWPRIV_POWER_SAVE_MAX_STRING, - "Power save mode: %d (Auto)", - powerConfig.powerSaveLevel); - break; - default: - snprintf(extra, IWPRIV_POWER_SAVE_MAX_STRING, - "Power save mode: %d (Unknown)", - powerConfig.powerSaveLevel); - break; - } - - wrqu->data.length = strlen(extra) + 1; - - return 0; -} - -static int -iwprivssmedebug(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - /* No longer supported on the API */ -#if defined (CSR_WIFI_HIP_DEBUG_OFFLINE) - unifi_debug_buf_dump(); -#endif - - return 0; -} - -#ifdef CSR_SUPPORT_WEXT_AP -#define PARAM_TYPE_INT 0 -#define PARAM_TYPE_STRING 1 -#define CSR_WIFI_MAX_SSID_LEN 32 -#define CSR_WIFI_MAX_SEC_LEN 16 -#define CSR_WIFI_MAX_KEY_LEN 65 - -static int hex_look_up(char x) -{ - if(x>='0' && x<='9') - return (x-48); - if(x>= 'a' && x <= 'f') - return (x-87); - return -1; -} - -static int power (int a, int b) -{ - int i; - int num =1; - for(i=0;i<b;i++) - num *=a; - return num; -} - -static int decode_parameter_from_string(unifi_priv_t* priv, char **str_ptr, - const char *token, int param_type, - void *dst, int param_max_len) -{ - u8 int_str[7] = "0"; - u32 param_str_len; - u8 *param_str_begin, *param_str_end; - u8 *orig_str = *str_ptr; - - if (!strncmp(*str_ptr, token, strlen(token))) { - strsep(str_ptr, "=,"); - param_str_begin = *str_ptr; - strsep(str_ptr, "=,"); - if (*str_ptr == NULL) { - param_str_len = strlen(param_str_begin); - } else { - param_str_end = *str_ptr-1; - param_str_len = param_str_end - param_str_begin; - } - unifi_trace(priv, UDBG2, "'token:%s', len:%d, ", token, param_str_len); - if (param_str_len > param_max_len) { - unifi_notice(priv, "extracted param len:%d is > MAX:%d\n", param_str_len, param_max_len); - param_str_len = param_max_len; - } - switch (param_type) { - case PARAM_TYPE_INT: - { - u32 *pdst_int = dst, num =0; - int i, j=0; - if (param_str_len > sizeof(int_str)) { - param_str_len = sizeof(int_str); - } - memcpy(int_str, param_str_begin, param_str_len); - for(i = param_str_len; i>0;i--) { - if(int_str[i-1] >= '0' && int_str[i-1] <='9') { - num += ((int_str[i-1]-'0')*power(10, j)); - j++; - } else { - unifi_error(priv, "decode_parameter_from_string:not a number %c\n", (int_str[i-1])); - return -1; - } - } - *pdst_int = num; - unifi_trace(priv, UDBG2, "decode_parameter_from_string:decoded int = %d\n", *pdst_int); - } - break; - default: - memcpy(dst, param_str_begin, param_str_len); - *((char *)dst + param_str_len) = 0; - unifi_trace(priv, UDBG2, "decode_parameter_from_string:decoded string = %s\n", (char *)dst); - break; - } - } else { - unifi_error(priv, "decode_parameter_from_string: Token:%s not found in %s \n", token, orig_str); - return -1; - } - return 0; -} -static int store_ap_advanced_config_from_string(unifi_priv_t *priv, char *param_str) -{ - char * str_ptr=param_str; - int ret = 0, tmp_var; - char phy_mode[6]; - CsrWifiSmeApMacConfig * ap_mac_config = &priv->ap_mac_config; - - /* Check for BI */ - ret = decode_parameter_from_string(priv, &str_ptr, "BI=", - PARAM_TYPE_INT, &tmp_var, 5); - if(ret) { - unifi_error(priv, "store_ap_advanced_config_from_string: BI not found\n"); - return -1; - } - ap_mac_config->beaconInterval = tmp_var; - ret = decode_parameter_from_string(priv, &str_ptr, "DTIM_PER=", - PARAM_TYPE_INT, &tmp_var, 5); - if(ret) { - unifi_error(priv, "store_ap_advanced_config_from_string: DTIM_PER not found\n"); - return -1; - } - ap_mac_config->dtimPeriod = tmp_var; - ret = decode_parameter_from_string(priv, &str_ptr, "WMM=", - PARAM_TYPE_INT, &tmp_var, 5); - if(ret) { - unifi_error(priv, "store_ap_advanced_config_from_string: WMM not found\n"); - return -1; - } - ap_mac_config->wmmEnabled = tmp_var; - ret = decode_parameter_from_string(priv, &str_ptr, "PHY=", - PARAM_TYPE_STRING, phy_mode, 5); - if(ret) { - unifi_error(priv, "store_ap_advanced_config_from_string: PHY not found\n"); - } else { - if(strstr(phy_mode, "b")){ - ap_mac_config->phySupportedBitmap = CSR_WIFI_SME_AP_PHY_SUPPORT_B; - } - if(strstr(phy_mode, "g")) { - ap_mac_config->phySupportedBitmap |= CSR_WIFI_SME_AP_PHY_SUPPORT_G; - } - if(strstr(phy_mode, "n")) { - ap_mac_config->phySupportedBitmap |= CSR_WIFI_SME_AP_PHY_SUPPORT_N; - } - ap_mac_config->supportedRatesCount = - uf_configure_supported_rates(ap_mac_config->supportedRates, ap_mac_config->phySupportedBitmap); - } - return ret; -} - -static int store_ap_config_from_string( unifi_priv_t * priv, char *param_str) - -{ - char *str_ptr = param_str; - char sub_cmd[16]; - char sec[CSR_WIFI_MAX_SEC_LEN]; - char key[CSR_WIFI_MAX_KEY_LEN]; - int ret = 0, tmp_var; - CsrWifiSmeApConfig_t *ap_config = &priv->ap_config; - CsrWifiSmeApMacConfig * ap_mac_config = &priv->ap_mac_config; - memset(sub_cmd, 0, sizeof(sub_cmd)); - if(!strstr(param_str, "END")) { - unifi_error(priv, "store_ap_config_from_string:Invalid config string:%s\n", param_str); - return -1; - } - if (decode_parameter_from_string(priv, &str_ptr, "ASCII_CMD=", - PARAM_TYPE_STRING, sub_cmd, 6) != 0) { - return -1; - } - if (strncmp(sub_cmd, "AP_CFG", 6)) { - - if(!strncmp(sub_cmd , "ADVCFG", 6)) { - return store_ap_advanced_config_from_string(priv, str_ptr); - } - unifi_error(priv, "store_ap_config_from_string: sub_cmd:%s != 'AP_CFG or ADVCFG'!\n", sub_cmd); - return -1; - } - memset(ap_config, 0, sizeof(CsrWifiSmeApConfig_t)); - ret = decode_parameter_from_string(priv, &str_ptr, "SSID=", - PARAM_TYPE_STRING, ap_config->ssid.ssid, - CSR_WIFI_MAX_SSID_LEN); - if(ret) { - unifi_error(priv, "store_ap_config_from_string: SSID not found\n"); - return -1; - } - ap_config->ssid.length = strlen(ap_config->ssid.ssid); - - ret = decode_parameter_from_string(priv, &str_ptr, "SEC=", - PARAM_TYPE_STRING, sec, CSR_WIFI_MAX_SEC_LEN); - if(ret) { - unifi_error(priv, "store_ap_config_from_string: SEC not found\n"); - return -1; - } - ret = decode_parameter_from_string(priv, &str_ptr, "KEY=", - PARAM_TYPE_STRING, key, CSR_WIFI_MAX_KEY_LEN); - if(!strcasecmp(sec, "open")) { - unifi_trace(priv, UDBG2, "store_ap_config_from_string: security open"); - ap_config->credentials.authType = CSR_WIFI_SME_AP_AUTH_TYPE_OPEN_SYSTEM; - if(ret) { - unifi_notice(priv, "store_ap_config_from_string: KEY not found:fine with Open\n"); - } - } - else if(!strcasecmp(sec, "wpa2-psk")) { - int i, j=0; - CsrWifiNmeApAuthPers *pers = - ((CsrWifiNmeApAuthPers *)&(ap_config->credentials.nmeAuthType.authTypePersonal)); - u8 *psk = pers->authPers_credentials.psk.psk; - - unifi_trace(priv, UDBG2, "store_ap_config_from_string: security WPA2"); - if(ret) { - unifi_error(priv, "store_ap_config_from_string: KEY not found for WPA2\n"); - return -1; - } - ap_config->credentials.authType = CSR_WIFI_SME_AP_AUTH_TYPE_PERSONAL; - pers->authSupport = CSR_WIFI_SME_RSN_AUTH_WPA2PSK; - pers->rsnCapabilities =0; - pers->wapiCapabilities =0; - pers->pskOrPassphrase=CSR_WIFI_NME_AP_CREDENTIAL_TYPE_PSK; - pers->authPers_credentials.psk.encryptionMode = - (CSR_WIFI_NME_ENCRYPTION_CIPHER_PAIRWISE_CCMP |CSR_WIFI_NME_ENCRYPTION_CIPHER_GROUP_CCMP) ; - for(i=0;i<32;i++){ - psk[i] = (16*hex_look_up(key[j]))+hex_look_up(key[j+1]); - j+=2; - } - - } else { - unifi_notice(priv, "store_ap_config_from_string: Unknown security: Assuming Open"); - ap_config->credentials.authType = CSR_WIFI_SME_AP_AUTH_TYPE_OPEN_SYSTEM; - return -1; - } - /* Get the decoded value in a temp int variable to ensure that other fields within the struct - which are of type other than int are not over written */ - ret = decode_parameter_from_string(priv, &str_ptr, "CHANNEL=", PARAM_TYPE_INT, &tmp_var, 5); - if(ret) - return -1; - ap_config->channel = tmp_var; - ret = decode_parameter_from_string(priv, &str_ptr, "PREAMBLE=", PARAM_TYPE_INT, &tmp_var, 5); - if(ret) - return -1; - ap_mac_config->preamble = tmp_var; - ret = decode_parameter_from_string(priv, &str_ptr, "MAX_SCB=", PARAM_TYPE_INT, &tmp_var, 5); - ap_config->max_connections = tmp_var; - return ret; -} - -static int -iwprivsapstart(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int r; - - unifi_trace(priv, UDBG1, "iwprivsapstart\n" ); - r = sme_ap_start(priv, interfacePriv->InterfaceTag, &priv->ap_config); - if(r) { - unifi_error(priv, "iwprivsapstart AP START failed : %d\n", -r); - } - return r; -} - -static int -iwprivsapconfig(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - char *cfg_str = NULL; - int r; - - unifi_trace(priv, UDBG1, "iwprivsapconfig\n" ); - if (wrqu->data.length != 0) { - char *str; - if (!(cfg_str = kmalloc(wrqu->data.length+1, GFP_KERNEL))) - { - return -ENOMEM; - } - if (copy_from_user(cfg_str, wrqu->data.pointer, wrqu->data.length)) { - kfree(cfg_str); - return -EFAULT; - } - cfg_str[wrqu->data.length] = 0; - unifi_trace(priv, UDBG2, "length:%d\n", wrqu->data.length); - unifi_trace(priv, UDBG2, "AP configuration string:%s\n", cfg_str); - str = cfg_str; - if ((r = store_ap_config_from_string(priv, str))) { - unifi_error(priv, "iwprivsapconfig:Failed to decode the string %d\n", r); - kfree(cfg_str); - return -EIO; - - } - } else { - unifi_error(priv, "iwprivsapconfig argument length = 0 \n"); - return -EIO; - } - r = sme_ap_config(priv, &priv->ap_mac_config, &priv->group_sec_config); - if(r) { - unifi_error(priv, "iwprivsapstop AP Config failed : %d\n", -r); - } else if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_trace(priv, UDBG1, "iwprivsapconfig: Starting the AP"); - r = sme_ap_start(priv, interfacePriv->InterfaceTag, &priv->ap_config); - if(r) { - unifi_error(priv, "iwprivsapstart AP START failed : %d\n", -r); - } - } - kfree(cfg_str); - return r; -} - -static int -iwprivsapstop(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int r; - u16 interface_tag = interfacePriv->InterfaceTag; - - unifi_trace(priv, UDBG1, "iwprivsapstop\n" ); - r = sme_ap_stop(priv, interface_tag); - if(r) { - unifi_error(priv, "iwprivsapstop AP STOP failed : %d\n", -r); - } - return r; -} - -#ifdef ANDROID_BUILD -static int -iwprivsapfwreload(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - unifi_trace(priv, UDBG1, "iwprivsapfwreload\n" ); - return 0; -} - -static int -iwprivsstackstart(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - unifi_trace(priv, UDBG1, "iwprivsstackstart\n" ); - return 0; -} - -static int -iwprivsstackstop(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int r = 0; - u16 interface_tag = interfacePriv->InterfaceTag; - - unifi_trace(priv, UDBG1, "iwprivsstackstop\n" ); - - switch(interfacePriv->interfaceMode) { - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - r = sme_mgt_disconnect(priv); - break; - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - r = sme_ap_stop(priv, interface_tag); - break; - default : - break; - } - - if(r) { - unifi_error(priv, "iwprivsstackstop Stack stop failed : %d\n", -r); - } - return 0; -} -#endif /* ANDROID_BUILD */ -#endif /* CSR_SUPPORT_WEXT_AP */ - -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE -static int -iwprivsconfwapi(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - u8 enable; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - unifi_trace(priv, UDBG1, "iwprivsconfwapi\n" ); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "iwprivsconfwapi: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - enable = *(u8*)(extra); - - if (enable) { - priv->connection_config.authModeMask = CSR_WIFI_SME_AUTH_MODE_80211_OPEN; - priv->connection_config.authModeMask |= (CSR_WIFI_SME_AUTH_MODE_WAPI_WAIPSK | CSR_WIFI_SME_AUTH_MODE_WAPI_WAI); - priv->connection_config.encryptionModeMask |= - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_SMS4 | CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_SMS4; - } else { - priv->connection_config.authModeMask &= ~(CSR_WIFI_SME_AUTH_MODE_WAPI_WAIPSK | CSR_WIFI_SME_AUTH_MODE_WAPI_WAI); - priv->connection_config.encryptionModeMask &= - ~(CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_SMS4 | CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_SMS4); - } - - return 0; -} - -static int -iwprivswpikey(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - int r = 0, i; - CsrWifiSmeKey key; - unifiio_wapi_key_t inKey; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - unifi_trace(priv, UDBG1, "iwprivswpikey\n" ); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "iwprivswpikey: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - inKey = *(unifiio_wapi_key_t*)(extra); - - if (inKey.unicastKey) { - key.keyType = CSR_WIFI_SME_KEY_TYPE_PAIRWISE; - } else { - key.keyType = CSR_WIFI_SME_KEY_TYPE_GROUP; - } - - key.keyIndex = inKey.keyIndex; - - /* memcpy(key.keyRsc, inKey.keyRsc, 16); */ - for (i = 0; i < 16; i+= 2) - { - key.keyRsc[i/2] = inKey.keyRsc[i+1] << 8 | inKey.keyRsc[i]; - } - - memcpy(key.address.a, inKey.address, 6); - key.keyLength = 32; - memcpy(key.key, inKey.key, 32); - key.authenticator = 0; - key.wepTxKey = 0; - - unifi_trace(priv, UDBG1, "keyType = %d, keyIndex = %d, wepTxKey = %d, keyRsc = %x:%x, auth = %d, address = %x:%x, " - "keylength = %d, key = %x:%x\n", key.keyType, key.keyIndex, key.wepTxKey, - key.keyRsc[0], key.keyRsc[7], key.authenticator, - key.address.a[0], key.address.a[5], key.keyLength, key.key[0], - key.key[15]); - - r = sme_mgt_key(priv, &key, CSR_WIFI_SME_LIST_ACTION_ADD); - if (r) { - unifi_error(priv, "SETKEYS request was rejected with result %d\n", r); - return convert_sme_error(r); - } - - return r; -} -#endif - - -static int -unifi_giwname(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - char *name = wrqu->name; - unifi_trace(priv, UDBG2, "unifi_giwname\n"); - - if (priv->if_index == CSR_INDEX_5G) { - strcpy(name, "IEEE 802.11-a"); - } else { - strcpy(name, "IEEE 802.11-bgn"); - } - return 0; -} /* unifi_giwname() */ - - -static int -unifi_siwfreq(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_freq *freq = (struct iw_freq *)wrqu; - - unifi_trace(priv, UDBG2, "unifi_siwfreq\n"); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwfreq: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - /* - * Channel is stored in the connection configuration, - * and set later when ask for a connection. - */ - if ((freq->e == 0) && (freq->m <= 1000)) { - priv->connection_config.adhocChannel = freq->m; - } else { - priv->connection_config.adhocChannel = wext_freq_to_channel(freq->m, freq->e); - } - - return 0; -} /* unifi_siwfreq() */ - - -static int -unifi_giwfreq(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_freq *freq = (struct iw_freq *)wrqu; - int err = 0; - CsrWifiSmeConnectionInfo connectionInfo; - - unifi_trace(priv, UDBG2, "unifi_giwfreq\n"); - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_giwfreq: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - UF_RTNL_UNLOCK(); - err = sme_mgt_connection_info_get(priv, &connectionInfo); - UF_RTNL_LOCK(); - - freq->m = channel_to_mhz(connectionInfo.channelNumber, - (connectionInfo.networkType80211 == CSR_WIFI_SME_RADIO_IF_GHZ_5_0)); - freq->e = 6; - - return convert_sme_error(err); -} /* unifi_giwfreq() */ - - -static int -unifi_siwmode(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - unifi_trace(priv, UDBG2, "unifi_siwmode\n"); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwmode: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - switch(wrqu->mode) { - case IW_MODE_ADHOC: - priv->connection_config.bssType = CSR_WIFI_SME_BSS_TYPE_ADHOC; - break; - case IW_MODE_INFRA: - priv->connection_config.bssType = CSR_WIFI_SME_BSS_TYPE_INFRASTRUCTURE; - break; - case IW_MODE_AUTO: - priv->connection_config.bssType = CSR_WIFI_SME_BSS_TYPE_ANY_BSS; - break; - default: - unifi_notice(priv, "Unknown IW MODE value.\n"); - } - - /* Clear the SSID and BSSID configuration */ - priv->connection_config.ssid.length = 0; - memset(priv->connection_config.bssid.a, 0xFF, ETH_ALEN); - - return 0; -} /* unifi_siwmode() */ - - - -static int -unifi_giwmode(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - int r = 0; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - CsrWifiSmeConnectionConfig connectionConfig; - - unifi_trace(priv, UDBG2, "unifi_giwmode\n"); - CHECK_INITED(priv); - - unifi_trace(priv, UDBG2, "unifi_giwmode: Exisitng mode = 0x%x\n", - interfacePriv->interfaceMode); - switch(interfacePriv->interfaceMode) { - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - wrqu->mode = IW_MODE_INFRA; - break; - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - wrqu->mode = IW_MODE_MASTER; - break; - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - wrqu->mode = IW_MODE_ADHOC; - break; - case CSR_WIFI_ROUTER_CTRL_MODE_P2P: - case CSR_WIFI_ROUTER_CTRL_MODE_NONE: - UF_RTNL_UNLOCK(); - r = sme_mgt_connection_config_get(priv, &connectionConfig); - UF_RTNL_LOCK(); - if (r == 0) { - switch(connectionConfig.bssType) { - case CSR_WIFI_SME_BSS_TYPE_ADHOC: - wrqu->mode = IW_MODE_ADHOC; - break; - case CSR_WIFI_SME_BSS_TYPE_INFRASTRUCTURE: - wrqu->mode = IW_MODE_INFRA; - break; - default: - wrqu->mode = IW_MODE_AUTO; - unifi_notice(priv, "Unknown IW MODE value.\n"); - } - } - break; - default: - wrqu->mode = IW_MODE_AUTO; - unifi_notice(priv, "Unknown IW MODE value.\n"); - - } - unifi_trace(priv, UDBG4, "unifi_giwmode: mode = 0x%x\n", wrqu->mode); - return r; -} /* unifi_giwmode() */ - - - -static int -unifi_giwrange(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - struct iw_point *dwrq = &wrqu->data; - struct iw_range *range = (struct iw_range *) extra; - int i; - - unifi_trace(NULL, UDBG2, "unifi_giwrange\n"); - - dwrq->length = sizeof(struct iw_range); - memset(range, 0, sizeof(*range)); - range->min_nwid = 0x0000; - range->max_nwid = 0x0000; - - /* - * Don't report the frequency/channel table, then the channel - * number returned elsewhere will be printed as a channel number. - */ - - /* Ranges of values reported in quality structs */ - range->max_qual.qual = 40; /* Max expected qual value */ - range->max_qual.level = -120; /* Noise floor in dBm */ - range->max_qual.noise = -120; /* Noise floor in dBm */ - - - /* space for IW_MAX_BITRATES (8 up to WE15, 32 later) */ - i = 0; -#if WIRELESS_EXT > 15 - range->bitrate[i++] = 2 * 500000; - range->bitrate[i++] = 4 * 500000; - range->bitrate[i++] = 11 * 500000; - range->bitrate[i++] = 22 * 500000; - range->bitrate[i++] = 12 * 500000; - range->bitrate[i++] = 18 * 500000; - range->bitrate[i++] = 24 * 500000; - range->bitrate[i++] = 36 * 500000; - range->bitrate[i++] = 48 * 500000; - range->bitrate[i++] = 72 * 500000; - range->bitrate[i++] = 96 * 500000; - range->bitrate[i++] = 108 * 500000; -#else - range->bitrate[i++] = 2 * 500000; - range->bitrate[i++] = 4 * 500000; - range->bitrate[i++] = 11 * 500000; - range->bitrate[i++] = 22 * 500000; - range->bitrate[i++] = 24 * 500000; - range->bitrate[i++] = 48 * 500000; - range->bitrate[i++] = 96 * 500000; - range->bitrate[i++] = 108 * 500000; -#endif /* WIRELESS_EXT < 16 */ - range->num_bitrates = i; - - range->max_encoding_tokens = NUM_WEPKEYS; - range->num_encoding_sizes = 2; - range->encoding_size[0] = 5; - range->encoding_size[1] = 13; - - range->we_version_source = 20; - range->we_version_compiled = WIRELESS_EXT; - - /* Number of channels available in h/w */ - range->num_channels = 14; - /* Number of entries in freq[] array */ - range->num_frequency = 14; - for (i = 0; (i < range->num_frequency) && (i < IW_MAX_FREQUENCIES); i++) { - int chan = i + 1; - range->freq[i].i = chan; - range->freq[i].m = channel_to_mhz(chan, 0); - range->freq[i].e = 6; - } - if ((i+3) < IW_MAX_FREQUENCIES) { - range->freq[i].i = 36; - range->freq[i].m = channel_to_mhz(36, 1); - range->freq[i].e = 6; - range->freq[i+1].i = 40; - range->freq[i+1].m = channel_to_mhz(40, 1); - range->freq[i+1].e = 6; - range->freq[i+2].i = 44; - range->freq[i+2].m = channel_to_mhz(44, 1); - range->freq[i+2].e = 6; - range->freq[i+3].i = 48; - range->freq[i+3].m = channel_to_mhz(48, 1); - range->freq[i+3].e = 6; - } - -#if WIRELESS_EXT > 16 - /* Event capability (kernel + driver) */ - range->event_capa[0] = (IW_EVENT_CAPA_K_0 | - IW_EVENT_CAPA_MASK(SIOCGIWTHRSPY) | - IW_EVENT_CAPA_MASK(SIOCGIWAP) | - IW_EVENT_CAPA_MASK(SIOCGIWSCAN)); - range->event_capa[1] = IW_EVENT_CAPA_K_1; - range->event_capa[4] = (IW_EVENT_CAPA_MASK(IWEVTXDROP) | - IW_EVENT_CAPA_MASK(IWEVCUSTOM) | - IW_EVENT_CAPA_MASK(IWEVREGISTERED) | - IW_EVENT_CAPA_MASK(IWEVEXPIRED)); -#endif /* WIRELESS_EXT > 16 */ - -#if WIRELESS_EXT > 17 - range->enc_capa = IW_ENC_CAPA_WPA | IW_ENC_CAPA_WPA2 | - IW_ENC_CAPA_CIPHER_TKIP | IW_ENC_CAPA_CIPHER_CCMP; -#endif /* WIRELESS_EXT > 17 */ - - - return 0; -} /* unifi_giwrange() */ - - -static int -unifi_siwap(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int err = 0; - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwap: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - if (wrqu->ap_addr.sa_family != ARPHRD_ETHER) { - return -EINVAL; - } - - unifi_trace(priv, UDBG1, "unifi_siwap: asked for %pM\n", - wrqu->ap_addr.sa_data); - - if (is_zero_ether_addr(wrqu->ap_addr.sa_data)) { - priv->ignore_bssid_join = FALSE; - err = sme_mgt_disconnect(priv); - if (err) { - unifi_trace(priv, UDBG4, "unifi_siwap: Disconnect failed, status %d\n", err); - } - return 0; - } - - if (priv->ignore_bssid_join) { - unifi_trace(priv, UDBG4, "unifi_siwap: ignoring second join\n"); - priv->ignore_bssid_join = FALSE; - } else { - memcpy(priv->connection_config.bssid.a, wrqu->ap_addr.sa_data, ETH_ALEN); - unifi_trace(priv, UDBG1, "unifi_siwap: Joining %X:%X:%X:%X:%X:%X\n", - priv->connection_config.bssid.a[0], - priv->connection_config.bssid.a[1], - priv->connection_config.bssid.a[2], - priv->connection_config.bssid.a[3], - priv->connection_config.bssid.a[4], - priv->connection_config.bssid.a[5]); - err = sme_mgt_connect(priv); - if (err) { - unifi_error(priv, "unifi_siwap: Join failed, status %d\n", err); - return convert_sme_error(err); - } - } - - return 0; -} /* unifi_siwap() */ - - -static int -unifi_giwap(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - CsrWifiSmeConnectionInfo connectionInfo; - int r = 0; - u8 *bssid; - - CHECK_INITED(priv); - unifi_trace(priv, UDBG2, "unifi_giwap\n"); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "iwprivswpikey: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - UF_RTNL_UNLOCK(); - r = sme_mgt_connection_info_get(priv, &connectionInfo); - UF_RTNL_LOCK(); - - if (r == 0) { - bssid = connectionInfo.bssid.a; - wrqu->ap_addr.sa_family = ARPHRD_ETHER; - unifi_trace(priv, UDBG4, "unifi_giwap: BSSID = %pM\n", bssid); - - memcpy(wrqu->ap_addr.sa_data, bssid, ETH_ALEN); - } else { - memset(wrqu->ap_addr.sa_data, 0, ETH_ALEN); - } - - return 0; -} /* unifi_giwap() */ - - -static int -unifi_siwscan(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int r; - CsrWifiSsid scan_ssid; - unsigned char *channel_list = NULL; - int chans_good = 0; -#if WIRELESS_EXT > 17 - struct iw_point *data = &wrqu->data; - struct iw_scan_req *req = (struct iw_scan_req *) extra; -#endif - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwscan: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - -#if WIRELESS_EXT > 17 - /* Providing a valid channel list will force an active scan */ - if (req) { - if ((req->num_channels > 0) && (req->num_channels < IW_MAX_FREQUENCIES)) { - channel_list = kmalloc(req->num_channels, GFP_KERNEL); - if (channel_list) { - int i; - for (i = 0; i < req->num_channels; i++) { - /* Convert frequency to channel number */ - int ch = wext_freq_to_channel(req->channel_list[i].m, - req->channel_list[i].e); - if (ch) { - channel_list[chans_good++] = ch; - } - } - unifi_trace(priv, UDBG1, - "SIWSCAN: Scanning %d channels\n", chans_good); - } else { - /* Fall back to scanning all */ - unifi_error(priv, "SIWSCAN: Can't alloc channel_list (%d)\n", - req->num_channels); - } - } - } - - if (req && (data->flags & IW_SCAN_THIS_ESSID)) { - memcpy(scan_ssid.ssid, req->essid, req->essid_len); - scan_ssid.length = req->essid_len; - unifi_trace(priv, UDBG1, - "SIWSCAN: Scanning for %.*s\n", - scan_ssid.length, scan_ssid.ssid); - } else -#endif - { - unifi_trace(priv, UDBG1, "SIWSCAN: Scanning for all APs\n"); - scan_ssid.length = 0; - } - - r = sme_mgt_scan_full(priv, &scan_ssid, chans_good, channel_list); - if (r) { - unifi_error(priv, "SIWSCAN: Scan returned error %d\n", r); - } else { - unifi_trace(priv, UDBG1, "SIWSCAN: Scan done\n"); - wext_send_scan_results_event(priv); - } - - if (channel_list) { - kfree(channel_list); - } - - return r; - -} /* unifi_siwscan() */ - - -static const unsigned char * -unifi_find_info_element(int id, const unsigned char *info, int len) -{ - const unsigned char *ie = info; - - while (len > 1) - { - int e_id, e_len; - e_id = ie[0]; - e_len = ie[1]; - - /* Return if we find a match */ - if (e_id == id) - { - return ie; - } - - len -= (e_len + 2); - ie += (e_len + 2); - } - - return NULL; -} /* unifi_find_info_element() */ - - -/* - * Translate scan data returned from the card to a card independent - * format that the Wireless Tools will understand - Jean II - */ -int -unifi_translate_scan(struct net_device *dev, - struct iw_request_info *info, - char *current_ev, char *end_buf, - CsrWifiSmeScanResult *scan_data, - int scan_index) -{ - struct iw_event iwe; /* Temporary buffer */ - unsigned char *info_elems; - int info_elem_len; - const unsigned char *elem; - u16 capabilities; - int signal, noise, snr; - char *start_buf = current_ev; - char *current_val; /* For rates */ - int i, r; - - info_elems = scan_data->informationElements; - info_elem_len = scan_data->informationElementsLength; - - if (!scan_data->informationElementsLength || !scan_data->informationElements) { - unifi_error(NULL, "*** NULL SCAN IEs ***\n"); - return -EIO; - } - - /* get capinfo bits */ - capabilities = scan_data->capabilityInformation; - - unifi_trace(NULL, UDBG5, "Capabilities: 0x%x\n", capabilities); - - /* First entry *MUST* be the AP MAC address */ - memset(&iwe, 0, sizeof(iwe)); - iwe.cmd = SIOCGIWAP; - iwe.u.ap_addr.sa_family = ARPHRD_ETHER; - memcpy(iwe.u.ap_addr.sa_data, scan_data->bssid.a, ETH_ALEN); - iwe.len = IW_EV_ADDR_LEN; - r = uf_iwe_stream_add_event(info, start_buf, end_buf, &iwe, IW_EV_ADDR_LEN); - if (r < 0) { - return r; - } - start_buf += r; - - /* Other entries will be displayed in the order we give them */ - - /* Add the ESSID */ - /* find SSID in Info Elems */ - elem = unifi_find_info_element(IE_SSID_ID, info_elems, info_elem_len); - if (elem) { - int e_len = elem[1]; - const unsigned char *e_ptr = elem + 2; - unsigned char buf[33]; - - memset(&iwe, 0, sizeof(iwe)); - iwe.cmd = SIOCGIWESSID; - iwe.u.essid.length = e_len; - if (iwe.u.essid.length > 32) { - iwe.u.essid.length = 32; - } - iwe.u.essid.flags = scan_index; - memcpy(buf, e_ptr, iwe.u.essid.length); - buf[iwe.u.essid.length] = '\0'; - r = uf_iwe_stream_add_point(info, start_buf, end_buf, &iwe, buf); - if (r < 0) { - return r; - } - start_buf += r; - - } - - /* Add mode */ - memset(&iwe, 0, sizeof(iwe)); - iwe.cmd = SIOCGIWMODE; - if (scan_data->bssType == CSR_WIFI_SME_BSS_TYPE_INFRASTRUCTURE) { - iwe.u.mode = IW_MODE_INFRA; - } else { - iwe.u.mode = IW_MODE_ADHOC; - } - iwe.len = IW_EV_UINT_LEN; - r = uf_iwe_stream_add_event(info, start_buf, end_buf, &iwe, IW_EV_UINT_LEN); - if (r < 0) { - return r; - } - start_buf += r; - - /* Add frequency. iwlist will convert to channel using table given in giwrange */ - memset(&iwe, 0, sizeof(iwe)); - iwe.cmd = SIOCGIWFREQ; - iwe.u.freq.m = scan_data->channelFrequency; - iwe.u.freq.e = 6; - r = uf_iwe_stream_add_event(info, start_buf, end_buf, &iwe, IW_EV_FREQ_LEN); - if (r < 0) { - return r; - } - start_buf += r; - - - /* Add quality statistics */ - iwe.cmd = IWEVQUAL; - /* - * level and noise below are mapped into an unsigned 8 bit number, - * ranging from [-192; 63]. The way this is achieved is simply to - * add 0x100 onto the number if it is negative, - * once clipped to the correct range. - */ - signal = scan_data->rssi; /* This value is in dBm */ - /* Clip range of snr */ - snr = (scan_data->snr > 0) ? scan_data->snr : 0; /* In dB relative, from 0 - 255 */ - snr = (snr < 255) ? snr : 255; - noise = signal - snr; - - /* Clip range of signal */ - signal = (signal < 63) ? signal : 63; - signal = (signal > -192) ? signal : -192; - - /* Clip range of noise */ - noise = (noise < 63) ? noise : 63; - noise = (noise > -192) ? noise : -192; - - /* Make u8 */ - signal = ( signal < 0 ) ? signal + 0x100 : signal; - noise = ( noise < 0 ) ? noise + 0x100 : noise; - - iwe.u.qual.level = (u8)signal; /* -192 : 63 */ - iwe.u.qual.noise = (u8)noise; /* -192 : 63 */ - iwe.u.qual.qual = snr; /* 0 : 255 */ - iwe.u.qual.updated = 0; -#if WIRELESS_EXT > 16 - iwe.u.qual.updated |= IW_QUAL_LEVEL_UPDATED | IW_QUAL_NOISE_UPDATED | - IW_QUAL_QUAL_UPDATED; -#if WIRELESS_EXT > 18 - iwe.u.qual.updated |= IW_QUAL_DBM; -#endif -#endif - r = uf_iwe_stream_add_event(info, start_buf, end_buf, &iwe, IW_EV_QUAL_LEN); - if (r < 0) { - return r; - } - start_buf += r; - - /* Add encryption capability */ - iwe.cmd = SIOCGIWENCODE; - if (capabilities & SIG_CAP_PRIVACY) { - iwe.u.data.flags = IW_ENCODE_ENABLED | IW_ENCODE_NOKEY; - } else { - iwe.u.data.flags = IW_ENCODE_DISABLED; - } - iwe.u.data.length = 0; - iwe.len = IW_EV_POINT_LEN + iwe.u.data.length; - r = uf_iwe_stream_add_point(info, start_buf, end_buf, &iwe, ""); - if (r < 0) { - return r; - } - start_buf += r; - - - /* - * Rate : stuffing multiple values in a single event require a bit - * more of magic - Jean II - */ - current_val = start_buf + IW_EV_LCP_LEN; - - iwe.cmd = SIOCGIWRATE; - /* Those two flags are ignored... */ - iwe.u.bitrate.fixed = iwe.u.bitrate.disabled = 0; - - elem = unifi_find_info_element(IE_SUPPORTED_RATES_ID, - info_elems, info_elem_len); - if (elem) { - int e_len = elem[1]; - const unsigned char *e_ptr = elem + 2; - - /* - * Count how many rates we have. - * Zero marks the end of the list, if the list is not truncated. - */ - /* Max 8 values */ - for (i = 0; i < e_len; i++) { - if (e_ptr[i] == 0) { - break; - } - /* Bit rate given in 500 kb/s units (+ 0x80) */ - iwe.u.bitrate.value = ((e_ptr[i] & 0x7f) * 500000); - /* Add new value to event */ - r = uf_iwe_stream_add_value(info, start_buf, current_val, end_buf, &iwe, IW_EV_PARAM_LEN); - if (r < 0) { - return r; - } - current_val +=r; - - } - } - elem = unifi_find_info_element(IE_EXTENDED_SUPPORTED_RATES_ID, - info_elems, info_elem_len); - if (elem) { - int e_len = elem[1]; - const unsigned char *e_ptr = elem + 2; - - /* - * Count how many rates we have. - * Zero marks the end of the list, if the list is not truncated. - */ - /* Max 8 values */ - for (i = 0; i < e_len; i++) { - if (e_ptr[i] == 0) { - break; - } - /* Bit rate given in 500 kb/s units (+ 0x80) */ - iwe.u.bitrate.value = ((e_ptr[i] & 0x7f) * 500000); - /* Add new value to event */ - r = uf_iwe_stream_add_value(info, start_buf, current_val, end_buf, &iwe, IW_EV_PARAM_LEN); - if (r < 0) { - return r; - } - current_val +=r; - } - } - /* Check if we added any rates event */ - if ((current_val - start_buf) > IW_EV_LCP_LEN) { - start_buf = current_val; - } - - -#if WIRELESS_EXT > 17 - memset(&iwe, 0, sizeof(iwe)); - iwe.cmd = IWEVGENIE; - iwe.u.data.length = info_elem_len; - - r = uf_iwe_stream_add_point(info, start_buf, end_buf, &iwe, info_elems); - if (r < 0) { - return r; - } - - start_buf += r; -#endif /* WE > 17 */ - - return (start_buf - current_ev); -} /* unifi_translate_scan() */ - - - -static int -unifi_giwscan(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_point *dwrq = &wrqu->data; - int r; - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_giwscan: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - unifi_trace(priv, UDBG1, - "unifi_giwscan: buffer (%d bytes) \n", - dwrq->length); - UF_RTNL_UNLOCK(); - r = sme_mgt_scan_results_get_async(priv, info, extra, dwrq->length); - UF_RTNL_LOCK(); - if (r < 0) { - unifi_trace(priv, UDBG1, - "unifi_giwscan: buffer (%d bytes) not big enough.\n", - dwrq->length); - return r; - } - - dwrq->length = r; - dwrq->flags = 0; - - return 0; -} /* unifi_giwscan() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_siwessid - * - * Request to join a network or start and AdHoc. - * - * Arguments: - * dev Pointer to network device struct. - * info Pointer to broken-out ioctl request. - * data Pointer to argument data. - * essid Pointer to string giving name of network to join - * or start - * - * Returns: - * 0 on success and everything complete - * -EINPROGRESS to have the higher level call the commit method. - * --------------------------------------------------------------------------- - */ -static int -unifi_siwessid(struct net_device *dev, struct iw_request_info *info, - struct iw_point *data, char *essid) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int len; - int err = 0; - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwessid: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - len = 0; - if (data->flags & 1) { - /* Limit length */ - len = data->length; - if (len > UNIFI_MAX_SSID_LEN) { - len = UNIFI_MAX_SSID_LEN; - } - } - -#ifdef UNIFI_DEBUG - { - char essid_str[UNIFI_MAX_SSID_LEN+1]; - int i; - - for (i = 0; i < len; i++) { - essid_str[i] = (isprint(essid[i]) ? essid[i] : '?'); - } - essid_str[i] = '\0'; - - unifi_trace(priv, UDBG1, "unifi_siwessid: asked for '%*s' (%d)\n", len, essid_str, len); - unifi_trace(priv, UDBG2, " with authModeMask = %d", priv->connection_config.authModeMask); - } -#endif - - memset(priv->connection_config.bssid.a, 0xFF, ETH_ALEN); - if (len) { - if (essid[len - 1] == 0) { - len --; - } - - memcpy(priv->connection_config.ssid.ssid, essid, len); - priv->connection_config.ssid.length = len; - - } else { - priv->connection_config.ssid.length = 0; - } - - UF_RTNL_UNLOCK(); - err = sme_mgt_connect(priv); - UF_RTNL_LOCK(); - if (err) { - unifi_error(priv, "unifi_siwessid: Join failed, status %d\n", err); - return convert_sme_error(err); - } - - return 0; -} /* unifi_siwessid() */ - - -static int -unifi_giwessid(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *essid) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_point *data = &wrqu->essid; - CsrWifiSmeConnectionInfo connectionInfo; - int r = 0; - - unifi_trace(priv, UDBG2, "unifi_giwessid\n"); - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_giwessid: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - UF_RTNL_UNLOCK(); - r = sme_mgt_connection_info_get(priv, &connectionInfo); - UF_RTNL_LOCK(); - - if (r == 0) { - data->length = connectionInfo.ssid.length; - strncpy(essid, - connectionInfo.ssid.ssid, - data->length); - data->flags = 1; /* active */ - - unifi_trace(priv, UDBG2, "unifi_giwessid: %.*s\n", - data->length, essid); - } - - - return 0; -} /* unifi_giwessid() */ - - -static int -unifi_siwrate(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_param *args = &wrqu->bitrate; - CsrWifiSmeMibConfig mibConfig; - int r; - - CHECK_INITED(priv); - unifi_trace(priv, UDBG2, "unifi_siwrate\n"); - - /* - * If args->fixed == 0, value is max rate or -1 for best - * If args->fixed == 1, value is rate to set or -1 for best - * args->disabled and args->flags are not used in SIOCSIWRATE - */ - - /* Get, modify and set the MIB data */ - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_get(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_siwrate: Get CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - - /* Default to auto rate algorithm */ - /* in 500Kbit/s, 0 means auto */ - mibConfig.unifiFixTxDataRate = 0; - - if (args->value != -1) { - mibConfig.unifiFixTxDataRate = args->value / 500000; - } - - /* 1 means rate is a maximum, 2 means rate is a set value */ - if (args->fixed == 1) { - mibConfig.unifiFixMaxTxDataRate = 0; - } else { - mibConfig.unifiFixMaxTxDataRate = 1; - } - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_set(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_siwrate: Set CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - - - return 0; -} /* unifi_siwrate() */ - - - -static int -unifi_giwrate(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_param *args = &wrqu->bitrate; - int r; - int bitrate, flag; - CsrWifiSmeMibConfig mibConfig; - CsrWifiSmeConnectionStats connectionStats; - - unifi_trace(priv, UDBG2, "unifi_giwrate\n"); - CHECK_INITED(priv); - - flag = 0; - bitrate = 0; - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_get(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_giwrate: Get CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - - bitrate = mibConfig.unifiFixTxDataRate; - flag = mibConfig.unifiFixMaxTxDataRate; - - /* Used the value returned by the SME if MIB returns 0 */ - if (bitrate == 0) { - UF_RTNL_UNLOCK(); - r = sme_mgt_connection_stats_get(priv, &connectionStats); - UF_RTNL_LOCK(); - /* Ignore errors, we may be disconnected */ - if (r == 0) { - bitrate = connectionStats.unifiTxDataRate; - } - } - - args->value = bitrate * 500000; - args->fixed = !flag; - - return 0; -} /* unifi_giwrate() */ - - -static int -unifi_siwrts(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int val = wrqu->rts.value; - int r = 0; - CsrWifiSmeMibConfig mibConfig; - - unifi_trace(priv, UDBG2, "unifi_siwrts\n"); - CHECK_INITED(priv); - - if (wrqu->rts.disabled) { - val = 2347; - } - - if ( (val < 0) || (val > 2347) ) - { - return -EINVAL; - } - - /* Get, modify and set the MIB data */ - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_get(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_siwrts: Get CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - mibConfig.dot11RtsThreshold = val; - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_set(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_siwrts: Set CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - - return 0; -} - - -static int -unifi_giwrts(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int r; - int rts_thresh; - CsrWifiSmeMibConfig mibConfig; - - unifi_trace(priv, UDBG2, "unifi_giwrts\n"); - CHECK_INITED(priv); - - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_get(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_giwrts: Get CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - - rts_thresh = mibConfig.dot11RtsThreshold; - if (rts_thresh > 2347) { - rts_thresh = 2347; - } - - wrqu->rts.value = rts_thresh; - wrqu->rts.disabled = (rts_thresh == 2347); - wrqu->rts.fixed = 1; - - return 0; -} - - -static int -unifi_siwfrag(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int val = wrqu->frag.value; - int r = 0; - CsrWifiSmeMibConfig mibConfig; - - unifi_trace(priv, UDBG2, "unifi_siwfrag\n"); - CHECK_INITED(priv); - - if (wrqu->frag.disabled) - val = 2346; - - if ( (val < 256) || (val > 2347) ) - return -EINVAL; - - /* Get, modify and set the MIB data */ - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_get(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_siwfrag: Get CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - /* Fragmentation Threashold must be even */ - mibConfig.dot11FragmentationThreshold = (val & ~0x1); - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_set(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_siwfrag: Set CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - - return 0; -} - - -static int -unifi_giwfrag(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int r; - int frag_thresh; - CsrWifiSmeMibConfig mibConfig; - - unifi_trace(priv, UDBG2, "unifi_giwfrag\n"); - CHECK_INITED(priv); - - UF_RTNL_UNLOCK(); - r = sme_mgt_mib_config_get(priv, &mibConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_giwfrag: Get CsrWifiSmeMibConfigValue failed.\n"); - return r; - } - - frag_thresh = mibConfig.dot11FragmentationThreshold; - - /* Build the return structure */ - wrqu->frag.value = frag_thresh; - wrqu->frag.disabled = (frag_thresh >= 2346); - wrqu->frag.fixed = 1; - - return 0; -} - - -static int -unifi_siwencode(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_point *erq = &wrqu->encoding; - int index; - int rc = 0; - int privacy = -1; - CsrWifiSmeKey sme_key; - - unifi_trace(priv, UDBG2, "unifi_siwencode\n"); - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwencode: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - /* - * Key index is encoded in the flags. - * 0 - use current default, - * 1-4 - if a key value is given set that key - * if not use that key - */ - index = (erq->flags & IW_ENCODE_INDEX); /* key number, 1-4 */ - if ((index < 0) || (index > 4)) { - unifi_error(priv, "unifi_siwencode: Request to set an invalid key (index:%d)", index); - return -EINVAL; - } - - /* - * Basic checking: do we have a key to set ? - * The IW_ENCODE_NOKEY flag is set when no key is present (only change flags), - * but older versions rely on sending a key id 1-4. - */ - if (erq->length > 0) { - - /* Check the size of the key */ - if ((erq->length > LARGE_KEY_SIZE) || (erq->length < SMALL_KEY_SIZE)) { - unifi_error(priv, "unifi_siwencode: Request to set an invalid key (length:%d)", - erq->length); - return -EINVAL; - } - - /* Check the index (none (i.e. 0) means use current) */ - if ((index < 1) || (index > 4)) { - /* If we do not have a previous key, use 1 as default */ - if (!priv->wep_tx_key_index) { - priv->wep_tx_key_index = 1; - } - index = priv->wep_tx_key_index; - } - - /* If we didn't have a key and a valid index is set, we want to remember it*/ - if (!priv->wep_tx_key_index) { - priv->wep_tx_key_index = index; - } - - unifi_trace(priv, UDBG1, "Tx key Index is %d\n", priv->wep_tx_key_index); - - privacy = 1; - - /* Check if the key is not marked as invalid */ - if ((erq->flags & IW_ENCODE_NOKEY) == 0) { - - unifi_trace(priv, UDBG1, "New %s key (len=%d, index=%d)\n", - (priv->wep_tx_key_index == index) ? "tx" : "", - erq->length, index); - - sme_key.wepTxKey = (priv->wep_tx_key_index == index); - if (priv->wep_tx_key_index == index) { - sme_key.keyType = CSR_WIFI_SME_KEY_TYPE_PAIRWISE; - } else { - sme_key.keyType = CSR_WIFI_SME_KEY_TYPE_GROUP; - } - /* Key index is zero based in SME but 1 based in wext */ - sme_key.keyIndex = (index - 1); - sme_key.keyLength = erq->length; - sme_key.authenticator = 0; - memset(sme_key.address.a, 0xFF, ETH_ALEN); - memcpy(sme_key.key, extra, erq->length); - - UF_RTNL_UNLOCK(); - rc = sme_mgt_key(priv, &sme_key, CSR_WIFI_SME_LIST_ACTION_ADD); - UF_RTNL_LOCK(); - if (rc) { - unifi_error(priv, "unifi_siwencode: Set key failed (%d)", rc); - return convert_sme_error(rc); - } - - /* Store the key to be reported by the SIOCGIWENCODE handler */ - priv->wep_keys[index - 1].len = erq->length; - memcpy(priv->wep_keys[index - 1].key, extra, erq->length); - } - } else { - /* - * No additional key data, so it must be a request to change the - * active key. - */ - if (index != 0) { - unifi_trace(priv, UDBG1, "Tx key Index is %d\n", index - 1); - - /* Store the index to be reported by the SIOCGIWENCODE handler */ - priv->wep_tx_key_index = index; - - sme_key.wepTxKey = 1; - sme_key.keyType = CSR_WIFI_SME_KEY_TYPE_PAIRWISE; - - /* Key index is zero based in SME but 1 based in wext */ - sme_key.keyIndex = (index - 1); - sme_key.keyLength = 0; - sme_key.authenticator = 0; - UF_RTNL_UNLOCK(); - rc = sme_mgt_key(priv, &sme_key, CSR_WIFI_SME_LIST_ACTION_ADD); - UF_RTNL_LOCK(); - if (rc) { - unifi_error(priv, "unifi_siwencode: Set key failed (%d)", rc); - return convert_sme_error(rc); - } - - /* Turn on encryption */ - privacy = 1; - } - } - - /* Read the flags */ - if (erq->flags & IW_ENCODE_DISABLED) { - /* disable encryption */ - unifi_trace(priv, UDBG1, "disable WEP encryption\n"); - privacy = 0; - - priv->wep_tx_key_index = 0; - - unifi_trace(priv, UDBG1, "IW_ENCODE_DISABLED: CSR_WIFI_SME_AUTH_MODE_80211_OPEN\n"); - priv->connection_config.authModeMask = CSR_WIFI_SME_AUTH_MODE_80211_OPEN; - } - - if (erq->flags & IW_ENCODE_RESTRICTED) { - /* Use shared key auth */ - unifi_trace(priv, UDBG1, "IW_ENCODE_RESTRICTED: CSR_WIFI_SME_AUTH_MODE_80211_SHARED\n"); - priv->connection_config.authModeMask = CSR_WIFI_SME_AUTH_MODE_80211_SHARED; - - /* Turn on encryption */ - privacy = 1; - } - if (erq->flags & IW_ENCODE_OPEN) { - unifi_trace(priv, UDBG1, "IW_ENCODE_OPEN: CSR_WIFI_SME_AUTH_MODE_80211_OPEN\n"); - priv->connection_config.authModeMask = CSR_WIFI_SME_AUTH_MODE_80211_OPEN; - } - - /* Commit the changes to flags if needed */ - if (privacy != -1) { - priv->connection_config.privacyMode = privacy ? CSR_WIFI_SME_80211_PRIVACY_MODE_ENABLED : CSR_WIFI_SME_80211_PRIVACY_MODE_DISABLED; - priv->connection_config.encryptionModeMask = privacy ? (CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_WEP40 | - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_WEP104 | - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP40 | - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP104) : - CSR_WIFI_SME_ENCRYPTION_CIPHER_NONE; - } - - return convert_sme_error(rc); - -} /* unifi_siwencode() */ - - - -static int -unifi_giwencode(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_point *erq = &wrqu->encoding; - - unifi_trace(priv, UDBG2, "unifi_giwencode\n"); - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_giwencode: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - if (priv->connection_config.authModeMask == CSR_WIFI_SME_AUTH_MODE_80211_SHARED) { - erq->flags = IW_ENCODE_RESTRICTED; - } - else { - if (priv->connection_config.privacyMode == CSR_WIFI_SME_80211_PRIVACY_MODE_DISABLED) { - erq->flags = IW_ENCODE_DISABLED; - } else { - erq->flags = IW_ENCODE_OPEN; - } - } - - erq->length = 0; - - if (erq->flags != IW_ENCODE_DISABLED) { - int index = priv->wep_tx_key_index; - - if ((index > 0) && (index <= NUM_WEPKEYS)) { - erq->flags |= (index & IW_ENCODE_INDEX); - erq->length = priv->wep_keys[index - 1].len; - memcpy(extra, priv->wep_keys[index - 1].key, erq->length); - } else { - unifi_notice(priv, "unifi_giwencode: Surprise, do not have a valid key index (%d)\n", - index); - } - } - - return 0; -} /* unifi_giwencode() */ - - -static int -unifi_siwpower(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - struct iw_param *args = &wrqu->power; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int listen_interval, wake_for_dtim; - int r = 0; - CsrWifiSmePowerConfig powerConfig; - - unifi_trace(priv, UDBG2, "unifi_siwpower\n"); - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwpower: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - UF_RTNL_UNLOCK(); - r = sme_mgt_power_config_get(priv, &powerConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_siwpower: Get unifi_PowerConfigValue failed.\n"); - return r; - } - - listen_interval = -1; - wake_for_dtim = -1; - if (args->disabled) { - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_LOW; - } - else - { - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_HIGH; - - switch (args->flags & IW_POWER_TYPE) { - case 0: - /* not specified */ - break; - case IW_POWER_PERIOD: - listen_interval = args->value / 1000; - break; - default: - return -EINVAL; - } - - switch (args->flags & IW_POWER_MODE) { - case 0: - /* not specified */ - break; - case IW_POWER_UNICAST_R: - /* not interested in broadcast packets */ - wake_for_dtim = 0; - break; - case IW_POWER_ALL_R: - /* yes, we are interested in broadcast packets */ - wake_for_dtim = 1; - break; - default: - return -EINVAL; - } - } - - if (listen_interval > 0) { - powerConfig.listenIntervalTu = listen_interval; - unifi_trace(priv, UDBG4, "unifi_siwpower: new Listen Interval = %d.\n", - powerConfig.listenIntervalTu); - } - - if (wake_for_dtim >= 0) { - powerConfig.rxDtims = wake_for_dtim; - } - UF_RTNL_UNLOCK(); - r = sme_mgt_power_config_set(priv, &powerConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_siwpower: Set unifi_PowerConfigValue failed.\n"); - return r; - } - - return 0; -} /* unifi_siwpower() */ - - -static int -unifi_giwpower(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - struct iw_param *args = &wrqu->power; - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - CsrWifiSmePowerConfig powerConfig; - int r; - - unifi_trace(priv, UDBG2, "unifi_giwpower\n"); - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_giwpower: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - args->flags = 0; - UF_RTNL_UNLOCK(); - r = sme_mgt_power_config_get(priv, &powerConfig); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "unifi_giwpower: Get unifi_PowerConfigValue failed.\n"); - return r; - } - - unifi_trace(priv, UDBG4, "unifi_giwpower: mode=%d\n", - powerConfig.powerSaveLevel); - - args->disabled = (powerConfig.powerSaveLevel == CSR_WIFI_SME_POWER_SAVE_LEVEL_LOW); - if (args->disabled) { - args->flags = 0; - return 0; - } - - args->value = powerConfig.listenIntervalTu * 1000; - args->flags |= IW_POWER_PERIOD; - - if (powerConfig.rxDtims) { - args->flags |= IW_POWER_ALL_R; - } else { - args->flags |= IW_POWER_UNICAST_R; - } - - return 0; -} /* unifi_giwpower() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_siwcommit - handler for SIOCSIWCOMMIT - * - * Apply all the parameters that have been set. - * In practice this means: - * - do a scan - * - join a network or start an AdHoc - * - authenticate and associate. - * - * Arguments: - * None. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static int -unifi_siwcommit(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - return 0; -} /* unifi_siwcommit() */ - - - -static int -unifi_siwmlme(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_mlme *mlme = (struct iw_mlme *)extra; - - unifi_trace(priv, UDBG2, "unifi_siwmlme\n"); - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwmlme: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - switch (mlme->cmd) { - case IW_MLME_DEAUTH: - case IW_MLME_DISASSOC: - UF_RTNL_UNLOCK(); - sme_mgt_disconnect(priv); - UF_RTNL_LOCK(); - break; - default: - return -EOPNOTSUPP; - } - - return 0; -} /* unifi_siwmlme() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_siwgenie - * unifi_giwgenie - * - * WPA : Generic IEEE 802.11 information element (e.g., for WPA/RSN/WMM). - * Handlers for SIOCSIWGENIE, SIOCGIWGENIE - set/get generic IE - * - * The host program (e.g. wpa_supplicant) uses this call to set the - * additional IEs to accompany the next (Associate?) request. - * - * Arguments: - * None. - * - * Returns: - * None. - * Notes: - * From wireless.h: - * This ioctl uses struct iw_point and data buffer that includes IE id - * and len fields. More than one IE may be included in the - * request. Setting the generic IE to empty buffer (len=0) removes the - * generic IE from the driver. - * --------------------------------------------------------------------------- - */ -static int -unifi_siwgenie(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int len; - - unifi_trace(priv, UDBG2, "unifi_siwgenie\n"); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwgenie: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - if ( priv->connection_config.mlmeAssociateReqInformationElements) { - kfree( priv->connection_config.mlmeAssociateReqInformationElements); - } - priv->connection_config.mlmeAssociateReqInformationElementsLength = 0; - priv->connection_config.mlmeAssociateReqInformationElements = NULL; - - len = wrqu->data.length; - if (len == 0) { - return 0; - } - - priv->connection_config.mlmeAssociateReqInformationElements = kmalloc(len, GFP_KERNEL); - if (priv->connection_config.mlmeAssociateReqInformationElements == NULL) { - return -ENOMEM; - } - - priv->connection_config.mlmeAssociateReqInformationElementsLength = len; - memcpy( priv->connection_config.mlmeAssociateReqInformationElements, extra, len); - - return 0; -} /* unifi_siwgenie() */ - - -static int -unifi_giwgenie(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - int len; - - unifi_trace(priv, UDBG2, "unifi_giwgenie\n"); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_giwgenie: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - len = priv->connection_config.mlmeAssociateReqInformationElementsLength; - - if (len == 0) { - wrqu->data.length = 0; - return 0; - } - - if (wrqu->data.length < len) { - return -E2BIG; - } - - wrqu->data.length = len; - memcpy(extra, priv->connection_config.mlmeAssociateReqInformationElements, len); - - return 0; -} /* unifi_giwgenie() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_siwauth - * unifi_giwauth - * - * Handlers for SIOCSIWAUTH, SIOCGIWAUTH - * Set/get various authentication parameters. - * - * Arguments: - * - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static int -_unifi_siwauth(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - CsrWifiSmeAuthModeMask new_auth; - - unifi_trace(priv, UDBG2, "unifi_siwauth\n"); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwauth: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - /* - * This ioctl is safe to call even when UniFi is powered off. - * wpa_supplicant calls it to test whether we support WPA. - */ - - switch (wrqu->param.flags & IW_AUTH_INDEX) { - - case IW_AUTH_WPA_ENABLED: - unifi_trace(priv, UDBG1, "IW_AUTH_WPA_ENABLED: %d\n", wrqu->param.value); - - if (wrqu->param.value == 0) { - unifi_trace(priv, UDBG5, "IW_AUTH_WPA_ENABLED: CSR_WIFI_SME_AUTH_MODE_80211_OPEN\n"); - priv->connection_config.authModeMask = CSR_WIFI_SME_AUTH_MODE_80211_OPEN; - } - break; - - case IW_AUTH_PRIVACY_INVOKED: - unifi_trace(priv, UDBG1, "IW_AUTH_PRIVACY_INVOKED: %d\n", wrqu->param.value); - - priv->connection_config.privacyMode = wrqu->param.value ? CSR_WIFI_SME_80211_PRIVACY_MODE_ENABLED : CSR_WIFI_SME_80211_PRIVACY_MODE_DISABLED; - if (wrqu->param.value == CSR_WIFI_SME_80211_PRIVACY_MODE_DISABLED) - { - priv->connection_config.encryptionModeMask = CSR_WIFI_SME_ENCRYPTION_CIPHER_NONE; - } - break; - - case IW_AUTH_80211_AUTH_ALG: - /* - IW_AUTH_ALG_OPEN_SYSTEM 0x00000001 - IW_AUTH_ALG_SHARED_KEY 0x00000002 - IW_AUTH_ALG_LEAP 0x00000004 - */ - new_auth = 0; - if (wrqu->param.value & IW_AUTH_ALG_OPEN_SYSTEM) { - unifi_trace(priv, UDBG1, "IW_AUTH_80211_AUTH_ALG: %d (IW_AUTH_ALG_OPEN_SYSTEM)\n", wrqu->param.value); - new_auth |= CSR_WIFI_SME_AUTH_MODE_80211_OPEN; - } - if (wrqu->param.value & IW_AUTH_ALG_SHARED_KEY) { - unifi_trace(priv, UDBG1, "IW_AUTH_80211_AUTH_ALG: %d (IW_AUTH_ALG_SHARED_KEY)\n", wrqu->param.value); - new_auth |= CSR_WIFI_SME_AUTH_MODE_80211_SHARED; - } - if (wrqu->param.value & IW_AUTH_ALG_LEAP) { - /* Initial exchanges using open-system to set EAP */ - unifi_trace(priv, UDBG1, "IW_AUTH_80211_AUTH_ALG: %d (IW_AUTH_ALG_LEAP)\n", wrqu->param.value); - new_auth |= CSR_WIFI_SME_AUTH_MODE_8021X_OTHER1X; - } - if (new_auth == 0) { - unifi_trace(priv, UDBG1, "IW_AUTH_80211_AUTH_ALG: invalid value %d\n", - wrqu->param.value); - return -EINVAL; - } else { - priv->connection_config.authModeMask = new_auth; - } - break; - - case IW_AUTH_WPA_VERSION: - unifi_trace(priv, UDBG1, "IW_AUTH_WPA_VERSION: %d\n", wrqu->param.value); - priv->ignore_bssid_join = TRUE; - /* - IW_AUTH_WPA_VERSION_DISABLED 0x00000001 - IW_AUTH_WPA_VERSION_WPA 0x00000002 - IW_AUTH_WPA_VERSION_WPA2 0x00000004 - */ - - if (!(wrqu->param.value & IW_AUTH_WPA_VERSION_DISABLED)) { - - priv->connection_config.authModeMask = CSR_WIFI_SME_AUTH_MODE_80211_OPEN; - - if (wrqu->param.value & IW_AUTH_WPA_VERSION_WPA) { - unifi_trace(priv, UDBG4, "IW_AUTH_WPA_VERSION: WPA, WPA-PSK\n"); - priv->connection_config.authModeMask |= (CSR_WIFI_SME_AUTH_MODE_8021X_WPA | CSR_WIFI_SME_AUTH_MODE_8021X_WPAPSK); - } - if (wrqu->param.value & IW_AUTH_WPA_VERSION_WPA2) { - unifi_trace(priv, UDBG4, "IW_AUTH_WPA_VERSION: WPA2, WPA2-PSK\n"); - priv->connection_config.authModeMask |= (CSR_WIFI_SME_AUTH_MODE_8021X_WPA2 | CSR_WIFI_SME_AUTH_MODE_8021X_WPA2PSK); - } - } - break; - - case IW_AUTH_CIPHER_PAIRWISE: - unifi_trace(priv, UDBG1, "IW_AUTH_CIPHER_PAIRWISE: %d\n", wrqu->param.value); - /* - * one of: - IW_AUTH_CIPHER_NONE 0x00000001 - IW_AUTH_CIPHER_WEP40 0x00000002 - IW_AUTH_CIPHER_TKIP 0x00000004 - IW_AUTH_CIPHER_CCMP 0x00000008 - IW_AUTH_CIPHER_WEP104 0x00000010 - */ - - priv->connection_config.encryptionModeMask = CSR_WIFI_SME_ENCRYPTION_CIPHER_NONE; - - if (wrqu->param.value & IW_AUTH_CIPHER_WEP40) { - priv->connection_config.encryptionModeMask |= - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_WEP40 | CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP40; - } - if (wrqu->param.value & IW_AUTH_CIPHER_WEP104) { - priv->connection_config.encryptionModeMask |= - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_WEP104 | CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP104; - } - if (wrqu->param.value & IW_AUTH_CIPHER_TKIP) { - priv->connection_config.encryptionModeMask |= - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_TKIP | CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_TKIP; - } - if (wrqu->param.value & IW_AUTH_CIPHER_CCMP) { - priv->connection_config.encryptionModeMask |= - CSR_WIFI_SME_ENCRYPTION_CIPHER_PAIRWISE_CCMP | CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_CCMP; - } - - break; - - case IW_AUTH_CIPHER_GROUP: - unifi_trace(priv, UDBG1, "IW_AUTH_CIPHER_GROUP: %d\n", wrqu->param.value); - /* - * Use the WPA version and the group cipher suite to set the permitted - * group key in the MIB. f/w uses this value to validate WPA and RSN IEs - * in the probe responses from the desired BSS(ID) - */ - - priv->connection_config.encryptionModeMask &= ~(CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP40 | - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP104 | - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_TKIP | - CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_CCMP); - if (wrqu->param.value & IW_AUTH_CIPHER_WEP40) { - priv->connection_config.encryptionModeMask |= CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP40; - } - if (wrqu->param.value & IW_AUTH_CIPHER_WEP104) { - priv->connection_config.encryptionModeMask |= CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_WEP104; - } - if (wrqu->param.value & IW_AUTH_CIPHER_TKIP) { - priv->connection_config.encryptionModeMask |= CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_TKIP; - } - if (wrqu->param.value & IW_AUTH_CIPHER_CCMP) { - priv->connection_config.encryptionModeMask |= CSR_WIFI_SME_ENCRYPTION_CIPHER_GROUP_CCMP; - } - - break; - - case IW_AUTH_KEY_MGMT: - unifi_trace(priv, UDBG1, "IW_AUTH_KEY_MGMT: %d\n", wrqu->param.value); - /* - IW_AUTH_KEY_MGMT_802_1X 1 - IW_AUTH_KEY_MGMT_PSK 2 - */ - if (priv->connection_config.authModeMask & (CSR_WIFI_SME_AUTH_MODE_8021X_WPA | CSR_WIFI_SME_AUTH_MODE_8021X_WPAPSK)) { - /* Check for explicitly set mode. */ - if (wrqu->param.value == IW_AUTH_KEY_MGMT_802_1X) { - priv->connection_config.authModeMask &= ~CSR_WIFI_SME_AUTH_MODE_8021X_WPAPSK; - } - if (wrqu->param.value == IW_AUTH_KEY_MGMT_PSK) { - priv->connection_config.authModeMask &= ~CSR_WIFI_SME_AUTH_MODE_8021X_WPA; - } - unifi_trace(priv, UDBG5, "IW_AUTH_KEY_MGMT: WPA: %d\n", - priv->connection_config.authModeMask); - } - if (priv->connection_config.authModeMask & (CSR_WIFI_SME_AUTH_MODE_8021X_WPA2 | CSR_WIFI_SME_AUTH_MODE_8021X_WPA2PSK)) { - /* Check for explicitly set mode. */ - if (wrqu->param.value == IW_AUTH_KEY_MGMT_802_1X) { - priv->connection_config.authModeMask &= ~CSR_WIFI_SME_AUTH_MODE_8021X_WPA2PSK; - } - if (wrqu->param.value == IW_AUTH_KEY_MGMT_PSK) { - priv->connection_config.authModeMask &= ~CSR_WIFI_SME_AUTH_MODE_8021X_WPA2; - } - unifi_trace(priv, UDBG5, "IW_AUTH_KEY_MGMT: WPA2: %d\n", - priv->connection_config.authModeMask); - } - - break; - case IW_AUTH_TKIP_COUNTERMEASURES: - /* - * Set to true at the start of the 60 second backup-off period - * following 2 MichaelMIC failures within 60s. - */ - unifi_trace(priv, UDBG1, "IW_AUTH_TKIP_COUNTERMEASURES: %d\n", wrqu->param.value); - break; - - case IW_AUTH_DROP_UNENCRYPTED: - /* - * Set to true on init. - * Set to false just before associate if encryption will not be - * required. - * - * Note this is not the same as the 802.1X controlled port - */ - unifi_trace(priv, UDBG1, "IW_AUTH_DROP_UNENCRYPTED: %d\n", wrqu->param.value); - break; - - case IW_AUTH_RX_UNENCRYPTED_EAPOL: - /* - * This is set by wpa_supplicant to allow unencrypted EAPOL messages - * even if pairwise keys are set when not using WPA. IEEE 802.1X - * specifies that these frames are not encrypted, but WPA encrypts - * them when pairwise keys are in use. - * I think the UniFi f/w handles this decision for us. - */ - unifi_trace(priv, UDBG1, "IW_AUTH_RX_UNENCRYPTED_EAPOL: %d\n", wrqu->param.value); - break; - - case IW_AUTH_ROAMING_CONTROL: - unifi_trace(priv, UDBG1, "IW_AUTH_ROAMING_CONTROL: %d\n", wrqu->param.value); - break; - - default: - unifi_trace(priv, UDBG1, "Unsupported auth param %d to 0x%X\n", - wrqu->param.flags & IW_AUTH_INDEX, - wrqu->param.value); - return -EOPNOTSUPP; - } - - unifi_trace(priv, UDBG2, "authModeMask = %d", priv->connection_config.authModeMask); - - return 0; -} /* _unifi_siwauth() */ - - -static int -unifi_siwauth(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - int err = 0; - - UF_RTNL_UNLOCK(); - err = _unifi_siwauth(dev, info, wrqu, extra); - UF_RTNL_LOCK(); - - return err; -} /* unifi_siwauth() */ - - -static int -unifi_giwauth(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - unifi_trace(NULL, UDBG2, "unifi_giwauth\n"); - return -EOPNOTSUPP; -} /* unifi_giwauth() */ - -/* - * --------------------------------------------------------------------------- - * unifi_siwencodeext - * unifi_giwencodeext - * - * Handlers for SIOCSIWENCODEEXT, SIOCGIWENCODEEXT - set/get - * encoding token & mode - * - * Arguments: - * None. - * - * Returns: - * None. - * - * Notes: - * For WPA/WPA2 we don't take note of the IW_ENCODE_EXT_SET_TX_KEY flag. - * This flag means "use this key to encode transmissions"; we just - * assume only one key will be set and that is the one to use. - * --------------------------------------------------------------------------- - */ -static int -_unifi_siwencodeext(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_encode_ext *ext = (struct iw_encode_ext *)extra; - int r = 0; - unsigned char *keydata; - unsigned char tkip_key[32]; - int keyid; - unsigned char *a = (unsigned char *)ext->addr.sa_data; - CsrWifiSmeKey sme_key; - CsrWifiSmeKeyType key_type; - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwencodeext: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - unifi_trace(priv, UDBG1, "siwencodeext: flags=0x%X, alg=%d, ext_flags=0x%X, len=%d, index=%d,\n", - wrqu->encoding.flags, ext->alg, ext->ext_flags, - ext->key_len, (wrqu->encoding.flags & IW_ENCODE_INDEX)); - unifi_trace(priv, UDBG3, " addr=%pM\n", a); - - if ((ext->key_len == 0) && (ext->ext_flags & IW_ENCODE_EXT_SET_TX_KEY)) { - /* This means use a different key (given by key_idx) for Tx. */ - /* NYI */ - unifi_trace(priv, UDBG1, KERN_ERR "unifi_siwencodeext: NYI should change tx key id here!!\n"); - return -ENOTSUPP; - } - - memset(&sme_key, 0, sizeof(sme_key)); - - keydata = (unsigned char *)(ext + 1); - keyid = (wrqu->encoding.flags & IW_ENCODE_INDEX); - - /* - * Check for request to delete keys for an address. - */ - /* Pick out request for no privacy. */ - if (ext->alg == IW_ENCODE_ALG_NONE) { - - unifi_trace(priv, UDBG1, "Deleting %s key %d\n", - (ext->ext_flags & IW_ENCODE_EXT_GROUP_KEY) ? "GROUP" : "PAIRWISE", - keyid); - - if (ext->ext_flags & IW_ENCODE_EXT_GROUP_KEY) { - sme_key.keyType = CSR_WIFI_SME_KEY_TYPE_GROUP; - } else { - sme_key.keyType = CSR_WIFI_SME_KEY_TYPE_PAIRWISE; - } - sme_key.keyIndex = (keyid - 1); - sme_key.keyLength = 0; - sme_key.authenticator = 0; - memcpy(sme_key.address.a, a, ETH_ALEN); - UF_RTNL_UNLOCK(); - r = sme_mgt_key(priv, &sme_key, CSR_WIFI_SME_LIST_ACTION_REMOVE); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "Delete key request was rejected with result %d\n", r); - return convert_sme_error(r); - } - - return 0; - } - - /* - * Request is to set a key, not delete - */ - - /* Pick out WEP and use set_wep_key(). */ - if (ext->alg == IW_ENCODE_ALG_WEP) { - /* WEP-40, WEP-104 */ - - /* Check for valid key length */ - if (!((ext->key_len == 5) || (ext->key_len == 13))) { - unifi_trace(priv, UDBG1, KERN_ERR "Invalid length for WEP key: %d\n", ext->key_len); - return -EINVAL; - } - - unifi_trace(priv, UDBG1, "Setting WEP key %d tx:%d\n", - keyid, ext->ext_flags & IW_ENCODE_EXT_SET_TX_KEY); - - if (ext->ext_flags & IW_ENCODE_EXT_SET_TX_KEY) { - sme_key.wepTxKey = TRUE; - sme_key.keyType = CSR_WIFI_SME_KEY_TYPE_PAIRWISE; - } else { - sme_key.wepTxKey = FALSE; - sme_key.keyType = CSR_WIFI_SME_KEY_TYPE_GROUP; - } - sme_key.keyIndex = (keyid - 1); - sme_key.keyLength = ext->key_len; - sme_key.authenticator = 0; - memset(sme_key.address.a, 0xFF, ETH_ALEN); - memcpy(sme_key.key, keydata, ext->key_len); - UF_RTNL_UNLOCK(); - r = sme_mgt_key(priv, &sme_key, CSR_WIFI_SME_LIST_ACTION_ADD); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "siwencodeext: Set key failed (%d)", r); - return convert_sme_error(r); - } - - return 0; - } - - /* - * - * If we reach here, we are dealing with a WPA/WPA2 key - * - */ - if (ext->key_len > 32) { - return -EINVAL; - } - - /* - * TKIP keys from wpa_supplicant need swapping. - * What about other supplicants (when they come along)? - */ - if ((ext->alg == IW_ENCODE_ALG_TKIP) && (ext->key_len == 32)) { - memcpy(tkip_key, keydata, 16); - memcpy(tkip_key + 16, keydata + 24, 8); - memcpy(tkip_key + 24, keydata + 16, 8); - keydata = tkip_key; - } - - key_type = (ext->ext_flags & IW_ENCODE_EXT_GROUP_KEY) ? - CSR_WIFI_SME_KEY_TYPE_GROUP : /* Group Key */ - CSR_WIFI_SME_KEY_TYPE_PAIRWISE; /* Pairwise Key */ - - sme_key.keyType = key_type; - sme_key.keyIndex = (keyid - 1); - sme_key.keyLength = ext->key_len; - sme_key.authenticator = 0; - memcpy(sme_key.address.a, ext->addr.sa_data, ETH_ALEN); - if (ext->ext_flags & IW_ENCODE_EXT_RX_SEQ_VALID) { - - unifi_trace(priv, UDBG5, "RSC first 6 bytes = %*phC\n", - 6, ext->rx_seq); - - /* memcpy((u8*)(&sme_key.keyRsc), ext->rx_seq, 8); */ - sme_key.keyRsc[0] = ext->rx_seq[1] << 8 | ext->rx_seq[0]; - sme_key.keyRsc[1] = ext->rx_seq[3] << 8 | ext->rx_seq[2]; - sme_key.keyRsc[2] = ext->rx_seq[5] << 8 | ext->rx_seq[4]; - sme_key.keyRsc[3] = ext->rx_seq[7] << 8 | ext->rx_seq[6]; - - } - - memcpy(sme_key.key, keydata, ext->key_len); - UF_RTNL_UNLOCK(); - r = sme_mgt_key(priv, &sme_key, CSR_WIFI_SME_LIST_ACTION_ADD); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "SETKEYS request was rejected with result %d\n", r); - return convert_sme_error(r); - } - - return r; -} /* _unifi_siwencodeext() */ - - -static int -unifi_siwencodeext(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - int err = 0; - - err = _unifi_siwencodeext(dev, info, wrqu, extra); - - return err; -} /* unifi_siwencodeext() */ - - -static int -unifi_giwencodeext(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - return -EOPNOTSUPP; -} /* unifi_giwencodeext() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_siwpmksa - * - * SIOCSIWPMKSA - PMKSA cache operation - * The caller passes a pmksa structure: - * - cmd one of ADD, REMOVE, FLUSH - * - bssid MAC address - * - pmkid ID string (16 bytes) - * - * Arguments: - * None. - * - * Returns: - * None. - * - * Notes: - * This is not needed since we provide a siwgenie method. - * --------------------------------------------------------------------------- - */ -#define UNIFI_PMKID_KEY_SIZE 16 -static int -unifi_siwpmksa(struct net_device *dev, struct iw_request_info *info, - union iwreq_data *wrqu, char *extra) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - struct iw_pmksa *pmksa = (struct iw_pmksa *)extra; - CsrResult r = 0; - CsrWifiSmePmkidList pmkid_list; - CsrWifiSmePmkid pmkid; - CsrWifiSmeListAction action; - - CHECK_INITED(priv); - - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - unifi_error(priv, "unifi_siwpmksa: not permitted in Mode %d\n", - interfacePriv->interfaceMode); - return -EPERM; - } - - - unifi_trace(priv, UDBG1, "SIWPMKSA: cmd %d, %pM\n", pmksa->cmd, - pmksa->bssid.sa_data); - - pmkid_list.pmkids = NULL; - switch (pmksa->cmd) { - case IW_PMKSA_ADD: - pmkid_list.pmkids = &pmkid; - action = CSR_WIFI_SME_LIST_ACTION_ADD; - pmkid_list.pmkidsCount = 1; - memcpy(pmkid.bssid.a, pmksa->bssid.sa_data, ETH_ALEN); - memcpy(pmkid.pmkid, pmksa->pmkid, UNIFI_PMKID_KEY_SIZE); - break; - case IW_PMKSA_REMOVE: - pmkid_list.pmkids = &pmkid; - action = CSR_WIFI_SME_LIST_ACTION_REMOVE; - pmkid_list.pmkidsCount = 1; - memcpy(pmkid.bssid.a, pmksa->bssid.sa_data, ETH_ALEN); - memcpy(pmkid.pmkid, pmksa->pmkid, UNIFI_PMKID_KEY_SIZE); - break; - case IW_PMKSA_FLUSH: - /* Replace current PMKID's with an empty list */ - pmkid_list.pmkidsCount = 0; - action = CSR_WIFI_SME_LIST_ACTION_FLUSH; - break; - default: - unifi_notice(priv, "SIWPMKSA: Unknown command (0x%x)\n", pmksa->cmd); - return -EINVAL; - } - - /* Set the Value the pmkid's will have 1 added OR 1 removed OR be cleared at this point */ - UF_RTNL_UNLOCK(); - r = sme_mgt_pmkid(priv, action, &pmkid_list); - UF_RTNL_LOCK(); - if (r) { - unifi_error(priv, "SIWPMKSA: Set PMKID's Failed.\n"); - } - - return r; - -} /* unifi_siwpmksa() */ - - -/* - * --------------------------------------------------------------------------- - * unifi_get_wireless_stats - * - * get_wireless_stats method for Linux wireless extensions. - * - * Arguments: - * dev Pointer to associated netdevice. - * - * Returns: - * Pointer to iw_statistics struct. - * --------------------------------------------------------------------------- - */ -struct iw_statistics * -unifi_get_wireless_stats(struct net_device *dev) -{ - netInterface_priv_t *interfacePriv = (netInterface_priv_t *)netdev_priv(dev); - unifi_priv_t *priv = interfacePriv->privPtr; - - if (priv->init_progress != UNIFI_INIT_COMPLETED) { - return NULL; - } - - return &priv->wext_wireless_stats; -} /* unifi_get_wireless_stats() */ - - -/* - * Structures to export the Wireless Handlers - */ - -static const struct iw_priv_args unifi_private_args[] = { - /*{ cmd, set_args, get_args, name } */ - { SIOCIWS80211POWERSAVEPRIV, IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, - IW_PRIV_TYPE_NONE, "iwprivs80211ps" }, - { SIOCIWG80211POWERSAVEPRIV, IW_PRIV_TYPE_NONE, - IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED | IWPRIV_POWER_SAVE_MAX_STRING, "iwprivg80211ps" }, - { SIOCIWS80211RELOADDEFAULTSPRIV, IW_PRIV_TYPE_NONE, - IW_PRIV_TYPE_NONE, "iwprivsdefs" }, - { SIOCIWSSMEDEBUGPRIV, IW_PRIV_TYPE_CHAR | IWPRIV_SME_DEBUG_MAX_STRING, IW_PRIV_TYPE_NONE, "iwprivssmedebug" }, -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - { SIOCIWSCONFWAPIPRIV, IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, - IW_PRIV_TYPE_NONE, "iwprivsconfwapi" }, - { SIOCIWSWAPIKEYPRIV, IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | sizeof(unifiio_wapi_key_t), - IW_PRIV_TYPE_NONE, "iwprivswpikey" }, -#endif -#ifdef CSR_SUPPORT_WEXT_AP - { SIOCIWSAPCFGPRIV, IW_PRIV_TYPE_CHAR | 256, IW_PRIV_TYPE_NONE, "AP_SET_CFG" }, - { SIOCIWSAPSTARTPRIV, 0, IW_PRIV_TYPE_CHAR | IW_PRIV_SIZE_FIXED|IWPRIV_SME_MAX_STRING, "AP_BSS_START" }, - { SIOCIWSAPSTOPPRIV, IW_PRIV_TYPE_CHAR |IW_PRIV_SIZE_FIXED|0, - IW_PRIV_TYPE_CHAR |IW_PRIV_SIZE_FIXED|0, "AP_BSS_STOP" }, -#ifdef ANDROID_BUILD - { SIOCIWSFWRELOADPRIV, IW_PRIV_TYPE_CHAR |256, - IW_PRIV_TYPE_CHAR |IW_PRIV_SIZE_FIXED|0, "WL_FW_RELOAD" }, - { SIOCIWSSTACKSTART, 0, - IW_PRIV_TYPE_CHAR |IW_PRIV_SIZE_FIXED|IWPRIV_SME_MAX_STRING, "START" }, - { SIOCIWSSTACKSTOP, 0, - IW_PRIV_TYPE_CHAR |IW_PRIV_SIZE_FIXED|IWPRIV_SME_MAX_STRING, "STOP" }, -#endif /* ANDROID_BUILD */ -#endif /* CSR_SUPPORT_WEXT_AP */ -}; - -static const iw_handler unifi_handler[] = -{ - (iw_handler) unifi_siwcommit, /* SIOCSIWCOMMIT */ - (iw_handler) unifi_giwname, /* SIOCGIWNAME */ - (iw_handler) NULL, /* SIOCSIWNWID */ - (iw_handler) NULL, /* SIOCGIWNWID */ - (iw_handler) unifi_siwfreq, /* SIOCSIWFREQ */ - (iw_handler) unifi_giwfreq, /* SIOCGIWFREQ */ - (iw_handler) unifi_siwmode, /* SIOCSIWMODE */ - (iw_handler) unifi_giwmode, /* SIOCGIWMODE */ - (iw_handler) NULL, /* SIOCSIWSENS */ - (iw_handler) NULL, /* SIOCGIWSENS */ - (iw_handler) NULL, /* SIOCSIWRANGE */ - (iw_handler) unifi_giwrange, /* SIOCGIWRANGE */ - (iw_handler) NULL, /* SIOCSIWPRIV */ - (iw_handler) NULL, /* SIOCGIWPRIV */ - (iw_handler) NULL, /* SIOCSIWSTATS */ - (iw_handler) NULL, /* SIOCGIWSTATS */ - (iw_handler) NULL, /* SIOCSIWSPY */ - (iw_handler) NULL, /* SIOCGIWSPY */ - (iw_handler) NULL, /* SIOCSIWTHRSPY */ - (iw_handler) NULL, /* SIOCGIWTHRSPY */ - (iw_handler) unifi_siwap, /* SIOCSIWAP */ - (iw_handler) unifi_giwap, /* SIOCGIWAP */ -#if WIRELESS_EXT > 17 - /* WPA : IEEE 802.11 MLME requests */ - unifi_siwmlme, /* SIOCSIWMLME, request MLME operation */ -#else - (iw_handler) NULL, /* -- hole -- */ -#endif - (iw_handler) NULL, /* SIOCGIWAPLIST */ - (iw_handler) unifi_siwscan, /* SIOCSIWSCAN */ - (iw_handler) unifi_giwscan, /* SIOCGIWSCAN */ - (iw_handler) unifi_siwessid, /* SIOCSIWESSID */ - (iw_handler) unifi_giwessid, /* SIOCGIWESSID */ - (iw_handler) NULL, /* SIOCSIWNICKN */ - (iw_handler) NULL, /* SIOCGIWNICKN */ - (iw_handler) NULL, /* -- hole -- */ - (iw_handler) NULL, /* -- hole -- */ - unifi_siwrate, /* SIOCSIWRATE */ - unifi_giwrate, /* SIOCGIWRATE */ - unifi_siwrts, /* SIOCSIWRTS */ - unifi_giwrts, /* SIOCGIWRTS */ - unifi_siwfrag, /* SIOCSIWFRAG */ - unifi_giwfrag, /* SIOCGIWFRAG */ - (iw_handler) NULL, /* SIOCSIWTXPOW */ - (iw_handler) NULL, /* SIOCGIWTXPOW */ - (iw_handler) NULL, /* SIOCSIWRETRY */ - (iw_handler) NULL, /* SIOCGIWRETRY */ - unifi_siwencode, /* SIOCSIWENCODE */ - unifi_giwencode, /* SIOCGIWENCODE */ - unifi_siwpower, /* SIOCSIWPOWER */ - unifi_giwpower, /* SIOCGIWPOWER */ -#if WIRELESS_EXT > 17 - (iw_handler) NULL, /* -- hole -- */ - (iw_handler) NULL, /* -- hole -- */ - - /* WPA : Generic IEEE 802.11 informatiom element (e.g., for WPA/RSN/WMM). */ - unifi_siwgenie, /* SIOCSIWGENIE */ /* set generic IE */ - unifi_giwgenie, /* SIOCGIWGENIE */ /* get generic IE */ - - /* WPA : Authentication mode parameters */ - unifi_siwauth, /* SIOCSIWAUTH */ /* set authentication mode params */ - unifi_giwauth, /* SIOCGIWAUTH */ /* get authentication mode params */ - - /* WPA : Extended version of encoding configuration */ - unifi_siwencodeext, /* SIOCSIWENCODEEXT */ /* set encoding token & mode */ - unifi_giwencodeext, /* SIOCGIWENCODEEXT */ /* get encoding token & mode */ - - /* WPA2 : PMKSA cache management */ - unifi_siwpmksa, /* SIOCSIWPMKSA */ /* PMKSA cache operation */ - (iw_handler) NULL, /* -- hole -- */ -#endif /* WIRELESS_EXT > 17 */ -}; - - -static const iw_handler unifi_private_handler[] = -{ - iwprivs80211ps, /* SIOCIWFIRSTPRIV */ - iwprivg80211ps, /* SIOCIWFIRSTPRIV + 1 */ - iwprivsdefs, /* SIOCIWFIRSTPRIV + 2 */ - (iw_handler) NULL, -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - iwprivsconfwapi, /* SIOCIWFIRSTPRIV + 4 */ - (iw_handler) NULL, /* SIOCIWFIRSTPRIV + 5 */ - iwprivswpikey, /* SIOCIWFIRSTPRIV + 6 */ -#else - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, -#endif - (iw_handler) NULL, - iwprivssmedebug, /* SIOCIWFIRSTPRIV + 8 */ -#ifdef CSR_SUPPORT_WEXT_AP - (iw_handler) NULL, - iwprivsapconfig, - (iw_handler) NULL, - iwprivsapstart, - (iw_handler) NULL, - iwprivsapstop, - (iw_handler) NULL, -#ifdef ANDROID_BUILD - iwprivsapfwreload, - (iw_handler) NULL, - iwprivsstackstart, - (iw_handler) NULL, - iwprivsstackstop, -#else - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, -#endif /* ANDROID_BUILD */ -#else - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, - (iw_handler) NULL, -#endif /* CSR_SUPPORT_WEXT_AP */ -}; - -struct iw_handler_def unifi_iw_handler_def = -{ - .num_standard = sizeof(unifi_handler) / sizeof(iw_handler), - .num_private = sizeof(unifi_private_handler) / sizeof(iw_handler), - .num_private_args = sizeof(unifi_private_args) / sizeof(struct iw_priv_args), - .standard = (iw_handler *) unifi_handler, - .private = (iw_handler *) unifi_private_handler, - .private_args = (struct iw_priv_args *) unifi_private_args, -#if IW_HANDLER_VERSION >= 6 - .get_wireless_stats = unifi_get_wireless_stats, -#endif -}; - - diff --git a/drivers/staging/csr/ul_int.c b/drivers/staging/csr/ul_int.c deleted file mode 100644 index eb286e5..0000000 --- a/drivers/staging/csr/ul_int.c +++ /dev/null @@ -1,528 +0,0 @@ -/* - * *************************************************************************** - * FILE: ul_int.c - * - * PURPOSE: - * Manage list of client applications using UniFi. - * - * Copyright (C) 2006-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * *************************************************************************** - */ -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" -#include "unifi_priv.h" -#include "unifiio.h" -#include "unifi_os.h" - -static void free_bulkdata_buffers(unifi_priv_t *priv, bulk_data_param_t *bulkdata); -static void reset_driver_status(unifi_priv_t *priv); - -/* - * --------------------------------------------------------------------------- - * ul_init_clients - * - * Initialise the clients array to empty. - * - * Arguments: - * priv Pointer to device private context struct - * - * Returns: - * None. - * - * Notes: - * This function needs to be called before priv is stored in - * Unifi_instances[]. - * --------------------------------------------------------------------------- - */ -void -ul_init_clients(unifi_priv_t *priv) -{ - int id; - ul_client_t *ul_clients; - - sema_init(&priv->udi_logging_mutex, 1); - priv->logging_client = NULL; - - ul_clients = priv->ul_clients; - - for (id = 0; id < MAX_UDI_CLIENTS; id++) { - memset(&ul_clients[id], 0, sizeof(ul_client_t)); - - ul_clients[id].client_id = id; - ul_clients[id].sender_id = UDI_SENDER_ID_BASE + (id << UDI_SENDER_ID_SHIFT); - ul_clients[id].instance = -1; - ul_clients[id].event_hook = NULL; - - INIT_LIST_HEAD(&ul_clients[id].udi_log); - init_waitqueue_head(&ul_clients[id].udi_wq); - sema_init(&ul_clients[id].udi_sem, 1); - - ul_clients[id].wake_up_wq_id = 0; - ul_clients[id].seq_no = 0; - ul_clients[id].wake_seq_no = 0; - ul_clients[id].snap_filter.count = 0; - } -} /* ul_init_clients() */ - - -/* - * --------------------------------------------------------------------------- - * ul_register_client - * - * This function registers a new ul client. - * - * Arguments: - * priv Pointer to device private context struct - * configuration Special configuration for the client. - * udi_event_clbk Callback for receiving event from unifi. - * - * Returns: - * 0 if a new clients is registered, -1 otherwise. - * --------------------------------------------------------------------------- - */ -ul_client_t * -ul_register_client(unifi_priv_t *priv, unsigned int configuration, - udi_event_t udi_event_clbk) -{ - unsigned char id, ref; - ul_client_t *ul_clients; - - ul_clients = priv->ul_clients; - - /* check for an unused entry */ - for (id = 0; id < MAX_UDI_CLIENTS; id++) { - if (ul_clients[id].udi_enabled == 0) { - ul_clients[id].instance = priv->instance; - ul_clients[id].udi_enabled = 1; - ul_clients[id].configuration = configuration; - - /* Allocate memory for the reply signal.. */ - ul_clients[id].reply_signal = kmalloc(sizeof(CSR_SIGNAL), GFP_KERNEL); - if (ul_clients[id].reply_signal == NULL) { - unifi_error(priv, "Failed to allocate reply signal for client.\n"); - return NULL; - } - /* .. and the bulk data of the reply signal. */ - for (ref = 0; ref < UNIFI_MAX_DATA_REFERENCES; ref ++) { - ul_clients[id].reply_bulkdata[ref] = kmalloc(sizeof(bulk_data_t), GFP_KERNEL); - /* If allocation fails, free allocated memory. */ - if (ul_clients[id].reply_bulkdata[ref] == NULL) { - for (; ref > 0; ref --) { - kfree(ul_clients[id].reply_bulkdata[ref - 1]); - } - kfree(ul_clients[id].reply_signal); - unifi_error(priv, "Failed to allocate bulk data buffers for client.\n"); - return NULL; - } - } - - /* Set the event callback. */ - ul_clients[id].event_hook = udi_event_clbk; - - unifi_trace(priv, UDBG2, "UDI %d (0x%x) registered. configuration = 0x%x\n", - id, &ul_clients[id], configuration); - return &ul_clients[id]; - } - } - return NULL; -} /* ul_register_client() */ - - -/* - * --------------------------------------------------------------------------- - * ul_deregister_client - * - * This function deregisters a blocking UDI client. - * - * Arguments: - * client Pointer to the client we deregister. - * - * Returns: - * 0 if a new clients is deregistered. - * --------------------------------------------------------------------------- - */ -int -ul_deregister_client(ul_client_t *ul_client) -{ - struct list_head *pos, *n; - udi_log_t *logptr; - unifi_priv_t *priv = uf_find_instance(ul_client->instance); - int ref; - - ul_client->instance = -1; - ul_client->event_hook = NULL; - ul_client->udi_enabled = 0; - unifi_trace(priv, UDBG5, "UDI (0x%x) deregistered.\n", ul_client); - - /* Free memory allocated for the reply signal and its bulk data. */ - kfree(ul_client->reply_signal); - for (ref = 0; ref < UNIFI_MAX_DATA_REFERENCES; ref ++) { - kfree(ul_client->reply_bulkdata[ref]); - } - - if (ul_client->snap_filter.count) { - ul_client->snap_filter.count = 0; - kfree(ul_client->snap_filter.protocols); - } - - /* Free anything pending on the udi_log list */ - down(&ul_client->udi_sem); - list_for_each_safe(pos, n, &ul_client->udi_log) - { - logptr = list_entry(pos, udi_log_t, q); - list_del(pos); - kfree(logptr); - } - up(&ul_client->udi_sem); - - return 0; -} /* ul_deregister_client() */ - - - -/* - * --------------------------------------------------------------------------- - * logging_handler - * - * This function is registered with the driver core. - * It is called every time a UniFi HIP Signal is sent. It iterates over - * the list of processes interested in receiving log events and - * delivers the events to them. - * - * Arguments: - * ospriv Pointer to driver's private data. - * sigdata Pointer to the packed signal buffer. - * signal_len Length of the packed signal. - * bulkdata Pointer to the signal's bulk data. - * dir Direction of the signal - * 0 = from-host - * 1 = to-host - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -logging_handler(void *ospriv, - u8 *sigdata, u32 signal_len, - const bulk_data_param_t *bulkdata, - enum udi_log_direction direction) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - ul_client_t *client; - int dir; - - dir = (direction == UDI_LOG_FROM_HOST) ? UDI_FROM_HOST : UDI_TO_HOST; - - down(&priv->udi_logging_mutex); - client = priv->logging_client; - if (client != NULL) { - client->event_hook(client, sigdata, signal_len, - bulkdata, dir); - } - up(&priv->udi_logging_mutex); - -} /* logging_handler() */ - - - -/* - * --------------------------------------------------------------------------- - * ul_log_config_ind - * - * This function uses the client's register callback - * to indicate configuration information e.g core errors. - * - * Arguments: - * priv Pointer to driver's private data. - * conf_param Pointer to the configuration data. - * len Length of the configuration data. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -ul_log_config_ind(unifi_priv_t *priv, u8 *conf_param, int len) -{ -#ifdef CSR_SUPPORT_SME - if (priv->smepriv == NULL) - { - return; - } - if ((CONFIG_IND_ERROR == (*conf_param)) && (priv->wifi_on_state == wifi_on_in_progress)) { - unifi_notice(priv, "ul_log_config_ind: wifi on in progress, suppress error\n"); - } else { - /* wifi_off_ind (error or exit) */ - CsrWifiRouterCtrlWifiOffIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, (CsrWifiRouterCtrlControlIndication)(*conf_param)); - } -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE - unifi_debug_buf_dump(); -#endif -#else - bulk_data_param_t bulkdata; - - /* - * If someone killed unifi_managed before the driver was unloaded - * the g_drvpriv pointer is going to be NULL. In this case it is - * safe to assume that there is no client to get the indication. - */ - if (!priv) { - unifi_notice(NULL, "uf_sme_event_ind: NULL priv\n"); - return; - } - - /* Create a null bulkdata structure. */ - bulkdata.d[0].data_length = 0; - bulkdata.d[1].data_length = 0; - - sme_native_log_event(priv->sme_cli, conf_param, sizeof(u8), - &bulkdata, UDI_CONFIG_IND); - -#endif /* CSR_SUPPORT_SME */ - -} /* ul_log_config_ind */ - - -/* - * --------------------------------------------------------------------------- - * free_bulkdata_buffers - * - * Free the bulkdata buffers e.g. after a failed unifi_send_signal(). - * - * Arguments: - * priv Pointer to device private struct - * bulkdata Pointer to bulkdata parameter table - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void -free_bulkdata_buffers(unifi_priv_t *priv, bulk_data_param_t *bulkdata) -{ - int i; - - if (bulkdata) { - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; ++i) { - if (bulkdata->d[i].data_length != 0) { - unifi_net_data_free(priv, (bulk_data_desc_t *)(&bulkdata->d[i])); - /* data_length is now 0 */ - } - } - } - -} /* free_bulkdata_buffers */ - -static int -_align_bulk_data_buffers(unifi_priv_t *priv, u8 *signal, - bulk_data_param_t *bulkdata) -{ - unsigned int i; - - if ((bulkdata == NULL) || (CSR_WIFI_ALIGN_BYTES == 0)) { - return 0; - } - - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) - { - struct sk_buff *skb; - /* - * The following complex casting is in place in order to eliminate 64-bit compilation warning - * "cast to/from pointer from/to integer of different size" - */ - u32 align_offset = (u32)(long)(bulkdata->d[i].os_data_ptr) & (CSR_WIFI_ALIGN_BYTES-1); - if (align_offset) - { - skb = (struct sk_buff*)bulkdata->d[i].os_net_buf_ptr; - if (skb == NULL) { - unifi_warning(priv, - "_align_bulk_data_buffers: Align offset found (%d) but skb is NULL!\n", - align_offset); - return -EINVAL; - } - if (bulkdata->d[i].data_length == 0) { - unifi_warning(priv, - "_align_bulk_data_buffers: Align offset found (%d) but length is zero\n", - align_offset); - return CSR_RESULT_SUCCESS; - } - unifi_trace(priv, UDBG5, - "Align f-h buffer (0x%p) by %d bytes (skb->data: 0x%p)\n", - bulkdata->d[i].os_data_ptr, align_offset, skb->data); - - - /* Check if there is enough headroom... */ - if (unlikely(skb_headroom(skb) < align_offset)) - { - struct sk_buff *tmp = skb; - - unifi_trace(priv, UDBG5, "Headroom not enough - realloc it\n"); - skb = skb_realloc_headroom(skb, align_offset); - if (skb == NULL) { - unifi_error(priv, - "_align_bulk_data_buffers: skb_realloc_headroom failed - signal is dropped\n"); - return -EFAULT; - } - /* Free the old bulk data only if allocation succeeds */ - kfree_skb(tmp); - /* Bulkdata needs to point to the new skb */ - bulkdata->d[i].os_net_buf_ptr = (const unsigned char*)skb; - bulkdata->d[i].os_data_ptr = (const void*)skb->data; - } - /* ... before pushing the data to the right alignment offset */ - skb_push(skb, align_offset); - - } - /* The direction bit is zero for the from-host */ - signal[SIZEOF_SIGNAL_HEADER + (i * SIZEOF_DATAREF) + 1] = align_offset; - - } - return 0; -} /* _align_bulk_data_buffers() */ - - -/* - * --------------------------------------------------------------------------- - * ul_send_signal_unpacked - * - * This function sends a host formatted signal to unifi. - * - * Arguments: - * priv Pointer to driver's private data. - * sigptr Pointer to the signal. - * bulkdata Pointer to the signal's bulk data. - * - * Returns: - * O on success, error code otherwise. - * - * Notes: - * The signals have to be sent in the format described in the host interface - * specification, i.e wire formatted. Certain clients use the host formatted - * structures. The write_pack() transforms the host formatted signal - * into the wired formatted signal. The code is in the core, since the signals - * are defined therefore binded to the host interface specification. - * --------------------------------------------------------------------------- - */ -int -ul_send_signal_unpacked(unifi_priv_t *priv, CSR_SIGNAL *sigptr, - bulk_data_param_t *bulkdata) -{ - u8 sigbuf[UNIFI_PACKED_SIGBUF_SIZE]; - u16 packed_siglen; - CsrResult csrResult; - unsigned long lock_flags; - int r; - - - csrResult = write_pack(sigptr, sigbuf, &packed_siglen); - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "Malformed HIP signal in ul_send_signal_unpacked()\n"); - return CsrHipResultToStatus(csrResult); - } - r = _align_bulk_data_buffers(priv, sigbuf, (bulk_data_param_t*)bulkdata); - if (r) { - return r; - } - - spin_lock_irqsave(&priv->send_signal_lock, lock_flags); - csrResult = unifi_send_signal(priv->card, sigbuf, packed_siglen, bulkdata); - if (csrResult != CSR_RESULT_SUCCESS) { - /* free_bulkdata_buffers(priv, (bulk_data_param_t *)bulkdata); */ - spin_unlock_irqrestore(&priv->send_signal_lock, lock_flags); - return CsrHipResultToStatus(csrResult); - } - spin_unlock_irqrestore(&priv->send_signal_lock, lock_flags); - - return 0; -} /* ul_send_signal_unpacked() */ - - -/* - * --------------------------------------------------------------------------- - * reset_driver_status - * - * This function is called from ul_send_signal_raw() when it detects - * that the SME has sent a MLME-RESET request. - * - * Arguments: - * priv Pointer to device private struct - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -static void -reset_driver_status(unifi_priv_t *priv) -{ - priv->sta_wmm_capabilities = 0; -#ifdef CSR_NATIVE_LINUX -#ifdef CSR_SUPPORT_WEXT - priv->wext_conf.flag_associated = 0; - priv->wext_conf.block_controlled_port = CSR_WIFI_ROUTER_PORT_ACTION_8021X_PORT_OPEN; - priv->wext_conf.bss_wmm_capabilities = 0; - priv->wext_conf.disable_join_on_ssid_set = 0; -#endif -#endif -} /* reset_driver_status() */ - - -/* - * --------------------------------------------------------------------------- - * ul_send_signal_raw - * - * This function sends a wire formatted data signal to unifi. - * - * Arguments: - * priv Pointer to driver's private data. - * sigptr Pointer to the signal. - * siglen Length of the signal. - * bulkdata Pointer to the signal's bulk data. - * - * Returns: - * O on success, error code otherwise. - * --------------------------------------------------------------------------- - */ -int -ul_send_signal_raw(unifi_priv_t *priv, unsigned char *sigptr, int siglen, - bulk_data_param_t *bulkdata) -{ - CsrResult csrResult; - unsigned long lock_flags; - int r; - - /* - * Make sure that the signal is updated with the bulk data - * alignment for DMA. - */ - r = _align_bulk_data_buffers(priv, (u8*)sigptr, bulkdata); - if (r) { - return r; - } - - spin_lock_irqsave(&priv->send_signal_lock, lock_flags); - csrResult = unifi_send_signal(priv->card, sigptr, siglen, bulkdata); - if (csrResult != CSR_RESULT_SUCCESS) { - free_bulkdata_buffers(priv, bulkdata); - spin_unlock_irqrestore(&priv->send_signal_lock, lock_flags); - return CsrHipResultToStatus(csrResult); - } - spin_unlock_irqrestore(&priv->send_signal_lock, lock_flags); - - /* - * Since this is use by unicli, if we get an MLME reset request - * we need to initialize a few status parameters - * that the driver uses to make decisions. - */ - if (GET_SIGNAL_ID(sigptr) == CSR_MLME_RESET_REQUEST_ID) { - reset_driver_status(priv); - } - - return 0; -} /* ul_send_signal_raw() */ - - diff --git a/drivers/staging/csr/unifi_clients.h b/drivers/staging/csr/unifi_clients.h deleted file mode 100644 index df853e1..0000000 --- a/drivers/staging/csr/unifi_clients.h +++ /dev/null @@ -1,129 +0,0 @@ -/* - ***************************************************************************** - * - * FILE : unifi_clients.h - * - * PURPOSE : Private header file for unifi clients. - * - * UDI = UniFi Debug Interface - * - * Copyright (C) 2005-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - ***************************************************************************** - */ -#ifndef __LINUX_UNIFI_CLIENTS_H__ -#define __LINUX_UNIFI_CLIENTS_H__ 1 - -#include <linux/kernel.h> - -#define MAX_UDI_CLIENTS 8 - -/* The start of the range of process ids allocated for ul clients */ -#define UDI_SENDER_ID_BASE 0xC000 -#define UDI_SENDER_ID_SHIFT 8 - - -/* Structure to hold a UDI logged signal */ -typedef struct { - - /* List link structure */ - struct list_head q; - - /* The message that will be passed to the user app */ - udi_msg_t msg; - - /* Signal body and data follow */ - -} udi_log_t; - - - -typedef struct ul_client ul_client_t; - -typedef void (*udi_event_t)(ul_client_t *client, - const u8 *sigdata, int signal_len, - const bulk_data_param_t *bulkdata, - int dir); - -void logging_handler(void *ospriv, - u8 *sigdata, u32 signal_len, - const bulk_data_param_t *bulkdata, - enum udi_log_direction direction); - - -/* - * Structure describing a bulk data slot. - * The length field is used to indicate empty/occupied state. - */ -typedef struct _bulk_data -{ - unsigned char ptr[2000]; - unsigned int length; -} bulk_data_t; - - -struct ul_client { - /* Index of this client in the ul_clients array. */ - int client_id; - - /* Index of UniFi device to which this client is attached. */ - int instance; - - /* Flag to say whether this client has been enabled. */ - int udi_enabled; - - /* Value to use in signal->SenderProcessId */ - int sender_id; - - /* Configuration flags, e.g blocking, logging, etc. */ - unsigned int configuration; - - udi_event_t event_hook; - - /* A list to hold signals received from UniFi for reading by read() */ - struct list_head udi_log; - - /* Semaphore to protect the udi_log list */ - struct semaphore udi_sem; - - /* - * Linux waitqueue to support blocking read and poll. - * Logging clients should wait on udi_log. while - * blocking clients should wait on wake_up_wq. - */ - wait_queue_head_t udi_wq; - CSR_SIGNAL* reply_signal; - bulk_data_t* reply_bulkdata[UNIFI_MAX_DATA_REFERENCES]; - - u16 signal_filter[SIG_FILTER_SIZE]; - - - /* ------------------------------------------------------------------- */ - /* Code below here is used by the sme_native configuration only */ - - /* Flag to wake up blocking clients waiting on udi_wq. */ - int wake_up_wq_id; - - /* - * A 0x00 - 0x0F mask to apply in signal->SenderProcessId. - * Every time we do a blocking mlme request we increase this value. - * The mlme_wait_for_reply() will wait for this sequence number. - * Only the MLME blocking functions update this field. - */ - unsigned char seq_no; - - /* - * A 0x00 - 0x0F counter, containing the sequence number of - * the signal that this client has last received. - * Only the MLME blocking functions update this field. - */ - unsigned char wake_seq_no; - - unifiio_snap_filter_t snap_filter; -}; /* struct ul_client */ - - -#endif /* __LINUX_UNIFI_CLIENTS_H__ */ diff --git a/drivers/staging/csr/unifi_config.h b/drivers/staging/csr/unifi_config.h deleted file mode 100644 index fe11970..0000000 --- a/drivers/staging/csr/unifi_config.h +++ /dev/null @@ -1,34 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * - * FILE: unifi_config.h - * - * PURPOSE: - * This header file provides parameters that configure the operation - * of the driver. - * - * Copyright (C) 2006-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#ifndef __UNIFI_CONFIG_H__ -#define __UNIFI_CONFIG_H__ 1 - -/* - * Override for the SDIO function block size on this host. When byte mode CMD53s - * are not used/supported by the SD host controller, transfers are padded up to - * the next block boundary. The 512-byte default on UF6xxx wastes too much space - * on the chip, so the block size is reduced to support this configuration. - */ -#define CSR_WIFI_HIP_SDIO_BLOCK_SIZE 64 - -/* Define the number of mini-coredump buffers to allocate at startup. These are - * used to record chip status for the last n unexpected resets. - */ -#define CSR_WIFI_HIP_NUM_COREDUMP_BUFFERS 5 - - -#endif /* __UNIFI_CONFIG_H__ */ diff --git a/drivers/staging/csr/unifi_dbg.c b/drivers/staging/csr/unifi_dbg.c deleted file mode 100644 index 38d5708..0000000 --- a/drivers/staging/csr/unifi_dbg.c +++ /dev/null @@ -1,110 +0,0 @@ -/* - * *************************************************************************** - * FILE: unifi_dbg.c - * - * PURPOSE: - * Handle debug signals received from UniFi. - * - * Copyright (C) 2007-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * *************************************************************************** - */ -#include "unifi_priv.h" - -/* - * --------------------------------------------------------------------------- - * debug_string_indication - * debug_word16_indication - * - * Handlers for debug indications. - * - * Arguments: - * priv Pointer to private context structure. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -debug_string_indication(unifi_priv_t *priv, const unsigned char *extra, unsigned int extralen) -{ - const unsigned int maxlen = sizeof(priv->last_debug_string) - 1; - - if (extralen > maxlen) { - extralen = maxlen; - } - - strncpy(priv->last_debug_string, extra, extralen); - - /* Make sure the string is terminated */ - priv->last_debug_string[extralen] = '\0'; - - unifi_info(priv, "unifi debug: %s\n", priv->last_debug_string); - -} /* debug_string_indication() */ - - - -void -debug_word16_indication(unifi_priv_t *priv, const CSR_SIGNAL *sigptr) -{ - int i; - - if (priv == NULL) { - unifi_info(priv, "Priv is NULL\n"); - return; - } - - for (i = 0; i < 16; i++) { - priv->last_debug_word16[i] = - sigptr->u.DebugWord16Indication.DebugWords[i]; - } - - if (priv->last_debug_word16[0] == 0xFA11) { - unsigned long ts; - ts = (priv->last_debug_word16[6] << 16) | priv->last_debug_word16[5]; - unifi_info(priv, " %10lu: %s fault %04x, arg %04x (x%d)\n", - ts, - priv->last_debug_word16[3] == 0x8000 ? "MAC" : - priv->last_debug_word16[3] == 0x4000 ? "PHY" : - "???", - priv->last_debug_word16[1], - priv->last_debug_word16[2], - priv->last_debug_word16[4]); - } - else if (priv->last_debug_word16[0] != 0xDBAC) - /* suppress SDL Trace output (note: still available to unicli). */ - { - unifi_info(priv, "unifi debug: %04X %04X %04X %04X %04X %04X %04X %04X\n", - priv->last_debug_word16[0], priv->last_debug_word16[1], - priv->last_debug_word16[2], priv->last_debug_word16[3], - priv->last_debug_word16[4], priv->last_debug_word16[5], - priv->last_debug_word16[6], priv->last_debug_word16[7]); - unifi_info(priv, " %04X %04X %04X %04X %04X %04X %04X %04X\n", - priv->last_debug_word16[8], priv->last_debug_word16[9], - priv->last_debug_word16[10], priv->last_debug_word16[11], - priv->last_debug_word16[12], priv->last_debug_word16[13], - priv->last_debug_word16[14], priv->last_debug_word16[15]); - } - -} /* debug_word16_indication() */ - - -void -debug_generic_indication(unifi_priv_t *priv, const CSR_SIGNAL *sigptr) -{ - unifi_info(priv, "debug: %04X %04X %04X %04X %04X %04X %04X %04X\n", - sigptr->u.DebugGenericIndication.DebugWords[0], - sigptr->u.DebugGenericIndication.DebugWords[1], - sigptr->u.DebugGenericIndication.DebugWords[2], - sigptr->u.DebugGenericIndication.DebugWords[3], - sigptr->u.DebugGenericIndication.DebugWords[4], - sigptr->u.DebugGenericIndication.DebugWords[5], - sigptr->u.DebugGenericIndication.DebugWords[6], - sigptr->u.DebugGenericIndication.DebugWords[7]); - -} /* debug_generic_indication() */ - diff --git a/drivers/staging/csr/unifi_event.c b/drivers/staging/csr/unifi_event.c deleted file mode 100644 index 71fdb21..0000000 --- a/drivers/staging/csr/unifi_event.c +++ /dev/null @@ -1,692 +0,0 @@ -/* - * *************************************************************************** - * FILE: unifi_event.c - * - * PURPOSE: - * Process the signals received by UniFi. - * It is part of the porting exercise. - * - * Copyright (C) 2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * *************************************************************************** - */ - - -/* - * Porting notes: - * The implementation of unifi_receive_event() in Linux is fairly complicated. - * The linux driver support multiple userspace applications and several - * build configurations, so the received signals are processed by different - * processes and multiple times. - * In a simple implementation, this function needs to deliver: - * - The MLME-UNITDATA.ind signals to the Rx data plane and to the Traffic - * Analysis using unifi_ta_sample(). - * - The MLME-UNITDATA-STATUS.ind signals to the Tx data plane. - * - All the other signals to the SME using unifi_sys_hip_ind(). - */ - -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" -#include "unifi_priv.h" - - -/* - * --------------------------------------------------------------------------- - * send_to_client - * - * Helper for unifi_receive_event. - * - * This function forwards a signal to one client. - * - * Arguments: - * priv Pointer to driver's private data. - * client Pointer to the client structure. - * receiver_id The reciever id of the signal. - * sigdata Pointer to the packed signal buffer. - * siglen Length of the packed signal. - * bulkdata Pointer to the signal's bulk data. - * - * Returns: - * None. - * - * --------------------------------------------------------------------------- - */ -static void send_to_client(unifi_priv_t *priv, ul_client_t *client, - int receiver_id, - unsigned char *sigdata, int siglen, - const bulk_data_param_t *bulkdata) -{ - if (client && client->event_hook) { - /*unifi_trace(priv, UDBG3, - "Receive: client %d, (s:0x%X, r:0x%X) - Signal 0x%.4X \n", - client->client_id, client->sender_id, receiver_id, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata));*/ - - client->event_hook(client, sigdata, siglen, bulkdata, UDI_TO_HOST); - } -} - -/* - * --------------------------------------------------------------------------- - * process_pkt_data_ind - * - * Dispatcher for received signals. - * - * This function receives the 'to host' signals and forwards - * them to the unifi linux clients. - * - * Arguments: - * priv Context - * sigdata Pointer to the packed signal buffer(Its in form of MA-PACKET.ind). - * bulkdata Pointer to signal's bulkdata - * freeBulkData Pointer to a flag which gets set if the bulkdata needs to - * be freed after calling the logging handlers. If it is not - * set the bulkdata must be freed by the MLME handler or - * passed to the network stack. - * Returns: - * TRUE if the packet should be routed to the SME etc. - * FALSE if the packet is for the driver or network stack - * --------------------------------------------------------------------------- - */ -static u8 check_routing_pkt_data_ind(unifi_priv_t *priv, - u8 *sigdata, - const bulk_data_param_t* bulkdata, - u8 *freeBulkData, - netInterface_priv_t *interfacePriv) -{ - u16 frmCtrl, receptionStatus, frmCtrlSubType; - u8 *macHdrLocation; - u8 interfaceTag; - u8 isDataFrame; - u8 isProtocolVerInvalid = FALSE; - u8 isDataFrameSubTypeNoData = FALSE; - -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - static const u8 wapiProtocolIdSNAPHeader[] = {0x88, 0xb4}; - static const u8 wapiProtocolIdSNAPHeaderOffset = 6; - u8 *destAddr; - u8 *srcAddr; - u8 isWapiUnicastPkt = FALSE; - -#ifdef CSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND - u16 qosControl; -#endif - - u8 llcSnapHeaderOffset = 0; - - destAddr = (u8 *) bulkdata->d[0].os_data_ptr + MAC_HEADER_ADDR1_OFFSET; - srcAddr = (u8 *) bulkdata->d[0].os_data_ptr + MAC_HEADER_ADDR2_OFFSET; - - /*Individual/Group bit - Bit 0 of first byte*/ - isWapiUnicastPkt = (!(destAddr[0] & 0x01)) ? TRUE : FALSE; -#endif - -#define CSR_WIFI_MA_PKT_IND_RECEPTION_STATUS_OFFSET sizeof(CSR_SIGNAL_PRIMITIVE_HEADER) + 22 - - *freeBulkData = FALSE; - - /* Fetch the MAC header location from MA_PKT_IND packet */ - macHdrLocation = (u8 *) bulkdata->d[0].os_data_ptr; - /* Fetch the Frame Control value from MAC header */ - frmCtrl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(macHdrLocation); - - /* Pull out interface tag from virtual interface identifier */ - interfaceTag = (CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata + 14)) & 0xff; - - /* check for MIC failure before processing the signal */ - receptionStatus = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata + CSR_WIFI_MA_PKT_IND_RECEPTION_STATUS_OFFSET); - - /* To discard any spurious MIC failures that could be reported by the firmware */ - isDataFrame = ((frmCtrl & IEEE80211_FC_TYPE_MASK) == (IEEE802_11_FC_TYPE_DATA & IEEE80211_FC_TYPE_MASK)) ? TRUE : FALSE; - /* 0x00 is the only valid protocol version*/ - isProtocolVerInvalid = (frmCtrl & IEEE80211_FC_PROTO_VERSION_MASK) ? TRUE : FALSE; - frmCtrlSubType = (frmCtrl & IEEE80211_FC_SUBTYPE_MASK) >> FRAME_CONTROL_SUBTYPE_FIELD_OFFSET; - /*Exclude the no data & reserved sub-types from MIC failure processing*/ - isDataFrameSubTypeNoData = (((frmCtrlSubType>0x03)&&(frmCtrlSubType<0x08)) || (frmCtrlSubType>0x0B)) ? TRUE : FALSE; - if ((receptionStatus == CSR_MICHAEL_MIC_ERROR) && - ((!isDataFrame) || isProtocolVerInvalid || (isDataFrame && isDataFrameSubTypeNoData))) { - /* Currently MIC errors are discarded for frames other than data frames. This might need changing when we start - * supporting 802.11w (Protected Management frames) - */ - *freeBulkData = TRUE; - unifi_trace(priv, UDBG4, "Discarding this frame and ignoring the MIC failure as this is a garbage/non-data/no data frame\n"); - return FALSE; - } - -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - - if (receptionStatus == CSR_MICHAEL_MIC_ERROR) { - - if (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_STA) { - -#ifdef CSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND - if ((isDataFrame) && - ((IEEE802_11_FC_TYPE_QOS_DATA & IEEE80211_FC_SUBTYPE_MASK) == (frmCtrl & IEEE80211_FC_SUBTYPE_MASK)) && - (priv->isWapiConnection)) - { - qosControl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(macHdrLocation + (((frmCtrl & IEEE802_11_FC_TO_DS_MASK) && (frmCtrl & IEEE802_11_FC_FROM_DS_MASK)) ? 30 : 24) ); - - unifi_trace(priv, UDBG4, "check_routing_pkt_data_ind() :: Value of the QoS control field - 0x%04x \n", qosControl); - - if (qosControl & IEEE802_11_QC_NON_TID_BITS_MASK) - { - unifi_trace(priv, UDBG4, "Ignore the MIC failure and pass the MPDU to the stack when any of bits [4-15] is set in the QoS control field\n"); - - /*Exclude the MIC [16] and the PN [16] that are appended by the firmware*/ - ((bulk_data_param_t*)bulkdata)->d[0].data_length = bulkdata->d[0].data_length - 32; - - /*Clear the reception status of the signal (CSR_RX_SUCCESS)*/ - *(sigdata + CSR_WIFI_MA_PKT_IND_RECEPTION_STATUS_OFFSET) = 0x00; - *(sigdata + CSR_WIFI_MA_PKT_IND_RECEPTION_STATUS_OFFSET+1) = 0x00; - - *freeBulkData = FALSE; - - return FALSE; - } - } -#endif - /* If this MIC ERROR reported by the firmware is either for - * [1] a WAPI Multicast MPDU and the Multicast filter has NOT been set (It is set only when group key index (MSKID) = 1 in Group Rekeying) OR - * [2] a WAPI Unicast MPDU and either the CONTROL PORT is open or the WAPI Unicast filter or filter(s) is NOT set - * then report a MIC FAILURE indication to the SME. - */ -#ifndef CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION - if ((priv->wapi_multicast_filter == 0) || isWapiUnicastPkt) { -#else - /*When SW encryption is enabled and USKID=1 (wapi_unicast_filter = 1), we are expected - *to receive MIC failure INDs for unicast MPDUs*/ - if ( ((priv->wapi_multicast_filter == 0) && !isWapiUnicastPkt) || - ((priv->wapi_unicast_filter == 0) && isWapiUnicastPkt) ) { -#endif - /*Discard the frame*/ - *freeBulkData = TRUE; - unifi_trace(priv, UDBG4, "Discarding the contents of the frame with MIC failure \n"); - - if (isWapiUnicastPkt && - ((uf_sme_port_state(priv, srcAddr, UF_CONTROLLED_PORT_Q, interfaceTag) != CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN)|| -#ifndef CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION - (priv->wapi_unicast_filter) || -#endif - (priv->wapi_unicast_queued_pkt_filter))) { - - /* Workaround to handle MIC failures reported by the firmware for encrypted packets from the AP - * while we are in the process of re-association induced by unsupported WAPI Unicast key index - * - Discard the packets with MIC failures "until" we have - * a. negotiated a key, - * b. opened the CONTROL PORT and - * c. the AP has started using the new key - */ - unifi_trace(priv, UDBG4, "Ignoring the MIC failure as either a. CONTROL PORT isn't OPEN or b. Unicast filter is set or c. WAPI AP using old key for buffered pkts\n"); - - /*Ignore this MIC failure*/ - return FALSE; - - }/*WAPI re-key specific workaround*/ - - unifi_trace(priv, UDBG6, "check_routing_pkt_data_ind - MIC FAILURE : interfaceTag %x Src Addr %x:%x:%x:%x:%x:%x\n", - interfaceTag, srcAddr[0], srcAddr[1], srcAddr[2], srcAddr[3], srcAddr[4], srcAddr[5]); - unifi_trace(priv, UDBG6, "check_routing_pkt_data_ind - MIC FAILURE : Dest Addr %x:%x:%x:%x:%x:%x\n", - destAddr[0], destAddr[1], destAddr[2], destAddr[3], destAddr[4], destAddr[5]); - unifi_trace(priv, UDBG6, "check_routing_pkt_data_ind - MIC FAILURE : Control Port State - 0x%.4X \n", - uf_sme_port_state(priv, srcAddr, UF_CONTROLLED_PORT_Q, interfaceTag)); - - unifi_error(priv, "MIC failure in %s\n", __FUNCTION__); - - /*Report the MIC failure to the SME*/ - return TRUE; - } - }/* STA mode */ - else { - /* Its AP Mode . Just Return */ - *freeBulkData = TRUE; - unifi_error(priv, "MIC failure in %s\n", __FUNCTION__); - return TRUE; - } /* AP mode */ - }/* MIC error */ -#else - if (receptionStatus == CSR_MICHAEL_MIC_ERROR) { - *freeBulkData = TRUE; - unifi_error(priv, "MIC failure in %s\n", __FUNCTION__); - return TRUE; - } -#endif /*CSR_WIFI_SECURITY_WAPI_ENABLE*/ - - unifi_trace(priv, UDBG4, "frmCtrl = 0x%04x %s\n", - frmCtrl, - (((frmCtrl & 0x000c)>>FRAME_CONTROL_TYPE_FIELD_OFFSET) == IEEE802_11_FRAMETYPE_MANAGEMENT) ? - "Mgt" : "Ctrl/Data"); - -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - /* To ignore MIC failures reported due to the WAPI AP using the old key for queued packets before - * starting to use the new key negotiated as part of unicast re-keying - */ - if ((interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_STA)&& - isWapiUnicastPkt && - (receptionStatus == CSR_RX_SUCCESS) && - (priv->wapi_unicast_queued_pkt_filter==1)) { - - unifi_trace(priv, UDBG6, "check_routing_pkt_data_ind(): WAPI unicast pkt received when the (wapi_unicast_queued_pkt_filter) is set\n"); - - if (isDataFrame) { - switch(frmCtrl & IEEE80211_FC_SUBTYPE_MASK) { - case IEEE802_11_FC_TYPE_QOS_DATA & IEEE80211_FC_SUBTYPE_MASK: - llcSnapHeaderOffset = MAC_HEADER_SIZE + 2; - break; - case IEEE802_11_FC_TYPE_QOS_NULL & IEEE80211_FC_SUBTYPE_MASK: - case IEEE802_11_FC_TYPE_NULL & IEEE80211_FC_SUBTYPE_MASK: - break; - default: - llcSnapHeaderOffset = MAC_HEADER_SIZE; - } - } - - if (llcSnapHeaderOffset > 0) { - /* QoS data or Data */ - unifi_trace(priv, UDBG6, "check_routing_pkt_data_ind(): SNAP header found & its offset %d\n", llcSnapHeaderOffset); - if (memcmp((u8 *)(bulkdata->d[0].os_data_ptr+llcSnapHeaderOffset+wapiProtocolIdSNAPHeaderOffset), - wapiProtocolIdSNAPHeader, sizeof(wapiProtocolIdSNAPHeader))) { - - unifi_trace(priv, UDBG6, "check_routing_pkt_data_ind(): This is a data & NOT a WAI protocol packet\n"); - /* On the first unicast data pkt that is decrypted successfully after re-keying, reset the filter */ - priv->wapi_unicast_queued_pkt_filter = 0; - unifi_trace(priv, UDBG4, "check_routing_pkt_data_ind(): WAPI AP has started using the new unicast key, no more MIC failures expected (reset filter)\n"); - } - else { - unifi_trace(priv, UDBG6, "check_routing_pkt_data_ind(): WAPI - This is a WAI protocol packet\n"); - } - } - } -#endif - - - switch ((frmCtrl & 0x000c)>>FRAME_CONTROL_TYPE_FIELD_OFFSET) { - case IEEE802_11_FRAMETYPE_MANAGEMENT: - *freeBulkData = TRUE; /* Free (after SME handler copies it) */ - - /* In P2P device mode, filter the legacy AP beacons here */ - if((interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2P)&&\ - ((CSR_WIFI_80211_GET_FRAME_SUBTYPE(macHdrLocation)) == CSR_WIFI_80211_FRAME_SUBTYPE_BEACON)){ - - u8 *pSsid, *pSsidLen; - static u8 P2PWildCardSsid[CSR_WIFI_P2P_WILDCARD_SSID_LENGTH] = {'D', 'I', 'R', 'E', 'C', 'T', '-'}; - - pSsidLen = macHdrLocation + MAC_HEADER_SIZE + CSR_WIFI_BEACON_FIXED_LENGTH; - pSsid = pSsidLen + 2; - - if(*(pSsidLen + 1) >= CSR_WIFI_P2P_WILDCARD_SSID_LENGTH){ - if(memcmp(pSsid, P2PWildCardSsid, CSR_WIFI_P2P_WILDCARD_SSID_LENGTH) == 0){ - unifi_trace(priv, UDBG6, "Received a P2P Beacon, pass it to SME\n"); - return TRUE; - } - } - unifi_trace(priv, UDBG6, "Received a Legacy AP beacon in P2P mode, drop it\n"); - return FALSE; - } - return TRUE; /* Route to SME */ - case IEEE802_11_FRAMETYPE_DATA: - case IEEE802_11_FRAMETYPE_CONTROL: - *freeBulkData = FALSE; /* Network stack or MLME handler frees */ - return FALSE; - default: - unifi_error(priv, "Unhandled frame type %04x\n", frmCtrl); - *freeBulkData = TRUE; /* Not interested, but must free it */ - return FALSE; - } -} - -/* - * --------------------------------------------------------------------------- - * unifi_process_receive_event - * - * Dispatcher for received signals. - * - * This function receives the 'to host' signals and forwards - * them to the unifi linux clients. - * - * Arguments: - * ospriv Pointer to driver's private data. - * sigdata Pointer to the packed signal buffer. - * siglen Length of the packed signal. - * bulkdata Pointer to the signal's bulk data. - * - * Returns: - * None. - * - * Notes: - * The signals are received in the format described in the host interface - * specification, i.e wire formatted. Certain clients use the same format - * to interpret them and other clients use the host formatted structures. - * Each client has to call read_unpack_signal() to transform the wire - * formatted signal into the host formatted signal, if necessary. - * The code is in the core, since the signals are defined therefore - * binded to the host interface specification. - * --------------------------------------------------------------------------- - */ -static void -unifi_process_receive_event(void *ospriv, - u8 *sigdata, u32 siglen, - const bulk_data_param_t *bulkdata) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - int i, receiver_id; - int client_id; - s16 signal_id; - u8 pktIndToSme = FALSE, freeBulkData = FALSE; - - unifi_trace(priv, UDBG5, "unifi_process_receive_event: " - "%04x %04x %04x %04x %04x %04x %04x %04x (%d)\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*0) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*1) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*2) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*3) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*4) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*5) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*6) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*7) & 0xFFFF, - siglen); - - receiver_id = CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)) & 0xFF00; - client_id = (receiver_id & 0x0F00) >> UDI_SENDER_ID_SHIFT; - signal_id = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata); - - - - /* check for the type of frame received (checks for 802.11 management frames) */ - if (signal_id == CSR_MA_PACKET_INDICATION_ID) - { -#define CSR_MA_PACKET_INDICATION_INTERFACETAG_OFFSET 14 - u8 interfaceTag; - netInterface_priv_t *interfacePriv; - - /* Pull out interface tag from virtual interface identifier */ - interfaceTag = (CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata + CSR_MA_PACKET_INDICATION_INTERFACETAG_OFFSET)) & 0xff; - interfacePriv = priv->interfacePriv[interfaceTag]; - - /* Update activity for this station in case of IBSS */ -#ifdef CSR_SUPPORT_SME - if (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_IBSS) - { - u8 *saddr; - /* Fetch the source address from mac header */ - saddr = (u8 *) bulkdata->d[0].os_data_ptr + MAC_HEADER_ADDR2_OFFSET; - unifi_trace(priv, UDBG5, - "Updating sta activity in IBSS interfaceTag %x Src Addr %x:%x:%x:%x:%x:%x\n", - interfaceTag, saddr[0], saddr[1], saddr[2], saddr[3], saddr[4], saddr[5]); - - uf_update_sta_activity(priv, interfaceTag, saddr); - } -#endif - - pktIndToSme = check_routing_pkt_data_ind(priv, sigdata, bulkdata, &freeBulkData, interfacePriv); - - unifi_trace(priv, UDBG6, "RX: packet entry point to driver from HIP,pkt to SME ?(%s) \n", (pktIndToSme)? "YES":"NO"); - - } - - if (pktIndToSme) - { - /* Management MA_PACKET_IND for SME */ - if(sigdata != NULL && bulkdata != NULL){ - send_to_client(priv, priv->sme_cli, receiver_id, sigdata, siglen, bulkdata); - } - else{ - unifi_error(priv, "unifi_receive_event2: sigdata or Bulkdata is NULL \n"); - } -#ifdef CSR_NATIVE_LINUX - send_to_client(priv, priv->wext_client, - receiver_id, - sigdata, siglen, bulkdata); -#endif - } - else - { - /* Signals with ReceiverId==0 are also reported to SME / WEXT, - * unless they are data/control MA_PACKET_INDs or VIF_AVAILABILITY_INDs - */ - if (!receiver_id) { - if(signal_id == CSR_MA_VIF_AVAILABILITY_INDICATION_ID) { - uf_process_ma_vif_availibility_ind(priv, sigdata, siglen); - } - else if (signal_id != CSR_MA_PACKET_INDICATION_ID) { - send_to_client(priv, priv->sme_cli, receiver_id, sigdata, siglen, bulkdata); -#ifdef CSR_NATIVE_LINUX - send_to_client(priv, priv->wext_client, - receiver_id, - sigdata, siglen, bulkdata); -#endif - } - else - { - -#if (defined(CSR_SUPPORT_SME) && defined(CSR_WIFI_SECURITY_WAPI_ENABLE)) - #define CSR_MA_PACKET_INDICATION_RECEPTION_STATUS_OFFSET sizeof(CSR_SIGNAL_PRIMITIVE_HEADER) + 22 - netInterface_priv_t *interfacePriv; - u8 interfaceTag; - u16 receptionStatus = CSR_RX_SUCCESS; - - /* Pull out interface tag from virtual interface identifier */ - interfaceTag = (CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata + CSR_MA_PACKET_INDICATION_INTERFACETAG_OFFSET)) & 0xff; - interfacePriv = priv->interfacePriv[interfaceTag]; - - /* check for MIC failure */ - receptionStatus = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata + CSR_MA_PACKET_INDICATION_RECEPTION_STATUS_OFFSET); - - /* Send a WAPI MPDU to SME for re-check MIC if the respective filter has been set*/ - if ((!freeBulkData) && - (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_STA) && - (receptionStatus == CSR_MICHAEL_MIC_ERROR) && - ((priv->wapi_multicast_filter == 1) -#ifdef CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION - || (priv->wapi_unicast_filter == 1) -#endif - )) - { - CSR_SIGNAL signal; - u8 *destAddr; - CsrResult res; - u16 interfaceTag = 0; - u8 isMcastPkt = TRUE; - - unifi_trace(priv, UDBG6, "Received a WAPI data packet when the Unicast/Multicast filter is set\n"); - res = read_unpack_signal(sigdata, &signal); - if (res) { - unifi_error(priv, "Received unknown or corrupted signal (0x%x).\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata)); - return; - } - - /* Check if the type of MPDU and the respective filter status*/ - destAddr = (u8 *) bulkdata->d[0].os_data_ptr + MAC_HEADER_ADDR1_OFFSET; - isMcastPkt = (destAddr[0] & 0x01) ? TRUE : FALSE; - unifi_trace(priv, UDBG6, - "1.MPDU type: (%s), 2.Multicast filter: (%s), 3. Unicast filter: (%s)\n", - ((isMcastPkt) ? "Multiast":"Unicast"), - ((priv->wapi_multicast_filter) ? "Enabled":"Disabled"), - ((priv->wapi_unicast_filter) ? "Enabled":"Disabled")); - - if (((isMcastPkt) && (priv->wapi_multicast_filter == 1)) -#ifdef CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION - || ((!isMcastPkt) && (priv->wapi_unicast_filter == 1)) -#endif - ) - { - unifi_trace(priv, UDBG4, "Sending the WAPI MPDU for MIC check\n"); - CsrWifiRouterCtrlWapiRxMicCheckIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, siglen, sigdata, bulkdata->d[0].data_length, (u8*)bulkdata->d[0].os_data_ptr); - - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - if (bulkdata->d[i].data_length != 0) { - unifi_net_data_free(priv, (void *)&bulkdata->d[i]); - } - } - return; - } - } /* CSR_MA_PACKET_INDICATION_ID */ -#endif /*CSR_SUPPORT_SME && CSR_WIFI_SECURITY_WAPI_ENABLE*/ - } - } - - /* calls the registered clients handler callback func. - * netdev_mlme_event_handler is one of the registered handler used to route - * data packet to network stack or AMP/EAPOL related data to SME - * - * The freeBulkData check ensures that, it has received a management frame and - * the frame needs to be freed here. So not to be passed to netdev handler - */ - if(!freeBulkData){ - if ((client_id < MAX_UDI_CLIENTS) && - (&priv->ul_clients[client_id] != priv->logging_client)) { - unifi_trace(priv, UDBG6, "Call the registered clients handler callback func\n"); - send_to_client(priv, &priv->ul_clients[client_id], - receiver_id, - sigdata, siglen, bulkdata); - } - } - } - - /* - * Free bulk data buffers here unless it is a CSR_MA_PACKET_INDICATION - */ - switch (signal_id) - { -#ifdef UNIFI_SNIFF_ARPHRD - case CSR_MA_SNIFFDATA_INDICATION_ID: -#endif - break; - - case CSR_MA_PACKET_INDICATION_ID: - if (!freeBulkData) - { - break; - } - /* FALLS THROUGH... */ - default: - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - if (bulkdata->d[i].data_length != 0) { - unifi_net_data_free(priv, (void *)&bulkdata->d[i]); - } - } - } - -} /* unifi_process_receive_event() */ - - -#ifdef CSR_WIFI_RX_PATH_SPLIT -static u8 signal_buffer_is_full(unifi_priv_t* priv) -{ - return (((priv->rxSignalBuffer.writePointer + 1)% priv->rxSignalBuffer.size) == (priv->rxSignalBuffer.readPointer)); -} - -void unifi_rx_queue_flush(void *ospriv) -{ - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - - unifi_trace(priv, UDBG4, "rx_wq_handler: RdPtr = %d WritePtr = %d\n", - priv->rxSignalBuffer.readPointer, priv->rxSignalBuffer.writePointer); - if(priv != NULL) { - u8 readPointer = priv->rxSignalBuffer.readPointer; - while (readPointer != priv->rxSignalBuffer.writePointer) - { - rx_buff_struct_t *buf = &priv->rxSignalBuffer.rx_buff[readPointer]; - unifi_trace(priv, UDBG6, "rx_wq_handler: RdPtr = %d WritePtr = %d\n", - readPointer, priv->rxSignalBuffer.writePointer); - unifi_process_receive_event(priv, buf->bufptr, buf->sig_len, &buf->data_ptrs); - readPointer ++; - if(readPointer >= priv->rxSignalBuffer.size) { - readPointer = 0; - } - } - priv->rxSignalBuffer.readPointer = readPointer; - } -} - -void rx_wq_handler(struct work_struct *work) -{ - unifi_priv_t *priv = container_of(work, unifi_priv_t, rx_work_struct); - unifi_rx_queue_flush(priv); -} -#endif - - - -/* - * --------------------------------------------------------------------------- - * unifi_receive_event - * - * Dispatcher for received signals. - * - * This function receives the 'to host' signals and forwards - * them to the unifi linux clients. - * - * Arguments: - * ospriv Pointer to driver's private data. - * sigdata Pointer to the packed signal buffer. - * siglen Length of the packed signal. - * bulkdata Pointer to the signal's bulk data. - * - * Returns: - * None. - * - * Notes: - * The signals are received in the format described in the host interface - * specification, i.e wire formatted. Certain clients use the same format - * to interpret them and other clients use the host formatted structures. - * Each client has to call read_unpack_signal() to transform the wire - * formatted signal into the host formatted signal, if necessary. - * The code is in the core, since the signals are defined therefore - * binded to the host interface specification. - * --------------------------------------------------------------------------- - */ -void -unifi_receive_event(void *ospriv, - u8 *sigdata, u32 siglen, - const bulk_data_param_t *bulkdata) -{ -#ifdef CSR_WIFI_RX_PATH_SPLIT - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - u8 writePointer; - int i; - rx_buff_struct_t * rx_buff; - - unifi_trace(priv, UDBG5, "unifi_receive_event: " - "%04x %04x %04x %04x %04x %04x %04x %04x (%d)\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*0) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*1) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*2) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*3) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*4) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*5) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*6) & 0xFFFF, - CSR_GET_UINT16_FROM_LITTLE_ENDIAN((sigdata) + sizeof(s16)*7) & 0xFFFF, siglen); - if(signal_buffer_is_full(priv)) { - unifi_error(priv, "TO HOST signal queue FULL dropping the PDU\n"); - for (i = 0; i < UNIFI_MAX_DATA_REFERENCES; i++) { - if (bulkdata->d[i].data_length != 0) { - unifi_net_data_free(priv, (void *)&bulkdata->d[i]); - } - } - return; - } - writePointer = priv->rxSignalBuffer.writePointer; - rx_buff = &priv->rxSignalBuffer.rx_buff[writePointer]; - memcpy(rx_buff->bufptr, sigdata, siglen); - rx_buff->sig_len = siglen; - rx_buff->data_ptrs = *bulkdata; - writePointer++; - if(writePointer >= priv->rxSignalBuffer.size) { - writePointer =0; - } - unifi_trace(priv, UDBG4, "unifi_receive_event:writePtr = %d\n", priv->rxSignalBuffer.writePointer); - priv->rxSignalBuffer.writePointer = writePointer; - -#ifndef CSR_WIFI_RX_PATH_SPLIT_DONT_USE_WQ - queue_work(priv->rx_workqueue, &priv->rx_work_struct); -#endif - -#else - unifi_process_receive_event(ospriv, sigdata, siglen, bulkdata); -#endif -} /* unifi_receive_event() */ - diff --git a/drivers/staging/csr/unifi_native.h b/drivers/staging/csr/unifi_native.h deleted file mode 100644 index a73b38e..0000000 --- a/drivers/staging/csr/unifi_native.h +++ /dev/null @@ -1,257 +0,0 @@ -/* - ***************************************************************************** - * - * FILE : unifi_native.h - * - * PURPOSE : Private header file for unifi driver support to wireless extensions. - * - * UDI = UniFi Debug Interface - * - * Copyright (C) 2005-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - ***************************************************************************** - */ -#ifndef __LINUX_UNIFI_NATIVE_H__ -#define __LINUX_UNIFI_NATIVE_H__ 1 - -#include <linux/kernel.h> -#include <linux/if_arp.h> - - -/* - * scan.c wext.c autojoin.c - */ -/* Structure to hold results of a scan */ -typedef struct scan_info { - -/* CSR_MLME_SCAN_INDICATION msi; */ - - unsigned char *info_elems; - int info_elem_length; - -} scan_info_t; - - -#define IE_VECTOR_MAXLEN 1024 - -#ifdef CSR_SUPPORT_WEXT -/* - * Structre to hold the wireless network configuration info. - */ -struct wext_config { - - /* Requested channel when setting up an adhoc network */ - int channel; - - /* wireless extns mode: IW_MODE_AUTO, ADHOC, INFRA, MASTER ... MONITOR */ - int mode; - - /* The capabilities of the currently joined network */ - int capability; - - /* The interval between beacons if we create an IBSS */ - int beacon_period; - - /* - * Power-save parameters - */ - /* The listen interval to ask for in Associate req. */ - int assoc_listen_interval; - /* Power-mode to put UniFi into */ - - unsigned char desired_ssid[UNIFI_MAX_SSID_LEN]; /* the last ESSID set by SIOCSIWESSID */ - int power_mode; - /* Whether to wake for broadcast packets (using DTIM interval) */ - int wakeup_for_dtims; - - /* Currently selected WEP Key ID (0..3) */ - int wep_key_id; - - wep_key_t wep_keys[NUM_WEPKEYS]; - -/* CSR_AUTHENTICATION_TYPE auth_type; */ - int privacy; - - u32 join_failure_timeout; - u32 auth_failure_timeout; - u32 assoc_failure_timeout; - - unsigned char generic_ie[IE_VECTOR_MAXLEN]; - int generic_ie_len; - - struct iw_statistics wireless_stats; - - - /* the ESSID we are currently associated to */ - unsigned char current_ssid[UNIFI_MAX_SSID_LEN]; - /* the BSSID we are currently associated to */ - unsigned char current_bssid[6]; - - /* - * IW_AUTH_WPA_VERSION_DISABLED 0x00000001 - * IW_AUTH_WPA_VERSION_WPA 0x00000002 - * IW_AUTH_WPA_VERSION_WPA2 0x00000004 - */ - unsigned char wpa_version; - - /* - * cipher selection: - * IW_AUTH_CIPHER_NONE 0x00000001 - * IW_AUTH_CIPHER_WEP40 0x00000002 - * IW_AUTH_CIPHER_TKIP 0x00000004 - * IW_AUTH_CIPHER_CCMP 0x00000008 - * IW_AUTH_CIPHER_WEP104 0x00000010 - */ - unsigned char pairwise_cipher_used; - unsigned char group_cipher_used; - - unsigned int frag_thresh; - unsigned int rts_thresh; - - /* U-APSD value, send with Association Request to WMM Enabled APs */ - unsigned char wmm_bss_uapsd_mask; - /* The WMM capabilities of the selected BSS */ - unsigned int bss_wmm_capabilities; - - /* Flag to prevent a join when the ssid is set */ - int disable_join_on_ssid_set; - - /* Scan info */ -#define UNIFI_MAX_SCANS 32 - scan_info_t scan_list[UNIFI_MAX_SCANS]; - int num_scan_info; - - /* Flag on whether non-802.1x packets are allowed out */ -/* CsrWifiRouterPortAction block_controlled_port;*/ - - /* Flag on whether we have completed an authenticate/associate process */ - unsigned int flag_associated : 1; -}; /* struct wext_config */ - -#endif /* CSR_SUPPORT_WEXT */ - - -/* - * wext.c - */ -/*int mlme_set_protection(unifi_priv_t *priv, unsigned char *addr, - CSR_PROTECT_TYPE prot, CSR_KEY_TYPE key_type); -*/ - -/* - * scan.c - */ -/* -void unifi_scan_indication_handler(unifi_priv_t *priv, - const CSR_MLME_SCAN_INDICATION *msg, - const unsigned char *extra, - unsigned int len); -*/ -void unifi_clear_scan_table(unifi_priv_t *priv); -scan_info_t *unifi_get_scan_report(unifi_priv_t *priv, int index); - - -/* - * Utility functions - */ -const unsigned char *unifi_find_info_element(int id, - const unsigned char *info, - int len); -int unifi_add_info_element(unsigned char *info, - int ie_id, - const unsigned char *ie_data, - int ie_len); - -/* - * autojoin.c - */ -/* Higher level fns */ -int unifi_autojoin(unifi_priv_t *priv, const char *ssid); -/* -int unifi_do_scan(unifi_priv_t *priv, int scantype, CSR_BSS_TYPE bsstype, - const char *ssid, int ssid_len); -*/ -int unifi_set_powermode(unifi_priv_t *priv); -int unifi_join_ap(unifi_priv_t *priv, scan_info_t *si); -int unifi_join_bss(unifi_priv_t *priv, unsigned char *macaddr); -int unifi_leave(unifi_priv_t *priv); -unsigned int unifi_get_wmm_bss_capabilities(unifi_priv_t *priv, - unsigned char *ie_vector, - int ie_len, int *ap_capabilities); - -/* - * Status and management. - */ -int uf_init_wext_interface(unifi_priv_t *priv); -void uf_deinit_wext_interface(unifi_priv_t *priv); - -/* - * Function to reset UniFi's 802.11 state by sending MLME-RESET.req - */ -int unifi_reset_state(unifi_priv_t *priv, unsigned char *macaddr, unsigned char set_default_mib); - - -/* - * mlme.c - */ -/* Abort an MLME operation - useful in error recovery */ -int uf_abort_mlme(unifi_priv_t *priv); - -int unifi_mlme_blocking_request(unifi_priv_t *priv, ul_client_t *pcli, - CSR_SIGNAL *sig, bulk_data_param_t *data_ptrs, - int timeout); -void unifi_mlme_copy_reply_and_wakeup_client(ul_client_t *pcli, - CSR_SIGNAL *signal, int signal_len, - const bulk_data_param_t *bulkdata); - -/* - * Utility functions - */ -const char *lookup_reason_code(int reason); -const char *lookup_result_code(int result); - - -/* - * sme_native.c - */ -int uf_sme_init(unifi_priv_t *priv); -void uf_sme_deinit(unifi_priv_t *priv); -int sme_sys_suspend(unifi_priv_t *priv); -int sme_sys_resume(unifi_priv_t *priv); -int sme_mgt_wifi_on(unifi_priv_t *priv); - -/* Callback for event logging to SME clients (unifi_manager) */ -void sme_native_log_event(ul_client_t *client, - const u8 *sig_packed, int sig_len, - const bulk_data_param_t *bulkdata, - int dir); - -void sme_native_mlme_event_handler(ul_client_t *pcli, - const u8 *sig_packed, int sig_len, - const bulk_data_param_t *bulkdata, - int dir); - -/* Task to query statistics from the MIB */ -#define UF_SME_STATS_WQ_TIMEOUT 2000 /* in msecs */ -void uf_sme_stats_wq(struct work_struct *work); - -void uf_native_process_udi_signal(ul_client_t *pcli, - const u8 *packed_signal, - int packed_signal_len, - const bulk_data_param_t *bulkdata, int dir); -#ifdef UNIFI_SNIFF_ARPHRD -/* - * monitor.c - */ -int uf_start_sniff(unifi_priv_t *priv); -/* -void ma_sniffdata_ind(void *ospriv, - const CSR_MA_SNIFFDATA_INDICATION *ind, - const bulk_data_param_t *bulkdata); -*/ -#endif /* ARPHRD_IEEE80211_PRISM */ - -#endif /* __LINUX_UNIFI_NATIVE_H__ */ diff --git a/drivers/staging/csr/unifi_os.h b/drivers/staging/csr/unifi_os.h deleted file mode 100644 index 56a2698..0000000 --- a/drivers/staging/csr/unifi_os.h +++ /dev/null @@ -1,122 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * - * FILE: os_linux/unifi_os.h - * - * PURPOSE: - * This header file provides the OS-dependent facilities for a linux - * environment. - * - * Copyright (C) 2005-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#ifndef __UNIFI_OS_LINUX_H__ -#define __UNIFI_OS_LINUX_H__ 1 - -#include <linux/kernel.h> -#include <linux/time.h> -#include <linux/list.h> -#include <linux/delay.h> -#include <linux/string.h> - -/* - * Needed for core/signals.c - */ -#include <stddef.h> - - -/* Define INLINE directive*/ -#define INLINE inline - -/* Malloc and free */ -CsrResult unifi_net_data_malloc(void *ospriv, bulk_data_desc_t *bulk_data_slot, unsigned int size); -void unifi_net_data_free(void *ospriv, bulk_data_desc_t *bulk_data_slot); -#define CSR_WIFI_ALIGN_BYTES 4 -CsrResult unifi_net_dma_align(void *ospriv, bulk_data_desc_t *bulk_data_slot); - -/* - * Byte Order - * Note that __le*_to_cpu and __cpu_to_le* return an unsigned value! - */ -#ifdef __KERNEL__ -#define unifi2host_16(n) (__le16_to_cpu((n))) -#define unifi2host_32(n) (__le32_to_cpu((n))) -#define host2unifi_16(n) (__cpu_to_le16((n))) -#define host2unifi_32(n) (__cpu_to_le32((n))) -#endif - -/* Module parameters */ -extern int unifi_debug; - -/* debugging */ -#ifdef UNIFI_DEBUG -/* - * unifi_debug is a verbosity level for debug messages - * UDBG0 msgs are always printed if UNIFI_DEBUG is defined - * UDBG1 msgs are printed if UNIFI_DEBUG is defined and unifi_debug > 0 - * etc. - */ - -#define ASSERT(cond) \ - do { \ - if (!(cond)) { \ - printk("Assertion failed in %s at %s:%d: %s\n", \ - __FUNCTION__, __FILE__, __LINE__, #cond); \ - } \ - } while (0) - - -void unifi_dump(void *ospriv, int lvl, const char *msg, void *mem, u16 len); -void dump(void *mem, u16 len); -void dump16(void *mem, u16 len); -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -void dump_str(void *mem, u16 len); -#endif /* CSR_WIFI_HIP_DEBUG_OFFLINE */ - -void unifi_error(void* ospriv, const char *fmt, ...); -void unifi_warning(void* ospriv, const char *fmt, ...); -void unifi_notice(void* ospriv, const char *fmt, ...); -void unifi_info(void* ospriv, const char *fmt, ...); - -void unifi_trace(void* ospriv, int level, const char *fmt, ...); - -#else - -/* Stubs */ - -#define ASSERT(cond) - -static inline void unifi_dump(void *ospriv, int lvl, const char *msg, void *mem, u16 len) {} -static inline void dump(void *mem, u16 len) {} -static inline void dump16(void *mem, u16 len) {} -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -static inline void dump_str(void *mem, u16 len) {} -#endif /* CSR_WIFI_HIP_DEBUG_OFFLINE */ - -void unifi_error_nop(void* ospriv, const char *fmt, ...); -void unifi_trace_nop(void* ospriv, int level, const char *fmt, ...); -#define unifi_error if(1);else unifi_error_nop -#define unifi_warning if(1);else unifi_error_nop -#define unifi_notice if(1);else unifi_error_nop -#define unifi_info if(1);else unifi_error_nop -#define unifi_trace if(1);else unifi_trace_nop - -#endif /* UNIFI_DEBUG */ - - -/* Different levels of diagnostic detail... */ -#define UDBG0 0 /* always prints in debug build */ -#define UDBG1 1 -#define UDBG2 2 -#define UDBG3 3 -#define UDBG4 4 -#define UDBG5 5 -#define UDBG6 6 -#define UDBG7 7 - - -#endif /* __UNIFI_OS_LINUX_H__ */ diff --git a/drivers/staging/csr/unifi_pdu_processing.c b/drivers/staging/csr/unifi_pdu_processing.c deleted file mode 100644 index 04fe9e2..0000000 --- a/drivers/staging/csr/unifi_pdu_processing.c +++ /dev/null @@ -1,3729 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: unifi_pdu_processing.c - * - * PURPOSE: - * This file provides the PDU handling functionality before it gets sent to unfi and after - * receiving a PDU from unifi - * - * Copyright (C) 2010 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ - -#include <linux/types.h> -#include <linux/etherdevice.h> -#include <linux/vmalloc.h> - -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" -#include "csr_time.h" -#include "unifi_priv.h" -#include <net/pkt_sched.h> - -#ifdef CSR_SUPPORT_SME -static void _update_buffered_pkt_params_after_alignment(unifi_priv_t *priv, bulk_data_param_t *bulkdata, - tx_buffered_packets_t* buffered_pkt) -{ - struct sk_buff *skb ; - u32 align_offset; - - if (priv == NULL || bulkdata == NULL || buffered_pkt == NULL){ - return; - } - - skb = (struct sk_buff*)bulkdata->d[0].os_net_buf_ptr; - align_offset = (u32)(long)(bulkdata->d[0].os_data_ptr) & (CSR_WIFI_ALIGN_BYTES-1); - if(align_offset){ - skb_pull(skb, align_offset); - } - - buffered_pkt->bulkdata.os_data_ptr = bulkdata->d[0].os_data_ptr; - buffered_pkt->bulkdata.data_length = bulkdata->d[0].data_length; - buffered_pkt->bulkdata.os_net_buf_ptr = bulkdata->d[0].os_net_buf_ptr; - buffered_pkt->bulkdata.net_buf_length = bulkdata->d[0].net_buf_length; -} -#endif - -void -unifi_frame_ma_packet_req(unifi_priv_t *priv, CSR_PRIORITY priority, - CSR_RATE TransmitRate, CSR_CLIENT_TAG hostTag, - u16 interfaceTag, CSR_TRANSMISSION_CONTROL transmissionControl, - CSR_PROCESS_ID leSenderProcessId, u8 *peerMacAddress, - CSR_SIGNAL *signal) -{ - - CSR_MA_PACKET_REQUEST *req = &signal->u.MaPacketRequest; - netInterface_priv_t *interfacePriv; - u8 ba_session_idx = 0; - ba_session_tx_struct *ba_session = NULL; - u8 *ba_addr = NULL; - - interfacePriv = priv->interfacePriv[interfaceTag]; - - unifi_trace(priv, UDBG5, - "In unifi_frame_ma_packet_req, Frame for Peer: %pMF\n", - peerMacAddress); - signal->SignalPrimitiveHeader.SignalId = CSR_MA_PACKET_REQUEST_ID; - signal->SignalPrimitiveHeader.ReceiverProcessId = 0; - signal->SignalPrimitiveHeader.SenderProcessId = leSenderProcessId; - - /* Fill the MA-PACKET.req */ - req->Priority = priority; - unifi_trace(priv, UDBG3, "Tx Frame with Priority: 0x%x\n", req->Priority); - - /* A value of 0 is used for auto selection of rates. But for P2P GO case - * for action frames the rate is governed by SME. Hence instead of 0, - * the rate is filled in with the value passed here - */ - req->TransmitRate = TransmitRate; - - /* packets from netdev then no confirm required but packets from - * Nme/Sme eapol data frames requires the confirmation - */ - req->TransmissionControl = transmissionControl; - req->VirtualInterfaceIdentifier = - uf_get_vif_identifier(interfacePriv->interfaceMode, interfaceTag); - memcpy(req->Ra.x, peerMacAddress, ETH_ALEN); - - if (hostTag == 0xffffffff) { - req->HostTag = interfacePriv->tag++; - req->HostTag |= 0x40000000; - unifi_trace(priv, UDBG3, "new host tag assigned = 0x%x\n", req->HostTag); - interfacePriv->tag &= 0x0fffffff; - } else { - req->HostTag = hostTag; - unifi_trace(priv, UDBG3, "host tag got from SME = 0x%x\n", req->HostTag); - } - /* check if BA session exists for the peer MAC address on same tID */ - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO){ - ba_addr = peerMacAddress; - }else{ - ba_addr = interfacePriv->bssid.a; - } - for (ba_session_idx=0; ba_session_idx < MAX_SUPPORTED_BA_SESSIONS_TX; ba_session_idx++){ - ba_session = interfacePriv->ba_session_tx[ba_session_idx]; - if (ba_session){ - if ((!memcmp(ba_session->macAddress.a, ba_addr, ETH_ALEN)) && (ba_session->tID == priority)){ - req->TransmissionControl |= CSR_ALLOW_BA; - break; - } - } - } - - unifi_trace(priv, UDBG5, "leaving unifi_frame_ma_packet_req\n"); -} - -#ifdef CSR_SUPPORT_SME - -#define TRANSMISSION_CONTROL_TRIGGER_MASK 0x0001 -#define TRANSMISSION_CONTROL_EOSP_MASK 0x0002 - -static -int frame_and_send_queued_pdu(unifi_priv_t* priv, tx_buffered_packets_t* buffered_pkt, - CsrWifiRouterCtrlStaInfo_t *staRecord, u8 moreData , u8 eosp) -{ - - CSR_SIGNAL signal; - bulk_data_param_t bulkdata; - int result; - u8 toDs, fromDs, macHeaderLengthInBytes = MAC_HEADER_SIZE; - u8 *qc; - u16 *fc = (u16*)(buffered_pkt->bulkdata.os_data_ptr); - unsigned long lock_flags; - unifi_trace(priv, UDBG3, "frame_and_send_queued_pdu with moreData: %d , EOSP: %d\n", moreData, eosp); - unifi_frame_ma_packet_req(priv, buffered_pkt->priority, buffered_pkt->rate, buffered_pkt->hostTag, - buffered_pkt->interfaceTag, buffered_pkt->transmissionControl, - buffered_pkt->leSenderProcessId, buffered_pkt->peerMacAddress.a, &signal); - bulkdata.d[0].os_data_ptr = buffered_pkt->bulkdata.os_data_ptr; - bulkdata.d[0].data_length = buffered_pkt->bulkdata.data_length; - bulkdata.d[0].os_net_buf_ptr = buffered_pkt->bulkdata.os_net_buf_ptr; - bulkdata.d[0].net_buf_length = buffered_pkt->bulkdata.net_buf_length; - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].data_length = 0; - bulkdata.d[1].os_net_buf_ptr =0; - bulkdata.d[1].net_buf_length =0; - - if(moreData) { - *fc |= cpu_to_le16(IEEE802_11_FC_MOREDATA_MASK); - } else { - *fc &= cpu_to_le16(~IEEE802_11_FC_MOREDATA_MASK); - } - - if((staRecord != NULL)&& (staRecord->wmmOrQosEnabled == TRUE)) - { - unifi_trace(priv, UDBG3, "frame_and_send_queued_pdu WMM Enabled: %d \n", staRecord->wmmOrQosEnabled); - - toDs = (*fc & cpu_to_le16(IEEE802_11_FC_TO_DS_MASK))?1 : 0; - fromDs = (*fc & cpu_to_le16(IEEE802_11_FC_FROM_DS_MASK))? 1: 0; - - switch(le16_to_cpu(*fc) & IEEE80211_FC_SUBTYPE_MASK) - { - case IEEE802_11_FC_TYPE_QOS_DATA & IEEE80211_FC_SUBTYPE_MASK: - case IEEE802_11_FC_TYPE_QOS_NULL & IEEE80211_FC_SUBTYPE_MASK: - /* If both are set then the Address4 exists (only for AP) */ - if (fromDs && toDs) { - /* 6 is the size of Address4 field */ - macHeaderLengthInBytes += (QOS_CONTROL_HEADER_SIZE + 6); - } else { - macHeaderLengthInBytes += QOS_CONTROL_HEADER_SIZE; - } - - /* If order bit set then HT control field is the part of MAC header */ - if (*fc & cpu_to_le16(IEEE80211_FC_ORDER_MASK)) { - macHeaderLengthInBytes += HT_CONTROL_HEADER_SIZE; - qc = (u8*)(buffered_pkt->bulkdata.os_data_ptr + (macHeaderLengthInBytes-6)); - } else { - qc = (u8*)(buffered_pkt->bulkdata.os_data_ptr + (macHeaderLengthInBytes-2)); - } - *qc = eosp ? *qc | (1 << 4) : *qc & (~(1 << 4)); - break; - default: - if (fromDs && toDs) - macHeaderLengthInBytes += 6; - } - - } - result = ul_send_signal_unpacked(priv, &signal, &bulkdata); - if(result){ - _update_buffered_pkt_params_after_alignment(priv, &bulkdata, buffered_pkt); - } - - /* Decrement the packet counts queued in driver */ - if (result != -ENOSPC) { - /* protect entire counter updation by disabling preemption */ - if (!priv->noOfPktQueuedInDriver) { - unifi_error(priv, "packets queued in driver 0 still decrementing\n"); - } else { - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - priv->noOfPktQueuedInDriver--; - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - } - /* Sta Record is available for all unicast (except genericMgt Frames) & in other case its NULL */ - if (staRecord) { - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - if (!staRecord->noOfPktQueued) { - unifi_error(priv, "packets queued in driver per station is 0 still decrementing\n"); - } else { - staRecord->noOfPktQueued--; - } - /* if the STA alive probe frame has failed then reset the saved host tag */ - if (result){ - if (staRecord->nullDataHostTag == buffered_pkt->hostTag){ - staRecord->nullDataHostTag = INVALID_HOST_TAG; - } - } - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } - - } - return result; -} -#ifdef CSR_SUPPORT_SME -static -void set_eosp_transmit_ctrl(unifi_priv_t *priv, struct list_head *txList) -{ - /* dequeue the tx data packets from the appropriate queue */ - tx_buffered_packets_t *tx_q_item = NULL; - struct list_head *listHead; - struct list_head *placeHolder; - unsigned long lock_flags; - - - unifi_trace(priv, UDBG5, "entering set_eosp_transmit_ctrl\n"); - /* check for list empty */ - if (list_empty(txList)) { - unifi_warning(priv, "In set_eosp_transmit_ctrl, the list is empty\n"); - return; - } - - /* return the last node , and modify it. */ - - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_for_each_prev_safe(listHead, placeHolder, txList) { - tx_q_item = list_entry(listHead, tx_buffered_packets_t, q); - tx_q_item->transmissionControl |= TRANSMISSION_CONTROL_EOSP_MASK; - tx_q_item->transmissionControl = (tx_q_item->transmissionControl & ~(CSR_NO_CONFIRM_REQUIRED)); - unifi_trace(priv, UDBG1, - "set_eosp_transmit_ctrl Transmission Control = 0x%x hostTag = 0x%x \n", tx_q_item->transmissionControl, tx_q_item->hostTag); - unifi_trace(priv, UDBG3, "in set_eosp_transmit_ctrl no.of buffered frames %d\n", priv->noOfPktQueuedInDriver); - break; - } - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - unifi_trace(priv, UDBG1, "List Empty %d\n", list_empty(txList)); - unifi_trace(priv, UDBG5, "leaving set_eosp_transmit_ctrl\n"); - return; -} - -static -void send_vif_availibility_rsp(unifi_priv_t *priv, CSR_VIF_IDENTIFIER vif, CSR_RESULT_CODE resultCode) -{ - CSR_SIGNAL signal; - CSR_MA_VIF_AVAILABILITY_RESPONSE *rsp; - bulk_data_param_t *bulkdata = NULL; - int r; - - unifi_trace(priv, UDBG3, "send_vif_availibility_rsp : invoked with resultCode = %d \n", resultCode); - - memset(&signal, 0, sizeof(CSR_SIGNAL)); - rsp = &signal.u.MaVifAvailabilityResponse; - rsp->VirtualInterfaceIdentifier = vif; - rsp->ResultCode = resultCode; - signal.SignalPrimitiveHeader.SignalId = CSR_MA_VIF_AVAILABILITY_RESPONSE_ID; - signal.SignalPrimitiveHeader.ReceiverProcessId = 0; - signal.SignalPrimitiveHeader.SenderProcessId = priv->netdev_client->sender_id; - - /* Send the signal to UniFi */ - r = ul_send_signal_unpacked(priv, &signal, bulkdata); - if(r) { - unifi_error(priv, "Availibility response sending failed %x status %d\n", vif, r); - } - else { - unifi_trace(priv, UDBG3, "send_vif_availibility_rsp : status = %d \n", r); - } -} -#endif - -static -void verify_and_accomodate_tx_packet(unifi_priv_t *priv) -{ - tx_buffered_packets_t *tx_q_item; - unsigned long lock_flags; - struct list_head *listHead, *list; - struct list_head *placeHolder; - u8 i, j, eospFramedeleted=0; - u8 thresholdExcedeDueToBroadcast = TRUE; - /* it will be made it interface Specific in the future when multi interfaces are supported , - right now interface 0 is considered */ - netInterface_priv_t *interfacePriv = priv->interfacePriv[0]; - CsrWifiRouterCtrlStaInfo_t *staInfo = NULL; - - unifi_trace(priv, UDBG3, "entering verify_and_accomodate_tx_packet\n"); - - for(i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - staInfo = interfacePriv->staInfo[i]; - if (staInfo && (staInfo->noOfPktQueued >= CSR_WIFI_DRIVER_MAX_PKT_QUEUING_THRESHOLD_PER_PEER)) { - /* remove the first(oldest) packet from the all the access catogory, since data - * packets for station record crossed the threshold limit (64 for AP supporting - * 8 peers) - */ - unifi_trace(priv, UDBG3, "number of station pkts queued= %d for sta id = %d\n", staInfo->noOfPktQueued, staInfo->aid); - for(j = 0; j < MAX_ACCESS_CATOGORY; j++) { - list = &staInfo->dataPdu[j]; - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_for_each_safe(listHead, placeHolder, list) { - tx_q_item = list_entry(listHead, tx_buffered_packets_t, q); - list_del(listHead); - thresholdExcedeDueToBroadcast = FALSE; - unifi_net_data_free(priv, &tx_q_item->bulkdata); - kfree(tx_q_item); - tx_q_item = NULL; - if (!priv->noOfPktQueuedInDriver) { - unifi_error(priv, "packets queued in driver 0 still decrementing in %s\n", __FUNCTION__); - } else { - /* protection provided by spinlock */ - priv->noOfPktQueuedInDriver--; - - } - /* Sta Record is available for all unicast (except genericMgt Frames) & in other case its NULL */ - if (!staInfo->noOfPktQueued) { - unifi_error(priv, "packets queued in driver per station is 0 still decrementing in %s\n", __FUNCTION__); - } else { - spin_lock(&priv->staRecord_lock); - staInfo->noOfPktQueued--; - spin_unlock(&priv->staRecord_lock); - } - break; - } - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - } - } - } - if (thresholdExcedeDueToBroadcast && interfacePriv->noOfbroadcastPktQueued > CSR_WIFI_DRIVER_MINIMUM_BROADCAST_PKT_THRESHOLD ) { - /* Remove the packets from genericMulticastOrBroadCastFrames queue - * (the max packets in driver is reached due to broadcast/multicast frames) - */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_for_each_safe(listHead, placeHolder, &interfacePriv->genericMulticastOrBroadCastFrames) { - tx_q_item = list_entry(listHead, tx_buffered_packets_t, q); - if(eospFramedeleted){ - tx_q_item->transmissionControl |= TRANSMISSION_CONTROL_EOSP_MASK; - tx_q_item->transmissionControl = (tx_q_item->transmissionControl & ~(CSR_NO_CONFIRM_REQUIRED)); - unifi_trace(priv, UDBG1, "updating eosp for next packet hostTag:= 0x%x ", tx_q_item->hostTag); - eospFramedeleted =0; - break; - } - - if(tx_q_item->transmissionControl & TRANSMISSION_CONTROL_EOSP_MASK ){ - eospFramedeleted = 1; - } - unifi_trace(priv, UDBG1, "freeing of multicast packets ToC = 0x%x hostTag = 0x%x \n", tx_q_item->transmissionControl, tx_q_item->hostTag); - list_del(listHead); - unifi_net_data_free(priv, &tx_q_item->bulkdata); - kfree(tx_q_item); - priv->noOfPktQueuedInDriver--; - spin_lock(&priv->staRecord_lock); - interfacePriv->noOfbroadcastPktQueued--; - spin_unlock(&priv->staRecord_lock); - if(!eospFramedeleted){ - break; - } - } - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - } - unifi_trace(priv, UDBG3, "leaving verify_and_accomodate_tx_packet\n"); -} - -static -CsrResult enque_tx_data_pdu(unifi_priv_t *priv, bulk_data_param_t *bulkdata, - struct list_head *list, CSR_SIGNAL *signal, - u8 requeueOnSamePos) -{ - - /* queue the tx data packets on to appropriate queue */ - CSR_MA_PACKET_REQUEST *req = &signal->u.MaPacketRequest; - tx_buffered_packets_t *tx_q_item; - unsigned long lock_flags; - - unifi_trace(priv, UDBG5, "entering enque_tx_data_pdu\n"); - if(!list) { - unifi_error(priv, "List is not specified\n"); - return CSR_RESULT_FAILURE; - } - - /* Removes aged packets & adds the incoming packet */ - if (priv->noOfPktQueuedInDriver >= CSR_WIFI_DRIVER_SUPPORT_FOR_MAX_PKT_QUEUEING) { - unifi_trace(priv, UDBG3, "number of pkts queued= %d \n", priv->noOfPktQueuedInDriver); - verify_and_accomodate_tx_packet(priv); - } - - - - tx_q_item = kmalloc(sizeof(tx_buffered_packets_t), GFP_ATOMIC); - if (tx_q_item == NULL) { - unifi_error(priv, - "Failed to allocate %d bytes for tx packet record\n", - sizeof(tx_buffered_packets_t)); - return CSR_RESULT_FAILURE; - } - - /* disable the preemption */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - INIT_LIST_HEAD(&tx_q_item->q); - /* fill the tx_q structure members */ - tx_q_item->bulkdata.os_data_ptr = bulkdata->d[0].os_data_ptr; - tx_q_item->bulkdata.data_length = bulkdata->d[0].data_length; - tx_q_item->bulkdata.os_net_buf_ptr = bulkdata->d[0].os_net_buf_ptr; - tx_q_item->bulkdata.net_buf_length = bulkdata->d[0].net_buf_length; - tx_q_item->interfaceTag = req->VirtualInterfaceIdentifier & 0xff; - tx_q_item->hostTag = req->HostTag; - tx_q_item->leSenderProcessId = signal->SignalPrimitiveHeader.SenderProcessId; - tx_q_item->transmissionControl = req->TransmissionControl; - tx_q_item->priority = req->Priority; - tx_q_item->rate = req->TransmitRate; - memcpy(tx_q_item->peerMacAddress.a, req->Ra.x, ETH_ALEN); - - - - if (requeueOnSamePos) { - list_add(&tx_q_item->q, list); - } else { - list_add_tail(&tx_q_item->q, list); - } - - /* Count of packet queued in driver */ - priv->noOfPktQueuedInDriver++; - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - unifi_trace(priv, UDBG5, "leaving enque_tx_data_pdu\n"); - return CSR_RESULT_SUCCESS; -} - -#ifdef CSR_WIFI_REQUEUE_PACKET_TO_HAL -CsrResult unifi_reque_ma_packet_request (void *ospriv, u32 host_tag, - u16 txStatus, bulk_data_desc_t *bulkDataDesc) -{ - CsrResult status = CSR_RESULT_SUCCESS; - unifi_priv_t *priv = (unifi_priv_t*)ospriv; - netInterface_priv_t *interfacePriv; - struct list_head *list = NULL; - CsrWifiRouterCtrlStaInfo_t *staRecord = NULL; - bulk_data_param_t bulkData; - CSR_SIGNAL signal; - CSR_PRIORITY priority = 0; - u16 interfaceTag = 0; - unifi_TrafficQueue priority_q; - u16 frameControl = 0, frameType = 0; - unsigned long lock_flags; - - interfacePriv = priv->interfacePriv[interfaceTag]; - - /* If the current mode is not AP or P2PGO then just return failure - * to clear the hip slot - */ - if(!((interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP) || - (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO))) { - return CSR_RESULT_FAILURE; - } - - unifi_trace(priv, UDBG6, "unifi_reque_ma_packet_request: host_tag = 0x%x\n", host_tag); - - staRecord = CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, - (((u8 *) bulkDataDesc->os_data_ptr) + 4), - interfaceTag); - if (NULL == staRecord) { - unifi_trace(priv, UDBG5, "unifi_reque_ma_packet_request: Invalid STA record \n"); - return CSR_RESULT_FAILURE; - } - - /* Update TIM if MA-PACKET.cfm fails with status as Tx-retry-limit or No-BSS and then just return failure - * to clear the hip slot associated with the Packet - */ - if (CSR_TX_RETRY_LIMIT == txStatus || CSR_TX_NO_BSS == txStatus) { - if (staRecord->timSet == CSR_WIFI_TIM_RESET || staRecord->timSet == CSR_WIFI_TIM_RESETTING) - { - unifi_trace(priv, UDBG2, "unifi_reque_ma_packet_request: CFM failed with Retry Limit or No BSS-->update TIM\n"); - if (!staRecord->timRequestPendingFlag) { - update_tim(priv, staRecord->aid, 1, interfaceTag, staRecord->assignedHandle); - } - else { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - staRecord->updateTimReqQueued = 1; - unifi_trace(priv, UDBG6, "unifi_reque_ma_packet_request: One more UpdateTim Request(:%d)Queued for AID %x\n", - staRecord->updateTimReqQueued, staRecord->aid); - } - } - return CSR_RESULT_FAILURE; - } - else if ((CSR_TX_LIFETIME == txStatus) || (CSR_TX_BLOCK_ACK_TIMEOUT == txStatus) || - (CSR_TX_FAIL_TRANSMISSION_VIF_INTERRUPTED == txStatus) || - (CSR_TX_REJECTED_PEER_STATION_SLEEPING == txStatus) || - (CSR_TX_REJECTED_DTIM_STARTED == txStatus)) { - /* Extract the Frame control and the frame type */ - frameControl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(bulkDataDesc->os_data_ptr); - frameType = ((frameControl & IEEE80211_FC_TYPE_MASK) >> FRAME_CONTROL_TYPE_FIELD_OFFSET); - - /* Mgmt frames will not be re-queued for Tx - * so just return failure to clear the hip slot - */ - if (IEEE802_11_FRAMETYPE_MANAGEMENT == frameType) { - return CSR_RESULT_FAILURE; - } - else if (IEEE802_11_FRAMETYPE_DATA == frameType) { - /* QOS NULL and DATA NULL frames will not be re-queued for Tx - * so just return failure to clear the hip slot - */ - if ((((frameControl & IEEE80211_FC_SUBTYPE_MASK) >> FRAME_CONTROL_SUBTYPE_FIELD_OFFSET) == QOS_DATA_NULL) || - (((frameControl & IEEE80211_FC_SUBTYPE_MASK) >> FRAME_CONTROL_SUBTYPE_FIELD_OFFSET)== DATA_NULL )) { - return CSR_RESULT_FAILURE; - } - } - - /* Extract the Packet priority */ - if (TRUE == staRecord->wmmOrQosEnabled) { - u16 qosControl = 0; - u8 dataFrameType = 0; - - dataFrameType =((frameControl & IEEE80211_FC_SUBTYPE_MASK) >> 4); - - if (dataFrameType == QOS_DATA) { - /* QoS control field is offset from frame control by 2 (frame control) - * + 2 (duration/ID) + 2 (sequence control) + 3*ETH_ALEN or 4*ETH_ALEN - */ - if((frameControl & IEEE802_11_FC_TO_DS_MASK) && (frameControl & IEEE802_11_FC_FROM_DS_MASK)) { - qosControl= CSR_GET_UINT16_FROM_LITTLE_ENDIAN(bulkDataDesc->os_data_ptr + 30); - } - else { - qosControl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(bulkDataDesc->os_data_ptr + 24); - } - } - - priority = (CSR_PRIORITY)(qosControl & IEEE802_11_QC_TID_MASK); - - if (priority < CSR_QOS_UP0 || priority > CSR_QOS_UP7) { - unifi_trace(priv, UDBG5, "unifi_reque_ma_packet_request: Invalid priority:%x \n", priority); - return CSR_RESULT_FAILURE; - } - } - else { - priority = CSR_CONTENTION; - } - - /* Frame Bulk data to requeue it back to HAL Queues */ - bulkData.d[0].os_data_ptr = bulkDataDesc->os_data_ptr; - bulkData.d[0].data_length = bulkDataDesc->data_length; - bulkData.d[0].os_net_buf_ptr = bulkDataDesc->os_net_buf_ptr; - bulkData.d[0].net_buf_length = bulkDataDesc->net_buf_length; - - bulkData.d[1].os_data_ptr = NULL; - bulkData.d[1].os_net_buf_ptr = NULL; - bulkData.d[1].data_length = bulkData.d[1].net_buf_length = 0; - - /* Initialize signal to zero */ - memset(&signal, 0, sizeof(CSR_SIGNAL)); - - /* Frame MA Packet Req */ - unifi_frame_ma_packet_req(priv, priority, 0, host_tag, - interfaceTag, CSR_NO_CONFIRM_REQUIRED, - priv->netdev_client->sender_id, - staRecord->peerMacAddress.a, &signal); - - /* Find the Q-Priority */ - priority_q = unifi_frame_priority_to_queue(priority); - list = &staRecord->dataPdu[priority_q]; - - /* Place the Packet on to HAL Queue */ - status = enque_tx_data_pdu(priv, &bulkData, list, &signal, TRUE); - - /* Update the Per-station queued packet counter */ - if (!status) { - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - staRecord->noOfPktQueued++; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } - } - else { - /* Packet will not be re-queued for any of the other MA Packet Tx failure - * reasons so just return failure to clear the hip slot - */ - return CSR_RESULT_FAILURE; - } - - return status; -} -#endif - -static void is_all_ac_deliver_enabled_and_moredata(CsrWifiRouterCtrlStaInfo_t *staRecord, u8 *allDeliveryEnabled, u8 *dataAvailable) -{ - u8 i; - *allDeliveryEnabled = TRUE; - for (i = 0 ;i < MAX_ACCESS_CATOGORY; i++) { - if (!IS_DELIVERY_ENABLED(staRecord->powersaveMode[i])) { - /* One is is not Delivery Enabled */ - *allDeliveryEnabled = FALSE; - break; - } - } - if (*allDeliveryEnabled) { - *dataAvailable = (!list_empty(&staRecord->dataPdu[0]) || !list_empty(&staRecord->dataPdu[1]) - ||!list_empty(&staRecord->dataPdu[2]) ||!list_empty(&staRecord->dataPdu[3]) - ||!list_empty(&staRecord->mgtFrames)); - } -} - -/* - * --------------------------------------------------------------------------- - * uf_handle_tim_cfm - * - * - * This function updates tim status in host depending confirm status from firmware - * - * Arguments: - * priv Pointer to device private context struct - * cfm CSR_MLME_SET_TIM_CONFIRM - * receiverProcessId SenderProcessID to fetch handle & timSet status - * - * --------------------------------------------------------------------------- - */ -void uf_handle_tim_cfm(unifi_priv_t *priv, CSR_MLME_SET_TIM_CONFIRM *cfm, u16 receiverProcessId) -{ - u8 handle = CSR_WIFI_GET_STATION_HANDLE_FROM_RECEIVER_ID(receiverProcessId); - u8 timSetStatus = CSR_WIFI_GET_TIMSET_STATE_FROM_RECEIVER_ID(receiverProcessId); - u16 interfaceTag = (cfm->VirtualInterfaceIdentifier & 0xff); - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - CsrWifiRouterCtrlStaInfo_t *staRecord = NULL; - /* This variable holds what TIM value we wanted to set in firmware */ - u16 timSetValue = 0; - /* Irrespective of interface the count maintained */ - static u8 retryCount = 0; - unsigned long lock_flags; - unifi_trace(priv, UDBG3, "entering %s, handle = %x, timSetStatus = %x\n", __FUNCTION__, handle, timSetStatus); - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_warning(priv, "bad interfaceTag = %x\n", interfaceTag); - return; - } - - if ((handle != CSR_WIFI_BROADCAST_OR_MULTICAST_HANDLE) && (handle >= UNIFI_MAX_CONNECTIONS)) { - unifi_warning(priv, "bad station Handle = %x\n", handle); - return; - } - - if (handle != CSR_WIFI_BROADCAST_OR_MULTICAST_HANDLE) { - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - if ((staRecord = ((CsrWifiRouterCtrlStaInfo_t *) (interfacePriv->staInfo[handle]))) == NULL) { - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - unifi_warning(priv, "uf_handle_tim_cfm: station record is NULL handle = %x\n", handle); - return; - } - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } - switch(timSetStatus) - { - case CSR_WIFI_TIM_SETTING: - timSetValue = CSR_WIFI_TIM_SET; - break; - case CSR_WIFI_TIM_RESETTING: - timSetValue = CSR_WIFI_TIM_RESET; - break; - default: - unifi_warning(priv, "timSet state is %x: Debug\n", timSetStatus); - return; - } - - /* check TIM confirm for success/failures */ - switch(cfm->ResultCode) - { - case CSR_RC_SUCCESS: - if (handle != CSR_WIFI_BROADCAST_OR_MULTICAST_HANDLE) { - /* Unicast frame & station record available */ - if (timSetStatus == staRecord->timSet) { - staRecord->timSet = timSetValue; - /* fh_cmd_q can also be full at some point of time!, - * resetting count as queue is cleaned by firmware at this point - */ - retryCount = 0; - unifi_trace(priv, UDBG2, "tim (%s) successfully in firmware\n", (timSetValue)?"SET":"RESET"); - } else { - unifi_trace(priv, UDBG3, "receiver processID = %x, success: request & confirm states are not matching in TIM cfm: Debug status = %x, staRecord->timSet = %x, handle = %x\n", - receiverProcessId, timSetStatus, staRecord->timSet, handle); - } - - /* Reset TIM pending flag to send next TIM request */ - staRecord->timRequestPendingFlag = FALSE; - - /* Make sure that one more UpdateTim request is queued, if Queued its value - * should be CSR_WIFI_TIM_SET or CSR_WIFI_TIM_RESET - */ - if (0xFF != staRecord->updateTimReqQueued) - { - /* Process the UpdateTim Request which is queued while previous UpdateTim was in progress */ - if (staRecord->timSet != staRecord->updateTimReqQueued) - { - unifi_trace(priv, UDBG2, "uf_handle_tim_cfm : Processing Queued UpdateTimReq \n"); - - update_tim(priv, staRecord->aid, staRecord->updateTimReqQueued, interfaceTag, handle); - - staRecord->updateTimReqQueued = 0xFF; - } - } - } else { - - interfacePriv->bcTimSet = timSetValue; - /* fh_cmd_q can also be full at some point of time!, - * resetting count as queue is cleaned by firmware at this point - */ - retryCount = 0; - unifi_trace(priv, UDBG3, "tim (%s) successfully for broadcast frame in firmware\n", (timSetValue)?"SET":"RESET"); - - /* Reset DTIM pending flag to send next DTIM request */ - interfacePriv->bcTimSetReqPendingFlag = FALSE; - - /* Make sure that one more UpdateDTim request is queued, if Queued its value - * should be CSR_WIFI_TIM_SET or CSR_WIFI_TIM_RESET - */ - if (0xFF != interfacePriv->bcTimSetReqQueued) - { - /* Process the UpdateTim Request which is queued while previous UpdateTim was in progress */ - if (interfacePriv->bcTimSet != interfacePriv->bcTimSetReqQueued) - { - unifi_trace(priv, UDBG2, "uf_handle_tim_cfm : Processing Queued UpdateDTimReq \n"); - - update_tim(priv, 0, interfacePriv->bcTimSetReqQueued, interfaceTag, 0xFFFFFFFF); - - interfacePriv->bcTimSetReqQueued = 0xFF; - } - } - - } - break; - case CSR_RC_INVALID_PARAMETERS: - case CSR_RC_INSUFFICIENT_RESOURCE: - /* check for max retry limit & send again - * MAX_RETRY_LIMIT is not maintained for each set of transactions..Its generic - * If failure crosses this Limit, we have to take a call to FIX - */ - if (retryCount > UNIFI_MAX_RETRY_LIMIT) { - u8 moreData = FALSE; - retryCount = 0; - /* Because of continuos traffic in fh_cmd_q the tim set request is failing (exceeding retry limit) - * but if we didn't synchronize our timSet varible state with firmware then it can cause below issues - * cond 1. We want to SET tim in firmware if its fails & max retry limit reached - * -> If host set's the timSet to 1, we wont try to send(as max retry reached) update tim but - * firmware is not updated with queue(TIM) status so it wont set TIM in beacon finally host start piling - * up data & wont try to set tim in firmware (This can cause worser performance) - * cond 2. We want to reset tim in firmware it fails & reaches max retry limit - * -> If host sets the timSet to Zero, it wont try to set a TIM request unless we wont have any packets - * to be queued, so beacon unnecessarily advertizes the TIM - */ - - if(staRecord) { - if(!staRecord->wmmOrQosEnabled) { - moreData = (!list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION]) || - !list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_VO]) || - !list_empty(&staRecord->mgtFrames)); - } else { - /* Peer is QSTA */ - u8 allDeliveryEnabled = 0, dataAvailable = 0; - /* Check if all AC's are Delivery Enabled */ - is_all_ac_deliver_enabled_and_moredata(staRecord, &allDeliveryEnabled, &dataAvailable); - /*check for more data in non-delivery enabled queues*/ - moreData = (uf_is_more_data_for_non_delivery_ac(staRecord) || (allDeliveryEnabled && dataAvailable)); - - } - /* To avoid cond 1 & 2, check internal Queues status, if we have more Data then set RESET the timSet(0), - * so we are trying to be in sync with firmware & next packets before queuing atleast try to - * set TIM in firmware otherwise it SET timSet(1) - */ - if (moreData) { - staRecord->timSet = CSR_WIFI_TIM_RESET; - } else { - staRecord->timSet = CSR_WIFI_TIM_SET; - } - } else { - /* Its a broadcast frames */ - moreData = (!list_empty(&interfacePriv->genericMulticastOrBroadCastMgtFrames) || - !list_empty(&interfacePriv->genericMulticastOrBroadCastFrames)); - if (moreData) { - update_tim(priv, 0, CSR_WIFI_TIM_SET, interfaceTag, 0xFFFFFFFF); - } else { - update_tim(priv, 0, CSR_WIFI_TIM_RESET, interfaceTag, 0xFFFFFFFF); - } - } - - unifi_error(priv, "no of error's for TIM setting crossed the Limit: verify\n"); - return; - } - retryCount++; - - if (handle != CSR_WIFI_BROADCAST_OR_MULTICAST_HANDLE) { - if (timSetStatus == staRecord->timSet) { - unifi_warning(priv, "tim request failed, retry for AID = %x\n", staRecord->aid); - update_tim(priv, staRecord->aid, timSetValue, interfaceTag, handle); - } else { - unifi_trace(priv, UDBG1, "failure: request & confirm states are not matching in TIM cfm: Debug status = %x, staRecord->timSet = %x\n", - timSetStatus, staRecord->timSet); - } - } else { - unifi_warning(priv, "tim request failed, retry for broadcast frames\n"); - update_tim(priv, 0, timSetValue, interfaceTag, 0xFFFFFFFF); - } - break; - default: - unifi_warning(priv, "tim update request failed resultcode = %x\n", cfm->ResultCode); - } - - unifi_trace(priv, UDBG2, "leaving %s\n", __FUNCTION__); -} - -/* - * --------------------------------------------------------------------------- - * update_tim - * - * - * This function updates tim status in firmware for AID[1 to UNIFI_MAX_CONNECTIONS] or - * AID[0] for broadcast/multicast packets. - * - * NOTE: The LSB (least significant BYTE) of senderId while sending this MLME premitive - * has been modified(utilized) as below - * - * SenderID in signal's SignalPrimitiveHeader is 2 byte the lowe byte bitmap is below - * - * station handle(6 bits) timSet Status (2 bits) - * --------------------- ---------------------- - * 0 0 0 0 0 0 | 0 0 - * - * timSet Status can be one of below: - * - * CSR_WIFI_TIM_RESET - * CSR_WIFI_TIM_RESETTING - * CSR_WIFI_TIM_SET - * CSR_WIFI_TIM_SETTING - * - * Arguments: - * priv Pointer to device private context struct - * aid can be 1 t0 UNIFI_MAX_CONNECTIONS & 0 means multicast/broadcast - * setTim value SET(1) / RESET(0) - * interfaceTag the interfaceID on which activity going on - * handle from (0 <= handle < UNIFI_MAX_CONNECTIONS) - * - * --------------------------------------------------------------------------- - */ -void update_tim(unifi_priv_t * priv, u16 aid, u8 setTim, u16 interfaceTag, u32 handle) -{ - CSR_SIGNAL signal; - s32 r; - CSR_MLME_SET_TIM_REQUEST *req = &signal.u.MlmeSetTimRequest; - bulk_data_param_t *bulkdata = NULL; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - u8 senderIdLsb = 0; - CsrWifiRouterCtrlStaInfo_t *staRecord = NULL; - u32 oldTimSetStatus = 0, timSetStatus = 0; - - unifi_trace(priv, UDBG5, "entering the update_tim routine\n"); - - - if (handle == 0xFFFFFFFF) { - handle &= CSR_WIFI_BROADCAST_OR_MULTICAST_HANDLE; - if (setTim == interfacePriv->bcTimSet) - { - unifi_trace(priv, UDBG3, "update_tim, Drop:Hdl=%x, timval=%d, globalTim=%d\n", handle, setTim, interfacePriv->bcTimSet); - return; - } - } else if ((handle != 0xFFFFFFFF) && (handle >= UNIFI_MAX_CONNECTIONS)) { - unifi_warning(priv, "bad station Handle = %x\n", handle); - return; - } - - if (setTim) { - timSetStatus = CSR_WIFI_TIM_SETTING; - } else { - timSetStatus = CSR_WIFI_TIM_RESETTING; - } - - if (handle != CSR_WIFI_BROADCAST_OR_MULTICAST_HANDLE) { - if ((staRecord = ((CsrWifiRouterCtrlStaInfo_t *) (interfacePriv->staInfo[handle]))) == NULL) { - unifi_warning(priv, "station record is NULL in update_tim: handle = %x :debug\n", handle); - return; - } - /* In case of signal sending failed, revert back to old state */ - oldTimSetStatus = staRecord->timSet; - staRecord->timSet = timSetStatus; - } - - /* pack senderID LSB */ - senderIdLsb = CSR_WIFI_PACK_SENDER_ID_LSB_FOR_TIM_REQ(handle, timSetStatus); - - /* initialize signal to zero */ - memset(&signal, 0, sizeof(CSR_SIGNAL)); - - /* Frame the MLME-SET-TIM request */ - signal.SignalPrimitiveHeader.SignalId = CSR_MLME_SET_TIM_REQUEST_ID; - signal.SignalPrimitiveHeader.ReceiverProcessId = 0; - CSR_COPY_UINT16_TO_LITTLE_ENDIAN(((priv->netdev_client->sender_id & 0xff00) | senderIdLsb), - (u8*)&signal.SignalPrimitiveHeader.SenderProcessId); - - /* set The virtual interfaceIdentifier, aid, tim value */ - req->VirtualInterfaceIdentifier = uf_get_vif_identifier(interfacePriv->interfaceMode, interfaceTag); - req->AssociationId = aid; - req->TimValue = setTim; - - - unifi_trace(priv, UDBG2, "update_tim:AID %x,senderIdLsb = 0x%x, handle = 0x%x, timSetStatus = %x, sender proceesID = %x \n", - aid, senderIdLsb, handle, timSetStatus, signal.SignalPrimitiveHeader.SenderProcessId); - - /* Send the signal to UniFi */ - r = ul_send_signal_unpacked(priv, &signal, bulkdata); - if (r) { - /* No need to free bulk data, as TIM request doesn't carries any data */ - unifi_error(priv, "Error queueing CSR_MLME_SET_TIM_REQUEST signal\n"); - if (staRecord) { - staRecord->timSet = oldTimSetStatus ; - } - else - { - /* MLME_SET_TIM.req sending failed here for AID0, so revert back our bcTimSet status */ - interfacePriv->bcTimSet = !setTim; - } - } - else { - /* Update tim request pending flag and ensure no more TIM set requests are send - for the same station until TIM confirm is received */ - if (staRecord) { - staRecord->timRequestPendingFlag = TRUE; - } - else - { - /* Update tim request (for AID 0) pending flag and ensure no more DTIM set requests are send - * for the same station until TIM confirm is received - */ - interfacePriv->bcTimSetReqPendingFlag = TRUE; - } - } - unifi_trace(priv, UDBG5, "leaving the update_tim routine\n"); -} - -static -void process_peer_active_transition(unifi_priv_t * priv, - CsrWifiRouterCtrlStaInfo_t *staRecord, - u16 interfaceTag) -{ - int r, i; - u8 spaceAvail[4] = {TRUE, TRUE, TRUE, TRUE}; - tx_buffered_packets_t * buffered_pkt = NULL; - unsigned long lock_flags; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - unifi_trace(priv, UDBG5, "entering process_peer_active_transition\n"); - - if(IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag)) { - /* giving more priority to multicast packets so delaying unicast packets*/ - unifi_trace(priv, UDBG2, "Multicast transmission is going on so resume unicast transmission after DTIM over\n"); - - /* As station is active now, even though AP is not able to send frames to it - * because of DTIM, it needs to reset the TIM here - */ - if (!staRecord->timRequestPendingFlag){ - if((staRecord->timSet == CSR_WIFI_TIM_SET) || (staRecord->timSet == CSR_WIFI_TIM_SETTING)){ - update_tim(priv, staRecord->aid, 0, interfaceTag, staRecord->assignedHandle); - } - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - staRecord->updateTimReqQueued = 0; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", staRecord->updateTimReqQueued, - staRecord->aid); - } - return; - } - while((buffered_pkt=dequeue_tx_data_pdu(priv, &staRecord->mgtFrames))) { - buffered_pkt->transmissionControl &= - ~(TRANSMISSION_CONTROL_TRIGGER_MASK|TRANSMISSION_CONTROL_EOSP_MASK); - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staRecord, 0, FALSE)) == -ENOSPC) { - unifi_trace(priv, UDBG2, "p_p_a_t:(ENOSPC) Mgt Frame queueing \n"); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staRecord->mgtFrames); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[3]=(u8)(staRecord->assignedHandle); - spaceAvail[3] = FALSE; - break; - } else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } - if (!staRecord->timRequestPendingFlag) { - if (staRecord->txSuspend) { - if(staRecord->timSet == CSR_WIFI_TIM_SET) { - update_tim(priv, staRecord->aid, 0, interfaceTag, staRecord->assignedHandle); - } - return; - } - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - staRecord->updateTimReqQueued = 0; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", staRecord->updateTimReqQueued, - staRecord->aid); - } - for(i=3;i>=0;i--) { - if(!spaceAvail[i]) - continue; - unifi_trace(priv, UDBG6, "p_p_a_t:data pkt sending for AC %d \n", i); - while((buffered_pkt=dequeue_tx_data_pdu(priv, &staRecord->dataPdu[i]))) { - buffered_pkt->transmissionControl &= - ~(TRANSMISSION_CONTROL_TRIGGER_MASK|TRANSMISSION_CONTROL_EOSP_MASK); - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staRecord, 0, FALSE)) == -ENOSPC) { - /* Clear the trigger bit transmission control*/ - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staRecord->dataPdu[i]); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[i]=(u8)(staRecord->assignedHandle); - break; - } else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } - } - if (!staRecord->timRequestPendingFlag){ - if((staRecord->timSet == CSR_WIFI_TIM_SET) || (staRecord->timSet == CSR_WIFI_TIM_SETTING)) { - unifi_trace(priv, UDBG3, "p_p_a_t:resetting tim .....\n"); - update_tim(priv, staRecord->aid, 0, interfaceTag, staRecord->assignedHandle); - } - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - staRecord->updateTimReqQueued = 0; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", staRecord->updateTimReqQueued, - staRecord->aid); - } - unifi_trace(priv, UDBG5, "leaving process_peer_active_transition\n"); -} - - - -void uf_process_ma_pkt_cfm_for_ap(unifi_priv_t *priv, u16 interfaceTag, const CSR_MA_PACKET_CONFIRM *pkt_cfm) -{ - netInterface_priv_t *interfacePriv; - u8 i; - CsrWifiRouterCtrlStaInfo_t *staRecord = NULL; - interfacePriv = priv->interfacePriv[interfaceTag]; - - - if(pkt_cfm->HostTag == interfacePriv->multicastPduHostTag) { - unifi_trace(priv, UDBG2, "CFM for marked Multicast Tag = %x\n", interfacePriv->multicastPduHostTag); - interfacePriv->multicastPduHostTag = 0xffffffff; - resume_suspended_uapsd(priv, interfaceTag); - resume_unicast_buffered_frames(priv, interfaceTag); - if(list_empty(&interfacePriv->genericMulticastOrBroadCastMgtFrames) && - list_empty(&interfacePriv->genericMulticastOrBroadCastFrames)) { - unifi_trace(priv, UDBG1, "Resetting multicastTIM"); - if (!interfacePriv->bcTimSetReqPendingFlag) - { - update_tim(priv, 0, CSR_WIFI_TIM_RESET, interfaceTag, 0xFFFFFFFF); - } - else - { - /* Cache the DTimSet value so that it will processed immidiatly after - * completing the current setDTim Request - */ - interfacePriv->bcTimSetReqQueued = CSR_WIFI_TIM_RESET; - unifi_trace(priv, UDBG2, "uf_process_ma_pkt_cfm_for_ap : One more UpdateDTim Request(%d) Queued \n", - interfacePriv->bcTimSetReqQueued); - } - - } - return; - } - - /* Check if it is a Confirm for null data frame used - * for probing station activity - */ - for(i =0; i < UNIFI_MAX_CONNECTIONS; i++) { - staRecord = (CsrWifiRouterCtrlStaInfo_t *) (interfacePriv->staInfo[i]); - if (staRecord && (staRecord->nullDataHostTag == pkt_cfm->HostTag)) { - - unifi_trace(priv, UDBG1, "CFM for Inactive probe Null frame (tag = %x, status = %d)\n", - pkt_cfm->HostTag, - pkt_cfm->TransmissionStatus - ); - staRecord->nullDataHostTag = INVALID_HOST_TAG; - - if(pkt_cfm->TransmissionStatus == CSR_TX_RETRY_LIMIT){ - u32 now; - u32 inactive_time; - - unifi_trace(priv, UDBG1, "Nulldata to probe STA ALIVE Failed with retry limit\n"); - /* Recheck if there is some activity after null data is sent. - * - * If still there is no activity then send a disconnected indication - * to SME to delete the station record. - */ - if (staRecord->activity_flag){ - return; - } - now = CsrTimeGet(NULL); - - if (staRecord->lastActivity > now) - { - /* simple timer wrap (for 1 wrap) */ - inactive_time = CsrTimeAdd((u32)CsrTimeSub(CSR_SCHED_TIME_MAX, staRecord->lastActivity), - now); - } - else - { - inactive_time = (u32)CsrTimeSub(now, staRecord->lastActivity); - } - - if (inactive_time >= STA_INACTIVE_TIMEOUT_VAL) - { - struct list_head send_cfm_list; - u8 j; - - /* The SME/NME may be waiting for confirmation for requested frames to this station. - * Though this is --VERY UNLIKELY-- in case of station in active mode. But still as a - * a defensive check, it loops through buffered frames for this station and if confirmation - * is requested, send auto confirmation with failure status. Also flush the frames so - * that these are not processed again in PEER_DEL_REQ handler. - */ - INIT_LIST_HEAD(&send_cfm_list); - - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(staRecord->mgtFrames)); - - uf_flush_list(priv, &(staRecord->mgtFrames)); - - for(j = 0; j < MAX_ACCESS_CATOGORY; j++){ - uf_prepare_send_cfm_list_for_queued_pkts(priv, - &send_cfm_list, - &(staRecord->dataPdu[j])); - - uf_flush_list(priv, &(staRecord->dataPdu[j])); - } - - send_auto_ma_packet_confirm(priv, staRecord->interfacePriv, &send_cfm_list); - - - - unifi_warning(priv, "uf_process_ma_pkt_cfm_for_ap: Router Disconnected IND Peer (%x-%x-%x-%x-%x-%x)\n", - staRecord->peerMacAddress.a[0], - staRecord->peerMacAddress.a[1], - staRecord->peerMacAddress.a[2], - staRecord->peerMacAddress.a[3], - staRecord->peerMacAddress.a[4], - staRecord->peerMacAddress.a[5]); - - CsrWifiRouterCtrlConnectedIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, - 0, - staRecord->interfacePriv->InterfaceTag, - staRecord->peerMacAddress, - CSR_WIFI_ROUTER_CTRL_PEER_DISCONNECTED); - } - - } - else if (pkt_cfm->TransmissionStatus == CSR_TX_SUCCESSFUL) - { - staRecord->activity_flag = TRUE; - } - } - } -} - -#endif -u16 uf_get_vif_identifier (CsrWifiRouterCtrlMode mode, u16 tag) -{ - switch(mode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - return (0x02<<8|tag); - - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - return (0x03<<8|tag); - - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - return (0x01<<8|tag); - - case CSR_WIFI_ROUTER_CTRL_MODE_MONITOR: - return (0x04<<8|tag); - case CSR_WIFI_ROUTER_CTRL_MODE_AMP: - return (0x05<<8|tag); - default: - return tag; - } -} - -#ifdef CSR_SUPPORT_SME - -/* - * --------------------------------------------------------------------------- - * update_macheader - * - * - * These functions updates mac header for intra BSS packet - * routing. - * NOTE: This function always has to be called in rx context which - * is in bh thread context since GFP_KERNEL is used. In soft IRQ/ Interrupt - * context shouldn't be used - * - * Arguments: - * priv Pointer to device private context struct - * skb Socket buffer containing data packet to transmit - * newSkb Socket buffer containing data packet + Mac header if no sufficient headroom in skb - * priority to append QOS control header in Mac header - * bulkdata if newSkb allocated then bulkdata updated to send to unifi - * interfaceTag the interfaceID on which activity going on - * macHeaderLengthInBytes no. of bytes of mac header in received frame - * qosDestination used to append Qos control field - * - * Returns: - * Zero on success or -1 on error. - * --------------------------------------------------------------------------- - */ - -static int update_macheader(unifi_priv_t *priv, struct sk_buff *skb, - struct sk_buff *newSkb, CSR_PRIORITY *priority, - bulk_data_param_t *bulkdata, u16 interfaceTag, - u8 macHeaderLengthInBytes, - u8 qosDestination) -{ - - u16 *fc = NULL; - u8 direction = 0, toDs, fromDs; - u8 *bufPtr = NULL; - u8 sa[ETH_ALEN], da[ETH_ALEN]; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - int headroom; - u8 macHeaderBuf[IEEE802_11_DATA_FRAME_MAC_HEADER_SIZE] = {0}; - - unifi_trace(priv, UDBG5, "entering the update_macheader function\n"); - - /* temporary buffer for the Mac header storage */ - memcpy(macHeaderBuf, skb->data, macHeaderLengthInBytes); - - /* remove the Macheader from the skb */ - skb_pull(skb, macHeaderLengthInBytes); - - /* get the skb headroom for skb_push check */ - headroom = skb_headroom(skb); - - /* pointer to frame control field */ - fc = (u16*) macHeaderBuf; - - toDs = (*fc & cpu_to_le16(IEEE802_11_FC_TO_DS_MASK))?1 : 0; - fromDs = (*fc & cpu_to_le16(IEEE802_11_FC_FROM_DS_MASK))? 1: 0; - unifi_trace(priv, UDBG5, "In update_macheader function, fromDs = %x, toDs = %x\n", fromDs, toDs); - direction = ((fromDs | (toDs << 1)) & 0x3); - - /* Address1 or 3 from the macheader */ - memcpy(da, macHeaderBuf+4+toDs*12, ETH_ALEN); - /* Address2, 3 or 4 from the mac header */ - memcpy(sa, macHeaderBuf+10+fromDs*(6+toDs*8), ETH_ALEN); - - unifi_trace(priv, UDBG3, "update_macheader:direction = %x\n", direction); - /* update the toDs, fromDs & address fields in Mac header */ - switch(direction) - { - case 2: - /* toDs = 1 & fromDs = 0 , toAp when frames received from peer - * while sending this packet to Destination the Mac header changed - * as fromDs = 1 & toDs = 0, fromAp - */ - *fc &= cpu_to_le16(~IEEE802_11_FC_TO_DS_MASK); - *fc |= cpu_to_le16(IEEE802_11_FC_FROM_DS_MASK); - /* Address1: MAC address of the actual destination (4 = 2+2) */ - memcpy(macHeaderBuf + 4, da, ETH_ALEN); - /* Address2: The MAC address of the AP (10 = 2+2+6) */ - memcpy(macHeaderBuf + 10, &interfacePriv->bssid, ETH_ALEN); - /* Address3: MAC address of the actual source from mac header (16 = 2+2+6+6) */ - memcpy(macHeaderBuf + 16, sa, ETH_ALEN); - break; - case 3: - unifi_trace(priv, UDBG3, "when both the toDs & fromDS set, NOT SUPPORTED\n"); - break; - default: - unifi_trace(priv, UDBG3, "problem in decoding packet in update_macheader \n"); - return -1; - } - - /* frameType is Data always, Validation is done before calling this function */ - - /* check for the souce station type */ - switch(le16_to_cpu(*fc) & IEEE80211_FC_SUBTYPE_MASK) - { - case IEEE802_11_FC_TYPE_QOS_DATA & IEEE80211_FC_SUBTYPE_MASK: - /* No need to modify the qos control field */ - if (!qosDestination) { - - /* If source Sta is QOS enabled & if this bit set, then HTC is supported by - * peer station & htc field present in macHeader - */ - if (*fc & cpu_to_le16(IEEE80211_FC_ORDER_MASK)) { - /* HT control field present in Mac header - * 6 = sizeof(qosControl) + sizeof(htc) - */ - macHeaderLengthInBytes -= 6; - } else { - macHeaderLengthInBytes -= 2; - } - /* Destination STA is non qos so change subtype to DATA */ - *fc &= cpu_to_le16(~IEEE80211_FC_SUBTYPE_MASK); - *fc |= cpu_to_le16(IEEE802_11_FC_TYPE_DATA); - /* remove the qos control field & HTC(if present). new macHeaderLengthInBytes is less than old - * macHeaderLengthInBytes so no need to verify skb headroom - */ - if (headroom < macHeaderLengthInBytes) { - unifi_trace(priv, UDBG1, " sufficient headroom not there to push updated mac header \n"); - return -1; - } - bufPtr = (u8 *) skb_push(skb, macHeaderLengthInBytes); - - /* update bulk data os_data_ptr */ - bulkdata->d[0].os_data_ptr = skb->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)skb; - bulkdata->d[0].data_length = skb->len; - - } else { - /* pointing to QOS control field */ - u8 qc; - if (*fc & cpu_to_le16(IEEE80211_FC_ORDER_MASK)) { - qc = *((u8*)(macHeaderBuf + (macHeaderLengthInBytes - 4 - 2))); - } else { - qc = *((u8*)(macHeaderBuf + (macHeaderLengthInBytes - 2))); - } - - if ((qc & IEEE802_11_QC_TID_MASK) > 7) { - *priority = 7; - } else { - *priority = qc & IEEE802_11_QC_TID_MASK; - } - - unifi_trace(priv, UDBG1, "Incoming packet priority from QSTA is %x\n", *priority); - - if (headroom < macHeaderLengthInBytes) { - unifi_trace(priv, UDBG3, " sufficient headroom not there to push updated mac header \n"); - return -1; - } - bufPtr = (u8 *) skb_push(skb, macHeaderLengthInBytes); - } - break; - default: - { - bulk_data_param_t data_ptrs; - CsrResult csrResult; - unifi_trace(priv, UDBG5, "normal Data packet, NO QOS \n"); - - if (qosDestination) { - u8 qc = 0; - unifi_trace(priv, UDBG3, "destination is QOS station \n"); - - /* Set Ma-Packet.req UP to UP0 */ - *priority = CSR_QOS_UP0; - - /* prepare the qos control field */ - qc |= CSR_QOS_UP0; - /* no Amsdu is in ap buffer so eosp is left 0 */ - if (da[0] & 0x1) { - /* multicast/broadcast frames, no acknowledgement needed */ - qc |= 1 << 5; - } - - /* update new Mac header Length with 2 = sizeof(qos control) */ - macHeaderLengthInBytes += 2; - - /* received DATA frame but destiantion is QOS station so update subtype to QOS*/ - *fc &= cpu_to_le16(~IEEE80211_FC_SUBTYPE_MASK); - *fc |= cpu_to_le16(IEEE802_11_FC_TYPE_QOS_DATA); - - /* appendQosControlOffset = macHeaderLengthInBytes - 2, since source sta is not QOS */ - macHeaderBuf[macHeaderLengthInBytes - 2] = qc; - /* txopLimit is 0 */ - macHeaderBuf[macHeaderLengthInBytes - 1] = 0; - if (headroom < macHeaderLengthInBytes) { - csrResult = unifi_net_data_malloc(priv, &data_ptrs.d[0], skb->len + macHeaderLengthInBytes); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, " failed to allocate request_data. in update_macheader func\n"); - return -1; - } - newSkb = (struct sk_buff *)(data_ptrs.d[0].os_net_buf_ptr); - newSkb->len = skb->len + macHeaderLengthInBytes; - - memcpy((void*)data_ptrs.d[0].os_data_ptr + macHeaderLengthInBytes, - skb->data, skb->len); - - bulkdata->d[0].os_data_ptr = newSkb->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)newSkb; - bulkdata->d[0].data_length = newSkb->len; - - bufPtr = (u8*)data_ptrs.d[0].os_data_ptr; - - /* The old skb will not be used again */ - kfree_skb(skb); - } else { - /* skb headroom is sufficient to append Macheader */ - bufPtr = (u8*)skb_push(skb, macHeaderLengthInBytes); - bulkdata->d[0].os_data_ptr = skb->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)skb; - bulkdata->d[0].data_length = skb->len; - } - } else { - unifi_trace(priv, UDBG3, "destination is not a QSTA\n"); - if (headroom < macHeaderLengthInBytes) { - csrResult = unifi_net_data_malloc(priv, &data_ptrs.d[0], skb->len + macHeaderLengthInBytes); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, " failed to allocate request_data. in update_macheader func\n"); - return -1; - } - newSkb = (struct sk_buff *)(data_ptrs.d[0].os_net_buf_ptr); - newSkb->len = skb->len + macHeaderLengthInBytes; - - memcpy((void*)data_ptrs.d[0].os_data_ptr + macHeaderLengthInBytes, - skb->data, skb->len); - - bulkdata->d[0].os_data_ptr = newSkb->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)newSkb; - bulkdata->d[0].data_length = newSkb->len; - - bufPtr = (u8*)data_ptrs.d[0].os_data_ptr; - - /* The old skb will not be used again */ - kfree_skb(skb); - } else { - /* skb headroom is sufficient to append Macheader */ - bufPtr = (u8*)skb_push(skb, macHeaderLengthInBytes); - bulkdata->d[0].os_data_ptr = skb->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)skb; - bulkdata->d[0].data_length = skb->len; - } - } - } - } - - /* prepare the complete skb, by pushing the MAC header to the beginning of the skb->data */ - unifi_trace(priv, UDBG5, "updated Mac Header: %d \n", macHeaderLengthInBytes); - memcpy(bufPtr, macHeaderBuf, macHeaderLengthInBytes); - - unifi_trace(priv, UDBG5, "leaving the update_macheader function\n"); - return 0; -} -/* - * --------------------------------------------------------------------------- - * uf_ap_process_data_pdu - * - * - * Takes care of intra BSS admission control & routing packets within BSS - * - * Arguments: - * priv Pointer to device private context struct - * skb Socket buffer containing data packet to transmit - * ehdr ethernet header to fetch priority of packet - * srcStaInfo source stations record for connection verification - * packed_signal - * signal_len - * signal MA-PACKET.indication signal - * bulkdata if newSkb allocated then bulkdata updated to send to unifi - * macHeaderLengthInBytes no. of bytes of mac header in received frame - * - * Returns: - * Zero on success(ap processing complete) or -1 if packet also have to be sent to NETDEV. - * --------------------------------------------------------------------------- - */ -int -uf_ap_process_data_pdu(unifi_priv_t *priv, struct sk_buff *skb, - struct ethhdr *ehdr, CsrWifiRouterCtrlStaInfo_t * srcStaInfo, - const CSR_SIGNAL *signal, - bulk_data_param_t *bulkdata, - u8 macHeaderLengthInBytes) -{ - const CSR_MA_PACKET_INDICATION *ind = &(signal->u.MaPacketIndication); - u16 interfaceTag = (ind->VirtualInterfaceIdentifier & 0x00ff); - struct sk_buff *newSkb = NULL; - /* pointer to skb or private skb created using skb_copy() */ - struct sk_buff *skbPtr = skb; - u8 sendToNetdev = FALSE; - u8 qosDestination = FALSE; - CSR_PRIORITY priority = CSR_CONTENTION; - CsrWifiRouterCtrlStaInfo_t *dstStaInfo = NULL; - netInterface_priv_t *interfacePriv; - - unifi_trace(priv, UDBG5, "entering uf_ap_process_data_pdu %d\n", macHeaderLengthInBytes); - /* InterfaceTag validation from MA_PACKET.indication */ - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_trace(priv, UDBG1, "Interface Tag is Invalid in uf_ap_process_data_pdu\n"); - unifi_net_data_free(priv, &bulkdata->d[0]); - return 0; - } - interfacePriv = priv->interfacePriv[interfaceTag]; - - if((interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) && - (interfacePriv->intraBssEnabled == FALSE)) { - unifi_trace(priv, UDBG2, "uf_ap_process_data_pdu:P2P GO intrabssEnabled?= %d\n", interfacePriv->intraBssEnabled); - - /*In P2P GO case, if intraBSS distribution Disabled then don't do IntraBSS routing */ - /* If destination in our BSS then drop otherwise give packet to netdev */ - dstStaInfo = CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, ehdr->h_dest, interfaceTag); - if (dstStaInfo) { - unifi_net_data_free(priv, &bulkdata->d[0]); - return 0; - } - /* May be associated P2PCLI trying to send the packets on backbone (Netdev) */ - return -1; - } - - if(!memcmp(ehdr->h_dest, interfacePriv->bssid.a, ETH_ALEN)) { - /* This packet will be given to the TCP/IP stack since this packet is for us(AP) - * No routing needed */ - unifi_trace(priv, UDBG4, "destination address is csr_ap\n"); - return -1; - } - - /* fetch the destination record from station record database */ - dstStaInfo = CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, ehdr->h_dest, interfaceTag); - - /* AP mode processing, & if packet is unicast */ - if(!dstStaInfo) { - if (!(ehdr->h_dest[0] & 0x1)) { - /* destination not in station record & its a unicast packet, so pass the packet to network stack */ - unifi_trace(priv, UDBG3, "unicast frame & destination record not exist, send to netdev proto = %x\n", htons(skb->protocol)); - return -1; - } else { - /* packet is multicast/broadcast */ - /* copy the skb to skbPtr, send skb to netdev & skbPtr to multicast/broad cast list */ - unifi_trace(priv, UDBG5, "skb_copy, in uf_ap_process_data_pdu, protocol = %x\n", htons(skb->protocol)); - skbPtr = skb_copy(skb, GFP_KERNEL); - if(skbPtr == NULL) { - /* We don't have memory to don't send the frame in BSS*/ - unifi_notice(priv, "broacast/multicast frame can't be sent in BSS No memeory: proto = %x\n", htons(skb->protocol)); - return -1; - } - sendToNetdev = TRUE; - } - } else { - - /* validate the Peer & Destination Station record */ - if (uf_process_station_records_for_sending_data(priv, interfaceTag, srcStaInfo, dstStaInfo)) { - unifi_notice(priv, "uf_ap_process_data_pdu: station record validation failed \n"); - interfacePriv->stats.rx_errors++; - unifi_net_data_free(priv, &bulkdata->d[0]); - return 0; - } - } - - /* BroadCast packet received and it's been sent as non QOS packets. - * Since WMM spec not mandates broadcast/multicast to be sent as QOS data only, - * if all Peers are QSTA - */ - if(sendToNetdev) { - /* BroadCast packet and it's been sent as non QOS packets */ - qosDestination = FALSE; - } else if(dstStaInfo && (dstStaInfo->wmmOrQosEnabled == TRUE)) { - qosDestination = TRUE; - } - - unifi_trace(priv, UDBG3, "uf_ap_process_data_pdu QoS destination = %s\n", (qosDestination)? "TRUE": "FALSE"); - - /* packet is allowed to send to unifi, update the Mac header */ - if (update_macheader(priv, skbPtr, newSkb, &priority, bulkdata, interfaceTag, macHeaderLengthInBytes, qosDestination)) { - interfacePriv->stats.rx_errors++; - unifi_notice(priv, "(Packet Drop) failed to update the Mac header in uf_ap_process_data_pdu\n"); - if (sendToNetdev) { - /* Free's the skb_copy(skbPtr) data since packet processing failed */ - bulkdata->d[0].os_data_ptr = skbPtr->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)skbPtr; - bulkdata->d[0].data_length = skbPtr->len; - unifi_net_data_free(priv, &bulkdata->d[0]); - } - return -1; - } - - unifi_trace(priv, UDBG3, "Mac Header updated...calling uf_process_ma_packet_req \n"); - - /* Packet is ready to send to unifi ,transmissionControl = 0x0004, confirmation is not needed for data packets */ - if (uf_process_ma_packet_req(priv, ehdr->h_dest, 0xffffffff, interfaceTag, CSR_NO_CONFIRM_REQUIRED, (CSR_RATE)0, priority, priv->netdev_client->sender_id, bulkdata)) { - if (sendToNetdev) { - unifi_trace(priv, UDBG1, "In uf_ap_process_data_pdu, (Packet Drop) uf_process_ma_packet_req failed. freeing skb_copy data (original data sent to Netdev)\n"); - /* Free's the skb_copy(skbPtr) data since packet processing failed */ - bulkdata->d[0].os_data_ptr = skbPtr->data; - bulkdata->d[0].os_net_buf_ptr = (unsigned char*)skbPtr; - bulkdata->d[0].data_length = skbPtr->len; - unifi_net_data_free(priv, &bulkdata->d[0]); - } else { - /* This free's the skb data */ - unifi_trace(priv, UDBG1, "In uf_ap_process_data_pdu, (Packet Drop). Unicast data so freeing original skb \n"); - unifi_net_data_free(priv, &bulkdata->d[0]); - } - } - unifi_trace(priv, UDBG5, "leaving uf_ap_process_data_pdu\n"); - - if (sendToNetdev) { - /* The packet is multicast/broadcast, so after AP processing packet has to - * be sent to netdev, if peer port state is open - */ - unifi_trace(priv, UDBG4, "Packet will be routed to NetDev\n"); - return -1; - } - /* Ap handled the packet & its a unicast packet, no need to send to netdev */ - return 0; -} - -#endif - -CsrResult uf_process_ma_packet_req(unifi_priv_t *priv, - u8 *peerMacAddress, - CSR_CLIENT_TAG hostTag, - u16 interfaceTag, - CSR_TRANSMISSION_CONTROL transmissionControl, - CSR_RATE TransmitRate, - CSR_PRIORITY priority, - CSR_PROCESS_ID leSenderProcessId, - bulk_data_param_t *bulkdata) -{ - CsrResult status = CSR_RESULT_SUCCESS; - CSR_SIGNAL signal; - int result; -#ifdef CSR_SUPPORT_SME - CsrWifiRouterCtrlStaInfo_t *staRecord = NULL; - const u8 *macHdrLocation = bulkdata->d[0].os_data_ptr; - CsrWifiPacketType pktType; - int frameType = 0; - u8 queuePacketDozing = FALSE; - u32 priority_q; - u16 frmCtrl; - struct list_head * list = NULL; /* List to which buffered PDUs are to be enqueued*/ - u8 setBcTim=FALSE; - netInterface_priv_t *interfacePriv; - u8 requeueOnSamePos = FALSE; - u32 handle = 0xFFFFFFFF; - unsigned long lock_flags; - - unifi_trace(priv, UDBG5, - "entering uf_process_ma_packet_req, peer: %pMF\n", - peerMacAddress); - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "interfaceTag >= CSR_WIFI_NUM_INTERFACES, interfacetag = %d\n", interfaceTag); - return CSR_RESULT_FAILURE; - } - interfacePriv = priv->interfacePriv[interfaceTag]; - - - /* fetch the station record for corresponding peer mac address */ - if ((staRecord = CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, peerMacAddress, interfaceTag))) { - handle = staRecord->assignedHandle; - } - - /* Frame ma-packet.req, this is saved/transmitted depend on queue state */ - unifi_frame_ma_packet_req(priv, priority, TransmitRate, hostTag, - interfaceTag, transmissionControl, leSenderProcessId, - peerMacAddress, &signal); - - /* Since it's common path between STA & AP mode, in case of STA packet - * need not to be queued but in AP case we have to queue PDU's in - * different scenarios - */ - switch(interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - /* For this mode processing done below */ - break; - default: - /* In case of STA/IBSS/P2PCLI/AMP, no checks needed send the packet down & return */ - unifi_trace(priv, UDBG5, "In %s, interface mode is %x \n", __FUNCTION__, interfacePriv->interfaceMode); - if (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_NONE) { - unifi_warning(priv, "In %s, interface mode NONE \n", __FUNCTION__); - } - if ((result = ul_send_signal_unpacked(priv, &signal, bulkdata))) { - status = CSR_RESULT_FAILURE; - } - return status; - } - - /* -----Only AP/P2pGO mode handling falls below----- */ - - /* convert priority to queue */ - priority_q = unifi_frame_priority_to_queue((CSR_PRIORITY) priority); - - /* check the powersave status of the peer */ - if (staRecord && (staRecord->currentPeerState == - CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE)) { - /* Peer is dozing & packet have to be delivered, so buffer the packet & - * update the TIM - */ - queuePacketDozing = TRUE; - } - - /* find the type of frame unicast or mulicast/broadcast */ - if (*peerMacAddress & 0x1) { - /* Multicast/broadCast data are always triggered by vif_availability.ind - * at the DTIM - */ - pktType = CSR_WIFI_MULTICAST_PDU; - } else { - pktType = CSR_WIFI_UNICAST_PDU; - } - - /* Fetch the frame control field from mac header & check for frame type */ - frmCtrl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(macHdrLocation); - - /* Processing done according to Frame/Packet type */ - frameType = ((frmCtrl & 0x000c) >> FRAME_CONTROL_TYPE_FIELD_OFFSET); - switch(frameType) - { - case IEEE802_11_FRAMETYPE_MANAGEMENT: - - switch(pktType) - { - case CSR_WIFI_UNICAST_PDU: - unifi_trace(priv, UDBG5, "management unicast PDU in uf_process_ma_packet_req \n"); - /* push the packet in to the queue with appropriate mgt list */ - if (!staRecord) { - /* push the packet to the unifi if list is empty (if packet lost how to re-enque) */ - if (list_empty(&interfacePriv->genericMgtFrames)) { -#ifdef CSR_SUPPORT_SME - if(!(IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag))) { -#endif - - unifi_trace(priv, UDBG3, "genericMgtFrames list is empty uf_process_ma_packet_req \n"); - result = ul_send_signal_unpacked(priv, &signal, bulkdata); - /* reque only on ENOSPC */ - if(result == -ENOSPC) { - /* requeue the failed packet to genericMgtFrame with same position */ - unifi_trace(priv, UDBG1, "(ENOSPC) Sending genericMgtFrames Failed so buffering\n"); - list = &interfacePriv->genericMgtFrames; - requeueOnSamePos = TRUE; - } -#ifdef CSR_SUPPORT_SME - }else{ - list = &interfacePriv->genericMgtFrames; - unifi_trace(priv, UDBG3, "genericMgtFrames queue empty and dtim started\n hosttag is 0x%x,\n", signal.u.MaPacketRequest.HostTag); - update_eosp_to_head_of_broadcast_list_head(priv, interfaceTag); - } -#endif - } else { - /* Queue the packet to genericMgtFrame of unifi_priv_t data structure */ - list = &interfacePriv->genericMgtFrames; - unifi_trace(priv, UDBG2, "genericMgtFrames queue not empty\n"); - } - } else { - /* check peer power state */ - if (queuePacketDozing || !list_empty(&staRecord->mgtFrames) || IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag)) { - /* peer is in dozing mode, so queue packet in mgt frame list of station record */ - /*if multicast traffic is going on, buffer the unicast packets*/ - list = &staRecord->mgtFrames; - - unifi_trace(priv, UDBG1, "staRecord->MgtFrames list empty? = %s, handle = %d, queuePacketDozing = %d\n", - (list_empty(&staRecord->mgtFrames))? "YES": "NO", staRecord->assignedHandle, queuePacketDozing); - if(IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag)){ - update_eosp_to_head_of_broadcast_list_head(priv, interfaceTag); - } - - } else { - unifi_trace(priv, UDBG5, "staRecord->mgtFrames list is empty uf_process_ma_packet_req \n"); - result = ul_send_signal_unpacked(priv, &signal, bulkdata); - if(result == -ENOSPC) { - /* requeue the failed packet to staRecord->mgtFrames with same position */ - list = &staRecord->mgtFrames; - requeueOnSamePos = TRUE; - unifi_trace(priv, UDBG1, "(ENOSPC) Sending MgtFrames Failed handle = %d so buffering\n", staRecord->assignedHandle); - priv->pausedStaHandle[0]=(u8)(staRecord->assignedHandle); - } else if (result) { - status = CSR_RESULT_FAILURE; - } - } - } - break; - case CSR_WIFI_MULTICAST_PDU: - unifi_trace(priv, UDBG5, "management multicast/broadcast PDU in uf_process_ma_packet_req 'QUEUE it' \n"); - /* Queue the packet to genericMulticastOrBroadCastMgtFrames of unifi_priv_t data structure - * will be sent when we receive VIF AVAILABILITY from firmware as part of DTIM - */ - - list = &interfacePriv->genericMulticastOrBroadCastMgtFrames; - if((interfacePriv->interfaceMode != CSR_WIFI_ROUTER_CTRL_MODE_IBSS) && - (list_empty(&interfacePriv->genericMulticastOrBroadCastMgtFrames))) { - setBcTim=TRUE; - } - break; - default: - unifi_error(priv, "condition never meets: packet type unrecognized\n"); - } - break; - case IEEE802_11_FRAMETYPE_DATA: - switch(pktType) - { - case CSR_WIFI_UNICAST_PDU: - unifi_trace(priv, UDBG5, "data unicast PDU in uf_process_ma_packet_req \n"); - /* check peer power state, list status & peer port status */ - if(!staRecord) { - unifi_error(priv, "In %s unicast but staRecord = NULL\n", __FUNCTION__); - return CSR_RESULT_FAILURE; - } else if (queuePacketDozing || isRouterBufferEnabled(priv, priority_q)|| !list_empty(&staRecord->dataPdu[priority_q]) || IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag)) { - /* peer is in dozing mode, so queue packet in mgt frame list of station record */ - /* if multicast traffic is going on, buffet the unicast packets */ - unifi_trace(priv, UDBG2, "Enqueued to staRecord->dataPdu[%d] queuePacketDozing=%d,\ - Buffering enabled = %d \n", priority_q, queuePacketDozing, isRouterBufferEnabled(priv, priority_q)); - list = &staRecord->dataPdu[priority_q]; - } else { - unifi_trace(priv, UDBG5, "staRecord->dataPdu[%d] list is empty uf_process_ma_packet_req \n", priority_q); - /* Pdu allowed to send to unifi */ - result = ul_send_signal_unpacked(priv, &signal, bulkdata); - if(result == -ENOSPC) { - /* requeue the failed packet to staRecord->dataPdu[priority_q] with same position */ - unifi_trace(priv, UDBG1, "(ENOSPC) Sending Unicast DataPDU to queue %d Failed so buffering\n", priority_q); - requeueOnSamePos = TRUE; - list = &staRecord->dataPdu[priority_q]; - priv->pausedStaHandle[priority_q]=(u8)(staRecord->assignedHandle); - if(!isRouterBufferEnabled(priv, priority_q)) { - unifi_error(priv, "Buffering Not enabled for queue %d \n", priority_q); - } - } else if (result) { - status = CSR_RESULT_FAILURE; - } - } - break; - case CSR_WIFI_MULTICAST_PDU: - unifi_trace(priv, UDBG5, "data multicast/broadcast PDU in uf_process_ma_packet_req \n"); - /* Queue the packet to genericMulticastOrBroadCastFrames list of unifi_priv_t data structure - * will be sent when we receive VIF AVAILABILITY from firmware as part of DTIM - */ - list = &interfacePriv->genericMulticastOrBroadCastFrames; - if(list_empty(&interfacePriv->genericMulticastOrBroadCastFrames)) { - setBcTim = TRUE; - } - break; - default: - unifi_error(priv, "condition never meets: packet type un recognized\n"); - } - break; - default: - unifi_error(priv, "unrecognized frame type\n"); - } - if(list) { - status = enque_tx_data_pdu(priv, bulkdata, list, &signal, requeueOnSamePos); - /* Record no. of packet queued for each peer */ - if (staRecord && (pktType == CSR_WIFI_UNICAST_PDU) && (!status)) { - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - staRecord->noOfPktQueued++; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } - else if ((pktType == CSR_WIFI_MULTICAST_PDU) && (!status)) - { - /* If broadcast Tim is set && queuing is successful, then only update TIM */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - interfacePriv->noOfbroadcastPktQueued++; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } - } - /* If broadcast Tim is set && queuing is successful, then only update TIM */ - if(setBcTim && !status) { - unifi_trace(priv, UDBG3, "tim set due to broadcast pkt\n"); - if (!interfacePriv->bcTimSetReqPendingFlag) - { - update_tim(priv, 0, CSR_WIFI_TIM_SET, interfaceTag, handle); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - interfacePriv->bcTimSetReqQueued = CSR_WIFI_TIM_SET; - unifi_trace(priv, UDBG2, "uf_process_ma_packet_req : One more UpdateDTim Request(:%d) Queued \n", - interfacePriv->bcTimSetReqQueued); - } - } else if(staRecord && staRecord->currentPeerState == - CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE) { - if(staRecord->timSet == CSR_WIFI_TIM_RESET || staRecord->timSet == CSR_WIFI_TIM_RESETTING) { - if(!staRecord->wmmOrQosEnabled) { - if(!list_empty(&staRecord->mgtFrames) || - !list_empty(&staRecord->dataPdu[3]) || - !list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION])) { - unifi_trace(priv, UDBG3, "tim set due to unicast pkt & peer in powersave\n"); - if (!staRecord->timRequestPendingFlag){ - update_tim(priv, staRecord->aid, 1, interfaceTag, handle); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - staRecord->updateTimReqQueued = 1; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", staRecord->updateTimReqQueued, - staRecord->aid); - } - } - } else { - /* Check for non delivery enable(i.e trigger enable), all delivery enable & legacy AC for TIM update in firmware */ - u8 allDeliveryEnabled = 0, dataAvailable = 0; - /* Check if all AC's are Delivery Enabled */ - is_all_ac_deliver_enabled_and_moredata(staRecord, &allDeliveryEnabled, &dataAvailable); - if (uf_is_more_data_for_non_delivery_ac(staRecord) || (allDeliveryEnabled && dataAvailable) - || (!list_empty(&staRecord->mgtFrames))) { - if (!staRecord->timRequestPendingFlag) { - update_tim(priv, staRecord->aid, 1, interfaceTag, handle); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - staRecord->updateTimReqQueued = 1; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", staRecord->updateTimReqQueued, - staRecord->aid); - } - } - } - } - } - - if((list) && (pktType == CSR_WIFI_UNICAST_PDU && !queuePacketDozing) && !(isRouterBufferEnabled(priv, priority_q)) && !(IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag))) { - unifi_trace(priv, UDBG2, "buffering cleared for queue = %d So resending buffered frames\n", priority_q); - uf_send_buffered_frames(priv, priority_q); - } - unifi_trace(priv, UDBG5, "leaving uf_process_ma_packet_req \n"); - return status; -#else -#ifdef CSR_NATIVE_LINUX - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "interfaceTag >= CSR_WIFI_NUM_INTERFACES, interfacetag = %d\n", interfaceTag); - return CSR_RESULT_FAILURE; - } - /* Frame ma-packet.req, this is saved/transmitted depend on queue state */ - unifi_frame_ma_packet_req(priv, priority, TransmitRate, hostTag, interfaceTag, - transmissionControl, leSenderProcessId, - peerMacAddress, &signal); - result = ul_send_signal_unpacked(priv, &signal, bulkdata); - if (result) { - return CSR_RESULT_FAILURE; - } -#endif - return status; -#endif -} - -#ifdef CSR_SUPPORT_SME -s8 uf_get_protection_bit_from_interfacemode(unifi_priv_t *priv, u16 interfaceTag, const u8 *daddr) -{ - s8 protection = 0; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - switch(interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_STA: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PCLI: - case CSR_WIFI_ROUTER_CTRL_MODE_AMP: - case CSR_WIFI_ROUTER_CTRL_MODE_IBSS: - protection = interfacePriv->protect; - break; - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - { - CsrWifiRouterCtrlStaInfo_t *dstStaInfo = NULL; - if (daddr[0] & 0x1) { - unifi_trace(priv, UDBG3, "broadcast/multicast packet in send_ma_pkt_request\n"); - /* In this mode, the protect member of priv structure has an information of how - * AP/P2PGO has started, & the member updated in set mode request for AP/P2PGO - */ - protection = interfacePriv->protect; - } else { - /* fetch the destination record from station record database */ - dstStaInfo = CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, daddr, interfaceTag); - if (!dstStaInfo) { - unifi_trace(priv, UDBG3, "peer not found in station record in send_ma_pkt_request\n"); - return -1; - } - protection = dstStaInfo->protection; - } - } - break; - default: - unifi_trace(priv, UDBG2, "mode unknown in send_ma_pkt_request\n"); - } - return protection; -} -#endif -#ifdef CSR_SUPPORT_SME -u8 send_multicast_frames(unifi_priv_t *priv, u16 interfaceTag) -{ - int r; - tx_buffered_packets_t * buffered_pkt = NULL; - u8 moreData = FALSE; - u8 pduSent =0; - unsigned long lock_flags; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - u32 hostTag = 0xffffffff; - - if(!isRouterBufferEnabled(priv, UNIFI_TRAFFIC_Q_VO)) { - while((interfacePriv->dtimActive)&& (buffered_pkt=dequeue_tx_data_pdu(priv, &interfacePriv->genericMulticastOrBroadCastMgtFrames))) { - buffered_pkt->transmissionControl |= (TRANSMISSION_CONTROL_TRIGGER_MASK); - moreData = (buffered_pkt->transmissionControl & TRANSMISSION_CONTROL_EOSP_MASK)?FALSE:TRUE; - - - unifi_trace(priv, UDBG2, "DTIM Occurred for interface:sending Mgt packet %d\n", interfaceTag); - - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, NULL, moreData, FALSE)) == -ENOSPC) { - unifi_trace(priv, UDBG1, "frame_and_send_queued_pdu failed with ENOSPC for host tag = %x\n", buffered_pkt->hostTag); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &interfacePriv->genericMulticastOrBroadCastMgtFrames); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - break; - } else { - unifi_trace(priv, UDBG1, "send_multicast_frames: Send genericMulticastOrBroadCastMgtFrames (%x, %x)\n", - buffered_pkt->hostTag, - r); - if(r) { - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - if(!moreData) { - - interfacePriv->dtimActive = FALSE; - if(!r) { - hostTag = buffered_pkt->hostTag; - pduSent++; - } else { - send_vif_availibility_rsp(priv, uf_get_vif_identifier(interfacePriv->interfaceMode, interfaceTag), CSR_RC_UNSPECIFIED_FAILURE); - } - } - /* Buffered frame sent successfully */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - interfacePriv->noOfbroadcastPktQueued--; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - kfree(buffered_pkt); - } - - } - } - if(!isRouterBufferEnabled(priv, UNIFI_TRAFFIC_Q_CONTENTION)) { - while((interfacePriv->dtimActive)&& (buffered_pkt=dequeue_tx_data_pdu(priv, &interfacePriv->genericMulticastOrBroadCastFrames))) { - buffered_pkt->transmissionControl |= TRANSMISSION_CONTROL_TRIGGER_MASK; - moreData = (buffered_pkt->transmissionControl & TRANSMISSION_CONTROL_EOSP_MASK)?FALSE:TRUE; - - - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, NULL, moreData, FALSE)) == -ENOSPC) { - /* Clear the trigger bit transmission control*/ - buffered_pkt->transmissionControl &= ~(TRANSMISSION_CONTROL_TRIGGER_MASK); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &interfacePriv->genericMulticastOrBroadCastFrames); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - break; - } else { - if(r) { - unifi_trace(priv, UDBG1, "send_multicast_frames: Send genericMulticastOrBroadCastFrame failed (%x, %x)\n", - buffered_pkt->hostTag, - r); - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - if(!moreData) { - interfacePriv->dtimActive = FALSE; - if(!r) { - pduSent ++; - hostTag = buffered_pkt->hostTag; - } else { - send_vif_availibility_rsp(priv, uf_get_vif_identifier(interfacePriv->interfaceMode, interfaceTag), CSR_RC_UNSPECIFIED_FAILURE); - } - } - /* Buffered frame sent successfully */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - interfacePriv->noOfbroadcastPktQueued--; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - kfree(buffered_pkt); - } - } - } - if((interfacePriv->dtimActive == FALSE)) { - /* Record the host Tag*/ - unifi_trace(priv, UDBG2, "send_multicast_frames: Recorded hostTag of EOSP packet: = 0x%x\n", hostTag); - interfacePriv->multicastPduHostTag = hostTag; - } - return pduSent; -} -#endif -void uf_process_ma_vif_availibility_ind(unifi_priv_t *priv, u8 *sigdata, - u32 siglen) -{ -#ifdef CSR_SUPPORT_SME - CSR_SIGNAL signal; - CSR_MA_VIF_AVAILABILITY_INDICATION *ind; - int r; - u16 interfaceTag; - u8 pduSent =0; - CSR_RESULT_CODE resultCode = CSR_RC_SUCCESS; - netInterface_priv_t *interfacePriv; - - unifi_trace(priv, UDBG3, - "uf_process_ma_vif_availibility_ind: Process signal 0x%.4X\n", - *((u16*)sigdata)); - - r = read_unpack_signal(sigdata, &signal); - if (r) { - unifi_error(priv, - "uf_process_ma_vif_availibility_ind: Received unknown signal 0x%.4X.\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(sigdata)); - return; - } - ind = &signal.u.MaVifAvailabilityIndication; - interfaceTag=ind->VirtualInterfaceIdentifier & 0xff; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "in vif_availability_ind interfaceTag is wrong\n"); - return; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - - if(ind->Multicast) { - if(list_empty(&interfacePriv->genericMulticastOrBroadCastFrames) && - list_empty(&interfacePriv->genericMulticastOrBroadCastMgtFrames)) { - /* This condition can occur because of a potential race where the - TIM is not yet reset as host is waiting for confirm but it is sent - by firmware and DTIM occurs*/ - unifi_notice(priv, "ma_vif_availibility_ind recevied for multicast but queues are empty%d\n", interfaceTag); - send_vif_availibility_rsp(priv, ind->VirtualInterfaceIdentifier, CSR_RC_NO_BUFFERED_BROADCAST_MULTICAST_FRAMES); - interfacePriv->dtimActive = FALSE; - if(interfacePriv->multicastPduHostTag == 0xffffffff) { - unifi_notice(priv, "ma_vif_availibility_ind recevied for multicast but queues are empty%d\n", interfaceTag); - /* This may be an extra request in very rare race conditions but it is fine as it would atleast remove the potential lock up */ - if (!interfacePriv->bcTimSetReqPendingFlag) - { - update_tim(priv, 0, CSR_WIFI_TIM_RESET, interfaceTag, 0xFFFFFFFF); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - interfacePriv->bcTimSetReqQueued = CSR_WIFI_TIM_RESET; - unifi_trace(priv, UDBG2, "uf_process_ma_vif_availibility_ind : One more UpdateDTim Request(%d) Queued \n", - interfacePriv->bcTimSetReqQueued); - } - } - return; - } - if(interfacePriv->dtimActive) { - unifi_trace(priv, UDBG2, "DTIM Occurred for already active DTIM interface %d\n", interfaceTag); - return; - } else { - unifi_trace(priv, UDBG2, "DTIM Occurred for interface %d\n", interfaceTag); - if(list_empty(&interfacePriv->genericMulticastOrBroadCastFrames)) { - set_eosp_transmit_ctrl(priv, &interfacePriv->genericMulticastOrBroadCastMgtFrames); - } else { - set_eosp_transmit_ctrl(priv, &interfacePriv->genericMulticastOrBroadCastFrames); - } - } - interfacePriv->dtimActive = TRUE; - pduSent = send_multicast_frames(priv, interfaceTag); - } - else { - unifi_error(priv, "Interface switching is not supported %d\n", interfaceTag); - resultCode = CSR_RC_NOT_SUPPORTED; - send_vif_availibility_rsp(priv, ind->VirtualInterfaceIdentifier, CSR_RC_NOT_SUPPORTED); - } -#endif -} -#ifdef CSR_SUPPORT_SME - -#define GET_ACTIVE_INTERFACE_TAG(priv) 0 - -static u8 uf_is_more_data_for_delivery_ac(unifi_priv_t *priv, CsrWifiRouterCtrlStaInfo_t *staRecord) -{ - s8 i; - - for(i=UNIFI_TRAFFIC_Q_VO; i >= UNIFI_TRAFFIC_Q_BK; i--) - { - if(((staRecord->powersaveMode[i]==CSR_WIFI_AC_DELIVERY_ONLY_ENABLE) - ||(staRecord->powersaveMode[i]==CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED)) - &&(!list_empty(&staRecord->dataPdu[i]))) { - unifi_trace(priv, UDBG2, "uf_is_more_data_for_delivery_ac: Data Available AC = %d\n", i); - return TRUE; - } - } - - unifi_trace(priv, UDBG2, "uf_is_more_data_for_delivery_ac: Data NOT Available \n"); - return FALSE; -} - -static u8 uf_is_more_data_for_usp_delivery(unifi_priv_t *priv, CsrWifiRouterCtrlStaInfo_t *staRecord, unifi_TrafficQueue queue) -{ - s8 i; - - for(i = queue; i >= UNIFI_TRAFFIC_Q_BK; i--) - { - if(((staRecord->powersaveMode[i]==CSR_WIFI_AC_DELIVERY_ONLY_ENABLE) - ||(staRecord->powersaveMode[i]==CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED)) - &&(!list_empty(&staRecord->dataPdu[i]))) { - unifi_trace(priv, UDBG2, "uf_is_more_data_for_usp_delivery: Data Available AC = %d\n", i); - return TRUE; - } - } - - unifi_trace(priv, UDBG2, "uf_is_more_data_for_usp_delivery: Data NOT Available \n"); - return FALSE; -} - -/* - * --------------------------------------------------------------------------- - * uf_send_buffered_data_from_delivery_ac - * - * This function takes care of - * -> Parsing the delivery enabled queue & sending frame down to HIP - * -> Setting EOSP=1 when USP to be terminated - * -> Depending on MAX SP length services the USP - * - * NOTE:This function always called from uf_handle_uspframes_delivery(), Dont - * call this function from any other location in code - * - * Arguments: - * priv Pointer to device private context struct - * vif interface specific HIP vif instance - * staInfo peer for which UAPSD to be scheduled - * queue AC from which Data to be sent in USP - * txList access category for processing list - * --------------------------------------------------------------------------- - */ -void uf_send_buffered_data_from_delivery_ac(unifi_priv_t *priv, - CsrWifiRouterCtrlStaInfo_t * staInfo, - u8 queue, - struct list_head *txList) -{ - - u16 interfaceTag = GET_ACTIVE_INTERFACE_TAG(priv); - tx_buffered_packets_t * buffered_pkt = NULL; - unsigned long lock_flags; - u8 eosp=FALSE; - s8 r =0; - u8 moreData = FALSE; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - unifi_trace(priv, UDBG2, "++uf_send_buffered_data_from_delivery_ac, active=%x\n", staInfo->uapsdActive); - - if (queue > UNIFI_TRAFFIC_Q_VO) - { - return; - } - while((buffered_pkt=dequeue_tx_data_pdu(priv, txList))) { - if((IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag))) { - unifi_trace(priv, UDBG2, "uf_send_buffered_data_from_delivery_ac: DTIM Active, suspend UAPSD, staId: 0x%x\n", - staInfo->aid); - - /* Once resume called, the U-APSD delivery operation will resume */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - staInfo->uspSuspend = TRUE; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - /* re-queueing the packet as DTIM started */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, txList); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - break; - } - - buffered_pkt->transmissionControl &= - ~(TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - - - if((staInfo->wmmOrQosEnabled == TRUE)&&(staInfo->uapsdActive == TRUE)) { - - buffered_pkt->transmissionControl = TRANSMISSION_CONTROL_TRIGGER_MASK; - - /* Check All delivery enables Ac for more data, because caller of this - * function not aware about last packet - * (First check in moreData fetching helps in draining out Mgt frames Q) - */ - moreData = (!list_empty(txList) || uf_is_more_data_for_usp_delivery(priv, staInfo, queue)); - - if(staInfo->noOfSpFramesSent == (staInfo->maxSpLength - 1)) { - moreData = FALSE; - } - - if(moreData == FALSE) { - eosp = TRUE; - buffered_pkt->transmissionControl = - (TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - } - } else { - /* Non QoS and non U-APSD */ - unifi_warning(priv, "uf_send_buffered_data_from_delivery_ac: non U-APSD !!! \n"); - } - - unifi_trace(priv, UDBG2, "uf_send_buffered_data_from_delivery_ac : MoreData:%d, EOSP:%d\n", moreData, eosp); - - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staInfo, moreData, eosp)) == -ENOSPC) { - - unifi_trace(priv, UDBG2, "uf_send_buffered_data_from_delivery_ac: UASPD suspended, ENOSPC in hipQ=%x\n", queue); - - /* Once resume called, the U-APSD delivery operation will resume */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - staInfo->uspSuspend = TRUE; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, txList); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[queue]=(u8)(staInfo->assignedHandle); - break; - } else { - if(r){ - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - staInfo->noOfSpFramesSent++; - if((!moreData) || (staInfo->noOfSpFramesSent == staInfo->maxSpLength)) { - unifi_trace(priv, UDBG2, "uf_send_buffered_data_from_delivery_ac: Terminating USP\n"); - staInfo->uapsdActive = FALSE; - staInfo->uspSuspend = FALSE; - staInfo->noOfSpFramesSent = 0; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - break; - } - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } - } - unifi_trace(priv, UDBG2, "--uf_send_buffered_data_from_delivery_ac, active=%x\n", staInfo->uapsdActive); -} - -void uf_send_buffered_data_from_ac(unifi_priv_t *priv, - CsrWifiRouterCtrlStaInfo_t * staInfo, - u8 queue, - struct list_head *txList) -{ - tx_buffered_packets_t * buffered_pkt = NULL; - unsigned long lock_flags; - u8 eosp=FALSE; - u8 moreData = FALSE; - s8 r =0; - - unifi_trace(priv, UDBG2, "uf_send_buffered_data_from_ac :\n"); - - while(!isRouterBufferEnabled(priv, queue) && - ((buffered_pkt=dequeue_tx_data_pdu(priv, txList))!=NULL)){ - - buffered_pkt->transmissionControl &= - ~(TRANSMISSION_CONTROL_TRIGGER_MASK|TRANSMISSION_CONTROL_EOSP_MASK); - - unifi_trace(priv, UDBG3, "uf_send_buffered_data_from_ac : MoreData:%d, EOSP:%d\n", moreData, eosp); - - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staInfo, moreData, eosp)) == -ENOSPC) { - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, txList); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - if(staInfo != NULL){ - priv->pausedStaHandle[queue]=(u8)(staInfo->assignedHandle); - } - unifi_trace(priv, UDBG3, " uf_send_buffered_data_from_ac: PDU sending failed .. no space for queue %d \n", queue); - } else { - if(r){ - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } - -} - -void uf_send_buffered_frames(unifi_priv_t *priv, unifi_TrafficQueue q) -{ - u16 interfaceTag = GET_ACTIVE_INTERFACE_TAG(priv); - u32 startIndex=0, endIndex=0; - CsrWifiRouterCtrlStaInfo_t * staInfo = NULL; - u8 queue; - u8 moreData = FALSE; - - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - if(!((interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP) || - (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO))) - return; - - queue = (q<=3)?q:0; - - if(interfacePriv->dtimActive) { - /* this function updates dtimActive*/ - send_multicast_frames(priv, interfaceTag); - if(!interfacePriv->dtimActive) { - moreData = (!list_empty(&interfacePriv->genericMulticastOrBroadCastMgtFrames) || - !list_empty(&interfacePriv->genericMulticastOrBroadCastFrames)); - if(!moreData) { - if (!interfacePriv->bcTimSetReqPendingFlag) - { - update_tim(priv, 0, CSR_WIFI_TIM_RESET, interfaceTag, 0XFFFFFFFF); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - interfacePriv->bcTimSetReqQueued = CSR_WIFI_TIM_RESET; - unifi_trace(priv, UDBG2, "uf_send_buffered_frames : One more UpdateDTim Request(%d) Queued \n", - interfacePriv->bcTimSetReqQueued); - } - } - } else { - moreData = (!list_empty(&interfacePriv->genericMulticastOrBroadCastMgtFrames) || - !list_empty(&interfacePriv->genericMulticastOrBroadCastFrames)); - if(!moreData) { - /* This should never happen but if it happens, we need a way out */ - unifi_error(priv, "ERROR: No More Data but DTIM is active sending Response\n"); - send_vif_availibility_rsp(priv, uf_get_vif_identifier(interfacePriv->interfaceMode, interfaceTag), CSR_RC_NO_BUFFERED_BROADCAST_MULTICAST_FRAMES); - interfacePriv->dtimActive = FALSE; - } - } - return; - } - if(priv->pausedStaHandle[queue] > 7) { - priv->pausedStaHandle[queue] = 0; - } - - if(queue == UNIFI_TRAFFIC_Q_VO) { - - - unifi_trace(priv, UDBG2, "uf_send_buffered_frames : trying mgt from queue=%d\n", queue); - for(startIndex= 0; startIndex < UNIFI_MAX_CONNECTIONS;startIndex++) { - staInfo = CsrWifiRouterCtrlGetStationRecordFromHandle(priv, startIndex, interfaceTag); - if(!staInfo ) { - continue; - } else if((staInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE) - &&(staInfo->uapsdActive == FALSE) ) { - continue; - } - - if((staInfo != NULL)&&(staInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE) - &&(staInfo->uapsdActive == FALSE)){ - /*Non-UAPSD case push the management frames out*/ - if(!list_empty(&staInfo->mgtFrames)){ - uf_send_buffered_data_from_ac(priv, staInfo, UNIFI_TRAFFIC_Q_VO, &staInfo->mgtFrames); - } - } - - if(isRouterBufferEnabled(priv, queue)) { - unifi_notice(priv, "uf_send_buffered_frames : No space Left for queue = %d\n", queue); - break; - } - } - /*push generic management frames out*/ - if(!list_empty(&interfacePriv->genericMgtFrames)) { - unifi_trace(priv, UDBG2, "uf_send_buffered_frames : trying generic mgt from queue=%d\n", queue); - uf_send_buffered_data_from_ac(priv, staInfo, UNIFI_TRAFFIC_Q_VO, &interfacePriv->genericMgtFrames); - } - } - - - unifi_trace(priv, UDBG2, "uf_send_buffered_frames : Resume called for Queue=%d\n", queue); - unifi_trace(priv, UDBG2, "uf_send_buffered_frames : start=%d end=%d\n", startIndex, endIndex); - - startIndex = priv->pausedStaHandle[queue]; - endIndex = (startIndex + UNIFI_MAX_CONNECTIONS -1) % UNIFI_MAX_CONNECTIONS; - - while(startIndex != endIndex) { - staInfo = CsrWifiRouterCtrlGetStationRecordFromHandle(priv, startIndex, interfaceTag); - if(!staInfo) { - startIndex ++; - if(startIndex >= UNIFI_MAX_CONNECTIONS) { - startIndex = 0; - } - continue; - } else if((staInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE) - &&(staInfo->uapsdActive == FALSE)) { - startIndex ++; - if(startIndex >= UNIFI_MAX_CONNECTIONS) { - startIndex = 0; - } - continue; - } - /* Peer is active or U-APSD is active so send PDUs to the peer */ - unifi_trace(priv, UDBG2, "uf_send_buffered_frames : trying data from queue=%d\n", queue); - - - if((staInfo != NULL)&&(staInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE) - &&(staInfo->uapsdActive == FALSE)) { - if(!list_empty(&staInfo->dataPdu[queue])) { - - /*Non-UAPSD case push the AC frames out*/ - uf_send_buffered_data_from_ac(priv, staInfo, queue, (&staInfo->dataPdu[queue])); - } - } - startIndex ++; - if(startIndex >= UNIFI_MAX_CONNECTIONS) { - startIndex = 0; - } - } - if(isRouterBufferEnabled(priv, queue)) { - priv->pausedStaHandle[queue] = endIndex; - } else { - priv->pausedStaHandle[queue] = 0; - } - - /* U-APSD might have stopped because of ENOSPC in lib_hip (pause activity). - * So restart it if U-APSD was active with any of the station - */ - unifi_trace(priv, UDBG4, "csrWifiHipSendBufferedFrames: UAPSD Resume Q=%x\n", queue); - resume_suspended_uapsd(priv, interfaceTag); -} - - -u8 uf_is_more_data_for_non_delivery_ac(CsrWifiRouterCtrlStaInfo_t *staRecord) -{ - u8 i; - - for(i=0;i<=3;i++) - { - if(((staRecord->powersaveMode[i]==CSR_WIFI_AC_TRIGGER_ONLY_ENABLED) - ||(staRecord->powersaveMode[i]==CSR_WIFI_AC_LEGACY_POWER_SAVE)) - &&(!list_empty(&staRecord->dataPdu[i]))){ - - return TRUE; - } - } - - if(((staRecord->powersaveMode[UNIFI_TRAFFIC_Q_VO]==CSR_WIFI_AC_TRIGGER_ONLY_ENABLED) - ||(staRecord->powersaveMode[UNIFI_TRAFFIC_Q_VO]==CSR_WIFI_AC_LEGACY_POWER_SAVE)) - &&(!list_empty(&staRecord->mgtFrames))){ - - return TRUE; - } - - - - return FALSE; -} - - -int uf_process_station_records_for_sending_data(unifi_priv_t *priv, u16 interfaceTag, - CsrWifiRouterCtrlStaInfo_t *srcStaInfo, - CsrWifiRouterCtrlStaInfo_t *dstStaInfo) -{ - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - unifi_trace(priv, UDBG5, "entering uf_process_station_records_for_sending_data\n"); - - if (srcStaInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_DISCONNECTED) { - unifi_error(priv, "Peer State not connected AID = %x, handle = %x, control port state = %x\n", - srcStaInfo->aid, srcStaInfo->assignedHandle, srcStaInfo->peerControlledPort->port_action); - return -1; - } - switch (interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - unifi_trace(priv, UDBG5, "mode is AP/P2PGO\n"); - break; - default: - unifi_warning(priv, "mode is nor AP neither P2PGO, packet cant be xmit\n"); - return -1; - } - - switch(dstStaInfo->peerControlledPort->port_action) - { - case CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD: - case CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_BLOCK: - unifi_trace(priv, UDBG5, "destination port is closed/blocked, discarding the packet\n"); - return -1; - default: - unifi_trace(priv, UDBG5, "destination port state is open\n"); - } - - /* port state is open, destination station record is valid, Power save state is - * validated in uf_process_ma_packet_req function - */ - unifi_trace(priv, UDBG5, "leaving uf_process_station_records_for_sending_data\n"); - return 0; -} - - -/* - * --------------------------------------------------------------------------- - * uf_handle_uspframes_delivery - * - * This function takes care of handling USP session for peer, when - * -> trigger frame from peer - * -> suspended USP to be processed (resumed) - * - * NOTE: uf_send_buffered_data_from_delivery_ac() always called from this function, Dont - * make a direct call to uf_send_buffered_data_from_delivery_ac() from any other part of - * code - * - * Arguments: - * priv Pointer to device private context struct - * staInfo peer for which UAPSD to be scheduled - * interfaceTag virtual interface tag - * --------------------------------------------------------------------------- - */ -static void uf_handle_uspframes_delivery(unifi_priv_t * priv, CsrWifiRouterCtrlStaInfo_t *staInfo, u16 interfaceTag) -{ - - s8 i; - u8 allDeliveryEnabled = 0, dataAvailable = 0; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - unsigned long lock_flags; - - unifi_trace(priv, UDBG2, " ++ uf_handle_uspframes_delivery, uapsd active=%x, suspended?=%x\n", - staInfo->uapsdActive, staInfo->uspSuspend); - - /* Check for Buffered frames according to priority order & deliver it - * 1. AC_VO delivery enable & Mgt frames available - * 2. Process remaining Ac's from order AC_VO to AC_BK - */ - - /* USP initiated by WMMPS enabled peer & SET the status flag to TRUE */ - if (!staInfo->uspSuspend && staInfo->uapsdActive) - { - unifi_notice(priv, "uf_handle_uspframes_delivery: U-APSD already active! STA=%x:%x:%x:%x:%x:%x\n", - staInfo->peerMacAddress.a[0], staInfo->peerMacAddress.a[1], - staInfo->peerMacAddress.a[2], staInfo->peerMacAddress.a[3], - staInfo->peerMacAddress.a[4], staInfo->peerMacAddress.a[5]); - return; - } - - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - staInfo->uapsdActive = TRUE; - staInfo->uspSuspend = FALSE; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - - if(((staInfo->powersaveMode[UNIFI_TRAFFIC_Q_VO]==CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED)|| - (staInfo->powersaveMode[UNIFI_TRAFFIC_Q_VO]==CSR_WIFI_AC_DELIVERY_ONLY_ENABLE)) - && (!list_empty(&staInfo->mgtFrames))) { - - /* Management queue has data && UNIFI_TRAFFIC_Q_VO is delivery enable */ - unifi_trace(priv, UDBG4, "uf_handle_uspframes_delivery: Sending buffered management frames\n"); - uf_send_buffered_data_from_delivery_ac(priv, staInfo, UNIFI_TRAFFIC_Q_VO, &staInfo->mgtFrames); - } - - if (!uf_is_more_data_for_delivery_ac(priv, staInfo)) { - /* All delivery enable AC's are empty, so QNULL to be sent to terminate the USP - * NOTE: If we have sent Mgt frame also, we must send QNULL followed to terminate USP - */ - if (!staInfo->uspSuspend) { - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - staInfo->uapsdActive = FALSE; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - - unifi_trace(priv, UDBG2, "uf_handle_uspframes_delivery: sending QNull for trigger\n"); - uf_send_qos_null(priv, interfaceTag, staInfo->peerMacAddress.a, (CSR_PRIORITY) staInfo->triggerFramePriority, staInfo); - staInfo->triggerFramePriority = CSR_QOS_UP0; - } else { - unifi_trace(priv, UDBG2, "uf_handle_uspframes_delivery: MgtQ xfer suspended\n"); - } - } else { - for(i = UNIFI_TRAFFIC_Q_VO; i >= UNIFI_TRAFFIC_Q_BK; i--) { - if(((staInfo->powersaveMode[i]==CSR_WIFI_AC_DELIVERY_ONLY_ENABLE) - ||(staInfo->powersaveMode[i]==CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED)) - && (!list_empty(&staInfo->dataPdu[i]))) { - /* Deliver Data according to AC priority (from VO to BK) as part of USP */ - unifi_trace(priv, UDBG4, "uf_handle_uspframes_delivery: Buffered data frames from Queue (%d) for USP\n", i); - uf_send_buffered_data_from_delivery_ac(priv, staInfo, i, &staInfo->dataPdu[i]); - } - - if ((!staInfo->uapsdActive) || - (staInfo->uspSuspend && IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag))) { - /* If DTIM active found on one AC, No need to parse the remaining AC's - * as USP suspended. Break out of loop - */ - unifi_trace(priv, UDBG2, "uf_handle_uspframes_delivery: suspend=%x, DTIM=%x, USP terminated=%s\n", - staInfo->uspSuspend, IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag), - staInfo->uapsdActive?"NO":"YES"); - break; - } - } - } - - /* Depending on the USP status, update the TIM accordingly for delivery enabled AC only - * (since we are not manipulating any Non-delivery list(AC)) - */ - is_all_ac_deliver_enabled_and_moredata(staInfo, &allDeliveryEnabled, &dataAvailable); - if ((allDeliveryEnabled && !dataAvailable)) { - if ((staInfo->timSet != CSR_WIFI_TIM_RESET) && (staInfo->timSet != CSR_WIFI_TIM_RESETTING)) { - staInfo->updateTimReqQueued = (u8) CSR_WIFI_TIM_RESET; - unifi_trace(priv, UDBG4, " --uf_handle_uspframes_delivery, UAPSD timset\n"); - if (!staInfo->timRequestPendingFlag) { - update_tim(priv, staInfo->aid, 0, interfaceTag, staInfo->assignedHandle); - } - } - } - unifi_trace(priv, UDBG2, " --uf_handle_uspframes_delivery, uapsd active=%x, suspend?=%x\n", - staInfo->uapsdActive, staInfo->uspSuspend); -} - -void uf_process_wmm_deliver_ac_uapsd(unifi_priv_t * priv, - CsrWifiRouterCtrlStaInfo_t * srcStaInfo, - u16 qosControl, - u16 interfaceTag) -{ - CSR_PRIORITY priority; - unifi_TrafficQueue priority_q; - unsigned long lock_flags; - - unifi_trace(priv, UDBG2, "++uf_process_wmm_deliver_ac_uapsd: uapsdactive?=%x\n", srcStaInfo->uapsdActive); - /* If recceived Frames trigger Frame and Devlivery enabled AC has data - * then transmit from High priorty delivery enabled AC - */ - priority = (CSR_PRIORITY)(qosControl & IEEE802_11_QC_TID_MASK); - priority_q = unifi_frame_priority_to_queue((CSR_PRIORITY) priority); - - if((srcStaInfo->powersaveMode[priority_q]==CSR_WIFI_AC_TRIGGER_ONLY_ENABLED) - ||(srcStaInfo->powersaveMode[priority_q]==CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED)) { - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - srcStaInfo->triggerFramePriority = priority; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - unifi_trace(priv, UDBG2, "uf_process_wmm_deliver_ac_uapsd: trigger frame, Begin U-APSD, triggerQ=%x\n", priority_q); - uf_handle_uspframes_delivery(priv, srcStaInfo, interfaceTag); - } - unifi_trace(priv, UDBG2, "--uf_process_wmm_deliver_ac_uapsd: uapsdactive?=%x\n", srcStaInfo->uapsdActive); -} - - -void uf_send_qos_null(unifi_priv_t * priv, u16 interfaceTag, const u8 *da, CSR_PRIORITY priority, CsrWifiRouterCtrlStaInfo_t * srcStaInfo) -{ - bulk_data_param_t bulkdata; - CsrResult csrResult; - struct sk_buff *skb, *newSkb = NULL; - CsrWifiMacAddress peerAddress; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - CSR_TRANSMISSION_CONTROL transmissionControl = (TRANSMISSION_CONTROL_EOSP_MASK | TRANSMISSION_CONTROL_TRIGGER_MASK); - int r; - CSR_SIGNAL signal; - u32 priority_q; - CSR_RATE transmitRate = 0; - - - /* Send a Null Frame to Peer, - * 32= size of mac header */ - csrResult = unifi_net_data_malloc(priv, &bulkdata.d[0], MAC_HEADER_SIZE + QOS_CONTROL_HEADER_SIZE); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, " failed to allocate request_data. in uf_send_qos_null func\n"); - return ; - } - skb = (struct sk_buff *)(bulkdata.d[0].os_net_buf_ptr); - skb->len = 0; - bulkdata.d[0].os_data_ptr = skb->data; - bulkdata.d[0].os_net_buf_ptr = (unsigned char*)skb; - bulkdata.d[0].net_buf_length = bulkdata.d[0].data_length = skb->len; - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].os_net_buf_ptr = NULL; - bulkdata.d[1].net_buf_length = bulkdata.d[1].data_length = 0; - - /* For null frames protection bit should not be set in MAC header, so passing value 0 below for protection field */ - - if (prepare_and_add_macheader(priv, skb, newSkb, priority, &bulkdata, interfaceTag, da, interfacePriv->bssid.a, 0)) { - unifi_error(priv, "failed to create MAC header\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return; - } - memcpy(peerAddress.a, ((u8 *) bulkdata.d[0].os_data_ptr) + 4, ETH_ALEN); - /* convert priority to queue */ - priority_q = unifi_frame_priority_to_queue((CSR_PRIORITY) priority); - - /* Frame ma-packet.req, this is saved/transmitted depend on queue state - * send the null frame at data rate of 1 Mb/s for AP or 6 Mb/s for P2PGO - */ - switch (interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - transmitRate = 2; - break; - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - transmitRate = 12; - break; - default: - transmitRate = 0; - } - unifi_frame_ma_packet_req(priv, priority, transmitRate, 0xffffffff, interfaceTag, - transmissionControl, priv->netdev_client->sender_id, - peerAddress.a, &signal); - - r = ul_send_signal_unpacked(priv, &signal, &bulkdata); - if(r) { - unifi_error(priv, "failed to send QOS data null packet result: %d\n", r); - unifi_net_data_free(priv, &bulkdata.d[0]); - } - - return; - -} -void uf_send_nulldata(unifi_priv_t * priv, u16 interfaceTag, const u8 *da, CSR_PRIORITY priority, CsrWifiRouterCtrlStaInfo_t * srcStaInfo) -{ - bulk_data_param_t bulkdata; - CsrResult csrResult; - struct sk_buff *skb, *newSkb = NULL; - CsrWifiMacAddress peerAddress; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - CSR_TRANSMISSION_CONTROL transmissionControl = 0; - int r; - CSR_SIGNAL signal; - u32 priority_q; - CSR_RATE transmitRate = 0; - CSR_MA_PACKET_REQUEST *req = &signal.u.MaPacketRequest; - unsigned long lock_flags; - - /* Send a Null Frame to Peer, size = 24 for MAC header */ - csrResult = unifi_net_data_malloc(priv, &bulkdata.d[0], MAC_HEADER_SIZE); - - if (csrResult != CSR_RESULT_SUCCESS) { - unifi_error(priv, "uf_send_nulldata: Failed to allocate memory for NULL frame\n"); - return ; - } - skb = (struct sk_buff *)(bulkdata.d[0].os_net_buf_ptr); - skb->len = 0; - bulkdata.d[0].os_data_ptr = skb->data; - bulkdata.d[0].os_net_buf_ptr = (unsigned char*)skb; - bulkdata.d[0].net_buf_length = bulkdata.d[0].data_length = skb->len; - bulkdata.d[1].os_data_ptr = NULL; - bulkdata.d[1].os_net_buf_ptr = NULL; - bulkdata.d[1].net_buf_length = bulkdata.d[1].data_length = 0; - - /* For null frames protection bit should not be set in MAC header, so passing value 0 below for protection field */ - if (prepare_and_add_macheader(priv, skb, newSkb, priority, &bulkdata, interfaceTag, da, interfacePriv->bssid.a, 0)) { - unifi_error(priv, "uf_send_nulldata: Failed to create MAC header\n"); - unifi_net_data_free(priv, &bulkdata.d[0]); - return; - } - memcpy(peerAddress.a, ((u8 *) bulkdata.d[0].os_data_ptr) + 4, ETH_ALEN); - /* convert priority to queue */ - priority_q = unifi_frame_priority_to_queue((CSR_PRIORITY) priority); - transmissionControl &= ~(CSR_NO_CONFIRM_REQUIRED); - - /* Frame ma-packet.req, this is saved/transmitted depend on queue state - * send the null frame at data rate of 1 Mb/s for AP or 6 Mb/s for P2PGO - */ - switch (interfacePriv->interfaceMode) - { - case CSR_WIFI_ROUTER_CTRL_MODE_AP: - transmitRate = 2; - break; - case CSR_WIFI_ROUTER_CTRL_MODE_P2PGO: - transmitRate = 12; - break; - default: - transmitRate = 0; - } - unifi_frame_ma_packet_req(priv, priority, transmitRate, INVALID_HOST_TAG, interfaceTag, - transmissionControl, priv->netdev_client->sender_id, - peerAddress.a, &signal); - - /* Save host tag to check the status on reception of MA packet confirm */ - srcStaInfo->nullDataHostTag = req->HostTag; - unifi_trace(priv, UDBG1, "uf_send_nulldata: STA AID = %d hostTag = %x\n", srcStaInfo->aid, req->HostTag); - - r = ul_send_signal_unpacked(priv, &signal, &bulkdata); - - if(r == -ENOSPC) { - unifi_trace(priv, UDBG1, "uf_send_nulldata: ENOSPC Requeue the Null frame\n"); - enque_tx_data_pdu(priv, &bulkdata, &srcStaInfo->dataPdu[priority_q], &signal, 1); - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - srcStaInfo->noOfPktQueued++; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - - - } - if(r && r != -ENOSPC){ - unifi_error(priv, "uf_send_nulldata: Failed to send Null frame Error = %d\n", r); - unifi_net_data_free(priv, &bulkdata.d[0]); - srcStaInfo->nullDataHostTag = INVALID_HOST_TAG; - } - - return; -} - -u8 uf_check_broadcast_bssid(unifi_priv_t *priv, const bulk_data_param_t *bulkdata) -{ - u8 *bssid = NULL; - static const CsrWifiMacAddress broadcast_address = {{0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF}}; - u8 toDs, fromDs; - - toDs = (((bulkdata->d[0].os_data_ptr)[1]) & 0x01) ? 1 : 0; - fromDs =(((bulkdata->d[0].os_data_ptr)[1]) & 0x02) ? 1 : 0; - - if (toDs && fromDs) - { - unifi_trace(priv, UDBG6, "Address 4 present, Don't try to find BSSID\n"); - bssid = NULL; - } - else if((toDs == 0) && (fromDs ==0)) - { - /* BSSID is Address 3 */ - bssid = (u8 *) (bulkdata->d[0].os_data_ptr + 4 + (2 * ETH_ALEN)); - } - else if(toDs) - { - /* BSSID is Address 1 */ - bssid = (u8 *) (bulkdata->d[0].os_data_ptr + 4); - } - else if(fromDs) - { - /* BSSID is Address 2 */ - bssid = (u8 *) (bulkdata->d[0].os_data_ptr + 4 + ETH_ALEN); - } - - if (memcmp(broadcast_address.a, bssid, ETH_ALEN)== 0) - { - return TRUE; - } - else - { - return FALSE; - } -} - - -u8 uf_process_pm_bit_for_peer(unifi_priv_t * priv, CsrWifiRouterCtrlStaInfo_t * srcStaInfo, - u8 pmBit, u16 interfaceTag) -{ - u8 moreData = FALSE; - u8 powerSaveChanged = FALSE; - unsigned long lock_flags; - - unifi_trace(priv, UDBG3, "entering uf_process_pm_bit_for_peer\n"); - if (pmBit) { - priv->allPeerDozing |= (0x01 << (srcStaInfo->assignedHandle)); - } else { - priv->allPeerDozing &= ~(0x01 << (srcStaInfo->assignedHandle)); - } - if(pmBit) { - if(srcStaInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE) { - - /* disable the preemption */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - srcStaInfo->currentPeerState =CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE; - powerSaveChanged = TRUE; - /* enable the preemption */ - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } else { - return powerSaveChanged; - } - } else { - if(srcStaInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE) { - /* disable the preemption */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - srcStaInfo->currentPeerState = CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE; - powerSaveChanged = TRUE; - /* enable the preemption */ - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - }else { - return powerSaveChanged; - } - } - - - if(srcStaInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE) { - unifi_trace(priv, UDBG3, "Peer with AID = %d is active now\n", srcStaInfo->aid); - process_peer_active_transition(priv, srcStaInfo, interfaceTag); - } else { - unifi_trace(priv, UDBG3, "Peer with AID = %d is in PS Now\n", srcStaInfo->aid); - /* Set TIM if needed */ - if(!srcStaInfo->wmmOrQosEnabled) { - moreData = (!list_empty(&srcStaInfo->mgtFrames) || - !list_empty(&srcStaInfo->dataPdu[UNIFI_TRAFFIC_Q_VO])|| - !list_empty(&srcStaInfo->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION])); - if(moreData && (srcStaInfo->timSet == CSR_WIFI_TIM_RESET)) { - unifi_trace(priv, UDBG3, "This condition should not occur\n"); - if (!srcStaInfo->timRequestPendingFlag){ - update_tim(priv, srcStaInfo->aid, 1, interfaceTag, srcStaInfo->assignedHandle); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - srcStaInfo->updateTimReqQueued = 1; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", srcStaInfo->updateTimReqQueued, - srcStaInfo->aid); - } - - } - } else { - u8 allDeliveryEnabled = 0, dataAvailable = 0; - unifi_trace(priv, UDBG5, "Qos in AP Mode\n"); - /* Check if all AC's are Delivery Enabled */ - is_all_ac_deliver_enabled_and_moredata(srcStaInfo, &allDeliveryEnabled, &dataAvailable); - /*check for more data in non-delivery enabled queues*/ - moreData = (uf_is_more_data_for_non_delivery_ac(srcStaInfo) || (allDeliveryEnabled && dataAvailable)); - - if(moreData && (srcStaInfo->timSet == CSR_WIFI_TIM_RESET)) { - if (!srcStaInfo->timRequestPendingFlag){ - update_tim(priv, srcStaInfo->aid, 1, interfaceTag, srcStaInfo->assignedHandle); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - srcStaInfo->updateTimReqQueued = 1; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", srcStaInfo->updateTimReqQueued, - srcStaInfo->aid); - } - } - } - } - unifi_trace(priv, UDBG3, "leaving uf_process_pm_bit_for_peer\n"); - return powerSaveChanged; -} - - - -void uf_process_ps_poll(unifi_priv_t *priv, u8* sa, u8* da, u8 pmBit, u16 interfaceTag) -{ - CsrWifiRouterCtrlStaInfo_t *staRecord = - CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, sa, interfaceTag); - tx_buffered_packets_t * buffered_pkt = NULL; - CsrWifiMacAddress peerMacAddress; - unsigned long lock_flags; - s8 r =0; - u8 moreData = FALSE; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - unifi_trace(priv, UDBG3, "entering uf_process_ps_poll\n"); - if(!staRecord) { - memcpy(peerMacAddress.a, sa, ETH_ALEN); - unifi_trace(priv, UDBG3, "In uf_process_ps_poll, sta record not found:unexpected frame addr = %x:%x:%x:%x:%x:%x\n", - sa[0], sa[1], sa[2], sa[3], sa[4], sa[5]); - CsrWifiRouterCtrlUnexpectedFrameIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, peerMacAddress); - return; - } - - uf_process_pm_bit_for_peer(priv, staRecord, pmBit, interfaceTag); - - /* Update station last activity time */ - staRecord->activity_flag = TRUE; - - /* This should not change the PM bit as PS-POLL has PM bit always set */ - if(!pmBit) { - unifi_notice (priv, " PM bit reset in PS-POLL\n"); - return; - } - - if(IS_DTIM_ACTIVE(interfacePriv->dtimActive, interfacePriv->multicastPduHostTag)) { - /* giving more priority to multicast packets so dropping ps-poll*/ - unifi_notice (priv, " multicast transmission is going on so don't take action on PS-POLL\n"); - return; - } - - if(!staRecord->wmmOrQosEnabled) { - if((buffered_pkt=dequeue_tx_data_pdu(priv, &staRecord->mgtFrames))) { - buffered_pkt->transmissionControl |= TRANSMISSION_CONTROL_TRIGGER_MASK; - moreData = (!list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION]) || - !list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_VO]) || - !list_empty(&staRecord->mgtFrames)); - - buffered_pkt->transmissionControl |= (TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staRecord, moreData, FALSE)) == -ENOSPC) { - /* Clear the trigger bit transmission control*/ - buffered_pkt->transmissionControl &= ~(TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staRecord->mgtFrames); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - unifi_trace(priv, UDBG1, "(ENOSPC) PS-POLL received : PDU sending failed \n"); - priv->pausedStaHandle[3]=(u8)(staRecord->assignedHandle); - } else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } else if((buffered_pkt=dequeue_tx_data_pdu(priv, &staRecord->dataPdu[UNIFI_TRAFFIC_Q_VO]))) { - buffered_pkt->transmissionControl |= TRANSMISSION_CONTROL_TRIGGER_MASK; - moreData = (!list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION]) || - !list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_VO])); - - buffered_pkt->transmissionControl |= (TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staRecord, moreData, FALSE)) == -ENOSPC) { - /* Clear the trigger bit transmission control*/ - buffered_pkt->transmissionControl &= ~(TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staRecord->dataPdu[UNIFI_TRAFFIC_Q_VO]); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[3]=(u8)(staRecord->assignedHandle); - unifi_trace(priv, UDBG1, "(ENOSPC) PS-POLL received : PDU sending failed \n"); - } else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } else if((buffered_pkt=dequeue_tx_data_pdu(priv, &staRecord->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION]))) { - buffered_pkt->transmissionControl |= TRANSMISSION_CONTROL_TRIGGER_MASK; - moreData = !list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION]); - - buffered_pkt->transmissionControl |= (TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staRecord, moreData, FALSE)) == -ENOSPC) { - /* Clear the trigger bit transmission control*/ - buffered_pkt->transmissionControl &= ~(TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staRecord->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION]); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[0]=(u8)(staRecord->assignedHandle); - unifi_trace(priv, UDBG1, "(ENOSPC) PS-POLL received : PDU sending failed \n"); - } else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } else { - /* Actually since we have sent an ACK, there - * there is no need to send a NULL frame*/ - } - moreData = (!list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_VO]) || - !list_empty(&staRecord->dataPdu[UNIFI_TRAFFIC_Q_CONTENTION]) || - !list_empty(&staRecord->mgtFrames)); - if(!moreData && (staRecord->timSet == CSR_WIFI_TIM_SET)) { - unifi_trace(priv, UDBG3, "more data = NULL, set tim to 0 in uf_process_ps_poll\n"); - if (!staRecord->timRequestPendingFlag){ - update_tim(priv, staRecord->aid, 0, interfaceTag, staRecord->assignedHandle); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - staRecord->updateTimReqQueued = 0; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", staRecord->updateTimReqQueued, - staRecord->aid); - } - } - } else { - - u8 allDeliveryEnabled = 0, dataAvailable = 0; - unifi_trace(priv, UDBG3, "Qos Support station.Processing PS-Poll\n"); - - /*Send Data From Management Frames*/ - /* Priority orders for delivering the buffered packets are - * 1. Deliver the Management frames if there - * 2. Other access category frames which are non deliver enable including UNIFI_TRAFFIC_Q_VO - * priority is from VO->BK - */ - - /* Check if all AC's are Delivery Enabled */ - is_all_ac_deliver_enabled_and_moredata(staRecord, &allDeliveryEnabled, &dataAvailable); - - if (allDeliveryEnabled) { - unifi_trace(priv, UDBG3, "uf_process_ps_poll: All ACs are delivery enable so Sending QOS Null in response of Ps-poll\n"); - uf_send_qos_null(priv, interfaceTag, sa, CSR_QOS_UP0, staRecord); - return; - } - - if (!list_empty(&staRecord->mgtFrames)) { - if ((buffered_pkt=dequeue_tx_data_pdu(priv, &staRecord->mgtFrames))) { - /* We dont have packets in non delivery enabled UNIFI_TRAFFIC_Q_VO, So we are looking in management - * queue of the station record - */ - moreData = uf_is_more_data_for_non_delivery_ac(staRecord); - buffered_pkt->transmissionControl |= (TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - - /* Last parameter is EOSP & its false always for PS-POLL processing */ - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staRecord, moreData, FALSE)) == -ENOSPC) { - /* Clear the trigger bit transmission control*/ - buffered_pkt->transmissionControl &= ~(TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staRecord->mgtFrames); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[0]=(u8)(staRecord->assignedHandle); - unifi_trace(priv, UDBG1, "(ENOSPC) PS-POLL received : PDU sending failed \n"); - } else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } else { - unifi_error(priv, "uf_process_ps_poll: Mgt frame list empty!! \n"); - } - - } else { - s8 i; - /* We dont have buffered packet in mangement frame queue (1 failed), So proceed with condition 2 - * UNIFI_TRAFFIC_Q_VO -> VI -> BE -> BK - */ - for(i= 3; i>=0; i--) { - if (!IS_DELIVERY_ENABLED(staRecord->powersaveMode[i])) { - /* Send One packet, if queue is NULL then continue */ - if((buffered_pkt=dequeue_tx_data_pdu(priv, &staRecord->dataPdu[i]))) { - moreData = uf_is_more_data_for_non_delivery_ac(staRecord); - - buffered_pkt->transmissionControl |= (TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - - /* Last parameter is EOSP & its false always for PS-POLL processing */ - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staRecord, moreData, FALSE)) == -ENOSPC) { - /* Clear the trigger bit transmission control*/ - buffered_pkt->transmissionControl &= ~(TRANSMISSION_CONTROL_TRIGGER_MASK | TRANSMISSION_CONTROL_EOSP_MASK); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staRecord->dataPdu[i]); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[0]=(u8)(staRecord->assignedHandle); - unifi_trace(priv, UDBG1, "(ENOSPC) PS-POLL received : PDU sending failed \n"); - } else { - if(r) { - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - break; - } - } - } - } - /* Check if all AC's are Delivery Enabled */ - is_all_ac_deliver_enabled_and_moredata(staRecord, &allDeliveryEnabled, &dataAvailable); - /*check for more data in non-delivery enabled queues*/ - moreData = (uf_is_more_data_for_non_delivery_ac(staRecord) || (allDeliveryEnabled && dataAvailable)); - if(!moreData && (staRecord->timSet == CSR_WIFI_TIM_SET)) { - unifi_trace(priv, UDBG3, "more data = NULL, set tim to 0 in uf_process_ps_poll\n"); - if (!staRecord->timRequestPendingFlag){ - update_tim(priv, staRecord->aid, 0, interfaceTag, staRecord->assignedHandle); - } - else - { - /* Cache the TimSet value so that it will processed immidiatly after - * completing the current setTim Request - */ - staRecord->updateTimReqQueued = 0; - unifi_trace(priv, UDBG6, "update_tim : One more UpdateTim Request (Tim value:%d) Queued for AID %x\n", staRecord->updateTimReqQueued, - staRecord->aid); - } - - } - } - - unifi_trace(priv, UDBG3, "leaving uf_process_ps_poll\n"); -} - - - -void add_to_send_cfm_list(unifi_priv_t * priv, - tx_buffered_packets_t *tx_q_item, - struct list_head *frames_need_cfm_list) -{ - tx_buffered_packets_t *send_cfm_list_item = NULL; - - send_cfm_list_item = kmalloc(sizeof(tx_buffered_packets_t), GFP_ATOMIC); - - if(send_cfm_list_item == NULL){ - unifi_warning(priv, "%s: Failed to allocate memory for new list item \n"); - return; - } - - INIT_LIST_HEAD(&send_cfm_list_item->q); - - send_cfm_list_item->hostTag = tx_q_item->hostTag; - send_cfm_list_item->interfaceTag = tx_q_item->interfaceTag; - send_cfm_list_item->transmissionControl = tx_q_item->transmissionControl; - send_cfm_list_item->leSenderProcessId = tx_q_item->leSenderProcessId; - send_cfm_list_item->rate = tx_q_item->rate; - memcpy(send_cfm_list_item->peerMacAddress.a, tx_q_item->peerMacAddress.a, ETH_ALEN); - send_cfm_list_item->priority = tx_q_item->priority; - - list_add_tail(&send_cfm_list_item->q, frames_need_cfm_list); -} - -void uf_prepare_send_cfm_list_for_queued_pkts(unifi_priv_t * priv, - struct list_head *frames_need_cfm_list, - struct list_head * list) -{ - tx_buffered_packets_t *tx_q_item = NULL; - struct list_head *listHead; - struct list_head *placeHolder; - unsigned long lock_flags; - - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - - /* Search through the list and if confirmation required for any frames, - add it to the send_cfm list */ - list_for_each_safe(listHead, placeHolder, list) { - tx_q_item = list_entry(listHead, tx_buffered_packets_t, q); - - if(!tx_q_item) { - unifi_error(priv, "Entry should exist, otherwise it is a (BUG)\n"); - continue; - } - - /* check if confirmation is requested and if the sender ID - is not netdevice client then save the entry in the list for need cfms */ - if (!(tx_q_item->transmissionControl & CSR_NO_CONFIRM_REQUIRED) && - (tx_q_item->leSenderProcessId != priv->netdev_client->sender_id)){ - unifi_trace(priv, UDBG1, "%s: SenderProcessID=%x host tag=%x transmission control=%x\n", - __FUNCTION__, - tx_q_item->leSenderProcessId, - tx_q_item->hostTag, - tx_q_item->transmissionControl); - - add_to_send_cfm_list(priv, tx_q_item, frames_need_cfm_list); - } - } - - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - -} - - - -void uf_flush_list(unifi_priv_t * priv, struct list_head * list) -{ - tx_buffered_packets_t *tx_q_item; - struct list_head *listHead; - struct list_head *placeHolder; - unsigned long lock_flags; - - unifi_trace(priv, UDBG5, "entering the uf_flush_list \n"); - - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - /* go through list, delete & free memory */ - list_for_each_safe(listHead, placeHolder, list) { - tx_q_item = list_entry(listHead, tx_buffered_packets_t, q); - - if(!tx_q_item) { - unifi_error(priv, "entry should exists, otherwise crashes (bug)\n"); - } - unifi_trace(priv, UDBG5, - "proccess_tx: in uf_flush_list peerMacAddress=%02X%02X%02X%02X%02X%02X senderProcessId=%x\n", - tx_q_item->peerMacAddress.a[0], tx_q_item->peerMacAddress.a[1], - tx_q_item->peerMacAddress.a[2], tx_q_item->peerMacAddress.a[3], - tx_q_item->peerMacAddress.a[4], tx_q_item->peerMacAddress.a[5], - tx_q_item->leSenderProcessId); - - list_del(listHead); - /* free the allocated memory */ - unifi_net_data_free(priv, &tx_q_item->bulkdata); - kfree(tx_q_item); - tx_q_item = NULL; - if (!priv->noOfPktQueuedInDriver) { - unifi_error(priv, "packets queued in driver 0 still decrementing in %s\n", __FUNCTION__); - } else { - priv->noOfPktQueuedInDriver--; - } - } - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); -} - -tx_buffered_packets_t *dequeue_tx_data_pdu(unifi_priv_t *priv, struct list_head *txList) -{ - /* dequeue the tx data packets from the appropriate queue */ - tx_buffered_packets_t *tx_q_item = NULL; - struct list_head *listHead; - struct list_head *placeHolder; - unsigned long lock_flags; - - unifi_trace(priv, UDBG5, "entering dequeue_tx_data_pdu\n"); - /* check for list empty */ - if (list_empty(txList)) { - unifi_trace(priv, UDBG5, "In dequeue_tx_data_pdu, the list is empty\n"); - return NULL; - } - - /* Verification, if packet count is negetive */ - if (priv->noOfPktQueuedInDriver == 0xFFFF) { - unifi_warning(priv, "no packet available in queue: debug"); - return NULL; - } - - /* return first node after header, & delete from the list && atleast one item exist */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_for_each_safe(listHead, placeHolder, txList) { - tx_q_item = list_entry(listHead, tx_buffered_packets_t, q); - list_del(listHead); - break; - } - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - - if (tx_q_item) { - unifi_trace(priv, UDBG5, - "proccess_tx: In dequeue_tx_data_pdu peerMacAddress=%02X%02X%02X%02X%02X%02X senderProcessId=%x\n", - tx_q_item->peerMacAddress.a[0], tx_q_item->peerMacAddress.a[1], - tx_q_item->peerMacAddress.a[2], tx_q_item->peerMacAddress.a[3], - tx_q_item->peerMacAddress.a[4], tx_q_item->peerMacAddress.a[5], - tx_q_item->leSenderProcessId); - } - - unifi_trace(priv, UDBG5, "leaving dequeue_tx_data_pdu\n"); - return tx_q_item; -} -/* generic function to get the station record handler */ -CsrWifiRouterCtrlStaInfo_t *CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(unifi_priv_t *priv, - const u8 *peerMacAddress, - u16 interfaceTag) -{ - u8 i; - netInterface_priv_t *interfacePriv; - unsigned long lock_flags; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "interfaceTag is not proper, interfaceTag = %d\n", interfaceTag); - return NULL; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - - /* disable the preemption until station record is fetched */ - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - - for (i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - if (interfacePriv->staInfo[i]!= NULL) { - if (!memcmp(((CsrWifiRouterCtrlStaInfo_t *) (interfacePriv->staInfo[i]))->peerMacAddress.a, peerMacAddress, ETH_ALEN)) { - /* enable the preemption as station record is fetched */ - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - unifi_trace(priv, UDBG5, "peer entry found in station record\n"); - return ((CsrWifiRouterCtrlStaInfo_t *) (interfacePriv->staInfo[i])); - } - } - } - /* enable the preemption as station record is fetched */ - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - unifi_trace(priv, UDBG5, "peer entry not found in station record\n"); - return NULL; -} -/* generic function to get the station record handler from the handle */ -CsrWifiRouterCtrlStaInfo_t * CsrWifiRouterCtrlGetStationRecordFromHandle(unifi_priv_t *priv, - u32 handle, - u16 interfaceTag) -{ - netInterface_priv_t *interfacePriv; - - if ((handle >= UNIFI_MAX_CONNECTIONS) || (interfaceTag >= CSR_WIFI_NUM_INTERFACES)) { - unifi_error(priv, "handle/interfaceTag is not proper, handle = %d, interfaceTag = %d\n", handle, interfaceTag); - return NULL; - } - interfacePriv = priv->interfacePriv[interfaceTag]; - return ((CsrWifiRouterCtrlStaInfo_t *) (interfacePriv->staInfo[handle])); -} - -/* Function to do inactivity */ -void uf_check_inactivity(unifi_priv_t *priv, u16 interfaceTag, u32 currentTime) -{ - u32 i; - CsrWifiRouterCtrlStaInfo_t *staInfo; - u32 elapsedTime; /* Time in microseconds */ - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - CsrWifiMacAddress peerMacAddress; - unsigned long lock_flags; - - if (interfacePriv == NULL) { - unifi_trace(priv, UDBG3, "uf_check_inactivity: Interface priv is NULL \n"); - return; - } - - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - /* Go through the list of stations to check for inactivity */ - for(i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - staInfo = CsrWifiRouterCtrlGetStationRecordFromHandle(priv, i, interfaceTag); - if(!staInfo ) { - continue; - } - - unifi_trace(priv, UDBG3, "Running Inactivity handler Time %xus station's last activity %xus\n", - currentTime, staInfo->lastActivity); - - - elapsedTime = (currentTime >= staInfo->lastActivity)? - (currentTime - staInfo->lastActivity): - (~((u32)0) - staInfo->lastActivity + currentTime); - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - - if (elapsedTime > MAX_INACTIVITY_INTERVAL) { - memcpy((u8*)&peerMacAddress, (u8*)&staInfo->peerMacAddress, sizeof(CsrWifiMacAddress)); - - /* Indicate inactivity for the station */ - unifi_trace(priv, UDBG3, "Station %x:%x:%x:%x:%x:%x inactive since %xus\n sending Inactive Ind\n", - peerMacAddress.a[0], peerMacAddress.a[1], - peerMacAddress.a[2], peerMacAddress.a[3], - peerMacAddress.a[4], peerMacAddress.a[5], - elapsedTime); - - CsrWifiRouterCtrlStaInactiveIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, peerMacAddress); - } - } - - interfacePriv->last_inactivity_check = currentTime; -} - -/* Function to update activity of a station */ -void uf_update_sta_activity(unifi_priv_t *priv, u16 interfaceTag, const u8 *peerMacAddress) -{ - u32 elapsedTime, currentTime; /* Time in microseconds */ - u32 timeHi; /* Not used - Time in microseconds */ - CsrWifiRouterCtrlStaInfo_t *staInfo; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - unsigned long lock_flags; - - if (interfacePriv == NULL) { - unifi_trace(priv, UDBG3, "uf_check_inactivity: Interface priv is NULL \n"); - return; - } - - currentTime = CsrTimeGet(&timeHi); - - - staInfo = CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, peerMacAddress, interfaceTag); - - if (staInfo == NULL) { - unifi_trace(priv, UDBG4, "Sta does not exist yet"); - return; - } - - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - /* Update activity */ - staInfo->lastActivity = currentTime; - - /* See if inactivity handler needs to be run - * Here it is theoretically possible that the counter may have wrapped around. But - * since we just want to know when to run the inactivity handler it does not really matter. - * Especially since this is data path it makes sense in keeping it simple and avoiding - * 64 bit handling */ - elapsedTime = (currentTime >= interfacePriv->last_inactivity_check)? - (currentTime - interfacePriv->last_inactivity_check): - (~((u32)0) - interfacePriv->last_inactivity_check + currentTime); - - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - - /* Check if it is time to run the inactivity handler */ - if (elapsedTime > INACTIVITY_CHECK_INTERVAL) { - uf_check_inactivity(priv, interfaceTag, currentTime); - } -} -void resume_unicast_buffered_frames(unifi_priv_t *priv, u16 interfaceTag) -{ - - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - u8 i; - int j; - tx_buffered_packets_t * buffered_pkt = NULL; - u8 hipslotFree[4] = {TRUE, TRUE, TRUE, TRUE}; - int r; - unsigned long lock_flags; - - while(!isRouterBufferEnabled(priv, 3) && - ((buffered_pkt=dequeue_tx_data_pdu(priv, &interfacePriv->genericMgtFrames))!=NULL)) { - buffered_pkt->transmissionControl &= - ~(TRANSMISSION_CONTROL_TRIGGER_MASK|TRANSMISSION_CONTROL_EOSP_MASK); - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, NULL, 0, FALSE)) == -ENOSPC) { - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &interfacePriv->genericMgtFrames); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - hipslotFree[3]=FALSE; - break; - }else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } - for(i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - CsrWifiRouterCtrlStaInfo_t *staInfo = interfacePriv->staInfo[i]; - if(!hipslotFree[0] && !hipslotFree[1] && !hipslotFree[2] && !hipslotFree[3]) { - unifi_trace(priv, UDBG3, "(ENOSPC) in resume_unicast_buffered_frames:: hip slots are full \n"); - break; - } - if (staInfo && (staInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE)) { - while((( TRUE == hipslotFree[3] ) && (buffered_pkt=dequeue_tx_data_pdu(priv, &staInfo->mgtFrames)))) { - buffered_pkt->transmissionControl &= - ~(TRANSMISSION_CONTROL_TRIGGER_MASK|TRANSMISSION_CONTROL_EOSP_MASK); - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staInfo, 0, FALSE)) == -ENOSPC) { - unifi_trace(priv, UDBG3, "(ENOSPC) in resume_unicast_buffered_frames:: hip slots are full for voice queue\n"); - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staInfo->mgtFrames); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[3]=(u8)(staInfo->assignedHandle); - hipslotFree[3] = FALSE; - break; - } else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } - - for(j=3;j>=0;j--) { - if(!hipslotFree[j]) - continue; - - while((buffered_pkt=dequeue_tx_data_pdu(priv, &staInfo->dataPdu[j]))) { - buffered_pkt->transmissionControl &= - ~(TRANSMISSION_CONTROL_TRIGGER_MASK|TRANSMISSION_CONTROL_EOSP_MASK); - if((r=frame_and_send_queued_pdu(priv, buffered_pkt, staInfo, 0, FALSE)) == -ENOSPC) { - /* Enqueue at the head of the queue */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_add(&buffered_pkt->q, &staInfo->dataPdu[j]); - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - priv->pausedStaHandle[j]=(u8)(staInfo->assignedHandle); - hipslotFree[j]=FALSE; - break; - } else { - if(r){ - unifi_trace (priv, UDBG1, " HIP validation failure : PDU sending failed \n"); - /* the PDU failed where we can't do any thing so free the storage */ - unifi_net_data_free(priv, &buffered_pkt->bulkdata); - } - kfree(buffered_pkt); - } - } - } - } - } -} -void update_eosp_to_head_of_broadcast_list_head(unifi_priv_t *priv, u16 interfaceTag) -{ - - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - unsigned long lock_flags; - struct list_head *listHead; - struct list_head *placeHolder; - tx_buffered_packets_t *tx_q_item; - - if (interfacePriv->noOfbroadcastPktQueued) { - - /* Update the EOSP to the HEAD of b/c list - * because we have received any mgmt packet so it should not hold for long time - * peer may time out. - */ - spin_lock_irqsave(&priv->tx_q_lock, lock_flags); - list_for_each_safe(listHead, placeHolder, &interfacePriv->genericMulticastOrBroadCastFrames) { - tx_q_item = list_entry(listHead, tx_buffered_packets_t, q); - tx_q_item->transmissionControl |= TRANSMISSION_CONTROL_EOSP_MASK; - tx_q_item->transmissionControl = (tx_q_item->transmissionControl & ~(CSR_NO_CONFIRM_REQUIRED)); - unifi_trace(priv, UDBG1, "updating eosp for list Head hostTag:= 0x%x ", tx_q_item->hostTag); - break; - } - spin_unlock_irqrestore(&priv->tx_q_lock, lock_flags); - } -} - -/* - * --------------------------------------------------------------------------- - * resume_suspended_uapsd - * - * This function takes care processing packets of Unscheduled Service Period, - * which been suspended earlier due to DTIM/HIP ENOSPC scenarios - * - * Arguments: - * priv Pointer to device private context struct - * interfaceTag For which resume should happen - * --------------------------------------------------------------------------- - */ -void resume_suspended_uapsd(unifi_priv_t* priv, u16 interfaceTag) -{ - - u8 startIndex; - CsrWifiRouterCtrlStaInfo_t * staInfo = NULL; - unsigned long lock_flags; - - unifi_trace(priv, UDBG2, "++resume_suspended_uapsd: \n"); - for(startIndex= 0; startIndex < UNIFI_MAX_CONNECTIONS;startIndex++) { - staInfo = CsrWifiRouterCtrlGetStationRecordFromHandle(priv, startIndex, interfaceTag); - - if(!staInfo || !staInfo->wmmOrQosEnabled) { - continue; - } else if((staInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_POWER_SAVE) - &&staInfo->uapsdActive && staInfo->uspSuspend) { - /* U-APSD Still active & previously suspended either ENOSPC of FH queues OR - * due to DTIM activity - */ - uf_handle_uspframes_delivery(priv, staInfo, interfaceTag); - } else { - unifi_trace(priv, UDBG2, "resume_suspended_uapsd: PS state=%x, uapsdActive?=%x, suspend?=%x\n", - staInfo->currentPeerState, staInfo->uapsdActive, staInfo->uspSuspend); - if (staInfo->currentPeerState == CSR_WIFI_ROUTER_CTRL_PEER_CONNECTED_ACTIVE) - { - spin_lock_irqsave(&priv->staRecord_lock, lock_flags); - staInfo->uapsdActive = FALSE; - staInfo->uspSuspend = FALSE; - spin_unlock_irqrestore(&priv->staRecord_lock, lock_flags); - } - } - } - unifi_trace(priv, UDBG2, "--resume_suspended_uapsd:\n"); -} - -#endif diff --git a/drivers/staging/csr/unifi_priv.h b/drivers/staging/csr/unifi_priv.h deleted file mode 100644 index 37302f3..0000000 --- a/drivers/staging/csr/unifi_priv.h +++ /dev/null @@ -1,1136 +0,0 @@ -/* - ***************************************************************************** - * - * FILE : unifi_priv.h - * - * PURPOSE : Private header file for unifi driver. - * - * UDI = UniFi Debug Interface - * - * Copyright (C) 2005-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - ***************************************************************************** - */ -#ifndef __LINUX_UNIFI_PRIV_H__ -#define __LINUX_UNIFI_PRIV_H__ 1 - -#include <linux/module.h> -#include <linux/string.h> -#include <linux/errno.h> -#include <linux/kernel.h> -#include <linux/wait.h> -#include <linux/sched.h> -#include <linux/delay.h> -#include <linux/netdevice.h> -#include <linux/wireless.h> -#include <linux/cdev.h> -#include <linux/kthread.h> -#include <linux/freezer.h> - -#ifdef CSR_WIFI_SUPPORT_MMC_DRIVER -#include <linux/mmc/core.h> -#include <linux/mmc/card.h> -#include <linux/mmc/host.h> -#include <linux/mmc/sdio_func.h> -#include <linux/mmc/sdio_ids.h> -#include <linux/mmc/sdio.h> -#endif /* CSR_WIFI_SUPPORT_MMC_DRIVER */ - -#include <linux/fs.h> - -#ifdef ANDROID_BUILD -#include <linux/wakelock.h> -#endif - -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_unifi_udi.h" -#include "csr_wifi_router_lib.h" -#include "unifiio.h" -#ifndef CSR_WIFI_HIP_TA_DISABLE -#include "csr_wifi_vif_utils.h" -#endif - -/* Define the unifi_priv_t before include the unifi_native.h */ -struct unifi_priv; -typedef struct unifi_priv unifi_priv_t; -#ifdef CSR_SUPPORT_WEXT_AP -struct CsrWifiSmeApConfig; -typedef struct CsrWifiSmeApConfig CsrWifiSmeApConfig_t; -#endif -#ifdef CSR_SUPPORT_WEXT -#include "unifi_wext.h" -#endif - -#ifdef ANDROID_BUILD -extern struct wake_lock unifi_sdio_wake_lock; -#endif - -#include "unifi_clients.h" - -#ifdef CSR_NATIVE_LINUX -#include "sme_native/unifi_native.h" -#else -#include "unifi_sme.h" -#endif - -/* The device major number to use when registering the udi driver */ -#define UNIFI_NAME "unifi" -/* - * MAX_UNIFI_DEVS defines the maximum number of UniFi devices that can be present. - * This number should be set to the number of SDIO slots supported by the SDIO - * host controller on the platform. - * Note: If MAX_UNIFI_DEVS value changes, fw_init[] needs to be corrected in drv.c - */ -#define MAX_UNIFI_DEVS 2 - -/* 802.11 Mac header offsets */ -#define MAC_HEADER_SIZE 24 -#define QOS_CONTROL_HEADER_SIZE 2 -#define HT_CONTROL_HEADER_SIZE 4 -#define QOS_DATA 0x8 -#define QOS_DATA_NULL 0xc -#define DATA_NULL 0x04 -#define FRAME_CONTROL_ORDER_BIT 0x8000 -#define FRAME_CONTROL_TYPE_FIELD_OFFSET 2 -#define FRAME_CONTROL_SUBTYPE_FIELD_OFFSET 4 -#define IEEE802_11_FRAMETYPE_DATA 0x02 -#define IEEE802_11_FRAMETYPE_CONTROL 0x01 -#define IEEE802_11_FRAMETYPE_MANAGEMENT 0x00 -#define IEEE802_11_FRAMETYPE_RESERVED 0x03 - -/* octet offset from start of mac header for certain fields */ -#define IEEE802_11_ADDR3_OFFSET 16 -#define IEEE802_11_SEQUENCE_CONTROL_OFFSET 22 -#define IEEE802_11_MAX_DATA_LEN 2304 - -/* frame control (FC) masks, for frame control as 16 bit integer */ -#define IEEE802_11_FC_TO_DS_MASK 0x100 -#define IEEE802_11_FC_FROM_DS_MASK 0x200 -#define IEEE802_11_FC_MOREDATA_MASK 0x2000 -#define IEEE802_11_FC_PROTECTED_MASK 0x4000 -#define IEEE80211_FC_ORDER_MASK 0x8000 -#define IEEE80211_FC_SUBTYPE_MASK 0x00f0 -#define IEEE80211_FC_TYPE_MASK 0x000c -#define IEEE80211_FC_PROTO_VERSION_MASK 0x0003 - -/* selected type and subtype combinations as in 7.1.3.1 table 1 - For frame control as 16 bit integer, or for ls octet -*/ -#define IEEE802_11_FC_TYPE_DATA 0x08 -#define IEEE802_11_FC_TYPE_NULL 0x48 -#define IEEE802_11_FC_TYPE_QOS_NULL 0xc8 -#define IEEE802_11_FC_TYPE_QOS_DATA 0x88 - -#define IEEE802_11_FC_TYPE_DATA_SUBTYPE_RESERVED 0x0D - -/* qos control (QC) masks for qos control as 16 bit integer, or for ls octet */ -#define IEEE802_11_QC_TID_MASK 0x0f -#define IEEE802_11_QC_A_MSDU_PRESENT 0x80 - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND)) -#define IEEE802_11_QC_NON_TID_BITS_MASK 0xFFF0 -#endif - -#define CSR_WIFI_EAPOL_M4_HOST_TAG 0x50000000 -#define IEEE802_11_DATA_FRAME_MAC_HEADER_SIZE 36 -#define MAX_ACCESS_CATOGORY 4 - -/* Time in us to check for inactivity of stations 5 mins */ -#define INACTIVITY_CHECK_INTERVAL 300000000 -/* Time in us before a station is flagged as inactive */ -#define MAX_INACTIVITY_INTERVAL 300000000 - - -/* Define for maximum BA session */ -#define MAX_SUPPORTED_BA_SESSIONS_TX 1 -#define MAX_SUPPORTED_BA_SESSIONS_RX 4 - -#define MAX_BA_WIND_SIZE 64 -#define MAC_HEADER_ADDR1_OFFSET 4 -#define MAC_HEADER_ADDR2_OFFSET 10 - -/* Define for age (in us) value for frames in MPDU reorder buffer */ -#define CSR_WIFI_BA_MPDU_FRAME_AGE_TIMEOUT 30000 /* 30 milli seconds */ - -/* This macro used in prepare_and_add_macheader*/ -#define ADDRESS_ONE_OFFSET 20 - -/* Defines for STA inactivity detection */ -#define STA_INACTIVE_DETECTION_TRIGGER_THRESHOLD 1 /* in number of stations */ -#define STA_INACTIVE_DETECTION_TIMER_INTERVAL 30 /* in seconds */ -#define STA_INACTIVE_TIMEOUT_VAL 120*1000*1000 /* 120 seconds */ - -/* Test for modes requiring AP firmware patch */ -#define CSR_WIFI_HIP_IS_AP_FW(mode) ((((mode) == CSR_WIFI_ROUTER_CTRL_MODE_AP) || \ - ((mode) == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO)) ? TRUE : FALSE) - -/* Defines used in beacon filtering in case of P2P */ -#define CSR_WIFI_P2P_WILDCARD_SSID_LENGTH 0x7 -#define CSR_WIFI_80211_FRAME_SUBTYPE_BEACON 0x8 -#define CSR_WIFI_BEACON_FIXED_LENGTH 12 -#define CSR_WIFI_FRAME_SUBTYPE_BIT_OFFSET 4 -#define CSR_WIFI_80211_FRAME_SUBTYPE_BIT_MASK ((u8)(0xF << CSR_WIFI_FRAME_SUBTYPE_BIT_OFFSET)) - -#define CSR_WIFI_80211_GET_FRAME_SUBTYPE(frameBuffer) \ - ((u8)(((u8 *)frameBuffer)[0] & CSR_WIFI_80211_FRAME_SUBTYPE_BIT_MASK) >> CSR_WIFI_FRAME_SUBTYPE_BIT_OFFSET) - -/* For M4 request received via netdev*/ - -typedef u8 CsrWifiPacketType; -#define CSR_WIFI_UNICAST_PDU ((CsrWifiPacketType) 0x00) -#define CSR_WIFI_MULTICAST_PDU ((CsrWifiPacketType) 0x1) -#define CSR_WIFI_BROADCAST_PDU ((CsrWifiPacketType) 0x2) - -#define PRIO_TO_NICE(prio) ((prio) - MAX_RT_PRIO - 20) - -/* Module parameter variables */ -extern int buswidth; -extern int sdio_clock; -extern int use_5g; -extern int disable_hw_reset; -extern int disable_power_control; -extern int enable_wol; -extern int sme_debug; -extern int fw_init[MAX_UNIFI_DEVS]; -extern int tl_80211d; -extern int sdio_byte_mode; -extern int sdio_block_size; -extern int coredump_max; -extern int run_bh_once; -extern int bh_priority; -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -extern int log_hip_signals; -#endif - -struct dlpriv { - const unsigned char *dl_data; - int dl_len; - void *fw_desc; -}; - - -struct uf_thread { - - struct task_struct *thread_task; - - /* wait_queue for waking the unifi_thread kernel thread */ - wait_queue_head_t wakeup_q; - unsigned int wakeup_flag; - - /* - * Use it to block the I/O thread when - * an error occurs or UniFi is reinitialised. - */ - int block_thread; - - char name[16]; - int prio; -}; - -/* - * Link list to hold the received packets for the period the port - * remains closed. - */ -typedef struct rx_buffered_packets { - /* List link structure */ - struct list_head q; - /* Packet to indicate when the port reopens */ - struct sk_buff *skb; - /* Bulkdata to free in case the port closes and need to discard the packet */ - bulk_data_param_t bulkdata; - /* The source address of the packet */ - CsrWifiMacAddress sa; - /* The destination address of the packet */ - CsrWifiMacAddress da; - /* Corresponding signal */ - CSR_SIGNAL signal; -} rx_buffered_packets_t; - - -typedef u8 CsrWifiAcPowersaveMode; -#define CSR_WIFI_AC_TRIGGER_ONLY_ENABLED 0x00 -#define CSR_WIFI_AC_DELIVERY_ONLY_ENABLE 0X01 -#define CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED 0X03 -#define CSR_WIFI_AC_LEGACY_POWER_SAVE 0X02 - - -#define IS_DELIVERY_ENABLED(mode) (mode & CSR_WIFI_AC_DELIVERY_ONLY_ENABLE)? 1: 0 -#define IS_DELIVERY_AND_TRIGGER_ENABLED(mode) ((mode & CSR_WIFI_AC_DELIVERY_ONLY_ENABLE)||(mode & CSR_WIFI_AC_TRIGGER_AND_DELIVERY_ENABLED))? 1: 0 -#define IS_DTIM_ACTIVE(flag, hostTag) ((flag == TRUE || hostTag != INVALID_HOST_TAG)) -#define INVALID_HOST_TAG 0xFFFFFFFF -#define UNIFI_TRAFFIC_Q_CONTENTION UNIFI_TRAFFIC_Q_BE - - - - -/* Queue to be used for contention priority */ - -/* - * Link list to hold the tx packets for the period the peer - * powersave/free slots in unifi - */ -typedef struct tx_buffered_packets { - /* List link structure */ - struct list_head q; - u16 interfaceTag; - CSR_CLIENT_TAG hostTag; - CSR_PROCESS_ID leSenderProcessId; - CSR_TRANSMISSION_CONTROL transmissionControl; - CSR_RATE rate; - /* Bulkdata to free in case the port closes and need to discard the packet */ - bulk_data_desc_t bulkdata; - /* The source address of the packet */ - CsrWifiMacAddress peerMacAddress; - CSR_PRIORITY priority; -} tx_buffered_packets_t; - -/* station record has this data structure */ -typedef struct CsrWifiRouterCtrlStaInfo_t { - - /* Sme sends these parameters */ - CsrWifiMacAddress peerMacAddress; - u32 assignedHandle; - u8 wmmOrQosEnabled; - CsrWifiAcPowersaveMode powersaveMode[MAX_ACCESS_CATOGORY]; - u16 maxSpLength; - u8 uapsdActive; - u16 noOfSpFramesSent; - - /* Router/Driver database */ -#ifdef CSR_SUPPORT_SME - unifi_port_cfg_t *peerControlledPort; - unifi_port_cfg_t *peerUnControlledPort; - - /* Inactivity feature parameters */ - struct netInterface_priv *interfacePriv; - struct work_struct send_disconnected_ind_task; - u8 activity_flag; - u16 listenIntervalInTus; - CSR_CLIENT_TAG nullDataHostTag; - - /* Activity timestamps for the station */ - u32 lastActivity; - - /* during m/c transmission sp suspended */ - u8 uspSuspend; - CSR_PRIORITY triggerFramePriority; -#endif - CsrWifiRouterCtrlPeerStatus currentPeerState; - struct list_head dataPdu[MAX_ACCESS_CATOGORY]; - struct list_head mgtFrames; - u8 spStatus; - u8 prevFrmType; - u8 prevFrmAccessCatogory; - u8 protection; - u16 aid; - u8 txSuspend; - u8 timSet; - /* Dont change the value of below macro for SET & RESET */ -#define CSR_WIFI_TIM_RESET 0 -#define CSR_WIFI_TIM_SET 1 -#define CSR_WIFI_TIM_RESETTING 2 -#define CSR_WIFI_TIM_SETTING 3 - - u8 timRequestPendingFlag; - u8 updateTimReqQueued; - u16 noOfPktQueued; -}CsrWifiRouterCtrlStaInfo_t; - -#ifdef CSR_SUPPORT_WEXT_AP -struct CsrWifiSmeApConfig { - CsrWifiSsid ssid; - u16 channel; - CsrWifiNmeApCredentials credentials; - u8 max_connections; - u8 if_index; -}; -#endif - -#ifdef CSR_WIFI_RX_PATH_SPLIT -/* This is a test code and may be removed later*/ -#define CSR_WIFI_RX_SIGNAL_BUFFER_SIZE (60+1) - -typedef struct -{ - u8 *bufptr; /* Signal Primitive */ - bulk_data_param_t data_ptrs; /* Bulk Data pointers */ - u16 sig_len; -}rx_buff_struct_t; - -typedef struct -{ - u8 writePointer; /**< write pointer */ - u8 readPointer; /**< read pointer */ - u8 size; /**< size of circular buffer */ - rx_buff_struct_t rx_buff[CSR_WIFI_RX_SIGNAL_BUFFER_SIZE]; /**< Element of ciruclar buffer */ -} rxCircularBuffer_t; - -void rx_wq_handler(struct work_struct *work); -#endif - -struct unifi_priv { - - card_t *card; - CsrSdioFunction *sdio; - - /* Index into Unifi_instances[] for this device. */ - int instance; - /* Reference count for this instance */ - int ref_count; - - /* Firmware images */ - struct dlpriv fw_sta; - struct dlpriv fw_conv; /* used for conversion of production test image */ - - /* Char device related structures */ - struct cdev unifi_cdev; - struct cdev unifiudi_cdev; - struct device *unifi_device; - - /* Which wireless interface to use (1 - 2.4GHz, 2 - 5GHz) */ - CSR_IFINTERFACE if_index; - - /* For multiple interface support */ - struct net_device *netdev[CSR_WIFI_NUM_INTERFACES]; - struct netInterface_priv *interfacePriv[CSR_WIFI_NUM_INTERFACES]; - - u8 totalInterfaceCount; - - int prev_queue; - - /* Name of node under /proc */ - char proc_entry_name[64]; - - /* - * Flags: - * drop_unencrypted - * - Not used? - * netdev_registered - * - whether the netdev has been registered. - */ - unsigned int drop_unencrypted : 1; - - /* Our list of unifi linux clients. */ - ul_client_t ul_clients[MAX_UDI_CLIENTS]; - - /* Mutex to protect using the logging hook after UDI client is gone */ - struct semaphore udi_logging_mutex; - /* Pointer to the ul_clients[] array */ - ul_client_t *logging_client; - - /* A ul_client_t* used to send the netdev related MIB requests. */ - ul_client_t *netdev_client; - - /* The SME ul_client_t pointer. */ - ul_client_t *sme_cli; - - /* The AMP ul_client_t pointer. */ - ul_client_t *amp_client; - - /* - * Semaphore for locking the top-half to one user process. - * This is necessary to prevent multiple processes calling driver - * operations. This can happen because the network driver entry points - * can be called from multiple processes. - */ -#ifdef USE_DRIVER_LOCK - struct semaphore lock; -#endif /* USE_DRIVER_LOCK */ - - /* Flag to say that an operation was aborted */ - int io_aborted; - - struct uf_thread bh_thread; - -#define UNIFI_INIT_NONE 0x00 -#define UNIFI_INIT_IN_PROGRESS 0x01 -#define UNIFI_INIT_FW_DOWNLOADED 0x02 -#define UNIFI_INIT_COMPLETED 0x04 - unsigned char init_progress; - - int sme_is_present; - - /* The WMM features that UniFi uses in the current BSS */ - unsigned int sta_wmm_capabilities; - - /* Debug only */ - char last_debug_string[256]; - unsigned short last_debug_word16[16]; - -#ifdef CSR_SUPPORT_SME - /* lock to protect the tx queues list */ - spinlock_t tx_q_lock; - u8 allPeerDozing; - u8 pausedStaHandle[MAX_ACCESS_CATOGORY]; - /* Max packet the driver can queue, irrespective of interface number */ - u16 noOfPktQueuedInDriver; -#define CSR_WIFI_DRIVER_SUPPORT_FOR_MAX_PKT_QUEUEING 512 -#define CSR_WIFI_DRIVER_MAX_PKT_QUEUING_THRESHOLD_PER_PEER 64 -#define CSR_WIFI_DRIVER_MINIMUM_BROADCAST_PKT_THRESHOLD 3 - - u8 routerBufferEnable[MAX_ACCESS_CATOGORY]; - /* lock to protect stainfo members and priv members*/ - spinlock_t staRecord_lock; -#endif -#ifdef CSR_NATIVE_LINUX -#ifdef CSR_SUPPORT_WEXT - /* wireless config */ - struct wext_config wext_conf; -#endif - - /* Mutex to protect the MLME blocking requests */ - struct semaphore mlme_blocking_mutex; - - /* The ul_client that provides the blocking API for WEXT calls */ - ul_client_t *wext_client; - -#endif /* CSR_NATIVE_LINUX */ - -#ifdef CSR_SUPPORT_SME - wait_queue_head_t sme_request_wq; - /* Semaphore to protect the SME blocking requests */ - struct semaphore sme_sem; - /* Structure to hold the SME blocking requests data*/ - sme_reply_t sme_reply; - - /* Structure to hold a traffic protocol indication */ - struct ta_ind { - struct work_struct task; - CsrWifiRouterCtrlTrafficPacketType packet_type; - CsrWifiRouterCtrlProtocolDirection direction; - CsrWifiMacAddress src_addr; - int in_use; - } ta_ind_work; - - struct ta_sample_ind { - struct work_struct task; - CsrWifiRouterCtrlTrafficStats stats; - int in_use; - } ta_sample_ind_work; - - __be32 sta_ip_address; - CsrWifiRouterCtrlSmeVersions sme_versions; - - /* - * Flag to reflect state of unifi_sys_wifi_on_*() progress. - * This indicates whether we are in an "wifi on" state when we are - * allowed to indication errors with unifi_mgt_wifi_off_ind() - */ - enum { - wifi_on_unspecified = -1, - wifi_on_in_progress = 0, - wifi_on_done = 1, - } wifi_on_state; - - /* Userspace TaskId for the SME Set when a wifi on req is received */ - CsrSchedQid CSR_WIFI_SME_IFACEQUEUE; - - struct work_struct multicast_list_task; - /* - * The SME installs filters to ask for specific MA-UNITDATA.req - * to be passed to different SME components. - */ -#define MAX_MA_UNIDATA_IND_FILTERS 8 - sme_ma_unidata_ind_filter_t sme_unidata_ind_filters[MAX_MA_UNIDATA_IND_FILTERS]; - -/* UNIFI_CFG related parameters */ - uf_cfg_bcast_packet_filter_t packet_filters; - unsigned char *filter_tclas_ies; - /* The structure that holds all the connection configuration. */ - CsrWifiSmeConnectionConfig connection_config; -#ifdef CSR_SUPPORT_WEXT - - int ignore_bssid_join; - struct iw_statistics wext_wireless_stats; - - /* The MIB and MAC address files contents, read from userspace */ - CsrWifiSmeDataBlock mib_data; - CsrWifiMacAddress sta_mac_address; - - int wep_tx_key_index; - wep_key_t wep_keys[NUM_WEPKEYS]; - - -#ifdef CSR_SUPPORT_WEXT_AP - CsrWifiSmeApMacConfig ap_mac_config; - CsrWifiNmeApConfig group_sec_config; - CsrWifiSmeApConfig_t ap_config; -#endif - struct work_struct sme_config_task; - -#endif /* CSR_SUPPORT_WEXT */ - -#endif /* CSR_SUPPORT_SME */ - -#ifdef CSR_SME_USERSPACE - void *smepriv; -#endif /* CSR_SME_USERSPACE */ - - card_info_t card_info; - - /* Mutex to protect unifi_send_signal() */ - spinlock_t send_signal_lock; - - - /* - * The workqueue to offload the TA run - * and the multicast addresses list set - */ - struct workqueue_struct *unifi_workqueue; - - unsigned char *mib_cfm_buffer; - unsigned int mib_cfm_buffer_length; - - int ptest_mode; /* Set when in production test mode */ - int coredump_mode; /* Set when SME has requested a coredump */ - u8 wol_suspend; /* Set when suspending with UniFi powered */ - -#define UF_UNCONTROLLED_PORT_Q 0 -#define UF_CONTROLLED_PORT_Q 1 - - /* Semaphore to protect the rx queues list */ - struct semaphore rx_q_sem; - - /* Spinlock to protect M4 data */ - spinlock_t m4_lock; - /* Mutex to protect BA RX data */ - struct semaphore ba_mutex; - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) - /* Spinlock to protect the WAPI data */ - spinlock_t wapi_lock; -#endif - - /* Array to indicate if a particular Tx queue is paused, this may not be - * required in a multiqueue implementation since we can directly stop kernel - * queues */ - u8 tx_q_paused_flag[UNIFI_TRAFFIC_Q_MAX]; - -#ifdef CSR_WIFI_RX_PATH_SPLIT - struct workqueue_struct *rx_workqueue; - struct work_struct rx_work_struct; - rxCircularBuffer_t rxSignalBuffer; - -#endif - - u32 rxTcpThroughput; - u32 txTcpThroughput; - u32 rxUdpThroughput; - u32 txUdpThroughput; - -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - /*Set if multicast KeyID = 1*/ - u8 wapi_multicast_filter; - /*Set if unicast KeyID = 1*/ - u8 wapi_unicast_filter; - u8 wapi_unicast_queued_pkt_filter; -#ifdef CSR_WIFI_SECURITY_WAPI_QOSCTRL_MIC_WORKAROUND - u8 isWapiConnection; -#endif -#endif - -#ifdef CSR_WIFI_SPLIT_PATCH - CsrWifiRouterCtrlModeSetReq pending_mode_set; -#endif - - u8 cmanrTestMode; - CSR_RATE cmanrTestModeTransmitRate; - -}; - -typedef struct { - u16 queue_length[4]; - u8 os_queue_paused; -} unifi_OsQosInfo; - - -typedef struct { - u8 active; - bulk_data_param_t bulkdata; - CSR_SIGNAL signal; - u16 sn; - u32 recv_time; -} frame_desc_struct; - -typedef struct { - frame_desc_struct *buffer; - u16 wind_size; - u16 occupied_slots; - struct timer_list timer; - u16 timeout; - u16 expected_sn; - u16 start_sn; - u8 trigger_ba_after_ssn; - struct netInterface_priv *interfacePriv; - u16 tID; - CsrWifiMacAddress macAddress; - struct work_struct send_ba_err_task; -} ba_session_rx_struct; - - -typedef struct { - struct netInterface_priv *interfacePriv; - u16 tID; - CsrWifiMacAddress macAddress; -} ba_session_tx_struct; - -typedef struct netInterface_priv -{ - u16 InterfaceTag; - struct unifi_priv *privPtr; - ba_session_tx_struct *ba_session_tx[MAX_SUPPORTED_BA_SESSIONS_TX]; - ba_session_rx_struct *ba_session_rx[MAX_SUPPORTED_BA_SESSIONS_RX]; - frame_desc_struct ba_complete[MAX_BA_WIND_SIZE]; - u8 ba_complete_index; - u8 queueEnabled[UNIFI_NO_OF_TX_QS]; - struct work_struct send_m4_ready_task; -#ifdef CSR_WIFI_SECURITY_WAPI_ENABLE - struct work_struct send_pkt_to_encrypt; -#endif - struct net_device_stats stats; - u8 interfaceMode; - u8 protect; - CsrWifiMacAddress bssid; - /* - * Flag to reflect state of CONNECTED indication signal. - * This indicates whether we are "joined" an Access Point (i.e. have - * nominated an AP and are receiving beacons) but give no indication - * of whether we are authenticated and/or associated. - */ - enum { - UnifiConnectedUnknown = -1, - UnifiNotConnected = 0, - UnifiConnected = 1, - } connected; -#ifdef CSR_SUPPORT_WEXT - /* Tracks when we are waiting for a netdevice state change callback */ - u8 wait_netdev_change; - /* True if we have successfully registered for netdev callbacks */ - u8 netdev_callback_registered; -#endif /* CSR_SUPPORT_WEXT */ - unsigned int netdev_registered; -#define UNIFI_MAX_MULTICAST_ADDRESSES 10 - /* The multicast addresses list that the thread needs to set. */ - u8 mc_list[UNIFI_MAX_MULTICAST_ADDRESSES*ETH_ALEN]; - /* The multicast addresses count that the thread needs to set. */ - int mc_list_count; - u32 tag; -#ifdef CSR_SUPPORT_SME - /* (un)controlled port configuration */ - unifi_port_config_t controlled_data_port; - unifi_port_config_t uncontrolled_data_port; - - /* station record maintenance related data structures */ - u8 num_stations_joined; - CsrWifiRouterCtrlStaInfo_t *(staInfo)[UNIFI_MAX_CONNECTIONS]; - struct list_head genericMgtFrames; - struct list_head genericMulticastOrBroadCastFrames; - struct list_head genericMulticastOrBroadCastMgtFrames; - - /* Timer for detecting station inactivity */ - struct timer_list sta_activity_check_timer; - u8 sta_activity_check_enabled; - - /* Timestamp when the last inactivity check was done */ - u32 last_inactivity_check; - - /*number of multicast or borad cast packets queued*/ - u16 noOfbroadcastPktQueued; -#endif - /* A list to hold the buffered uncontrolled port packets */ - struct list_head rx_uncontrolled_list; - /* A list to hold the buffered controlled port packets */ - struct list_head rx_controlled_list; - /* Buffered M4 signal to take care of WPA race condition */ - CSR_SIGNAL m4_signal; - bulk_data_desc_t m4_bulk_data; - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) - /* Buffered WAPI Unicast MA Packet Request for encryption in Sme */ - CSR_SIGNAL wapi_unicast_ma_pkt_sig; - bulk_data_desc_t wapi_unicast_bulk_data; -#endif - - /* This should be removed and m4_hostTag should be used for checking*/ - u8 m4_sent; - CSR_CLIENT_TAG m4_hostTag; - u8 dtimActive; - u8 intraBssEnabled; - u32 multicastPduHostTag; /* Used to set the tim after getting - a confirm for it */ - u8 bcTimSet; - u8 bcTimSetReqPendingFlag; - u8 bcTimSetReqQueued; -} netInterface_priv_t; - -#ifdef CSR_SUPPORT_SME -#define routerStartBuffering(priv, queue) priv->routerBufferEnable[(queue)] = TRUE; -#define routerStopBuffering(priv, queue) priv->routerBufferEnable[(queue)] = FALSE; -#define isRouterBufferEnabled(priv, queue) priv->routerBufferEnable[(queue)] -#endif - -#ifdef USE_DRIVER_LOCK -#define LOCK_DRIVER(_p) down_interruptible(&(_p)->lock) -#define UNLOCK_DRIVER(_p) up(&(_p)->lock) -#else -#define LOCK_DRIVER(_p) (void)(_p); /* as nothing */ -#define UNLOCK_DRIVER(_p) (void)(_p); /* as nothing */ -#endif /* USE_DRIVER_LOCK */ - -s32 CsrHipResultToStatus(CsrResult csrResult); - - -/* - * SDIO related functions and callbacks - */ -int uf_sdio_load(void); -void uf_sdio_unload(void); -unifi_priv_t *uf_find_instance(int inst); -int uf_find_priv(unifi_priv_t *priv); -int uf_find_netdev_priv(netInterface_priv_t *priv); -unifi_priv_t *uf_get_instance(int inst); -void uf_put_instance(int inst); -int csr_sdio_linux_install_irq(CsrSdioFunction *sdio); -int csr_sdio_linux_remove_irq(CsrSdioFunction *sdio); - -void uf_add_os_device(int bus_id, struct device *os_device); -void uf_remove_os_device(int bus_id); - - - -/* - * Claim/release SDIO - * - * For multifunction cards, we cannot grub the SDIO lock around the unifi_bh() - * as this prevents other functions using SDIO. - * Since some of CSR SDIO API is used regardless of trying to lock unifi_bh() - * we have followed this scheme: - * 1. If a function needs protection only when CSR_WIFI_SINGLE_FUNCTION is defined - * then we call CsrSdioClaim/CsrSdioRelease(). - * 2. If a function needs protection only when CSR_WIFI_SINGLE_FUNCTION is not defined - * then we call _sdio_claim_host/_sdio_claim_host(). Use of this should be restricted - * to the SDIO glue layer only (e.g. sdio_mmc.c). - * 3. If a function needs protection, regardless of the CSR_WIFI_SINGLE_FUNCTION - * then we call directly the sdio_claim_host/sdio_release_host(). - * Use of this must be restricted to the SDIO glue layer only (e.g. sdio_mmc.c). - * - * Note: The _func and function pointers are _not_ the same. - * The former is the (struct sdio_func*) context, which restricts the use to the SDIO glue layer. - * The latter is the (CsrSdioFunction*) context, which allows calls from all layers. - */ - -#ifdef CSR_WIFI_SUPPORT_MMC_DRIVER - -#ifdef CSR_WIFI_SINGLE_FUNCTION -#define CsrSdioClaim(function) sdio_claim_host((function)->priv); -#define CsrSdioRelease(function) sdio_release_host((function)->priv); - -#define _sdio_claim_host(_func) -#define _sdio_release_host(_func) - -#else -#define CsrSdioClaim(function) -#define CsrSdioRelease(function) - -#define _sdio_claim_host(_func) sdio_claim_host(_func) -#define _sdio_release_host(_func) sdio_release_host(_func) - -#endif /* CSR_WIFI_SINGLE_FUNCTION */ - -#else -#define _sdio_claim_host(_func) -#define _sdio_release_host(_func) - -#define CsrSdioClaim(function) -#define CsrSdioRelease(function) - -#endif /* CSR_WIFI_SUPPORT_MMC_DRIVER */ - - -/* - * Functions to allocate and free an ethernet device. - */ -unifi_priv_t *uf_alloc_netdevice(CsrSdioFunction *sdio_dev, int bus_id); -int uf_free_netdevice(unifi_priv_t *priv); - -/* Allocating function for other interfaces */ -u8 uf_alloc_netdevice_for_other_interfaces(unifi_priv_t *priv, u16 interfaceTag); - -/* - * Firmware download related functions. - */ -int uf_run_unifihelper(unifi_priv_t *priv); -int uf_request_firmware_files(unifi_priv_t *priv, int is_fw); -int uf_release_firmware_files(unifi_priv_t *priv); -int uf_release_firmware(unifi_priv_t *priv, struct dlpriv *to_free); - -/* - * Functions to create and delete the device nodes. - */ -int uf_create_device_nodes(unifi_priv_t *priv, int bus_id); -void uf_destroy_device_nodes(unifi_priv_t *priv); - -/* - * Upper Edge Initialisation functions - */ -int uf_init_bh(unifi_priv_t *priv); -int uf_init_hw(unifi_priv_t *priv); - -/* Thread related helper functions */ -int uf_start_thread(unifi_priv_t *priv, struct uf_thread *thread, int (*func)(void *)); -void uf_stop_thread(unifi_priv_t *priv, struct uf_thread *thread); -void uf_wait_for_thread_to_stop(unifi_priv_t *priv, struct uf_thread *thread); - - -/* - * Unifi Linux functions - */ -void ul_init_clients(unifi_priv_t *priv); - -/* Configuration flags */ -#define CLI_USING_WIRE_FORMAT 0x0002 -#define CLI_SME_USERSPACE 0x0020 -ul_client_t *ul_register_client(unifi_priv_t *priv, - unsigned int configuration, - udi_event_t udi_event_clbk); -int ul_deregister_client(ul_client_t *pcli); - -int ul_send_signal_unpacked(unifi_priv_t *priv, - CSR_SIGNAL *sigptr, - bulk_data_param_t *bulkdata); -int ul_send_signal_raw(unifi_priv_t *priv, - unsigned char *sigptr, int siglen, - bulk_data_param_t *bulkdata); - -void ul_log_config_ind(unifi_priv_t *priv, u8 *conf_param, int len); - - -/* - * Data plane operations - */ -/* - * data_tx.c - */ -int uf_verify_m4(unifi_priv_t *priv, const unsigned char *packet, - unsigned int length); - -#ifdef CSR_SUPPORT_SME -u8 uf_check_broadcast_bssid(unifi_priv_t *priv, const bulk_data_param_t *bulkdata); -u8 uf_process_pm_bit_for_peer(unifi_priv_t * priv, CsrWifiRouterCtrlStaInfo_t * srcStaInfo, u8 pmBit, u16 interfaceTag); -void uf_process_ps_poll(unifi_priv_t *priv, u8* sa, u8* da, u8 pmBit, u16 interfaceTag); -int uf_ap_process_data_pdu(unifi_priv_t *priv, struct sk_buff *skb, - struct ethhdr *ehdr, CsrWifiRouterCtrlStaInfo_t * srcStaInfo, - const CSR_SIGNAL *signal, - bulk_data_param_t *bulkdata, - u8 macHeaderLengthInBytes); -u8 uf_is_more_data_for_non_delivery_ac(CsrWifiRouterCtrlStaInfo_t *staRecord); -void uf_process_wmm_deliver_ac_uapsd ( unifi_priv_t * priv, - CsrWifiRouterCtrlStaInfo_t * srcStaInfo, - u16 qosControl, - u16 interfaceTag); - -void uf_send_buffered_data_from_ac(unifi_priv_t *priv, CsrWifiRouterCtrlStaInfo_t * staInfo, u8 queue, struct list_head *txList); -void uf_send_buffered_data_from_delivery_ac(unifi_priv_t *priv, CsrWifiRouterCtrlStaInfo_t * staInfo, u8 queue, struct list_head *txList); - -void uf_continue_uapsd(unifi_priv_t *priv, CsrWifiRouterCtrlStaInfo_t * staInfo); -void uf_send_qos_null(unifi_priv_t * priv, u16 interfaceTag, const u8 *da, CSR_PRIORITY priority, CsrWifiRouterCtrlStaInfo_t * srcStaInfo); -void uf_send_nulldata(unifi_priv_t * priv, u16 interfaceTag, const u8 *da, CSR_PRIORITY priority, CsrWifiRouterCtrlStaInfo_t * srcStaInfo); - - - -#endif -CsrResult uf_process_ma_packet_req(unifi_priv_t *priv, u8 *peerMacAddress, CSR_CLIENT_TAG hostTag, u16 interfaceTag, CSR_TRANSMISSION_CONTROL transmissionControl, CSR_RATE TransmitRate, CSR_PRIORITY priority, CSR_PROCESS_ID senderId, bulk_data_param_t *bulkdata); -void uf_process_ma_vif_availibility_ind(unifi_priv_t *priv, u8 *sigdata, u32 siglen); -#ifdef CSR_SUPPORT_SME -void uf_send_buffered_frames(unifi_priv_t *priv, unifi_TrafficQueue queue); -int uf_process_station_records_for_sending_data(unifi_priv_t *priv, u16 interfaceTag, - CsrWifiRouterCtrlStaInfo_t *srcStaInfo, - CsrWifiRouterCtrlStaInfo_t *dstStaInfo); -void uf_prepare_send_cfm_list_for_queued_pkts(unifi_priv_t * priv, - struct list_head *frames_need_cfm_list, - struct list_head * list); -void send_auto_ma_packet_confirm(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - struct list_head *buffered_frames_list); -void uf_flush_list(unifi_priv_t * priv, struct list_head * list); -tx_buffered_packets_t *dequeue_tx_data_pdu(unifi_priv_t *priv, struct list_head *txList); -void resume_unicast_buffered_frames(unifi_priv_t *priv, u16 interfaceTag); -void update_eosp_to_head_of_broadcast_list_head(unifi_priv_t *priv, u16 interfaceTag); -void resume_suspended_uapsd(unifi_priv_t* priv, u16 interfaceTag); -#endif -/* - * netdev.c - */ - -#ifndef P80211_OUI_LEN -#define P80211_OUI_LEN 3 -#endif -typedef struct { - u8 dsap; /* always 0xAA */ - u8 ssap; /* always 0xAA */ - u8 ctrl; /* always 0x03 */ - u8 oui[P80211_OUI_LEN]; /* organizational universal id */ - u16 protocol; -} __attribute__ ((packed)) llc_snap_hdr_t; -int skb_add_llc_snap(struct net_device *dev, struct sk_buff *skb, int proto); -int skb_80211_to_ether(unifi_priv_t *priv, struct sk_buff *skb, - const unsigned char *daddr, const unsigned char *saddr, - const CSR_SIGNAL *signal, - bulk_data_param_t *bulkdata); - -const char *result_code_str(int result); - - -/* prepares & appends the Mac header for the payload */ -int prepare_and_add_macheader(unifi_priv_t *priv, - struct sk_buff *skb, - struct sk_buff *newSkb, - CSR_PRIORITY priority, - bulk_data_param_t *bulkdata, - u16 interfaceTag, - const u8 *daddr, - const u8 *saddr, - u8 protection); -CSR_PRIORITY -get_packet_priority(unifi_priv_t *priv, struct sk_buff *skb, const struct ethhdr *ehdr, netInterface_priv_t *interfacePriv); - -void -unifi_frame_ma_packet_req(unifi_priv_t *priv, CSR_PRIORITY priority, - CSR_RATE TransmitRate, CSR_CLIENT_TAG hostTag, - u16 interfaceTag, CSR_TRANSMISSION_CONTROL transmissionControl, - CSR_PROCESS_ID leSenderProcessId, u8 *peerMacAddress, - CSR_SIGNAL *signal); - - -/* Pack the LSB to include station handle & status of tim set */ -#define CSR_WIFI_PACK_SENDER_ID_LSB_FOR_TIM_REQ(handle, timState) ((handle << 2) | timState) -/* get the station record handle from the sender ID */ -#define CSR_WIFI_GET_STATION_HANDLE_FROM_RECEIVER_ID(receiverProcessId) (u8) ((receiverProcessId & 0xff) >> 2) -/* get the timSet status from the sender ID */ -#define CSR_WIFI_GET_TIMSET_STATE_FROM_RECEIVER_ID(receiverProcessId) (u8) (receiverProcessId & 0x03) - -/* handle is 6 bits to accomodate in senderId LSB (only 64 station can be associated) */ -#define CSR_WIFI_BROADCAST_OR_MULTICAST_HANDLE 0x3F - -void update_tim(unifi_priv_t * priv, u16 aid, u8 setTim, u16 interfaceTag, u32 handle); -void uf_handle_tim_cfm(unifi_priv_t *priv, CSR_MLME_SET_TIM_CONFIRM *cfm, u16 senderProcessId); - -/* Clear the Peer station Record, in case of wifioff/unexpected card removal */ -void CsrWifiRouterCtrlInterfaceReset(unifi_priv_t *priv, u16 interfaceTag); - -void scroll_ba_window(unifi_priv_t *priv, - netInterface_priv_t *interfacePriv, - ba_session_rx_struct *ba_session, - u16 sn); - -u8 blockack_session_stop(unifi_priv_t *priv, - u16 interfaceTag, - CsrWifiRouterCtrlBlockAckRole role, - u16 tID, - CsrWifiMacAddress macAddress); -#ifdef CSR_SUPPORT_SME -/* Fetch the protection information from interface Mode */ -s8 uf_get_protection_bit_from_interfacemode(unifi_priv_t *priv, u16 interfaceTag, const u8 *daddr); -#endif - -/* Fetch the station record handler from data base for matching Mac address */ -#ifdef CSR_SUPPORT_SME -CsrWifiRouterCtrlStaInfo_t *CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(unifi_priv_t *priv, - const u8 *peerMacAddress, - u16 interfaceTag); - -/* Fetch the station record handler from data base for matching handle */ -CsrWifiRouterCtrlStaInfo_t * CsrWifiRouterCtrlGetStationRecordFromHandle(unifi_priv_t *priv, - u32 handle, - u16 interfaceTag); - -void uf_update_sta_activity(unifi_priv_t *priv, u16 interfaceTag, const u8 *peerMacAddress); -void uf_process_ma_pkt_cfm_for_ap(unifi_priv_t *priv, u16 interfaceTag, const CSR_MA_PACKET_CONFIRM *pkt_cfm); -#endif - -void uf_resume_data_plane(unifi_priv_t *priv, int queue, - CsrWifiMacAddress peer_address, - u16 interfaceTag); -void uf_free_pending_rx_packets(unifi_priv_t *priv, int queue, - CsrWifiMacAddress peer_address, u16 interfaceTag); - -int uf_register_netdev(unifi_priv_t *priv, int numOfInterface); -void uf_unregister_netdev(unifi_priv_t *priv); - -void uf_net_get_name(struct net_device *dev, char *name, int len); - -void uf_send_queue_info(unifi_priv_t *priv); -u16 uf_get_vif_identifier(CsrWifiRouterCtrlMode mode, u16 tag); - -void uf_process_rx_pending_queue(unifi_priv_t *priv, int queue, - CsrWifiMacAddress source_address, - int indicate, u16 interfaceTag); - -#ifdef CSR_WIFI_HIP_DEBUG_OFFLINE -int uf_register_hip_offline_debug(unifi_priv_t *priv); -int uf_unregister_hip_offline_debug(unifi_priv_t *priv); -#endif - -/* - * inet.c - */ -void uf_register_inet_notifier(void); -void uf_unregister_inet_notifier(void); - - -/* - * Suspend / Resume handlers - */ -void unifi_resume(void *ospriv); -void unifi_suspend(void *ospriv); - - -#define QOS_CAPABILITY_WMM_ENABLED 0x0001 -#define QOS_CAPABILITY_WMM_UAPSD 0x0002 -#define QOS_CAPABILITY_ACM_BE_ENABLED 0x0010 -#define QOS_CAPABILITY_ACM_BK_ENABLED 0x0020 -#define QOS_CAPABILITY_ACM_VI_ENABLED 0x0040 -#define QOS_CAPABILITY_ACM_VO_ENABLED 0x0080 -#define QOS_CAPABILITY_TS_BE_ENABLED 0x0100 -#define QOS_CAPABILITY_TS_BK_ENABLED 0x0200 -#define QOS_CAPABILITY_TS_VI_ENABLED 0x0400 -#define QOS_CAPABILITY_TS_VO_ENABLED 0x0800 - - -/* EAPOL PDUS */ -#ifndef ETH_P_PAE -#define ETH_P_PAE 0x888e -#endif -#ifndef ETH_P_WAI -#define ETH_P_WAI 0x88b4 -#endif -/* - * unifi_dbg.c - */ -void debug_string_indication(unifi_priv_t *priv, - const unsigned char *extra, - unsigned int extralen); -void debug_word16_indication(unifi_priv_t *priv, const CSR_SIGNAL *sigptr); -void debug_generic_indication(unifi_priv_t *priv, const CSR_SIGNAL *sigptr); - - -/* - * putest.c - */ -int unifi_putest_start(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_cmd52_block_read(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_stop(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_set_sdio_clock(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_cmd52_read(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_coredump_prepare(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_cmd52_write(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_gp_read16(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_gp_write16(unifi_priv_t *priv, unsigned char *arg); - -int unifi_putest_dl_fw(unifi_priv_t *priv, unsigned char *arg); -int unifi_putest_dl_fw_buff(unifi_priv_t *priv, unsigned char *arg); - -#endif /* __LINUX_UNIFI_PRIV_H__ */ diff --git a/drivers/staging/csr/unifi_sme.c b/drivers/staging/csr/unifi_sme.c deleted file mode 100644 index 5090882..0000000 --- a/drivers/staging/csr/unifi_sme.c +++ /dev/null @@ -1,1225 +0,0 @@ -/* - * *************************************************************************** - * FILE: unifi_sme.c - * - * PURPOSE: SME related functions. - * - * Copyright (C) 2007-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * *************************************************************************** - */ - -#include "unifi_priv.h" -#include "csr_wifi_hip_unifi.h" -#include "csr_wifi_hip_conversions.h" -#include <linux/sched/rt.h> - - - - int -convert_sme_error(CsrResult error) -{ - switch (error) { - case CSR_RESULT_SUCCESS: - return 0; - case CSR_RESULT_FAILURE: - case CSR_WIFI_RESULT_NOT_FOUND: - case CSR_WIFI_RESULT_TIMED_OUT: - case CSR_WIFI_RESULT_CANCELLED: - case CSR_WIFI_RESULT_UNAVAILABLE: - return -EIO; - case CSR_WIFI_RESULT_NO_ROOM: - return -EBUSY; - case CSR_WIFI_RESULT_INVALID_PARAMETER: - return -EINVAL; - case CSR_WIFI_RESULT_UNSUPPORTED: - return -EOPNOTSUPP; - default: - return -EIO; - } -} - - -/* - * --------------------------------------------------------------------------- - * sme_log_event - * - * Callback function to be registered as the SME event callback. - * Copies the signal content into a new udi_log_t struct and adds - * it to the read queue for the SME client. - * - * Arguments: - * arg This is the value given to unifi_add_udi_hook, in - * this case a pointer to the client instance. - * signal Pointer to the received signal. - * signal_len Size of the signal structure in bytes. - * bulkdata Pointers to any associated bulk data. - * dir Direction of the signal. Zero means from host, - * non-zero means to host. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ - void -sme_log_event(ul_client_t *pcli, - const u8 *signal, int signal_len, - const bulk_data_param_t *bulkdata, - int dir) -{ - unifi_priv_t *priv; - CSR_SIGNAL unpacked_signal; - CsrWifiSmeDataBlock mlmeCommand; - CsrWifiSmeDataBlock dataref1; - CsrWifiSmeDataBlock dataref2; - CsrResult result = CSR_RESULT_SUCCESS; - int r; - - /* Just a sanity check */ - if ((signal == NULL) || (signal_len <= 0)) { - return; - } - - priv = uf_find_instance(pcli->instance); - if (!priv) { - unifi_error(priv, "sme_log_event: invalid priv\n"); - return; - } - - if (priv->smepriv == NULL) { - unifi_error(priv, "sme_log_event: invalid smepriv\n"); - return; - } - - unifi_trace(priv, UDBG3, - "sme_log_event: Process signal 0x%.4X\n", - CSR_GET_UINT16_FROM_LITTLE_ENDIAN(signal)); - - - /* If the signal is known, then do any filtering required, otherwise it pass it to the SME. */ - r = read_unpack_signal(signal, &unpacked_signal); - if (r == CSR_RESULT_SUCCESS) { - if ((unpacked_signal.SignalPrimitiveHeader.SignalId == CSR_DEBUG_STRING_INDICATION_ID) || - (unpacked_signal.SignalPrimitiveHeader.SignalId == CSR_DEBUG_WORD16_INDICATION_ID)) - { - return; - } - if (unpacked_signal.SignalPrimitiveHeader.SignalId == CSR_MA_PACKET_INDICATION_ID) - { - u16 frmCtrl; - u8 unicastPdu = TRUE; - u8 *macHdrLocation; - u8 *raddr = NULL, *taddr = NULL; - CsrWifiMacAddress peerMacAddress; - /* Check if we need to send CsrWifiRouterCtrlMicFailureInd*/ - CSR_MA_PACKET_INDICATION *ind = &unpacked_signal.u.MaPacketIndication; - - macHdrLocation = (u8 *) bulkdata->d[0].os_data_ptr; - /* Fetch the frame control value from mac header */ - frmCtrl = CSR_GET_UINT16_FROM_LITTLE_ENDIAN(macHdrLocation); - - /* Point to the addresses */ - raddr = macHdrLocation + MAC_HEADER_ADDR1_OFFSET; - taddr = macHdrLocation + MAC_HEADER_ADDR2_OFFSET; - - memcpy(peerMacAddress.a, taddr, ETH_ALEN); - - if(ind->ReceptionStatus == CSR_MICHAEL_MIC_ERROR) - { - if (*raddr & 0x1) - unicastPdu = FALSE; - - CsrWifiRouterCtrlMicFailureIndSend (priv->CSR_WIFI_SME_IFACEQUEUE, 0, - (ind->VirtualInterfaceIdentifier & 0xff), peerMacAddress, - unicastPdu); - return; - } - else - { - if(ind->ReceptionStatus == CSR_RX_SUCCESS) - { - u8 pmBit = (frmCtrl & 0x1000)?0x01:0x00; - u16 interfaceTag = (ind->VirtualInterfaceIdentifier & 0xff); - CsrWifiRouterCtrlStaInfo_t *srcStaInfo = CsrWifiRouterCtrlGetStationRecordFromPeerMacAddress(priv, taddr, interfaceTag); - if((srcStaInfo != NULL) && (uf_check_broadcast_bssid(priv, bulkdata)== FALSE)) - { - uf_process_pm_bit_for_peer(priv, srcStaInfo, pmBit, interfaceTag); - - /* Update station last activity flag */ - srcStaInfo->activity_flag = TRUE; - } - } - } - } - - if (unpacked_signal.SignalPrimitiveHeader.SignalId == CSR_MA_PACKET_CONFIRM_ID) - { - CSR_MA_PACKET_CONFIRM *cfm = &unpacked_signal.u.MaPacketConfirm; - u16 interfaceTag = (cfm->VirtualInterfaceIdentifier & 0xff); - netInterface_priv_t *interfacePriv; - CSR_MA_PACKET_REQUEST *req; - CsrWifiMacAddress peerMacAddress; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) - { - unifi_error(priv, "Bad MA_PACKET_CONFIRM interfaceTag %d\n", interfaceTag); - return; - } - - unifi_trace(priv, UDBG1, "MA-PACKET Confirm (%x, %x)\n", cfm->HostTag, cfm->TransmissionStatus); - - interfacePriv = priv->interfacePriv[interfaceTag]; -#ifdef CSR_SUPPORT_SME - if(interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_AP || - interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_P2PGO) { - - if(cfm->HostTag == interfacePriv->multicastPduHostTag){ - uf_process_ma_pkt_cfm_for_ap(priv, interfaceTag, cfm); - } - } -#endif - - req = &interfacePriv->m4_signal.u.MaPacketRequest; - - if(cfm->HostTag & 0x80000000) - { - if (cfm->TransmissionStatus != CSR_TX_SUCCESSFUL) - { - result = CSR_RESULT_FAILURE; - } -#ifdef CSR_SUPPORT_SME - memcpy(peerMacAddress.a, req->Ra.x, ETH_ALEN); - /* Check if this is a confirm for EAPOL M4 frame and we need to send transmistted ind*/ - if (interfacePriv->m4_sent && (cfm->HostTag == interfacePriv->m4_hostTag)) - { - unifi_trace(priv, UDBG1, "%s: Sending M4 Transmit CFM\n", __FUNCTION__); - CsrWifiRouterCtrlM4TransmittedIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, - interfaceTag, - peerMacAddress, - result); - interfacePriv->m4_sent = FALSE; - interfacePriv->m4_hostTag = 0xffffffff; - } -#endif - /* If EAPOL was requested via router APIs then send cfm else ignore*/ - if((cfm->HostTag & 0x80000000) != CSR_WIFI_EAPOL_M4_HOST_TAG) { - CsrWifiRouterMaPacketCfmSend((u16)signal[2], - cfm->VirtualInterfaceIdentifier, - result, - (cfm->HostTag & 0x3fffffff), cfm->Rate); - } else { - unifi_trace(priv, UDBG1, "%s: M4 received from netdevice\n", __FUNCTION__); - } - return; - } - } - } - - mlmeCommand.length = signal_len; - mlmeCommand.data = (u8*)signal; - - dataref1.length = bulkdata->d[0].data_length; - if (dataref1.length > 0) { - dataref1.data = (u8 *) bulkdata->d[0].os_data_ptr; - } else - { - dataref1.data = NULL; - } - - dataref2.length = bulkdata->d[1].data_length; - if (dataref2.length > 0) { - dataref2.data = (u8 *) bulkdata->d[1].os_data_ptr; - } else - { - dataref2.data = NULL; - } - - CsrWifiRouterCtrlHipIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, mlmeCommand.length, mlmeCommand.data, - dataref1.length, dataref1.data, - dataref2.length, dataref2.data); - -} /* sme_log_event() */ - - -/* - * --------------------------------------------------------------------------- - * uf_sme_port_state - * - * Return the state of the controlled port. - * - * Arguments: - * priv Pointer to device private context struct - * address Pointer to the destination for tx or sender for rx address - * queue Controlled or uncontrolled queue - * - * Returns: - * An unifi_ControlledPortAction value. - * --------------------------------------------------------------------------- - */ -CsrWifiRouterCtrlPortAction -uf_sme_port_state(unifi_priv_t *priv, unsigned char *address, int queue, u16 interfaceTag) -{ - int i; - unifi_port_config_t *port; - netInterface_priv_t *interfacePriv; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "uf_sme_port_state: bad interfaceTag\n"); - return CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - } - - interfacePriv = priv->interfacePriv[interfaceTag]; - - if (queue == UF_CONTROLLED_PORT_Q) { - port = &interfacePriv->controlled_data_port; - } else { - port = &interfacePriv->uncontrolled_data_port; - } - - if (!port->entries_in_use) { - unifi_trace(priv, UDBG5, "No port configurations, return Discard.\n"); - return CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_CLOSED_DISCARD; - } - - /* If the port configuration is common for all destinations, return it. */ - if (port->overide_action == UF_DATA_PORT_OVERIDE) { - unifi_trace(priv, UDBG5, "Single port configuration (%d).\n", - port->port_cfg[0].port_action); - return port->port_cfg[0].port_action; - } - - unifi_trace(priv, UDBG5, "Multiple (%d) port configurations.\n", port->entries_in_use); - - /* If multiple configurations exist.. */ - for (i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - /* .. go through the list and match the destination address. */ - if (port->port_cfg[i].in_use && - memcmp(address, port->port_cfg[i].mac_address.a, ETH_ALEN) == 0) { - /* Return the desired action. */ - return port->port_cfg[i].port_action; - } - } - - /* Could not find any information, return Open. */ - unifi_trace(priv, UDBG5, "port configuration not found, return Open.\n"); - return CSR_WIFI_ROUTER_CTRL_PORT_ACTION_8021X_PORT_OPEN; -} /* uf_sme_port_state() */ - -/* - * --------------------------------------------------------------------------- - * uf_sme_port_config_handle - * - * Return the port config handle of the controlled/uncontrolled port. - * - * Arguments: - * priv Pointer to device private context struct - * address Pointer to the destination for tx or sender for rx address - * queue Controlled or uncontrolled queue - * - * Returns: - * An unifi_port_cfg_t* . - * --------------------------------------------------------------------------- - */ -unifi_port_cfg_t* -uf_sme_port_config_handle(unifi_priv_t *priv, unsigned char *address, int queue, u16 interfaceTag) -{ - int i; - unifi_port_config_t *port; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "uf_sme_port_config_handle: bad interfaceTag\n"); - return NULL; - } - - if (queue == UF_CONTROLLED_PORT_Q) { - port = &interfacePriv->controlled_data_port; - } else { - port = &interfacePriv->uncontrolled_data_port; - } - - if (!port->entries_in_use) { - unifi_trace(priv, UDBG5, "No port configurations, return Discard.\n"); - return NULL; - } - - /* If the port configuration is common for all destinations, return it. */ - if (port->overide_action == UF_DATA_PORT_OVERIDE) { - unifi_trace(priv, UDBG5, "Single port configuration (%d).\n", - port->port_cfg[0].port_action); - if (address) { - unifi_trace(priv, UDBG5, "addr[0] = %x, addr[1] = %x, addr[2] = %x, addr[3] = %x\n", address[0], address[1], address[2], address[3]); - } - return &port->port_cfg[0]; - } - - unifi_trace(priv, UDBG5, "Multiple port configurations.\n"); - - /* If multiple configurations exist.. */ - for (i = 0; i < UNIFI_MAX_CONNECTIONS; i++) { - /* .. go through the list and match the destination address. */ - if (port->port_cfg[i].in_use && - memcmp(address, port->port_cfg[i].mac_address.a, ETH_ALEN) == 0) { - /* Return the desired action. */ - return &port->port_cfg[i]; - } - } - - /* Could not find any information, return Open. */ - unifi_trace(priv, UDBG5, "port configuration not found, returning NULL (debug).\n"); - return NULL; -} /* uf_sme_port_config_handle */ - -void -uf_multicast_list_wq(struct work_struct *work) -{ - unifi_priv_t *priv = container_of(work, unifi_priv_t, - multicast_list_task); - int i; - u16 interfaceTag = 0; - CsrWifiMacAddress* multicast_address_list = NULL; - int mc_count; - u8 *mc_list; - netInterface_priv_t *interfacePriv = priv->interfacePriv[interfaceTag]; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "uf_multicast_list_wq: bad interfaceTag\n"); - return; - } - - unifi_trace(priv, UDBG5, - "uf_multicast_list_wq: list count = %d\n", - interfacePriv->mc_list_count); - - /* Flush the current list */ - CsrWifiRouterCtrlMulticastAddressIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, CSR_WIFI_SME_LIST_ACTION_FLUSH, 0, NULL); - - mc_count = interfacePriv->mc_list_count; - mc_list = interfacePriv->mc_list; - /* - * Allocate a new list, need to free it later - * in unifi_mgt_multicast_address_cfm(). - */ - multicast_address_list = kmalloc(mc_count * sizeof(CsrWifiMacAddress), GFP_KERNEL); - - if (multicast_address_list == NULL) { - return; - } - - for (i = 0; i < mc_count; i++) { - memcpy(multicast_address_list[i].a, mc_list, ETH_ALEN); - mc_list += ETH_ALEN; - } - - if (priv->smepriv == NULL) { - kfree(multicast_address_list); - return; - } - - CsrWifiRouterCtrlMulticastAddressIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, - interfaceTag, - CSR_WIFI_SME_LIST_ACTION_ADD, - mc_count, multicast_address_list); - - /* The SME will take a copy of the addreses*/ - kfree(multicast_address_list); -} - - -int unifi_cfg_power(unifi_priv_t *priv, unsigned char *arg) -{ - unifi_cfg_power_t cfg_power; - int rc; - int wol; - - if (get_user(cfg_power, (unifi_cfg_power_t*)(((unifi_cfg_command_t*)arg) + 1))) { - unifi_error(priv, "UNIFI_CFG: Failed to get the argument\n"); - return -EFAULT; - } - - switch (cfg_power) { - case UNIFI_CFG_POWER_OFF: - priv->wol_suspend = (enable_wol == UNIFI_WOL_OFF) ? FALSE : TRUE; - rc = sme_sys_suspend(priv); - if (rc) { - return rc; - } - break; - case UNIFI_CFG_POWER_ON: - wol = priv->wol_suspend; - rc = sme_sys_resume(priv); - if (rc) { - return rc; - } - if (wol) { - /* Kick the BH to ensure pending transfers are handled when - * a suspend happened with card powered. - */ - unifi_send_signal(priv->card, NULL, 0, NULL); - } - break; - default: - unifi_error(priv, "WIFI POWER: Unknown value.\n"); - return -EINVAL; - } - - return 0; -} - - -int unifi_cfg_power_save(unifi_priv_t *priv, unsigned char *arg) -{ - unifi_cfg_powersave_t cfg_power_save; - CsrWifiSmePowerConfig powerConfig; - int rc; - - if (get_user(cfg_power_save, (unifi_cfg_powersave_t*)(((unifi_cfg_command_t*)arg) + 1))) { - unifi_error(priv, "UNIFI_CFG: Failed to get the argument\n"); - return -EFAULT; - } - - /* Get the coex info from the SME */ - rc = sme_mgt_power_config_get(priv, &powerConfig); - if (rc) { - unifi_error(priv, "UNIFI_CFG: Get unifi_PowerConfigValue failed.\n"); - return rc; - } - - switch (cfg_power_save) { - case UNIFI_CFG_POWERSAVE_NONE: - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_LOW; - break; - case UNIFI_CFG_POWERSAVE_FAST: - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_MED; - break; - case UNIFI_CFG_POWERSAVE_FULL: - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_HIGH; - break; - case UNIFI_CFG_POWERSAVE_AUTO: - powerConfig.powerSaveLevel = CSR_WIFI_SME_POWER_SAVE_LEVEL_AUTO; - break; - default: - unifi_error(priv, "POWERSAVE: Unknown value.\n"); - return -EINVAL; - } - - rc = sme_mgt_power_config_set(priv, &powerConfig); - - if (rc) { - unifi_error(priv, "UNIFI_CFG: Set unifi_PowerConfigValue failed.\n"); - } - - return rc; -} - - -int unifi_cfg_power_supply(unifi_priv_t *priv, unsigned char *arg) -{ - unifi_cfg_powersupply_t cfg_power_supply; - CsrWifiSmeHostConfig hostConfig; - int rc; - - if (get_user(cfg_power_supply, (unifi_cfg_powersupply_t*)(((unifi_cfg_command_t*)arg) + 1))) { - unifi_error(priv, "UNIFI_CFG: Failed to get the argument\n"); - return -EFAULT; - } - - /* Get the coex info from the SME */ - rc = sme_mgt_host_config_get(priv, &hostConfig); - if (rc) { - unifi_error(priv, "UNIFI_CFG: Get unifi_HostConfigValue failed.\n"); - return rc; - } - - switch (cfg_power_supply) { - case UNIFI_CFG_POWERSUPPLY_MAINS: - hostConfig.powerMode = CSR_WIFI_SME_HOST_POWER_MODE_ACTIVE; - break; - case UNIFI_CFG_POWERSUPPLY_BATTERIES: - hostConfig.powerMode = CSR_WIFI_SME_HOST_POWER_MODE_POWER_SAVE; - break; - default: - unifi_error(priv, "POWERSUPPLY: Unknown value.\n"); - return -EINVAL; - } - - rc = sme_mgt_host_config_set(priv, &hostConfig); - if (rc) { - unifi_error(priv, "UNIFI_CFG: Set unifi_HostConfigValue failed.\n"); - } - - return rc; -} - - -int unifi_cfg_packet_filters(unifi_priv_t *priv, unsigned char *arg) -{ - unsigned char *tclas_buffer; - unsigned int tclas_buffer_length; - tclas_t *dhcp_tclas; - int rc; - - /* Free any TCLASs previously allocated */ - if (priv->packet_filters.tclas_ies_length) { - kfree(priv->filter_tclas_ies); - priv->filter_tclas_ies = NULL; - } - - tclas_buffer = ((unsigned char*)arg) + sizeof(unifi_cfg_command_t) + sizeof(unsigned int); - if (copy_from_user(&priv->packet_filters, (void*)tclas_buffer, - sizeof(uf_cfg_bcast_packet_filter_t))) { - unifi_error(priv, "UNIFI_CFG: Failed to get the filter struct\n"); - return -EFAULT; - } - - tclas_buffer_length = priv->packet_filters.tclas_ies_length; - - /* Allocate TCLASs if necessary */ - if (priv->packet_filters.dhcp_filter) { - priv->packet_filters.tclas_ies_length += sizeof(tclas_t); - } - if (priv->packet_filters.tclas_ies_length > 0) { - priv->filter_tclas_ies = kmalloc(priv->packet_filters.tclas_ies_length, GFP_KERNEL); - if (priv->filter_tclas_ies == NULL) { - return -ENOMEM; - } - if (tclas_buffer_length) { - tclas_buffer += sizeof(uf_cfg_bcast_packet_filter_t) - sizeof(unsigned char*); - if (copy_from_user(priv->filter_tclas_ies, - tclas_buffer, - tclas_buffer_length)) { - unifi_error(priv, "UNIFI_CFG: Failed to get the TCLAS buffer\n"); - return -EFAULT; - } - } - } - - if(priv->packet_filters.dhcp_filter) - { - /* Append the DHCP tclas IE */ - dhcp_tclas = (tclas_t*)(priv->filter_tclas_ies + tclas_buffer_length); - memset(dhcp_tclas, 0, sizeof(tclas_t)); - dhcp_tclas->element_id = 14; - dhcp_tclas->length = sizeof(tcpip_clsfr_t) + 1; - dhcp_tclas->user_priority = 0; - dhcp_tclas->tcp_ip_cls_fr.cls_fr_type = 1; - dhcp_tclas->tcp_ip_cls_fr.version = 4; - ((u8*)(&dhcp_tclas->tcp_ip_cls_fr.source_port))[0] = 0x00; - ((u8*)(&dhcp_tclas->tcp_ip_cls_fr.source_port))[1] = 0x44; - ((u8*)(&dhcp_tclas->tcp_ip_cls_fr.dest_port))[0] = 0x00; - ((u8*)(&dhcp_tclas->tcp_ip_cls_fr.dest_port))[1] = 0x43; - dhcp_tclas->tcp_ip_cls_fr.protocol = 0x11; - dhcp_tclas->tcp_ip_cls_fr.cls_fr_mask = 0x58; //bits: 3,4,6 - } - - rc = sme_mgt_packet_filter_set(priv); - - return rc; -} - - -int unifi_cfg_wmm_qos_info(unifi_priv_t *priv, unsigned char *arg) -{ - u8 wmm_qos_info; - int rc = 0; - - if (get_user(wmm_qos_info, (u8*)(((unifi_cfg_command_t*)arg) + 1))) { - unifi_error(priv, "UNIFI_CFG: Failed to get the argument\n"); - return -EFAULT; - } - - /* Store the value in the connection info */ - priv->connection_config.wmmQosInfo = wmm_qos_info; - - return rc; -} - - -int unifi_cfg_wmm_addts(unifi_priv_t *priv, unsigned char *arg) -{ - u32 addts_tid; - u8 addts_ie_length; - u8 *addts_ie; - u8 *addts_params; - CsrWifiSmeDataBlock tspec; - CsrWifiSmeDataBlock tclas; - int rc; - - addts_params = (u8*)(((unifi_cfg_command_t*)arg) + 1); - if (get_user(addts_tid, (u32*)addts_params)) { - unifi_error(priv, "unifi_cfg_wmm_addts: Failed to get the argument\n"); - return -EFAULT; - } - - addts_params += sizeof(u32); - if (get_user(addts_ie_length, (u8*)addts_params)) { - unifi_error(priv, "unifi_cfg_wmm_addts: Failed to get the argument\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG4, "addts: tid = 0x%x ie_length = %d\n", - addts_tid, addts_ie_length); - - addts_ie = kmalloc(addts_ie_length, GFP_KERNEL); - if (addts_ie == NULL) { - unifi_error(priv, - "unifi_cfg_wmm_addts: Failed to malloc %d bytes for addts_ie buffer\n", - addts_ie_length); - return -ENOMEM; - } - - addts_params += sizeof(u8); - rc = copy_from_user(addts_ie, addts_params, addts_ie_length); - if (rc) { - unifi_error(priv, "unifi_cfg_wmm_addts: Failed to get the addts buffer\n"); - kfree(addts_ie); - return -EFAULT; - } - - tspec.data = addts_ie; - tspec.length = addts_ie_length; - tclas.data = NULL; - tclas.length = 0; - - rc = sme_mgt_tspec(priv, CSR_WIFI_SME_LIST_ACTION_ADD, addts_tid, - &tspec, &tclas); - - kfree(addts_ie); - return rc; -} - - -int unifi_cfg_wmm_delts(unifi_priv_t *priv, unsigned char *arg) -{ - u32 delts_tid; - u8 *delts_params; - CsrWifiSmeDataBlock tspec; - CsrWifiSmeDataBlock tclas; - int rc; - - delts_params = (u8*)(((unifi_cfg_command_t*)arg) + 1); - if (get_user(delts_tid, (u32*)delts_params)) { - unifi_error(priv, "unifi_cfg_wmm_delts: Failed to get the argument\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG4, "delts: tid = 0x%x\n", delts_tid); - - tspec.data = tclas.data = NULL; - tspec.length = tclas.length = 0; - - rc = sme_mgt_tspec(priv, CSR_WIFI_SME_LIST_ACTION_REMOVE, delts_tid, - &tspec, &tclas); - - return rc; -} - -int unifi_cfg_strict_draft_n(unifi_priv_t *priv, unsigned char *arg) -{ - u8 strict_draft_n; - u8 *strict_draft_n_params; - int rc; - - CsrWifiSmeStaConfig staConfig; - CsrWifiSmeDeviceConfig deviceConfig; - - strict_draft_n_params = (u8*)(((unifi_cfg_command_t*)arg) + 1); - if (get_user(strict_draft_n, (u8*)strict_draft_n_params)) { - unifi_error(priv, "unifi_cfg_strict_draft_n: Failed to get the argument\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG4, "strict_draft_n: = %s\n", ((strict_draft_n) ? "yes":"no")); - - rc = sme_mgt_sme_config_get(priv, &staConfig, &deviceConfig); - - if (rc) { - unifi_warning(priv, "unifi_cfg_strict_draft_n: Get unifi_SMEConfigValue failed.\n"); - return -EFAULT; - } - - deviceConfig.enableStrictDraftN = strict_draft_n; - - rc = sme_mgt_sme_config_set(priv, &staConfig, &deviceConfig); - if (rc) { - unifi_warning(priv, "unifi_cfg_strict_draft_n: Set unifi_SMEConfigValue failed.\n"); - rc = -EFAULT; - } - - return rc; -} - - -int unifi_cfg_enable_okc(unifi_priv_t *priv, unsigned char *arg) -{ - u8 enable_okc; - u8 *enable_okc_params; - int rc; - - CsrWifiSmeStaConfig staConfig; - CsrWifiSmeDeviceConfig deviceConfig; - - enable_okc_params = (u8*)(((unifi_cfg_command_t*)arg) + 1); - if (get_user(enable_okc, (u8*)enable_okc_params)) { - unifi_error(priv, "unifi_cfg_enable_okc: Failed to get the argument\n"); - return -EFAULT; - } - - unifi_trace(priv, UDBG4, "enable_okc: = %s\n", ((enable_okc) ? "yes":"no")); - - rc = sme_mgt_sme_config_get(priv, &staConfig, &deviceConfig); - if (rc) { - unifi_warning(priv, "unifi_cfg_enable_okc: Get unifi_SMEConfigValue failed.\n"); - return -EFAULT; - } - - staConfig.enableOpportunisticKeyCaching = enable_okc; - - rc = sme_mgt_sme_config_set(priv, &staConfig, &deviceConfig); - if (rc) { - unifi_warning(priv, "unifi_cfg_enable_okc: Set unifi_SMEConfigValue failed.\n"); - rc = -EFAULT; - } - - return rc; -} - - -int unifi_cfg_get_info(unifi_priv_t *priv, unsigned char *arg) -{ - unifi_cfg_get_t get_cmd; - char inst_name[IFNAMSIZ]; - int rc; - - if (get_user(get_cmd, (unifi_cfg_get_t*)(((unifi_cfg_command_t*)arg) + 1))) { - unifi_error(priv, "UNIFI_CFG: Failed to get the argument\n"); - return -EFAULT; - } - - switch (get_cmd) { - case UNIFI_CFG_GET_COEX: - { - CsrWifiSmeCoexInfo coexInfo; - /* Get the coex info from the SME */ - rc = sme_mgt_coex_info_get(priv, &coexInfo); - if (rc) { - unifi_error(priv, "UNIFI_CFG: Get unifi_CoexInfoValue failed.\n"); - return rc; - } - - /* Copy the info to the out buffer */ - if (copy_to_user((void*)arg, - &coexInfo, - sizeof(CsrWifiSmeCoexInfo))) { - unifi_error(priv, "UNIFI_CFG: Failed to copy the coex info\n"); - return -EFAULT; - } - break; - } - case UNIFI_CFG_GET_POWER_MODE: - { - CsrWifiSmePowerConfig powerConfig; - rc = sme_mgt_power_config_get(priv, &powerConfig); - if (rc) { - unifi_error(priv, "UNIFI_CFG: Get unifi_PowerConfigValue failed.\n"); - return rc; - } - - /* Copy the info to the out buffer */ - if (copy_to_user((void*)arg, - &powerConfig.powerSaveLevel, - sizeof(CsrWifiSmePowerSaveLevel))) { - unifi_error(priv, "UNIFI_CFG: Failed to copy the power save info\n"); - return -EFAULT; - } - break; - } - case UNIFI_CFG_GET_POWER_SUPPLY: - { - CsrWifiSmeHostConfig hostConfig; - rc = sme_mgt_host_config_get(priv, &hostConfig); - if (rc) { - unifi_error(priv, "UNIFI_CFG: Get unifi_HostConfigValue failed.\n"); - return rc; - } - - /* Copy the info to the out buffer */ - if (copy_to_user((void*)arg, - &hostConfig.powerMode, - sizeof(CsrWifiSmeHostPowerMode))) { - unifi_error(priv, "UNIFI_CFG: Failed to copy the host power mode\n"); - return -EFAULT; - } - break; - } - case UNIFI_CFG_GET_VERSIONS: - break; - case UNIFI_CFG_GET_INSTANCE: - { - u16 InterfaceId=0; - uf_net_get_name(priv->netdev[InterfaceId], &inst_name[0], sizeof(inst_name)); - - /* Copy the info to the out buffer */ - if (copy_to_user((void*)arg, - &inst_name[0], - sizeof(inst_name))) { - unifi_error(priv, "UNIFI_CFG: Failed to copy the instance name\n"); - return -EFAULT; - } - } - break; - - case UNIFI_CFG_GET_AP_CONFIG: - { -#ifdef CSR_SUPPORT_WEXT_AP - uf_cfg_ap_config_t cfg_ap_config; - - memset(&cfg_ap_config, 0, sizeof(cfg_ap_config)); - cfg_ap_config.channel = priv->ap_config.channel; - cfg_ap_config.beaconInterval = priv->ap_mac_config.beaconInterval; - cfg_ap_config.wmmEnabled = priv->ap_mac_config.wmmEnabled; - cfg_ap_config.dtimPeriod = priv->ap_mac_config.dtimPeriod; - cfg_ap_config.phySupportedBitmap = priv->ap_mac_config.phySupportedBitmap; - if (copy_to_user((void*)arg, - &cfg_ap_config, - sizeof(uf_cfg_ap_config_t))) { - unifi_error(priv, "UNIFI_CFG: Failed to copy the AP configuration\n"); - return -EFAULT; - } -#else - return -EPERM; -#endif - } - break; - - - default: - unifi_error(priv, "unifi_cfg_get_info: Unknown value.\n"); - return -EINVAL; - } - - return 0; -} -#ifdef CSR_SUPPORT_WEXT_AP -int - uf_configure_supported_rates(u8 * supportedRates, u8 phySupportedBitmap) -{ - int i=0; - u8 b=FALSE, g = FALSE, n = FALSE; - b = phySupportedBitmap & CSR_WIFI_SME_AP_PHY_SUPPORT_B; - n = phySupportedBitmap & CSR_WIFI_SME_AP_PHY_SUPPORT_N; - g = phySupportedBitmap & CSR_WIFI_SME_AP_PHY_SUPPORT_G; - if(b || g) { - supportedRates[i++]=0x82; - supportedRates[i++]=0x84; - supportedRates[i++]=0x8b; - supportedRates[i++]=0x96; - } else if(n) { - /* For some strange reasons WiFi stack needs both b and g rates*/ - supportedRates[i++]=0x02; - supportedRates[i++]=0x04; - supportedRates[i++]=0x0b; - supportedRates[i++]=0x16; - supportedRates[i++]=0x0c; - supportedRates[i++]=0x12; - supportedRates[i++]=0x18; - supportedRates[i++]=0x24; - supportedRates[i++]=0x30; - supportedRates[i++]=0x48; - supportedRates[i++]=0x60; - supportedRates[i++]=0x6c; - } - if(g) { - if(!b) { - supportedRates[i++]=0x8c; - supportedRates[i++]=0x98; - supportedRates[i++]=0xb0; - } else { - supportedRates[i++]=0x0c; - supportedRates[i++]=0x18; - supportedRates[i++]=0x30; - } - supportedRates[i++]=0x48; - supportedRates[i++]=0x12; - supportedRates[i++]=0x24; - supportedRates[i++]=0x60; - supportedRates[i++]=0x6c; - } - return i; -} -int unifi_cfg_set_ap_config(unifi_priv_t * priv, unsigned char* arg) -{ - uf_cfg_ap_config_t cfg_ap_config; - char *buffer; - - buffer = ((unsigned char*)arg) + sizeof(unifi_cfg_command_t) + sizeof(unsigned int); - if (copy_from_user(&cfg_ap_config, (void*)buffer, - sizeof(uf_cfg_ap_config_t))) { - unifi_error(priv, "UNIFI_CFG: Failed to get the ap config struct\n"); - return -EFAULT; - } - priv->ap_config.channel = cfg_ap_config.channel; - priv->ap_mac_config.dtimPeriod = cfg_ap_config.dtimPeriod; - priv->ap_mac_config.beaconInterval = cfg_ap_config.beaconInterval; - priv->group_sec_config.apGroupkeyTimeout = cfg_ap_config.groupkeyTimeout; - priv->group_sec_config.apStrictGtkRekey = cfg_ap_config.strictGtkRekeyEnabled; - priv->group_sec_config.apGmkTimeout = cfg_ap_config.gmkTimeout; - priv->group_sec_config.apResponseTimeout = cfg_ap_config.responseTimeout; - priv->group_sec_config.apRetransLimit = cfg_ap_config.retransLimit; - - priv->ap_mac_config.shortSlotTimeEnabled = cfg_ap_config.shortSlotTimeEnabled; - priv->ap_mac_config.ctsProtectionType=cfg_ap_config.ctsProtectionType; - - priv->ap_mac_config.wmmEnabled = cfg_ap_config.wmmEnabled; - - priv->ap_mac_config.apHtParams.rxStbc=cfg_ap_config.rxStbc; - priv->ap_mac_config.apHtParams.rifsModeAllowed=cfg_ap_config.rifsModeAllowed; - - priv->ap_mac_config.phySupportedBitmap = cfg_ap_config.phySupportedBitmap; - priv->ap_mac_config.maxListenInterval=cfg_ap_config.maxListenInterval; - - priv->ap_mac_config.supportedRatesCount= uf_configure_supported_rates(priv->ap_mac_config.supportedRates, priv->ap_mac_config.phySupportedBitmap); - - return 0; -} - -#endif -#ifdef CSR_SUPPORT_WEXT - - void -uf_sme_config_wq(struct work_struct *work) -{ - CsrWifiSmeStaConfig staConfig; - CsrWifiSmeDeviceConfig deviceConfig; - unifi_priv_t *priv = container_of(work, unifi_priv_t, sme_config_task); - - /* Register to receive indications from the SME */ - CsrWifiSmeEventMaskSetReqSend(0, - CSR_WIFI_SME_INDICATIONS_WIFIOFF | CSR_WIFI_SME_INDICATIONS_CONNECTIONQUALITY | - CSR_WIFI_SME_INDICATIONS_MEDIASTATUS | CSR_WIFI_SME_INDICATIONS_MICFAILURE); - - if (sme_mgt_sme_config_get(priv, &staConfig, &deviceConfig)) { - unifi_warning(priv, "uf_sme_config_wq: Get unifi_SMEConfigValue failed.\n"); - return; - } - - if (priv->if_index == CSR_INDEX_5G) { - staConfig.ifIndex = CSR_WIFI_SME_RADIO_IF_GHZ_5_0; - } else { - staConfig.ifIndex = CSR_WIFI_SME_RADIO_IF_GHZ_2_4; - } - - deviceConfig.trustLevel = (CsrWifiSme80211dTrustLevel)tl_80211d; - if (sme_mgt_sme_config_set(priv, &staConfig, &deviceConfig)) { - unifi_warning(priv, - "SME config for 802.11d Trust Level and Radio Band failed.\n"); - return; - } - -} /* uf_sme_config_wq() */ - -#endif /* CSR_SUPPORT_WEXT */ - - -/* - * --------------------------------------------------------------------------- - * uf_ta_ind_wq - * - * Deferred work queue function to send Traffic Analysis protocols - * indications to the SME. - * These are done in a deferred work queue for two reasons: - * - the CsrWifiRouterCtrl...Send() functions are not safe for atomic context - * - we want to load the main driver data path as lightly as possible - * - * The TA classifications already come from a workqueue. - * - * Arguments: - * work Pointer to work queue item. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ - void -uf_ta_ind_wq(struct work_struct *work) -{ - struct ta_ind *ind = container_of(work, struct ta_ind, task); - unifi_priv_t *priv = container_of(ind, unifi_priv_t, ta_ind_work); - u16 interfaceTag = 0; - - - CsrWifiRouterCtrlTrafficProtocolIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, - interfaceTag, - ind->packet_type, - ind->direction, - ind->src_addr); - ind->in_use = 0; - -} /* uf_ta_ind_wq() */ - - -/* - * --------------------------------------------------------------------------- - * uf_ta_sample_ind_wq - * - * Deferred work queue function to send Traffic Analysis sample - * indications to the SME. - * These are done in a deferred work queue for two reasons: - * - the CsrWifiRouterCtrl...Send() functions are not safe for atomic context - * - we want to load the main driver data path as lightly as possible - * - * The TA classifications already come from a workqueue. - * - * Arguments: - * work Pointer to work queue item. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ - void -uf_ta_sample_ind_wq(struct work_struct *work) -{ - struct ta_sample_ind *ind = container_of(work, struct ta_sample_ind, task); - unifi_priv_t *priv = container_of(ind, unifi_priv_t, ta_sample_ind_work); - u16 interfaceTag = 0; - - unifi_trace(priv, UDBG5, "rxtcp %d txtcp %d rxudp %d txudp %d prio %d\n", - priv->rxTcpThroughput, - priv->txTcpThroughput, - priv->rxUdpThroughput, - priv->txUdpThroughput, - priv->bh_thread.prio); - - if(priv->rxTcpThroughput > 1000) - { - if (bh_priority == -1 && priv->bh_thread.prio != 1) - { - struct sched_param param; - priv->bh_thread.prio = 1; - unifi_trace(priv, UDBG1, "%s new thread (RT) priority = %d\n", - priv->bh_thread.name, priv->bh_thread.prio); - param.sched_priority = priv->bh_thread.prio; - sched_setscheduler(priv->bh_thread.thread_task, SCHED_FIFO, ¶m); - } - } else - { - if (bh_priority == -1 && priv->bh_thread.prio != DEFAULT_PRIO) - { - struct sched_param param; - param.sched_priority = 0; - sched_setscheduler(priv->bh_thread.thread_task, SCHED_NORMAL, ¶m); - priv->bh_thread.prio = DEFAULT_PRIO; - unifi_trace(priv, UDBG1, "%s new thread priority = %d\n", - priv->bh_thread.name, priv->bh_thread.prio); - set_user_nice(priv->bh_thread.thread_task, PRIO_TO_NICE(priv->bh_thread.prio)); - } - } - - CsrWifiRouterCtrlTrafficSampleIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, ind->stats); - - ind->in_use = 0; - -} /* uf_ta_sample_ind_wq() */ - - -/* - * --------------------------------------------------------------------------- - * uf_send_m4_ready_wq - * - * Deferred work queue function to send M4 ReadyToSend inds to the SME. - * These are done in a deferred work queue for two reasons: - * - the CsrWifiRouterCtrl...Send() functions are not safe for atomic context - * - we want to load the main driver data path as lightly as possible - * - * Arguments: - * work Pointer to work queue item. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void -uf_send_m4_ready_wq(struct work_struct *work) -{ - netInterface_priv_t *InterfacePriv = container_of(work, netInterface_priv_t, send_m4_ready_task); - u16 iface = InterfacePriv->InterfaceTag; - unifi_priv_t *priv = InterfacePriv->privPtr; - CSR_MA_PACKET_REQUEST *req = &InterfacePriv->m4_signal.u.MaPacketRequest; - CsrWifiMacAddress peer; - unsigned long flags; - - /* The peer address was stored in the signal */ - spin_lock_irqsave(&priv->m4_lock, flags); - memcpy(peer.a, req->Ra.x, sizeof(peer.a)); - spin_unlock_irqrestore(&priv->m4_lock, flags); - - /* Send a signal to SME */ - CsrWifiRouterCtrlM4ReadyToSendIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, iface, peer); - - unifi_trace(priv, UDBG1, "M4ReadyToSendInd sent for peer %pMF\n", - peer.a); - -} /* uf_send_m4_ready_wq() */ - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) -/* - * --------------------------------------------------------------------------- - * uf_send_pkt_to_encrypt - * - * Deferred work queue function to send the WAPI data pkts to SME when unicast KeyId = 1 - * These are done in a deferred work queue for two reasons: - * - the CsrWifiRouterCtrl...Send() functions are not safe for atomic context - * - we want to load the main driver data path as lightly as possible - * - * Arguments: - * work Pointer to work queue item. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -void uf_send_pkt_to_encrypt(struct work_struct *work) -{ - netInterface_priv_t *interfacePriv = container_of(work, netInterface_priv_t, send_pkt_to_encrypt); - u16 interfaceTag = interfacePriv->InterfaceTag; - unifi_priv_t *priv = interfacePriv->privPtr; - - u32 pktBulkDataLength; - u8 *pktBulkData; - unsigned long flags; - - if (interfacePriv->interfaceMode == CSR_WIFI_ROUTER_CTRL_MODE_STA) { - - pktBulkDataLength = interfacePriv->wapi_unicast_bulk_data.data_length; - - if (pktBulkDataLength > 0) { - pktBulkData = kmalloc(pktBulkDataLength, GFP_KERNEL); - } else { - unifi_error(priv, "uf_send_pkt_to_encrypt() : invalid buffer\n"); - return; - } - - spin_lock_irqsave(&priv->wapi_lock, flags); - /* Copy over the MA PKT REQ bulk data */ - memcpy(pktBulkData, (u8*)interfacePriv->wapi_unicast_bulk_data.os_data_ptr, pktBulkDataLength); - /* Free any bulk data buffers allocated for the WAPI Data pkt */ - unifi_net_data_free(priv, &interfacePriv->wapi_unicast_bulk_data); - interfacePriv->wapi_unicast_bulk_data.net_buf_length = 0; - interfacePriv->wapi_unicast_bulk_data.data_length = 0; - interfacePriv->wapi_unicast_bulk_data.os_data_ptr = interfacePriv->wapi_unicast_bulk_data.os_net_buf_ptr = NULL; - spin_unlock_irqrestore(&priv->wapi_lock, flags); - - CsrWifiRouterCtrlWapiUnicastTxEncryptIndSend(priv->CSR_WIFI_SME_IFACEQUEUE, 0, interfaceTag, pktBulkDataLength, pktBulkData); - unifi_trace(priv, UDBG1, "WapiUnicastTxEncryptInd sent to SME\n"); - - kfree(pktBulkData); /* Would have been copied over by the SME Handler */ - - } else { - unifi_warning(priv, "uf_send_pkt_to_encrypt() is NOT applicable for interface mode - %d\n", interfacePriv->interfaceMode); - } -}/* uf_send_pkt_to_encrypt() */ -#endif diff --git a/drivers/staging/csr/unifi_sme.h b/drivers/staging/csr/unifi_sme.h deleted file mode 100644 index aff9aa1..0000000 --- a/drivers/staging/csr/unifi_sme.h +++ /dev/null @@ -1,245 +0,0 @@ -/* - * *************************************************************************** - * FILE: unifi_sme.h - * - * PURPOSE: SME related definitions. - * - * Copyright (C) 2007-2011 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * *************************************************************************** - */ -#ifndef __LINUX_UNIFI_SME_H__ -#define __LINUX_UNIFI_SME_H__ 1 - -#include <linux/kernel.h> - -#ifdef CSR_SME_USERSPACE -#include "sme_userspace.h" -#endif - -#include "csr_wifi_sme_lib.h" - -typedef int unifi_data_port_action; - -typedef struct unifi_port_cfg -{ - /* TRUE if this port entry is allocated */ - u8 in_use; - CsrWifiRouterCtrlPortAction port_action; - CsrWifiMacAddress mac_address; -} unifi_port_cfg_t; - -#define UNIFI_MAX_CONNECTIONS 8 -#define UNIFI_MAX_RETRY_LIMIT 5 -#define UF_DATA_PORT_NOT_OVERIDE 0 -#define UF_DATA_PORT_OVERIDE 1 - -typedef struct unifi_port_config -{ - int entries_in_use; - int overide_action; - unifi_port_cfg_t port_cfg[UNIFI_MAX_CONNECTIONS]; -} unifi_port_config_t; - - -enum sme_request_status { - SME_REQUEST_EMPTY, - SME_REQUEST_PENDING, - SME_REQUEST_RECEIVED, - SME_REQUEST_TIMEDOUT, - SME_REQUEST_CANCELLED, -}; - -/* Structure to hold a UDI logged signal */ -typedef struct { - - /* The current status of the request */ - enum sme_request_status request_status; - - /* The status the SME has passed to us */ - CsrResult reply_status; - - /* SME's reply to a get request */ - CsrWifiSmeVersions versions; - CsrWifiSmePowerConfig powerConfig; - CsrWifiSmeHostConfig hostConfig; - CsrWifiSmeStaConfig staConfig; - CsrWifiSmeDeviceConfig deviceConfig; - CsrWifiSmeCoexInfo coexInfo; - CsrWifiSmeCoexConfig coexConfig; - CsrWifiSmeMibConfig mibConfig; - CsrWifiSmeConnectionInfo connectionInfo; - CsrWifiSmeConnectionConfig connectionConfig; - CsrWifiSmeConnectionStats connectionStats; - - - /* SME's reply to a scan request */ - u16 reply_scan_results_count; - CsrWifiSmeScanResult* reply_scan_results; - -} sme_reply_t; - - -typedef struct { - u16 appHandle; - CsrWifiRouterEncapsulation encapsulation; - u16 protocol; - u8 oui[3]; - u8 in_use; -} sme_ma_unidata_ind_filter_t; - - -CsrWifiRouterCtrlPortAction uf_sme_port_state(unifi_priv_t *priv, - unsigned char *address, - int queue, - u16 interfaceTag); -unifi_port_cfg_t *uf_sme_port_config_handle(unifi_priv_t *priv, - unsigned char *address, - int queue, - u16 interfaceTag); - - - -/* Callback for event logging to SME clients */ -void sme_log_event(ul_client_t *client, const u8 *signal, int signal_len, - const bulk_data_param_t *bulkdata, int dir); - -/* The workqueue task to the set the multicast addresses list */ -void uf_multicast_list_wq(struct work_struct *work); - -/* The workqueue task to execute the TA module */ -void uf_ta_wq(struct work_struct *work); - - -/* - * SME blocking helper functions - */ -#ifdef UNIFI_DEBUG -# define sme_complete_request(priv, status) uf_sme_complete_request(priv, status, __func__) -#else -# define sme_complete_request(priv, status) uf_sme_complete_request(priv, status, NULL) -#endif - -void uf_sme_complete_request(unifi_priv_t *priv, CsrResult reply_status, const char *func); -void uf_sme_cancel_request(unifi_priv_t *priv, CsrResult reply_status); - - -/* - * Blocking functions using the SME SYS API. - */ -int sme_sys_suspend(unifi_priv_t *priv); -int sme_sys_resume(unifi_priv_t *priv); - - -/* - * Traffic Analysis workqueue jobs - */ -void uf_ta_ind_wq(struct work_struct *work); -void uf_ta_sample_ind_wq(struct work_struct *work); - -/* - * SME config workqueue job - */ -void uf_sme_config_wq(struct work_struct *work); - -/* - * To send M4 read to send IND - */ -void uf_send_m4_ready_wq(struct work_struct *work); - -#if (defined(CSR_WIFI_SECURITY_WAPI_ENABLE) && defined(CSR_WIFI_SECURITY_WAPI_SW_ENCRYPTION)) -/* - * To send data pkt to Sme for encryption - */ -void uf_send_pkt_to_encrypt(struct work_struct *work); -#endif - -int sme_mgt_power_config_set(unifi_priv_t *priv, CsrWifiSmePowerConfig *powerConfig); -int sme_mgt_power_config_get(unifi_priv_t *priv, CsrWifiSmePowerConfig *powerConfig); -int sme_mgt_host_config_set(unifi_priv_t *priv, CsrWifiSmeHostConfig *hostConfig); -int sme_mgt_host_config_get(unifi_priv_t *priv, CsrWifiSmeHostConfig *hostConfig); -int sme_mgt_sme_config_set(unifi_priv_t *priv, CsrWifiSmeStaConfig *staConfig, CsrWifiSmeDeviceConfig *deviceConfig); -int sme_mgt_sme_config_get(unifi_priv_t *priv, CsrWifiSmeStaConfig *staConfig, CsrWifiSmeDeviceConfig *deviceConfig); -int sme_mgt_coex_info_get(unifi_priv_t *priv, CsrWifiSmeCoexInfo *coexInfo); -int sme_mgt_packet_filter_set(unifi_priv_t *priv); -int sme_mgt_tspec(unifi_priv_t *priv, CsrWifiSmeListAction action, - u32 tid, CsrWifiSmeDataBlock *tspec, CsrWifiSmeDataBlock *tclas); - -#ifdef CSR_SUPPORT_WEXT -/* - * Blocking functions using the SME MGT API. - */ -int sme_mgt_wifi_on(unifi_priv_t *priv); -int sme_mgt_wifi_off(unifi_priv_t *priv); -/*int sme_mgt_set_value_async(unifi_priv_t *priv, unifi_AppValue *app_value); -int sme_mgt_get_value_async(unifi_priv_t *priv, unifi_AppValue *app_value); -int sme_mgt_get_value(unifi_priv_t *priv, unifi_AppValue *app_value); -int sme_mgt_set_value(unifi_priv_t *priv, unifi_AppValue *app_value); -*/ -int sme_mgt_coex_config_set(unifi_priv_t *priv, CsrWifiSmeCoexConfig *coexConfig); -int sme_mgt_coex_config_get(unifi_priv_t *priv, CsrWifiSmeCoexConfig *coexConfig); -int sme_mgt_mib_config_set(unifi_priv_t *priv, CsrWifiSmeMibConfig *mibConfig); -int sme_mgt_mib_config_get(unifi_priv_t *priv, CsrWifiSmeMibConfig *mibConfig); - -int sme_mgt_connection_info_set(unifi_priv_t *priv, CsrWifiSmeConnectionInfo *connectionInfo); -int sme_mgt_connection_info_get(unifi_priv_t *priv, CsrWifiSmeConnectionInfo *connectionInfo); -int sme_mgt_connection_config_set(unifi_priv_t *priv, CsrWifiSmeConnectionConfig *connectionConfig); -int sme_mgt_connection_config_get(unifi_priv_t *priv, CsrWifiSmeConnectionConfig *connectionConfig); -int sme_mgt_connection_stats_get(unifi_priv_t *priv, CsrWifiSmeConnectionStats *connectionStats); - -int sme_mgt_versions_get(unifi_priv_t *priv, CsrWifiSmeVersions *versions); - - -int sme_mgt_scan_full(unifi_priv_t *priv, CsrWifiSsid *specific_ssid, - int num_channels, unsigned char *channel_list); -int sme_mgt_scan_results_get_async(unifi_priv_t *priv, - struct iw_request_info *info, - char *scan_results, - long scan_results_len); -int sme_mgt_disconnect(unifi_priv_t *priv); -int sme_mgt_connect(unifi_priv_t *priv); -int sme_mgt_key(unifi_priv_t *priv, CsrWifiSmeKey *sme_key, - CsrWifiSmeListAction action); -int sme_mgt_pmkid(unifi_priv_t *priv, CsrWifiSmeListAction action, - CsrWifiSmePmkidList *pmkid_list); -int sme_mgt_mib_get(unifi_priv_t *priv, - unsigned char *varbind, int *length); -int sme_mgt_mib_set(unifi_priv_t *priv, - unsigned char *varbind, int length); -#ifdef CSR_SUPPORT_WEXT_AP -int sme_ap_start(unifi_priv_t *priv, u16 interface_tag, CsrWifiSmeApConfig_t *ap_config); -int sme_ap_stop(unifi_priv_t *priv, u16 interface_tag); -int sme_ap_config(unifi_priv_t *priv, CsrWifiSmeApMacConfig *ap_mac_config, CsrWifiNmeApConfig *group_security_config); -int uf_configure_supported_rates(u8 * supportedRates, u8 phySupportedBitmap); -#endif -int unifi_translate_scan(struct net_device *dev, - struct iw_request_info *info, - char *current_ev, char *end_buf, - CsrWifiSmeScanResult *scan_data, - int scan_index); - -#endif /* CSR_SUPPORT_WEXT */ - -int unifi_cfg_power(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_power_save(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_power_supply(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_packet_filters(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_wmm_qos_info(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_wmm_addts(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_wmm_delts(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_get_info(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_strict_draft_n(unifi_priv_t *priv, unsigned char *arg); -int unifi_cfg_enable_okc(unifi_priv_t *priv, unsigned char *arg); -#ifdef CSR_SUPPORT_WEXT_AP -int unifi_cfg_set_ap_config(unifi_priv_t * priv, unsigned char* arg); -#endif - - - -int convert_sme_error(CsrResult error); - - -#endif /* __LINUX_UNIFI_SME_H__ */ diff --git a/drivers/staging/csr/unifi_wext.h b/drivers/staging/csr/unifi_wext.h deleted file mode 100644 index beba089..0000000 --- a/drivers/staging/csr/unifi_wext.h +++ /dev/null @@ -1,108 +0,0 @@ -/* - ***************************************************************************** - * - * FILE : unifi_wext.h - * - * PURPOSE : Private header file for unifi driver support to wireless extensions. - * - * Copyright (C) 2005-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * -***************************************************************************** - */ -#ifndef __LINUX_UNIFI_WEXT_H__ -#define __LINUX_UNIFI_WEXT_H__ 1 - -#include <linux/kernel.h> -#include <net/iw_handler.h> -#include "csr_wifi_sme_prim.h" - -/* - * wext.c - */ -/* A few details needed for WEP (Wireless Equivalent Privacy) */ -#define UNIFI_MAX_KEY_SIZE 16 -#define NUM_WEPKEYS 4 -#define SMALL_KEY_SIZE 5 -#define LARGE_KEY_SIZE 13 -typedef struct wep_key_t { - int len; - unsigned char key[UNIFI_MAX_KEY_SIZE]; /* 40-bit and 104-bit keys */ -} wep_key_t; - -#define UNIFI_SCAN_ACTIVE 0 -#define UNIFI_SCAN_PASSIVE 1 -#define UNIFI_MAX_SSID_LEN 32 - -#define MAX_WPA_IE_LEN 64 -#define MAX_RSN_IE_LEN 255 - -/* - * Function to register in the netdev to report wireless stats. - */ -struct iw_statistics *unifi_get_wireless_stats(struct net_device *dev); - -void uf_sme_wext_set_defaults(unifi_priv_t *priv); - - -/* - * wext_events.c - */ -/* Functions to generate Wireless Extension events */ -void wext_send_scan_results_event(unifi_priv_t *priv); -void wext_send_assoc_event(unifi_priv_t *priv, unsigned char *bssid, - unsigned char *req_ie, int req_ie_len, - unsigned char *resp_ie, int resp_ie_len, - unsigned char *scan_ie, unsigned int scan_ie_len); -void wext_send_disassoc_event(unifi_priv_t *priv); -void wext_send_michaelmicfailure_event(unifi_priv_t *priv, - u16 count, CsrWifiMacAddress address, - CsrWifiSmeKeyType keyType, u16 interfaceTag); -void wext_send_pmkid_candidate_event(unifi_priv_t *priv, CsrWifiMacAddress bssid, u8 preauth_allowed, u16 interfaceTag); -void wext_send_started_event(unifi_priv_t *priv); - - -static inline int -uf_iwe_stream_add_point(struct iw_request_info *info, char *start, char *stop, - struct iw_event *piwe, char *extra) -{ - char *new_start; - - new_start = iwe_stream_add_point(info, start, stop, piwe, extra); - if (unlikely(new_start == start)) - return -E2BIG; - - return (new_start - start); -} - - -static inline int -uf_iwe_stream_add_event(struct iw_request_info *info, char *start, char *stop, - struct iw_event *piwe, int len) -{ - char *new_start; - - new_start = iwe_stream_add_event(info, start, stop, piwe, len); - if (unlikely(new_start == start)) - return -E2BIG; - - return (new_start - start); -} - -static inline int -uf_iwe_stream_add_value(struct iw_request_info *info, char *stream, char *start, - char *stop, struct iw_event *piwe, int len) -{ - char *new_start; - - new_start = iwe_stream_add_value(info, stream, start, stop, piwe, len); - if (unlikely(new_start == start)) - return -E2BIG; - - return (new_start - start); -} - - -#endif /* __LINUX_UNIFI_WEXT_H__ */ diff --git a/drivers/staging/csr/unifiio.h b/drivers/staging/csr/unifiio.h deleted file mode 100644 index b9de0cb..0000000 --- a/drivers/staging/csr/unifiio.h +++ /dev/null @@ -1,398 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * - * FILE: unifiio.h - * - * Public definitions for the UniFi linux driver. - * This is mostly ioctl command values and structs. - * - * Include <sys/ioctl.h> or similar before this file - * - * Copyright (C) 2005-2009 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#ifndef __UNIFIIO_H__ -#define __UNIFIIO_H__ - -#include <linux/types.h> - -#define UNIFI_GET_UDI_ENABLE _IOR('u', 1, int) -#define UNIFI_SET_UDI_ENABLE _IOW('u', 2, int) -/* Values for UDI_ENABLE */ -#define UDI_ENABLE_DATA 0x1 -#define UDI_ENABLE_CONTROL 0x2 - -/* MIB set/get. Arg is a pointer to a varbind */ -#define UNIFI_GET_MIB _IOWR('u', 3, unsigned char *) -#define UNIFI_SET_MIB _IOW ('u', 4, unsigned char *) -#define MAX_VARBIND_LENGTH 127 - -/* Private IOCTLs */ -#define SIOCIWS80211POWERSAVEPRIV SIOCIWFIRSTPRIV -#define SIOCIWG80211POWERSAVEPRIV SIOCIWFIRSTPRIV + 1 -#define SIOCIWS80211RELOADDEFAULTSPRIV SIOCIWFIRSTPRIV + 2 -#define SIOCIWSCONFWAPIPRIV SIOCIWFIRSTPRIV + 4 -#define SIOCIWSWAPIKEYPRIV SIOCIWFIRSTPRIV + 6 -#define SIOCIWSSMEDEBUGPRIV SIOCIWFIRSTPRIV + 8 -#define SIOCIWSAPCFGPRIV SIOCIWFIRSTPRIV + 10 -#define SIOCIWSAPSTARTPRIV SIOCIWFIRSTPRIV + 12 -#define SIOCIWSAPSTOPPRIV SIOCIWFIRSTPRIV + 14 -#define SIOCIWSFWRELOADPRIV SIOCIWFIRSTPRIV + 16 -#define SIOCIWSSTACKSTART SIOCIWFIRSTPRIV + 18 -#define SIOCIWSSTACKSTOP SIOCIWFIRSTPRIV + 20 - - - -#define IWPRIV_POWER_SAVE_MAX_STRING 32 -#define IWPRIV_SME_DEBUG_MAX_STRING 32 -#define IWPRIV_SME_MAX_STRING 120 - - -/* Private configuration commands */ -#define UNIFI_CFG _IOWR('u', 5, unsigned char *) -/* - * <------------------ Read/Write Buffer --------------------> - * _____________________________________________________________ - * | Cmd | Arg | ... Buffer (opt) ... | - * ------------------------------------------------------------- - * <-- uint --><-- uint --><----- unsigned char buffer ------> - * - * Cmd: A unifi_cfg_command_t command. - * Arg: Out:Length if Cmd==UNIFI_CFG_GET - * In:PowerOnOff if Cmd==UNIFI_CFG_POWER - * In:PowerMode if Cmd==UNIFI_CFG_POWERSAVE - * In:Length if Cmd==UNIFI_CFG_FILTER - * In:WMM Qos Info if Cmd==UNIFI_CFG_WMM_QOS_INFO - * Buffer: Out:Data if Cmd==UNIFI_CFG_GET - * NULL if Cmd==UNIFI_CFG_POWER - * NULL if Cmd==UNIFI_CFG_POWERSAVE - * In:Filters if Cmd==UNIFI_CFG_FILTER - * - * where Filters is a uf_cfg_bcast_packet_filter_t structure - * followed by 0 - n tclas_t structures. The length of the tclas_t - * structures is obtained by uf_cfg_bcast_packet_filter_t::tclas_ies_length. - */ - - -#define UNIFI_PUTEST _IOWR('u', 6, unsigned char *) -/* - * <------------------ Read/Write Buffer --------------------> - * _____________________________________________________________ - * | Cmd | Arg | ... Buffer (opt) ... | - * ------------------------------------------------------------- - * <-- uint --><-- uint --><----- unsigned char buffer ------> - * - * Cmd: A unifi_putest_command_t command. - * Arg: N/A if Cmd==UNIFI_PUTEST_START - * N/A if Cmd==UNIFI_PUTEST_STOP - * In:int (Clock Speed) if Cmd==UNIFI_PUTEST_SET_SDIO_CLOCK - * In/Out:sizeof(unifi_putest_cmd52) if Cmd==UNIFI_PUTEST_CMD52_READ - * In:sizeof(unifi_putest_cmd52) if Cmd==UNIFI_PUTEST_CMD52_WRITE - * In:uint (f/w file name length) if Cmd==UNIFI_PUTEST_DL_FW - * Buffer: NULL if Cmd==UNIFI_PUTEST_START - * NULL if Cmd==UNIFI_PUTEST_STOP - * NULL if Cmd==UNIFI_PUTEST_SET_SDIO_CLOCK - * In/Out:unifi_putest_cmd52 if Cmd==UNIFI_PUTEST_CMD52_READ - * In:unifi_putest_cmd52 if Cmd==UNIFI_PUTEST_CMD52_WRITE - * In:f/w file name if Cmd==UNIFI_PUTEST_DL_FW - */ - -#define UNIFI_BUILD_TYPE _IOWR('u', 7, unsigned char) -#define UNIFI_BUILD_NME 1 -#define UNIFI_BUILD_WEXT 2 -#define UNIFI_BUILD_AP 3 - -/* debugging */ -#define UNIFI_KICK _IO ('u', 0x10) -#define UNIFI_SET_DEBUG _IO ('u', 0x11) -#define UNIFI_SET_TRACE _IO ('u', 0x12) - -#define UNIFI_GET_INIT_STATUS _IOR ('u', 0x15, int) -#define UNIFI_SET_UDI_LOG_MASK _IOR('u', 0x18, unifiio_filter_t) -#define UNIFI_SET_UDI_SNAP_MASK _IOW('u', 0x1a, unifiio_snap_filter_t) -#define UNIFI_SET_AMP_ENABLE _IOWR('u', 0x1b, int) - -#define UNIFI_INIT_HW _IOR ('u', 0x13, unsigned char) -#define UNIFI_INIT_NETDEV _IOW ('u', 0x14, unsigned char[6]) -#define UNIFI_SME_PRESENT _IOW ('u', 0x19, int) - -#define UNIFI_CFG_PERIOD_TRAFFIC _IOW ('u', 0x21, unsigned char *) -#define UNIFI_CFG_UAPSD_TRAFFIC _IOW ('u', 0x22, unsigned char) - -#define UNIFI_COREDUMP_GET_REG _IOWR('u', 0x23, unifiio_coredump_req_t) - - -/* - * Following reset, f/w may only be downloaded using CMD52. - * This is slow, so there is a facility to download a secondary - * loader first which supports CMD53. - * If loader_len is > 0, then loader_data is assumed to point to - * a suitable secondary loader that can be used to download the - * main image. - * - * The driver will run the host protocol initialisation sequence - * after downloading the image. - * - * If both lengths are zero, then the f/w is assumed to have been - * booted from Flash and the host protocol initialisation sequence - * is run. - */ -typedef struct { - - /* Number of bytes in the image */ - int img_len; - - /* Pointer to image data. */ - unsigned char *img_data; - - - /* Number of bytes in the loader image */ - int loader_len; - - /* Pointer to loader image data. */ - unsigned char *loader_data; - -} unifiio_img_t; - - -/* Structure of data read from the unifi device. */ -typedef struct -{ - /* Length (in bytes) of entire structure including appended bulk data */ - int length; - - /* System time (in milliseconds) that signal was transferred */ - int timestamp; - - /* Direction in which signal was transferred. */ - int direction; -#define UDI_FROM_HOST 0 -#define UDI_TO_HOST 1 -#define UDI_CONFIG_IND 2 - - /* The length of the signal (in bytes) not including bulk data */ - int signal_length; - - /* Signal body follows, then any bulk data */ - -} udi_msg_t; - - -typedef enum -{ - UfSigFil_AllOn = 0, /* Log all signal IDs */ - UfSigFil_AllOff = 1, /* Don't log any signal IDs */ - UfSigFil_SelectOn = 2, /* Log these signal IDs */ - UfSigFil_SelectOff = 3 /* Don't log these signal IDs */ -} uf_sigfilter_action_t; - -typedef struct { - - /* Number of 16-bit ints in the sig_ids array */ - int num_sig_ids; - /* The action to perform */ - uf_sigfilter_action_t action; - /* List of signal IDs to pass or block */ - unsigned short *sig_ids; - -} unifiio_filter_t; - - -typedef struct { - /* Number of 16-bit ints in the protocols array */ - u16 count; - /* List of protocol ids to pass */ - u16 *protocols; -} unifiio_snap_filter_t; - - - -typedef u8 unifi_putest_command_t; - -#define UNIFI_PUTEST_START 0 -#define UNIFI_PUTEST_STOP 1 -#define UNIFI_PUTEST_SET_SDIO_CLOCK 2 -#define UNIFI_PUTEST_CMD52_READ 3 -#define UNIFI_PUTEST_CMD52_WRITE 4 -#define UNIFI_PUTEST_DL_FW 5 -#define UNIFI_PUTEST_DL_FW_BUFF 6 -#define UNIFI_PUTEST_CMD52_BLOCK_READ 7 -#define UNIFI_PUTEST_COREDUMP_PREPARE 8 -#define UNIFI_PUTEST_GP_READ16 9 -#define UNIFI_PUTEST_GP_WRITE16 10 - - -struct unifi_putest_cmd52 { - int funcnum; - unsigned long addr; - unsigned char data; -}; - - -struct unifi_putest_block_cmd52_r { - int funcnum; - unsigned long addr; - unsigned int length; - unsigned char *data; -}; - -struct unifi_putest_gp_rw16 { - unsigned long addr; /* generic address */ - unsigned short data; -}; - -typedef enum unifi_cfg_command { - UNIFI_CFG_GET, - UNIFI_CFG_POWER, - UNIFI_CFG_POWERSAVE, - UNIFI_CFG_FILTER, - UNIFI_CFG_POWERSUPPLY, - UNIFI_CFG_WMM_QOSINFO, - UNIFI_CFG_WMM_ADDTS, - UNIFI_CFG_WMM_DELTS, - UNIFI_CFG_STRICT_DRAFT_N, - UNIFI_CFG_ENABLE_OKC, - UNIFI_CFG_SET_AP_CONFIG, - UNIFI_CFG_CORE_DUMP /* request to take a fw core dump */ -} unifi_cfg_command_t; - -typedef enum unifi_cfg_power { - UNIFI_CFG_POWER_UNSPECIFIED, - UNIFI_CFG_POWER_OFF, - UNIFI_CFG_POWER_ON -} unifi_cfg_power_t; - -typedef enum unifi_cfg_powersupply { - UNIFI_CFG_POWERSUPPLY_UNSPECIFIED, - UNIFI_CFG_POWERSUPPLY_MAINS, - UNIFI_CFG_POWERSUPPLY_BATTERIES -} unifi_cfg_powersupply_t; - -typedef enum unifi_cfg_powersave { - UNIFI_CFG_POWERSAVE_UNSPECIFIED, - UNIFI_CFG_POWERSAVE_NONE, - UNIFI_CFG_POWERSAVE_FAST, - UNIFI_CFG_POWERSAVE_FULL, - UNIFI_CFG_POWERSAVE_AUTO -} unifi_cfg_powersave_t; - -typedef enum unifi_cfg_get { - UNIFI_CFG_GET_COEX, - UNIFI_CFG_GET_POWER_MODE, - UNIFI_CFG_GET_VERSIONS, - UNIFI_CFG_GET_POWER_SUPPLY, - UNIFI_CFG_GET_INSTANCE, - UNIFI_CFG_GET_AP_CONFIG -} unifi_cfg_get_t; - -#define UNIFI_CFG_FILTER_NONE 0x0000 -#define UNIFI_CFG_FILTER_DHCP 0x0001 -#define UNIFI_CFG_FILTER_ARP 0x0002 -#define UNIFI_CFG_FILTER_NBNS 0x0004 -#define UNIFI_CFG_FILTER_NBDS 0x0008 -#define UNIFI_CFG_FILTER_CUPS 0x0010 -#define UNIFI_CFG_FILTER_ALL 0xFFFF - - -typedef struct uf_cfg_bcast_packet_filter -{ - unsigned long filter_mode; //as defined by HIP protocol - unsigned char arp_filter; - unsigned char dhcp_filter; - unsigned long tclas_ies_length; // length of tclas_ies in bytes - unsigned char tclas_ies[1]; // variable length depending on above field -} uf_cfg_bcast_packet_filter_t; - -typedef struct uf_cfg_ap_config -{ - u8 phySupportedBitmap; - u8 channel; - u16 beaconInterval; - u8 dtimPeriod; - u8 wmmEnabled; - u8 shortSlotTimeEnabled; - u16 groupkeyTimeout; - u8 strictGtkRekeyEnabled; - u16 gmkTimeout; - u16 responseTimeout; - u8 retransLimit; - u8 rxStbc; - u8 rifsModeAllowed; - u8 dualCtsProtection; - u8 ctsProtectionType; - u16 maxListenInterval; -}uf_cfg_ap_config_t; - -typedef struct tcpic_clsfr -{ - __u8 cls_fr_type; - __u8 cls_fr_mask; - __u8 version; - __u8 source_ip_addr[4]; - __u8 dest_ip_addr[4]; - __u16 source_port; - __u16 dest_port; - __u8 dscp; - __u8 protocol; - __u8 reserved; -} __attribute__ ((packed)) tcpip_clsfr_t; - -typedef struct tclas { - __u8 element_id; - __u8 length; - __u8 user_priority; - tcpip_clsfr_t tcp_ip_cls_fr; -} __attribute__ ((packed)) tclas_t; - - -#define CONFIG_IND_ERROR 0x01 -#define CONFIG_IND_EXIT 0x02 -#define CONFIG_SME_NOT_PRESENT 0x10 -#define CONFIG_SME_PRESENT 0x20 - -/* WAPI Key */ -typedef struct -{ - u8 unicastKey; - /* If non zero, then unicast key otherwise group key */ - u8 keyIndex; - u8 keyRsc[16]; - u8 authenticator; - /* If non zero, then authenticator otherwise supplicant */ - u8 address[6]; - u8 key[32]; -} unifiio_wapi_key_t; - -/* Values describing XAP memory regions captured by the mini-coredump system */ -typedef enum unifiio_coredump_space { - UNIFIIO_COREDUMP_MAC_REG, - UNIFIIO_COREDUMP_PHY_REG, - UNIFIIO_COREDUMP_SH_DMEM, - UNIFIIO_COREDUMP_MAC_DMEM, - UNIFIIO_COREDUMP_PHY_DMEM, - UNIFIIO_COREDUMP_TRIGGER_MAGIC = 0xFEED -} unifiio_coredump_space_t; - -/* Userspace tool uses this structure to retrieve a register value from a - * mini-coredump buffer previously saved by the HIP - */ -typedef struct unifiio_coredump_req { - /* From user */ - int index; /* 0=newest, -1=oldest */ - unsigned int offset; /* register offset in space */ - unifiio_coredump_space_t space; /* memory space */ - /* Filled by driver */ - unsigned int drv_build; /* driver build id */ - unsigned int chip_ver; /* chip version */ - unsigned int fw_ver; /* firmware version */ - int requestor; /* requestor: 0=auto dump, 1=manual */ - unsigned int timestamp; /* time of capture by driver */ - unsigned int serial; /* capture serial number */ - int value; /* 16 bit register value, -ve for error */ -} unifiio_coredump_req_t; /* Core-dumped register value request */ - -#endif /* __UNIFIIO_H__ */ diff --git a/drivers/staging/csr/wext_events.c b/drivers/staging/csr/wext_events.c deleted file mode 100644 index 9860ea3..0000000 --- a/drivers/staging/csr/wext_events.c +++ /dev/null @@ -1,283 +0,0 @@ -/* - * --------------------------------------------------------------------------- - * FILE: wext_events.c - * - * PURPOSE: - * Code to generate iwevents. - * - * Copyright (C) 2006-2008 by Cambridge Silicon Radio Ltd. - * - * Refer to LICENSE.txt included with this source code for details on - * the license terms. - * - * --------------------------------------------------------------------------- - */ -#include <linux/types.h> -#include <linux/etherdevice.h> -#include <linux/if_arp.h> -#include "csr_wifi_hip_unifi.h" -#include "unifi_priv.h" - - - -/* - * --------------------------------------------------------------------------- - * wext_send_assoc_event - * - * Send wireless-extension events up to userland to announce - * successful association with an AP. - * - * Arguments: - * priv Pointer to driver context. - * bssid MAC address of AP we associated with - * req_ie, req_ie_len IEs in the original request - * resp_ie, resp_ie_len IEs in the response - * - * Returns: - * None. - * - * Notes: - * This is sent on first successful association, and again if we - * roam to another AP. - * --------------------------------------------------------------------------- - */ -void -wext_send_assoc_event(unifi_priv_t *priv, unsigned char *bssid, - unsigned char *req_ie, int req_ie_len, - unsigned char *resp_ie, int resp_ie_len, - unsigned char *scan_ie, unsigned int scan_ie_len) -{ -#if WIRELESS_EXT > 17 - union iwreq_data wrqu; - - if (req_ie_len == 0) req_ie = NULL; - wrqu.data.length = req_ie_len; - wrqu.data.flags = 0; - wireless_send_event(priv->netdev[CSR_WIFI_INTERFACE_IN_USE], IWEVASSOCREQIE, &wrqu, req_ie); - - if (resp_ie_len == 0) resp_ie = NULL; - wrqu.data.length = resp_ie_len; - wrqu.data.flags = 0; - wireless_send_event(priv->netdev[CSR_WIFI_INTERFACE_IN_USE], IWEVASSOCRESPIE, &wrqu, resp_ie); - - if (scan_ie_len > 0) { - wrqu.data.length = scan_ie_len; - wrqu.data.flags = 0; - wireless_send_event(priv->netdev[CSR_WIFI_INTERFACE_IN_USE], IWEVGENIE, &wrqu, scan_ie); - } - - memcpy(&wrqu.ap_addr.sa_data, bssid, ETH_ALEN); - wireless_send_event(priv->netdev[CSR_WIFI_INTERFACE_IN_USE], SIOCGIWAP, &wrqu, NULL); -#endif -} /* wext_send_assoc_event() */ - - - -/* - * --------------------------------------------------------------------------- - * wext_send_disassoc_event - * - * Send a wireless-extension event up to userland to announce - * that we disassociated from an AP. - * - * Arguments: - * priv Pointer to driver context. - * - * Returns: - * None. - * - * Notes: - * The semantics of wpa_supplicant (the userland SME application) are - * that a SIOCGIWAP event with MAC address of all zero means - * disassociate. - * --------------------------------------------------------------------------- - */ -void -wext_send_disassoc_event(unifi_priv_t *priv) -{ -#if WIRELESS_EXT > 17 - union iwreq_data wrqu; - - memset(wrqu.ap_addr.sa_data, 0, ETH_ALEN); - wireless_send_event(priv->netdev[CSR_WIFI_INTERFACE_IN_USE], SIOCGIWAP, &wrqu, NULL); -#endif -} /* wext_send_disassoc_event() */ - - - -/* - * --------------------------------------------------------------------------- - * wext_send_scan_results_event - * - * Send wireless-extension events up to userland to announce - * completion of a scan. - * - * Arguments: - * priv Pointer to driver context. - * - * Returns: - * None. - * - * Notes: - * This doesn't actually report the results, they are retrieved - * using the SIOCGIWSCAN ioctl command. - * --------------------------------------------------------------------------- - */ -void -wext_send_scan_results_event(unifi_priv_t *priv) -{ -#if WIRELESS_EXT > 17 - union iwreq_data wrqu; - - wrqu.data.length = 0; - wrqu.data.flags = 0; - wireless_send_event(priv->netdev[CSR_WIFI_INTERFACE_IN_USE], SIOCGIWSCAN, &wrqu, NULL); - -#endif -} /* wext_send_scan_results_event() */ - - - -/* - * --------------------------------------------------------------------------- - * wext_send_michaelmicfailure_event - * - * Send wireless-extension events up to userland to announce - * completion of a scan. - * - * Arguments: - * priv Pointer to driver context. - * count, macaddr, key_type, key_idx, tsc - * Parameters from report from UniFi. - * - * Returns: - * None. - * --------------------------------------------------------------------------- - */ -#if WIRELESS_EXT >= 18 -static inline void -_send_michaelmicfailure_event(struct net_device *dev, - int count, const unsigned char *macaddr, - int key_type, int key_idx, - unsigned char *tsc) -{ - union iwreq_data wrqu; - struct iw_michaelmicfailure mmf; - - memset(&mmf, 0, sizeof(mmf)); - - mmf.flags = key_idx & IW_MICFAILURE_KEY_ID; - if (key_type == CSR_GROUP) { - mmf.flags |= IW_MICFAILURE_GROUP; - } else { - mmf.flags |= IW_MICFAILURE_PAIRWISE; - } - mmf.flags |= ((count << 5) & IW_MICFAILURE_COUNT); - - mmf.src_addr.sa_family = ARPHRD_ETHER; - memcpy(mmf.src_addr.sa_data, macaddr, ETH_ALEN); - - memcpy(mmf.tsc, tsc, IW_ENCODE_SEQ_MAX_SIZE); - - memset(&wrqu, 0, sizeof(wrqu)); - wrqu.data.length = sizeof(mmf); - - wireless_send_event(dev, IWEVMICHAELMICFAILURE, &wrqu, (char *)&mmf); -} -#elif WIRELESS_EXT >= 15 -static inline void -_send_michaelmicfailure_event(struct net_device *dev, - int count, const unsigned char *macaddr, - int key_type, int key_idx, - unsigned char *tsc) -{ - union iwreq_data wrqu; - char buf[128]; - - sprintf(buf, - "MLME-MICHAELMICFAILURE.indication(keyid=%d %scast addr=%pM)", - key_idx, (key_type == CSR_GROUP) ? "broad" : "uni", macaddr); - memset(&wrqu, 0, sizeof(wrqu)); - wrqu.data.length = strlen(buf); - wireless_send_event(dev, IWEVCUSTOM, &wrqu, buf); -} -#else /* WIRELESS_EXT >= 15 */ -static inline void -_send_michaelmicfailure_event(struct net_device *dev, - int count, const unsigned char *macaddr, - int key_type, int key_idx, - unsigned char *tsc) -{ - /* Not supported before WEXT 15 */ -} -#endif /* WIRELESS_EXT >= 15 */ - - -void -wext_send_michaelmicfailure_event(unifi_priv_t *priv, - u16 count, - CsrWifiMacAddress address, - CsrWifiSmeKeyType keyType, - u16 interfaceTag) -{ - unsigned char tsc[8] = {0}; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "wext_send_michaelmicfailure_event bad interfaceTag\n"); - return; - } - - _send_michaelmicfailure_event(priv->netdev[interfaceTag], - count, - address.a, - keyType, - 0, - tsc); -} /* wext_send_michaelmicfailure_event() */ - -void -wext_send_pmkid_candidate_event(unifi_priv_t *priv, CsrWifiMacAddress bssid, u8 preauth_allowed, u16 interfaceTag) -{ -#if WIRELESS_EXT > 17 - union iwreq_data wrqu; - struct iw_pmkid_cand pmkid_cand; - - if (interfaceTag >= CSR_WIFI_NUM_INTERFACES) { - unifi_error(priv, "wext_send_pmkid_candidate_event bad interfaceTag\n"); - return; - } - - memset(&pmkid_cand, 0, sizeof(pmkid_cand)); - - if (preauth_allowed) { - pmkid_cand.flags |= IW_PMKID_CAND_PREAUTH; - } - pmkid_cand.bssid.sa_family = ARPHRD_ETHER; - memcpy(pmkid_cand.bssid.sa_data, bssid.a, ETH_ALEN); - /* Used as priority, smaller the number higher the priority, not really used in our case */ - pmkid_cand.index = 1; - - memset(&wrqu, 0, sizeof(wrqu)); - wrqu.data.length = sizeof(pmkid_cand); - - wireless_send_event(priv->netdev[interfaceTag], IWEVPMKIDCAND, &wrqu, (char *)&pmkid_cand); -#endif -} /* wext_send_pmkid_candidate_event() */ - -/* - * Send a custom WEXT event to say we have completed initialisation - * and are now ready for WEXT ioctls. Used by Android wpa_supplicant. - */ -void -wext_send_started_event(unifi_priv_t *priv) -{ -#if WIRELESS_EXT > 17 - union iwreq_data wrqu; - char data[] = "STARTED"; - - wrqu.data.length = sizeof(data); - wrqu.data.flags = 0; - wireless_send_event(priv->netdev[CSR_WIFI_INTERFACE_IN_USE], IWEVCUSTOM, &wrqu, data); -#endif -} /* wext_send_started_event() */ - diff --git a/drivers/staging/iio/accel/lis3l02dq_core.c b/drivers/staging/iio/accel/lis3l02dq_core.c index 1bfe5d8..8ed75a9 100644 --- a/drivers/staging/iio/accel/lis3l02dq_core.c +++ b/drivers/staging/iio/accel/lis3l02dq_core.c @@ -257,6 +257,8 @@ static int lis3l02dq_read_raw(struct iio_dev *indio_dev, ret = lis3l02dq_read_reg_s16(indio_dev, reg, val); } mutex_unlock(&indio_dev->mlock); + if (ret < 0) + goto error_ret; return IIO_VAL_INT; case IIO_CHAN_INFO_SCALE: *val = 0; diff --git a/drivers/staging/iio/adc/ad7291.c b/drivers/staging/iio/adc/ad7291.c index 3fc79e5..a2e61c2 100644 --- a/drivers/staging/iio/adc/ad7291.c +++ b/drivers/staging/iio/adc/ad7291.c @@ -517,6 +517,7 @@ static const struct iio_info ad7291_info = { .read_event_value = &ad7291_read_event_value, .write_event_value = &ad7291_write_event_value, .event_attrs = &ad7291_event_attribute_group, + .driver_module = THIS_MODULE, }; static int ad7291_probe(struct i2c_client *client, diff --git a/drivers/staging/iio/adc/mxs-lradc.c b/drivers/staging/iio/adc/mxs-lradc.c index d92c97a..9f52a28 100644 --- a/drivers/staging/iio/adc/mxs-lradc.c +++ b/drivers/staging/iio/adc/mxs-lradc.c @@ -234,7 +234,6 @@ static int mxs_lradc_read_raw(struct iio_dev *iio_dev, { struct mxs_lradc *lradc = iio_priv(iio_dev); int ret; - unsigned long mask; if (m != IIO_CHAN_INFO_RAW) return -EINVAL; @@ -243,12 +242,6 @@ static int mxs_lradc_read_raw(struct iio_dev *iio_dev, if (chan->channel > LRADC_MAX_TOTAL_CHANS) return -EINVAL; - /* Validate the channel if it doesn't intersect with reserved chans. */ - bitmap_set(&mask, chan->channel, 1); - ret = iio_validate_scan_mask_onehot(iio_dev, &mask); - if (ret) - return -EINVAL; - /* * See if there is no buffered operation in progess. If there is, simply * bail out. This can be improved to support both buffered and raw IO at @@ -661,12 +654,13 @@ static int mxs_lradc_trigger_init(struct iio_dev *iio) { int ret; struct iio_trigger *trig; + struct mxs_lradc *lradc = iio_priv(iio); trig = iio_trigger_alloc("%s-dev%i", iio->name, iio->id); if (trig == NULL) return -ENOMEM; - trig->dev.parent = iio->dev.parent; + trig->dev.parent = lradc->dev; iio_trigger_set_drvdata(trig, iio); trig->ops = &mxs_lradc_trigger_ops; @@ -676,15 +670,17 @@ static int mxs_lradc_trigger_init(struct iio_dev *iio) return ret; } - iio->trig = trig; + lradc->trig = trig; return 0; } static void mxs_lradc_trigger_remove(struct iio_dev *iio) { - iio_trigger_unregister(iio->trig); - iio_trigger_free(iio->trig); + struct mxs_lradc *lradc = iio_priv(iio); + + iio_trigger_unregister(lradc->trig); + iio_trigger_free(lradc->trig); } static int mxs_lradc_buffer_preenable(struct iio_dev *iio) |