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|
/******************************************************************************
*
* Copyright (C) 2009-2012 Broadcom Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
******************************************************************************/
/************************************************************************************
*
* Filename: btif_hh.c
*
* Description: HID Host Profile Bluetooth Interface
*
*
***********************************************************************************/
#include <hardware/bluetooth.h>
#include <hardware/bt_hh.h>
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#include <string.h>
#define LOG_TAG "BTIF_HH"
#include "bta_api.h"
#include "bta_hh_api.h"
#include "bd.h"
#include "btif_storage.h"
#include "btif_common.h"
#include "btif_util.h"
#include "btif_hh.h"
#include "gki.h"
#include "l2c_api.h"
#define BTIF_HH_APP_ID_MI 0x01
#define BTIF_HH_APP_ID_KB 0x02
#define COD_HID_KEYBOARD 0x0540
#define COD_HID_POINTING 0x0580
#define COD_HID_COMBO 0x05C0
#define KEYSTATE_FILEPATH "/data/misc/bluedroid/bt_hh_ks" //keep this in sync with HID host jni
#define HID_REPORT_CAPSLOCK 0x39
#define HID_REPORT_NUMLOCK 0x53
#define HID_REPORT_SCROLLLOCK 0x47
//For Apple Magic Mouse
#define MAGICMOUSE_VENDOR_ID 0x05ac
#define MAGICMOUSE_PRODUCT_ID 0x030d
#define LOGITECH_KB_MX5500_VENDOR_ID 0x046D
#define LOGITECH_KB_MX5500_PRODUCT_ID 0xB30B
extern const int BT_UID;
extern const int BT_GID;
static int btif_hh_prev_keyevents=0; //The previous key events
static int btif_hh_keylockstates=0; //The current key state of each key
#define BTIF_HH_ID_1 0
#define BTIF_HH_DEV_DISCONNECTED 3
#ifndef BTUI_HH_SECURITY
#define BTUI_HH_SECURITY (BTA_SEC_AUTHENTICATE | BTA_SEC_ENCRYPT)
#endif
#ifndef BTUI_HH_MOUSE_SECURITY
#define BTUI_HH_MOUSE_SECURITY (BTA_SEC_NONE)
#endif
/* HH request events */
typedef enum
{
BTIF_HH_CONNECT_REQ_EVT = 0,
BTIF_HH_DISCONNECT_REQ_EVT,
BTIF_HH_VUP_REQ_EVT
} btif_hh_req_evt_t;
/************************************************************************************
** Constants & Macros
************************************************************************************/
#define BTIF_HH_SERVICES (BTA_HID_SERVICE_MASK)
/************************************************************************************
** Local type definitions
************************************************************************************/
typedef struct hid_kb_list
{
UINT16 product_id;
UINT16 version_id;
char* kb_name;
} tHID_KB_LIST;
/************************************************************************************
** Static variables
************************************************************************************/
btif_hh_cb_t btif_hh_cb;
static bthh_callbacks_t *bt_hh_callbacks = NULL;
/* List of HID keyboards for which the NUMLOCK state needs to be
* turned ON by default. Add devices to this list to apply the
* NUMLOCK state toggle on fpr first connect.*/
static tHID_KB_LIST hid_kb_numlock_on_list[] =
{
{LOGITECH_KB_MX5500_PRODUCT_ID,
LOGITECH_KB_MX5500_VENDOR_ID,
"Logitech MX5500 Keyboard"}
};
#define CHECK_BTHH_INIT() if (bt_hh_callbacks == NULL)\
{\
BTIF_TRACE_WARNING1("BTHH: %s: BTHH not initialized", __FUNCTION__);\
return BT_STATUS_NOT_READY;\
}\
else\
{\
BTIF_TRACE_EVENT1("BTHH: %s", __FUNCTION__);\
}
/************************************************************************************
** Static functions
************************************************************************************/
/************************************************************************************
** Externs
************************************************************************************/
extern void bta_hh_co_destroy(int fd);
extern void bta_hh_co_write(int fd, UINT8* rpt, UINT16 len);
extern bt_status_t btif_dm_remove_bond(const bt_bdaddr_t *bd_addr);
extern void bta_hh_co_send_hid_info(btif_hh_device_t *p_dev, char *dev_name, UINT16 vendor_id,
UINT16 product_id, UINT16 version, UINT8 ctry_code,
int dscp_len, UINT8 *p_dscp);
extern BOOLEAN check_cod(const bt_bdaddr_t *remote_bdaddr, uint32_t cod);
extern void btif_dm_cb_remove_bond(bt_bdaddr_t *bd_addr);
extern int scru_ascii_2_hex(char *p_ascii, int len, UINT8 *p_hex);
/*****************************************************************************
** Local Function prototypes
*****************************************************************************/
static void set_keylockstate(int keymask, BOOLEAN isSet);
static void toggle_os_keylockstates(int fd, int changedkeystates);
static void sync_lockstate_on_connect(btif_hh_device_t *p_dev);
//static void hh_update_keyboard_lockstates(btif_hh_device_t *p_dev);
/************************************************************************************
** Functions
************************************************************************************/
static int get_keylockstates()
{
return btif_hh_keylockstates;
}
static void set_keylockstate(int keymask, BOOLEAN isSet)
{
if(isSet)
btif_hh_keylockstates |= keymask;
}
/*******************************************************************************
**
** Function toggle_os_keylockstates
**
** Description Function to toggle the keyboard lock states managed by the linux.
** This function is used in by two call paths
** (1) if the lock state change occurred from an onscreen keyboard,
** this function is called to update the lock state maintained
for the HID keyboard(s)
** (2) if a HID keyboard is disconnected and reconnected,
** this function is called to update the lock state maintained
for the HID keyboard(s)
** Returns void
*******************************************************************************/
static void toggle_os_keylockstates(int fd, int changedlockstates)
{
BTIF_TRACE_EVENT3("%s: fd = %d, changedlockstates = 0x%x",
__FUNCTION__, fd, changedlockstates);
UINT8 hidreport[9];
int reportIndex;
memset(hidreport,0,9);
hidreport[0]=1;
reportIndex=4;
if (changedlockstates & BTIF_HH_KEYSTATE_MASK_CAPSLOCK) {
BTIF_TRACE_DEBUG1("%s Setting CAPSLOCK", __FUNCTION__);
hidreport[reportIndex++] = (UINT8)HID_REPORT_CAPSLOCK;
}
if (changedlockstates & BTIF_HH_KEYSTATE_MASK_NUMLOCK) {
BTIF_TRACE_DEBUG1("%s Setting NUMLOCK", __FUNCTION__);
hidreport[reportIndex++] = (UINT8)HID_REPORT_NUMLOCK;
}
if (changedlockstates & BTIF_HH_KEYSTATE_MASK_SCROLLLOCK) {
BTIF_TRACE_DEBUG1("%s Setting SCROLLLOCK", __FUNCTION__);
hidreport[reportIndex++] = (UINT8) HID_REPORT_SCROLLLOCK;
}
BTIF_TRACE_DEBUG4("Writing hidreport #1 to os: "\
"%s: %x %x %x", __FUNCTION__,
hidreport[0], hidreport[1], hidreport[2]);
BTIF_TRACE_DEBUG4("%s: %x %x %x", __FUNCTION__,
hidreport[3], hidreport[4], hidreport[5]);
BTIF_TRACE_DEBUG4("%s: %x %x %x", __FUNCTION__,
hidreport[6], hidreport[7], hidreport[8]);
bta_hh_co_write(fd , hidreport, sizeof(hidreport));
usleep(200000);
memset(hidreport,0,9);
hidreport[0]=1;
BTIF_TRACE_DEBUG4("Writing hidreport #2 to os: "\
"%s: %x %x %x", __FUNCTION__,
hidreport[0], hidreport[1], hidreport[2]);
BTIF_TRACE_DEBUG4("%s: %x %x %x", __FUNCTION__,
hidreport[3], hidreport[4], hidreport[5]);
BTIF_TRACE_DEBUG4("%s: %x %x %x ", __FUNCTION__,
hidreport[6], hidreport[7], hidreport[8]);
bta_hh_co_write(fd , hidreport, sizeof(hidreport));
}
/*******************************************************************************
**
** Function update_keyboard_lockstates
**
** Description Sends a report to the keyboard to set the lock states of keys
**
*******************************************************************************/
static void update_keyboard_lockstates(btif_hh_device_t *p_dev)
{
UINT8 len = 2; /* reportid + 1 byte report*/
BD_ADDR* bda;
/* Set report for other keyboards */
BTIF_TRACE_EVENT3("%s: setting report on dev_handle %d to 0x%x",
__FUNCTION__, p_dev->dev_handle, btif_hh_keylockstates);
if (p_dev->p_buf != NULL) {
GKI_freebuf(p_dev->p_buf);
}
/* Get SetReport buffer */
p_dev->p_buf = GKI_getbuf((UINT16) (len + BTA_HH_MIN_OFFSET +
sizeof(BT_HDR)));
if (p_dev->p_buf != NULL) {
p_dev->p_buf->len = len;
p_dev->p_buf->offset = BTA_HH_MIN_OFFSET;
/* LED status updated by data event */
UINT8 *pbuf_data = (UINT8 *)(p_dev->p_buf + 1)
+ p_dev->p_buf->offset;
pbuf_data[0]=0x01; /*report id */
pbuf_data[1]=btif_hh_keylockstates; /*keystate*/
bda = (BD_ADDR*) (&p_dev->bd_addr);
BTA_HhSendData(p_dev->dev_handle, *bda,
p_dev->p_buf);
}
}
/*******************************************************************************
**
** Function sync_lockstate_on_connect
**
** Description Function to update the keyboard lock states managed by the OS
** when a HID keyboard is connected or disconnected and reconnected
** Returns void
*******************************************************************************/
static void sync_lockstate_on_connect(btif_hh_device_t *p_dev)
{
int keylockstates;
BTIF_TRACE_EVENT1("%s: Syncing keyboard lock states after "\
"reconnect...",__FUNCTION__);
/*If the device is connected, update keyboard state */
update_keyboard_lockstates(p_dev);
/*Check if the lockstate of caps,scroll,num is set.
If so, send a report to the kernel
so the lockstate is in sync */
keylockstates = get_keylockstates();
if (keylockstates)
{
BTIF_TRACE_DEBUG2("%s: Sending hid report to kernel "\
"indicating lock key state 0x%x",__FUNCTION__,
keylockstates);
usleep(200000);
toggle_os_keylockstates(p_dev->fd, keylockstates);
}
else
{
BTIF_TRACE_DEBUG2("%s: NOT sending hid report to kernel "\
"indicating lock key state 0x%x",__FUNCTION__,
keylockstates);
}
}
/*******************************************************************************
**
** Function btif_hh_find_dev_by_handle
**
** Description Return the device pointer of the specified device handle
**
** Returns Device entry pointer in the device table
*******************************************************************************/
static btif_hh_device_t *btif_hh_find_dev_by_handle(UINT8 handle)
{
UINT32 i;
// LOGV("%s: handle = %d", __FUNCTION__, handle);
for (i = 0; i < BTIF_HH_MAX_HID; i++) {
if (btif_hh_cb.devices[i].dev_status != BTHH_CONN_STATE_UNKNOWN &&
btif_hh_cb.devices[i].dev_handle == handle)
{
return &btif_hh_cb.devices[i];
}
}
return NULL;
}
/*******************************************************************************
**
** Function btif_hh_find_connected_dev_by_handle
**
** Description Return the connected device pointer of the specified device handle
**
** Returns Device entry pointer in the device table
*******************************************************************************/
btif_hh_device_t *btif_hh_find_connected_dev_by_handle(UINT8 handle)
{
UINT32 i;
BTIF_TRACE_WARNING2("%s: handle = %d", __FUNCTION__, handle);
for (i = 0; i < BTIF_HH_MAX_HID; i++) {
if (btif_hh_cb.devices[i].dev_status == BTHH_CONN_STATE_CONNECTED &&
btif_hh_cb.devices[i].dev_handle == handle)
{
return &btif_hh_cb.devices[i];
}
}
return NULL;
}
/*******************************************************************************
**
** Function btif_hh_find_dev_by_bda
**
** Description Return the device pointer of the specified bt_bdaddr_t.
**
** Returns Device entry pointer in the device table
*******************************************************************************/
static btif_hh_device_t *btif_hh_find_dev_by_bda(bt_bdaddr_t *bd_addr)
{
UINT32 i;
BTIF_TRACE_EVENT1("%s", __FUNCTION__);
for (i = 0; i < BTIF_HH_MAX_HID; i++) {
if (btif_hh_cb.devices[i].dev_status != BTHH_CONN_STATE_UNKNOWN &&
memcmp(&(btif_hh_cb.devices[i].bd_addr), bd_addr, BD_ADDR_LEN) == 0)
{
return &btif_hh_cb.devices[i];
}
}
return NULL;
}
/*******************************************************************************
**
** Function btif_hh_find_connected_dev_by_bda
**
** Description Return the connected device pointer of the specified bt_bdaddr_t.
**
** Returns Device entry pointer in the device table
*******************************************************************************/
static btif_hh_device_t *btif_hh_find_connected_dev_by_bda(bt_bdaddr_t *bd_addr)
{
UINT32 i;
BTIF_TRACE_EVENT1("%s", __FUNCTION__);
for (i = 0; i < BTIF_HH_MAX_HID; i++) {
if (btif_hh_cb.devices[i].dev_status == BTHH_CONN_STATE_CONNECTED &&
memcmp(&(btif_hh_cb.devices[i].bd_addr), bd_addr, BD_ADDR_LEN) == 0)
{
return &btif_hh_cb.devices[i];
}
}
return NULL;
}
/*******************************************************************************
**
** Function btif_hh_add_added_dev
**
** Description Add a new device to the added device list.
**
** Returns TRUE if add successfully, otherwise FALSE.
*******************************************************************************/
BOOLEAN btif_hh_add_added_dev(bt_bdaddr_t bda, tBTA_HH_ATTR_MASK attr_mask)
{
int i;
for (i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) {
if (memcmp(&(btif_hh_cb.added_devices[i].bd_addr), &bda, BD_ADDR_LEN) == 0) {
BTIF_TRACE_WARNING6(" Device %02X:%02X:%02X:%02X:%02X:%02X already added",
bda.address[0], bda.address[1], bda.address[2], bda.address[3], bda.address[4], bda.address[5]);
return FALSE;
}
}
for (i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) {
if (btif_hh_cb.added_devices[i].bd_addr.address[0] == 0 &&
btif_hh_cb.added_devices[i].bd_addr.address[1] == 0 &&
btif_hh_cb.added_devices[i].bd_addr.address[2] == 0 &&
btif_hh_cb.added_devices[i].bd_addr.address[3] == 0 &&
btif_hh_cb.added_devices[i].bd_addr.address[4] == 0 &&
btif_hh_cb.added_devices[i].bd_addr.address[5] == 0)
{
BTIF_TRACE_WARNING6(" Added device %02X:%02X:%02X:%02X:%02X:%02X",
bda.address[0], bda.address[1], bda.address[2], bda.address[3], bda.address[4], bda.address[5]);
memcpy(&(btif_hh_cb.added_devices[i].bd_addr), &bda, BD_ADDR_LEN);
btif_hh_cb.added_devices[i].dev_handle = BTA_HH_INVALID_HANDLE;
btif_hh_cb.added_devices[i].attr_mask = attr_mask;
return TRUE;
}
}
BTIF_TRACE_WARNING1("%s: Error, out of space to add device",__FUNCTION__);
return FALSE;
}
/*******************************************************************************
**
** Function btif_hh_remove_device
**
** Description Remove an added device from the stack.
**
** Returns void
*******************************************************************************/
void btif_hh_remove_device(bt_bdaddr_t bd_addr)
{
int i;
btif_hh_device_t *p_dev;
btif_hh_added_device_t *p_added_dev;
ALOGI("%s: bda = %02x:%02x:%02x:%02x:%02x:%02x", __FUNCTION__,
bd_addr.address[0], bd_addr.address[1], bd_addr.address[2], bd_addr.address[3], bd_addr.address[4], bd_addr.address[5]);
for (i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) {
p_added_dev = &btif_hh_cb.added_devices[i];
if (memcmp(&(p_added_dev->bd_addr),&bd_addr, 6) == 0) {
BTA_HhRemoveDev(p_added_dev->dev_handle);
btif_storage_remove_hid_info(&(p_added_dev->bd_addr));
memset(&(p_added_dev->bd_addr), 0, 6);
p_added_dev->dev_handle = BTA_HH_INVALID_HANDLE;
break;
}
}
p_dev = btif_hh_find_dev_by_bda(&bd_addr);
if (p_dev == NULL) {
BTIF_TRACE_WARNING6(" Oops, can't find device [%02x:%02x:%02x:%02x:%02x:%02x]",
bd_addr.address[0], bd_addr.address[1], bd_addr.address[2], bd_addr.address[3], bd_addr.address[4], bd_addr.address[5]);
return;
}
p_dev->dev_status = BTHH_CONN_STATE_UNKNOWN;
p_dev->dev_handle = BTA_HH_INVALID_HANDLE;
if (btif_hh_cb.device_num > 0) {
btif_hh_cb.device_num--;
}
else {
BTIF_TRACE_WARNING1("%s: device_num = 0", __FUNCTION__);
}
if (p_dev->p_buf != NULL) {
GKI_freebuf(p_dev->p_buf);
p_dev->p_buf = NULL;
}
BTIF_TRACE_DEBUG2("%s: uhid fd = %d", __FUNCTION__, p_dev->fd);
if (p_dev->fd >= 0) {
bta_hh_co_destroy(p_dev->fd);
p_dev->fd = -1;
}
}
BOOLEAN btif_hh_copy_hid_info(tBTA_HH_DEV_DSCP_INFO* dest , tBTA_HH_DEV_DSCP_INFO* src)
{
dest->descriptor.dl_len = 0;
if (src->descriptor.dl_len >0)
{
dest->descriptor.dsc_list = (UINT8 *) GKI_getbuf(src->descriptor.dl_len);
if (dest->descriptor.dsc_list == NULL)
{
BTIF_TRACE_WARNING1("%s: Failed to allocate DSCP for CB", __FUNCTION__);
return FALSE;
}
}
memcpy(dest->descriptor.dsc_list, src->descriptor.dsc_list, src->descriptor.dl_len);
dest->descriptor.dl_len = src->descriptor.dl_len;
dest->vendor_id = src->vendor_id;
dest->product_id = src->product_id;
dest->version = src->version;
dest->ctry_code = src->ctry_code;
return TRUE;
}
/*******************************************************************************
**
** Function btif_hh_virtual_unplug
**
** Description Virtual unplug initiated from the BTIF thread context
** Special handling for HID mouse-
**
** Returns void
**
*******************************************************************************/
bt_status_t btif_hh_virtual_unplug(bt_bdaddr_t *bd_addr)
{
BTIF_TRACE_DEBUG1("%s", __FUNCTION__);
btif_hh_device_t *p_dev;
char bd_str[18];
sprintf(bd_str, "%02X:%02X:%02X:%02X:%02X:%02X",
bd_addr->address[0], bd_addr->address[1], bd_addr->address[2], bd_addr->address[3],
bd_addr->address[4], bd_addr->address[5]);
p_dev = btif_hh_find_dev_by_bda(bd_addr);
if ((p_dev != NULL) && (p_dev->dev_status == BTHH_CONN_STATE_CONNECTED)
&& (p_dev->attr_mask & HID_VIRTUAL_CABLE))
{
BTIF_TRACE_DEBUG1("%s Sending BTA_HH_CTRL_VIRTUAL_CABLE_UNPLUG", __FUNCTION__);
BTA_HhSendCtrl(p_dev->dev_handle, BTA_HH_CTRL_VIRTUAL_CABLE_UNPLUG);
return BT_STATUS_SUCCESS;
}
else
{
BTIF_TRACE_ERROR2("%s: Error, device %s not opened.", __FUNCTION__, bd_str);
return BT_STATUS_FAIL;
}
}
/*******************************************************************************
**
** Function btif_hh_connect
**
** Description connection initiated from the BTIF thread context
**
** Returns int status
**
*******************************************************************************/
bt_status_t btif_hh_connect(bt_bdaddr_t *bd_addr)
{
btif_hh_device_t *dev;
btif_hh_added_device_t *added_dev = NULL;
char bda_str[20];
int i;
BD_ADDR *bda = (BD_ADDR*)bd_addr;
tBTA_HH_CONN conn;
CHECK_BTHH_INIT();
dev = btif_hh_find_dev_by_bda(bd_addr);
BTIF_TRACE_DEBUG0("Connect _hh");
sprintf(bda_str, "%02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
if (dev == NULL && btif_hh_cb.device_num >= BTIF_HH_MAX_HID) {
// No space for more HID device now.
BTIF_TRACE_WARNING2("%s: Error, exceeded the maximum supported HID device number %d",
__FUNCTION__, BTIF_HH_MAX_HID);
return BT_STATUS_FAIL;
}
for (i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) {
if (memcmp(&(btif_hh_cb.added_devices[i].bd_addr), bd_addr, BD_ADDR_LEN) == 0) {
added_dev = &btif_hh_cb.added_devices[i];
BTIF_TRACE_WARNING3("%s: Device %s already added, attr_mask = 0x%x",
__FUNCTION__, bda_str, added_dev->attr_mask);
}
}
if (added_dev != NULL) {
if (added_dev->dev_handle == BTA_HH_INVALID_HANDLE) {
// No space for more HID device now.
BTIF_TRACE_ERROR2("%s: Error, device %s added but addition failed", __FUNCTION__, bda_str);
memset(&(added_dev->bd_addr), 0, 6);
added_dev->dev_handle = BTA_HH_INVALID_HANDLE;
return BT_STATUS_FAIL;
}
}
if (added_dev == NULL ||
(added_dev->attr_mask & HID_NORMALLY_CONNECTABLE) != 0 ||
(added_dev->attr_mask & HID_RECONN_INIT) == 0)
{
tBTA_SEC sec_mask = BTUI_HH_SECURITY;
btif_hh_cb.status = BTIF_HH_DEV_CONNECTING;
BD_ADDR *bda = (BD_ADDR*)bd_addr;
BTA_HhOpen(*bda, BTA_HH_PROTO_RPT_MODE, sec_mask);
}
else {
// This device shall be connected from the host side.
BTIF_TRACE_ERROR2("%s: Error, device %s can only be reconnected from device side",
__FUNCTION__, bda_str);
//TODO
/* if ((remote_class & BT_DEV_CLASS_MASK) == BT_DEV_CLASS_HID_POINTING) {
//SIG_HH_CONNECTION, *bda, HH_CONN_STATUS_FAILED_MOUSE_FROM_HOST);
}
else {
// SIG_HH_CONNECTION, *bda, HH_CONN_STATUS_FAILED_KBD_FROM_HOST);
}*/
return BT_STATUS_FAIL;
}
HAL_CBACK(bt_hh_callbacks, connection_state_cb, bd_addr, BTHH_CONN_STATE_CONNECTING);
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function btif_hh_disconnect
**
** Description disconnection initiated from the BTIF thread context
**
** Returns void
**
*******************************************************************************/
void btif_hh_disconnect(bt_bdaddr_t *bd_addr)
{
BD_ADDR *bda = (BD_ADDR*)bd_addr;
btif_hh_device_t *p_dev;
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev != NULL)
{
BTA_HhClose(p_dev->dev_handle);
}
else
BTIF_TRACE_DEBUG1("%s-- Error: device not connected:",__FUNCTION__);
}
/*****************************************************************************
** Section name (Group of functions)
*****************************************************************************/
/*****************************************************************************
**
** btif hh api functions (no context switch)
**
*****************************************************************************/
/*******************************************************************************
**
** Function btif_hh_upstreams_evt
**
** Description Executes HH UPSTREAMS events in btif context
**
** Returns void
**
*******************************************************************************/
static void btif_hh_upstreams_evt(UINT16 event, char* p_param)
{
tBTA_HH *p_data = (tBTA_HH *)p_param;
bdstr_t bdstr;
btif_hh_device_t *p_dev = NULL;
int i;
int len, tmplen;
BTIF_TRACE_DEBUG2("%s: event=%s", __FUNCTION__, dump_hh_event(event));
switch (event)
{
case BTA_HH_ENABLE_EVT:
BTIF_TRACE_DEBUG2("%s: BTA_HH_ENABLE_EVT: status =%d",__FUNCTION__, p_data->status);
if (p_data->status == BTA_HH_OK) {
btif_hh_cb.status = BTIF_HH_ENABLED;
BTIF_TRACE_DEBUG1("%s--Loading added devices",__FUNCTION__);
/* Add hid descriptors for already bonded hid devices*/
btif_storage_load_bonded_hid_info();
}
else {
btif_hh_cb.status = BTIF_HH_DISABLED;
BTIF_TRACE_WARNING1("BTA_HH_ENABLE_EVT: Error, HH enabling failed, status = %d", p_data->status);
}
break;
case BTA_HH_DISABLE_EVT:
btif_hh_cb.status = BTIF_HH_DISABLED;
if (p_data->status == BTA_HH_OK) {
int i;
//Clear the control block
memset(&btif_hh_cb, 0, sizeof(btif_hh_cb));
for (i = 0; i < BTIF_HH_MAX_HID; i++){
btif_hh_cb.devices[i].dev_status = BTHH_CONN_STATE_UNKNOWN;
}
}
else
BTIF_TRACE_WARNING1("BTA_HH_DISABLE_EVT: Error, HH disabling failed, status = %d", p_data->status);
break;
case BTA_HH_OPEN_EVT:
BTIF_TRACE_WARNING3("%s: BTA_HH_OPN_EVT: handle=%d, status =%d",__FUNCTION__, p_data->conn.handle, p_data->conn.status);
if (p_data->conn.status == BTA_HH_OK) {
p_dev = btif_hh_find_connected_dev_by_handle(p_data->conn.handle);
if (p_dev == NULL) {
BTIF_TRACE_WARNING1("BTA_HH_OPEN_EVT: Error, cannot find device with handle %d", p_data->conn.handle);
btif_hh_cb.status = BTIF_HH_DEV_DISCONNECTED;
// The connect request must come from device side and exceeded the connected
// HID device number.
BTA_HhClose(p_data->conn.handle);
HAL_CBACK(bt_hh_callbacks, connection_state_cb, (bt_bdaddr_t*) &p_data->conn.bda,BTHH_CONN_STATE_DISCONNECTED);
}
else if (p_dev->fd < 0) {
BTIF_TRACE_WARNING0("BTA_HH_OPEN_EVT: Error, failed to find the uhid driver...");
memcpy(&(p_dev->bd_addr), p_data->conn.bda, BD_ADDR_LEN);
//remove the connection and then try again to reconnect from the mouse side to recover
btif_hh_cb.status = BTIF_HH_DEV_DISCONNECTED;
BTA_HhClose(p_data->conn.handle);
}
else {
BTIF_TRACE_WARNING1("BTA_HH_OPEN_EVT: Found device...Getting dscp info for handle ... %d",p_data->conn.handle);
memcpy(&(p_dev->bd_addr), p_data->conn.bda, BD_ADDR_LEN);
btif_hh_cb.status = BTIF_HH_DEV_CONNECTED;
BTA_HhSetIdle(p_data->conn.handle, 0);
btif_hh_cb.p_curr_dev = btif_hh_find_connected_dev_by_handle(p_data->conn.handle);
BTA_HhGetDscpInfo(p_data->conn.handle);
p_dev->dev_status = BTHH_CONN_STATE_CONNECTED;
HAL_CBACK(bt_hh_callbacks, connection_state_cb,&(p_dev->bd_addr), p_dev->dev_status);
}
}
else {
bt_bdaddr_t *bdaddr = (bt_bdaddr_t*)p_data->conn.bda;
HAL_CBACK(bt_hh_callbacks, connection_state_cb, (bt_bdaddr_t*) &p_data->conn.bda,BTHH_CONN_STATE_DISCONNECTED);
btif_hh_cb.status = BTIF_HH_DEV_DISCONNECTED;
}
break;
case BTA_HH_CLOSE_EVT:
BTIF_TRACE_DEBUG2("BTA_HH_CLOSE_EVT: status = %d, handle = %d",
p_data->dev_status.status, p_data->dev_status.handle);
p_dev = btif_hh_find_connected_dev_by_handle(p_data->dev_status.handle);
if (p_dev != NULL) {
BTIF_TRACE_DEBUG2("%s: uhid fd = %d", __FUNCTION__, p_dev->fd);
if (p_dev->fd >= 0){
UINT8 hidreport[9];
memset(hidreport,0,9);
hidreport[0]=1;
bta_hh_co_write(p_dev->fd , hidreport, sizeof(hidreport));
}
btif_hh_cb.status = BTIF_HH_DEV_DISCONNECTED;
p_dev->dev_status = BTHH_CONN_STATE_DISCONNECTED;
HAL_CBACK(bt_hh_callbacks, connection_state_cb,&(p_dev->bd_addr), p_dev->dev_status);
BTIF_TRACE_DEBUG2("%s: Closing uhid fd = %d", __FUNCTION__, p_dev->fd);
bta_hh_co_destroy(p_dev->fd);
p_dev->fd = -1;
}
else {
BTIF_TRACE_WARNING1("Error: cannot find device with handle %d", p_data->dev_status.handle);
}
break;
case BTA_HH_GET_RPT_EVT:
BTIF_TRACE_DEBUG2("BTA_HH_GET_RPT_EVT: status = %d, handle = %d",
p_data->hs_data.status, p_data->hs_data.handle);
p_dev = btif_hh_find_connected_dev_by_handle(p_data->conn.handle);
HAL_CBACK(bt_hh_callbacks, get_report_cb,(bt_bdaddr_t*) &(p_dev->bd_addr), (bthh_status_t) p_data->hs_data.status,
(uint8_t*) p_data->hs_data.rsp_data.p_rpt_data, BT_HDR_SIZE);
break;
case BTA_HH_SET_RPT_EVT:
BTIF_TRACE_DEBUG2("BTA_HH_SET_RPT_EVT: status = %d, handle = %d",
p_data->dev_status.status, p_data->dev_status.handle);
p_dev = btif_hh_find_connected_dev_by_handle(p_data->dev_status.handle);
if (p_dev != NULL && p_dev->p_buf != NULL) {
BTIF_TRACE_DEBUG0("Freeing buffer..." );
GKI_freebuf(p_dev->p_buf);
p_dev->p_buf = NULL;
}
break;
case BTA_HH_GET_PROTO_EVT:
p_dev = btif_hh_find_connected_dev_by_handle(p_data->dev_status.handle);
BTIF_TRACE_WARNING4("BTA_HH_GET_PROTO_EVT: status = %d, handle = %d, proto = [%d], %s",
p_data->hs_data.status, p_data->hs_data.handle,
p_data->hs_data.rsp_data.proto_mode,
(p_data->hs_data.rsp_data.proto_mode == BTA_HH_PROTO_RPT_MODE) ? "Report Mode" :
(p_data->hs_data.rsp_data.proto_mode == BTA_HH_PROTO_BOOT_MODE) ? "Boot Mode" : "Unsupported");
HAL_CBACK(bt_hh_callbacks, protocol_mode_cb,(bt_bdaddr_t*) &(p_dev->bd_addr), (bthh_status_t)p_data->hs_data.status,
(bthh_protocol_mode_t) p_data->hs_data.rsp_data.proto_mode);
break;
case BTA_HH_SET_PROTO_EVT:
BTIF_TRACE_DEBUG2("BTA_HH_SET_PROTO_EVT: status = %d, handle = %d",
p_data->dev_status.status, p_data->dev_status.handle);
break;
case BTA_HH_GET_IDLE_EVT:
BTIF_TRACE_DEBUG3("BTA_HH_GET_IDLE_EVT: handle = %d, status = %d, rate = %d",
p_data->hs_data.handle, p_data->hs_data.status,
p_data->hs_data.rsp_data.idle_rate);
break;
case BTA_HH_SET_IDLE_EVT:
BTIF_TRACE_DEBUG2("BTA_HH_SET_IDLE_EVT: status = %d, handle = %d",
p_data->dev_status.status, p_data->dev_status.handle);
break;
case BTA_HH_GET_DSCP_EVT:
BTIF_TRACE_WARNING2("BTA_HH_GET_DSCP_EVT: status = %d, handle = %d",
p_data->dev_status.status, p_data->dev_status.handle);
len = p_data->dscp_info.descriptor.dl_len;
BTIF_TRACE_DEBUG1("BTA_HH_GET_DSCP_EVT: len = %d", len);
p_dev = btif_hh_cb.p_curr_dev;
if (p_dev == NULL) {
BTIF_TRACE_ERROR0("BTA_HH_GET_DSCP_EVT: No HID device is currently connected");
return;
}
if (p_dev->fd < 0) {
ALOGE("BTA_HH_GET_DSCP_EVT: Error, failed to find the uhid driver...");
return;
}
{
char *cached_name = NULL;
char name[] = "Broadcom Bluetooth HID";
if (cached_name == NULL) {
cached_name = name;
}
BTIF_TRACE_WARNING2("%s: name = %s", __FUNCTION__, cached_name);
bta_hh_co_send_hid_info(p_dev, cached_name,
p_data->dscp_info.vendor_id, p_data->dscp_info.product_id,
p_data->dscp_info.version, p_data->dscp_info.ctry_code,
len, p_data->dscp_info.descriptor.dsc_list);
if (btif_hh_add_added_dev(p_dev->bd_addr, p_dev->attr_mask)) {
BD_ADDR bda;
bdcpy(bda, p_dev->bd_addr.address);
tBTA_HH_DEV_DSCP_INFO dscp_info;
bt_status_t ret;
bdcpy(bda, p_dev->bd_addr.address);
btif_hh_copy_hid_info(&dscp_info, &p_data->dscp_info);
BTIF_TRACE_DEBUG6("BTA_HH_GET_DSCP_EVT:bda = %02x:%02x:%02x:%02x:%02x:%02x",
p_dev->bd_addr.address[0], p_dev->bd_addr.address[1], p_dev->bd_addr.address[2],
p_dev->bd_addr.address[3], p_dev->bd_addr.address[4], p_dev->bd_addr.address[5]);
BTA_HhAddDev(bda, p_dev->attr_mask,p_dev->sub_class,p_dev->app_id, dscp_info);
// write hid info to nvram
ret = btif_storage_add_hid_device_info(&(p_dev->bd_addr), p_dev->attr_mask,p_dev->sub_class,p_dev->app_id,
p_data->dscp_info.vendor_id, p_data->dscp_info.product_id,
p_data->dscp_info.version, p_data->dscp_info.ctry_code,
len, p_data->dscp_info.descriptor.dsc_list);
ASSERTC(ret == BT_STATUS_SUCCESS, "storing hid info failed", ret);
BTIF_TRACE_WARNING0("BTA_HH_GET_DSCP_EVT: Called add device");
//Free buffer created for dscp_info;
if (dscp_info.descriptor.dl_len >0 && dscp_info.descriptor.dsc_list != NULL)
{
GKI_freebuf(dscp_info.descriptor.dsc_list);
dscp_info.descriptor.dsc_list = NULL;
dscp_info.descriptor.dl_len=0;
}
}
else {
//Device already added.
BTIF_TRACE_WARNING1("%s: Device already added ",__FUNCTION__);
}
/*Sync HID Keyboard lockstates */
tmplen = sizeof(hid_kb_numlock_on_list)
/ sizeof(tHID_KB_LIST);
for(i = 0; i< tmplen; i++)
{
if(p_data->dscp_info.vendor_id
== hid_kb_numlock_on_list[i].version_id &&
p_data->dscp_info.product_id
== hid_kb_numlock_on_list[i].product_id)
{
BTIF_TRACE_DEBUG3("%s() idx[%d] Enabling "\
"NUMLOCK for device :: %s", __FUNCTION__,
i, hid_kb_numlock_on_list[i].kb_name);
/* Enable NUMLOCK by default so that numeric
keys work from first keyboard connect */
set_keylockstate(BTIF_HH_KEYSTATE_MASK_NUMLOCK,
TRUE);
sync_lockstate_on_connect(p_dev);
/* End Sync HID Keyboard lockstates */
break;
}
}
}
break;
case BTA_HH_ADD_DEV_EVT:
BTIF_TRACE_WARNING2("BTA_HH_ADD_DEV_EVT: status = %d, handle = %d",p_data->dev_info.status, p_data->dev_info.handle);
int i;
for (i = 0; i < BTIF_HH_MAX_ADDED_DEV; i++) {
if (memcmp(btif_hh_cb.added_devices[i].bd_addr.address, p_data->dev_info.bda, 6) == 0) {
if (p_data->dev_info.status == BTA_HH_OK) {
btif_hh_cb.added_devices[i].dev_handle = p_data->dev_info.handle;
}
else {
memset(btif_hh_cb.added_devices[i].bd_addr.address, 0, 6);
btif_hh_cb.added_devices[i].dev_handle = BTA_HH_INVALID_HANDLE;
}
break;
}
}
break;
case BTA_HH_RMV_DEV_EVT:
BTIF_TRACE_DEBUG2("BTA_HH_RMV_DEV_EVT: status = %d, handle = %d",
p_data->dev_info.status, p_data->dev_info.handle);
BTIF_TRACE_DEBUG6("BTA_HH_RMV_DEV_EVT:bda = %02x:%02x:%02x:%02x:%02x:%02x",
p_data->dev_info.bda[0], p_data->dev_info.bda[1], p_data->dev_info.bda[2],
p_data->dev_info.bda[3], p_data->dev_info.bda[4], p_data->dev_info.bda[5]);
break;
case BTA_HH_VC_UNPLUG_EVT:
BTIF_TRACE_DEBUG2("BTA_HH_VC_UNPLUG_EVT: status = %d, handle = %d",
p_data->dev_status.status, p_data->dev_status.handle);
p_dev = btif_hh_find_connected_dev_by_handle(p_data->dev_status.handle);
btif_hh_cb.status = BTIF_HH_DEV_DISCONNECTED;
if (p_dev != NULL) {
BTIF_TRACE_DEBUG6("BTA_HH_VC_UNPLUG_EVT:bda = %02x:%02x:%02x:%02x:%02x:%02x",
p_dev->bd_addr.address[0], p_dev->bd_addr.address[1], p_dev->bd_addr.address[2],
p_dev->bd_addr.address[3], p_dev->bd_addr.address[4], p_dev->bd_addr.address[5]);
p_dev->dev_status = BTHH_CONN_STATE_DISCONNECTED;
BTIF_TRACE_DEBUG1("%s---Sending connection state change", __FUNCTION__);
HAL_CBACK(bt_hh_callbacks, connection_state_cb,&(p_dev->bd_addr), p_dev->dev_status);
BTIF_TRACE_DEBUG1("%s---Removing HID mouse bond", __FUNCTION__);
BTA_DmRemoveDevice((UINT8 *)p_dev->bd_addr.address);
HAL_CBACK(bt_hh_callbacks, virtual_unplug_cb,&(p_dev->bd_addr),p_data->dev_status.status);
}
break;
case BTA_HH_API_ERR_EVT :
ALOGI("BTA_HH API_ERR");
break;
default:
BTIF_TRACE_WARNING2("%s: Unhandled event: %d", __FUNCTION__, event);
break;
}
}
/*******************************************************************************
**
** Function bte_hh_evt
**
** Description Switches context from BTE to BTIF for all HH events
**
** Returns void
**
*******************************************************************************/
static void bte_hh_evt(tBTA_HH_EVT event, tBTA_HH *p_data)
{
bt_status_t status;
int param_len = 0;
if (BTA_HH_ENABLE_EVT == event)
param_len = sizeof(tBTA_HH_STATUS);
else if (BTA_HH_OPEN_EVT == event)
param_len = sizeof(tBTA_HH_CONN);
else if (BTA_HH_DISABLE_EVT == event)
param_len = sizeof(tBTA_HH_STATUS);
else if (BTA_HH_CLOSE_EVT == event)
param_len = sizeof(tBTA_HH_CBDATA);
else if (BTA_HH_GET_DSCP_EVT == event)
param_len = sizeof(tBTA_HH_DEV_DSCP_INFO);
else if ((BTA_HH_GET_PROTO_EVT == event) || (BTA_HH_GET_RPT_EVT == event)|| (BTA_HH_GET_IDLE_EVT == event))
param_len = sizeof(tBTA_HH_HSDATA);
else if ((BTA_HH_SET_PROTO_EVT == event) || (BTA_HH_SET_RPT_EVT == event) || (BTA_HH_VC_UNPLUG_EVT == event) || (BTA_HH_SET_IDLE_EVT == event))
param_len = sizeof(tBTA_HH_CBDATA);
else if ((BTA_HH_ADD_DEV_EVT == event) || (BTA_HH_RMV_DEV_EVT == event) )
param_len = sizeof(tBTA_HH_DEV_INFO);
else if (BTA_HH_API_ERR_EVT == event)
param_len = 0;
/* switch context to btif task context (copy full union size for convenience) */
status = btif_transfer_context(btif_hh_upstreams_evt, (uint16_t)event, (void*)p_data, param_len, NULL);
/* catch any failed context transfers */
ASSERTC(status == BT_STATUS_SUCCESS, "context transfer failed", status);
}
/*******************************************************************************
**
** Function btif_hh_handle_evt
**
** Description Switches context for immediate callback
**
** Returns void
**
*******************************************************************************/
static void btif_hh_handle_evt(UINT16 event, char *p_param)
{
bt_bdaddr_t *bd_addr = (bt_bdaddr_t*)p_param;
BTIF_TRACE_EVENT2("%s: event=%d", __FUNCTION__, event);
int ret;
switch(event)
{
case BTIF_HH_CONNECT_REQ_EVT:
{
ret = btif_hh_connect(bd_addr);
if(ret == BT_STATUS_SUCCESS)
{
HAL_CBACK(bt_hh_callbacks, connection_state_cb,bd_addr,BTHH_CONN_STATE_CONNECTING);
}
else
HAL_CBACK(bt_hh_callbacks, connection_state_cb,bd_addr,BTHH_CONN_STATE_DISCONNECTED);
}
break;
case BTIF_HH_DISCONNECT_REQ_EVT:
{
BTIF_TRACE_EVENT2("%s: event=%d", __FUNCTION__, event);
btif_hh_disconnect(bd_addr);
HAL_CBACK(bt_hh_callbacks, connection_state_cb,bd_addr,BTHH_CONN_STATE_DISCONNECTING);
}
break;
case BTIF_HH_VUP_REQ_EVT:
{
BTIF_TRACE_EVENT2("%s: event=%d", __FUNCTION__, event);
ret = btif_hh_virtual_unplug(bd_addr);
}
break;
default:
{
BTIF_TRACE_WARNING2("%s : Unknown event 0x%x", __FUNCTION__, event);
}
break;
}
}
/*******************************************************************************
**
** Function btif_hh_init
**
** Description initializes the hh interface
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t init( bthh_callbacks_t* callbacks )
{
UINT32 i;
BTIF_TRACE_EVENT1("%s", __FUNCTION__);
bt_hh_callbacks = callbacks;
memset(&btif_hh_cb, 0, sizeof(btif_hh_cb));
for (i = 0; i < BTIF_HH_MAX_HID; i++){
btif_hh_cb.devices[i].dev_status = BTHH_CONN_STATE_UNKNOWN;
}
/* Invoke the enable service API to the core to set the appropriate service_id */
btif_enable_service(BTA_HID_SERVICE_ID);
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function connect
**
** Description connect to hid device
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t connect( bt_bdaddr_t *bd_addr)
{
if(btif_hh_cb.status != BTIF_HH_DEV_CONNECTING)
{
btif_transfer_context(btif_hh_handle_evt, BTIF_HH_CONNECT_REQ_EVT,
(char*)bd_addr, sizeof(bt_bdaddr_t), NULL);
return BT_STATUS_SUCCESS;
}
else
return BT_STATUS_BUSY;
}
/*******************************************************************************
**
** Function disconnect
**
** Description disconnect from hid device
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t disconnect( bt_bdaddr_t *bd_addr )
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
if (btif_hh_cb.status == BTIF_HH_DISABLED)
{
BTIF_TRACE_WARNING2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev != NULL)
{
return btif_transfer_context(btif_hh_handle_evt, BTIF_HH_DISCONNECT_REQ_EVT,
(char*)bd_addr, sizeof(bt_bdaddr_t), NULL);
}
else
{
BTIF_TRACE_WARNING1("%s: Error, device not opened.", __FUNCTION__);
return BT_STATUS_FAIL;
}
}
/*******************************************************************************
**
** Function virtual_unplug
**
** Description Virtual UnPlug (VUP) the specified HID device.
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t virtual_unplug (bt_bdaddr_t *bd_addr)
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
char bd_str[18];
sprintf(bd_str, "%02X:%02X:%02X:%02X:%02X:%02X",
bd_addr->address[0], bd_addr->address[1], bd_addr->address[2], bd_addr->address[3],
bd_addr->address[4], bd_addr->address[5]);
if (btif_hh_cb.status == BTIF_HH_DISABLED)
{
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_dev_by_bda(bd_addr);
if (!p_dev)
{
BTIF_TRACE_ERROR2("%s: Error, device %s not opened.", __FUNCTION__, bd_str);
return BT_STATUS_FAIL;
}
btif_transfer_context(btif_hh_handle_evt, BTIF_HH_VUP_REQ_EVT,
(char*)bd_addr, sizeof(bt_bdaddr_t), NULL);
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function set_info
**
** Description Set the HID device descriptor for the specified HID device.
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t set_info (bt_bdaddr_t *bd_addr, bthh_hid_info_t hid_info )
{
CHECK_BTHH_INIT();
tBTA_HH_DEV_DSCP_INFO dscp_info;
BD_ADDR* bda = (BD_ADDR*) bd_addr;
BTIF_TRACE_DEBUG6("addr = %02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
BTIF_TRACE_DEBUG6("%s: sub_class = 0x%02x, app_id = %d, vendor_id = 0x%04x, "
"product_id = 0x%04x, version= 0x%04x",
__FUNCTION__, hid_info.sub_class,
hid_info.app_id, hid_info.vendor_id, hid_info.product_id,
hid_info.version);
if (btif_hh_cb.status == BTIF_HH_DISABLED)
{
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
dscp_info.vendor_id = hid_info.vendor_id;
dscp_info.product_id = hid_info.product_id;
dscp_info.version = hid_info.version;
dscp_info.ctry_code = hid_info.ctry_code;
dscp_info.descriptor.dl_len = hid_info.dl_len;
dscp_info.descriptor.dsc_list = (UINT8 *) GKI_getbuf(dscp_info.descriptor.dl_len);
if (dscp_info.descriptor.dsc_list == NULL)
{
ALOGE("%s: Failed to allocate DSCP for CB", __FUNCTION__);
return BT_STATUS_FAIL;
}
memcpy(dscp_info.descriptor.dsc_list, &(hid_info.dsc_list), hid_info.dl_len);
if (btif_hh_add_added_dev(*bd_addr, hid_info.attr_mask))
{
BTA_HhAddDev(*bda, hid_info.attr_mask, hid_info.sub_class,
hid_info.app_id, dscp_info);
}
GKI_freebuf(dscp_info.descriptor.dsc_list);
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function get_idle_time
**
** Description Get the HID idle time
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t get_idle_time(bt_bdaddr_t *bd_addr)
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
BD_ADDR* bda = (BD_ADDR*) bd_addr;
BTIF_TRACE_DEBUG6(" addr = %02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
if (btif_hh_cb.status == BTIF_HH_DISABLED) {
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev != NULL) {
//BTA_HhGetIdle(p_dev->dev_handle);
}
else {
return BT_STATUS_FAIL;
}
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function set_idle_time
**
** Description Set the HID idle time
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t set_idle_time (bt_bdaddr_t *bd_addr, uint8_t idle_time)
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
BD_ADDR* bda = (BD_ADDR*) bd_addr;
BTIF_TRACE_DEBUG6("addr = %02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
if (btif_hh_cb.status == BTIF_HH_DISABLED) {
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev == NULL) {
BTIF_TRACE_WARNING6(" Error, device %02X:%02X:%02X:%02X:%02X:%02X not opened.",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
return BT_STATUS_FAIL;
}
else {
//BTA_HhSetIdle(p_dev->dev_handle, idle_time);
}
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function get_protocol
**
** Description Get the HID proto mode.
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t get_protocol (bt_bdaddr_t *bd_addr, bthh_protocol_mode_t protocolMode)
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
BD_ADDR* bda = (BD_ADDR*) bd_addr;
BTIF_TRACE_DEBUG6(" addr = %02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
if (btif_hh_cb.status == BTIF_HH_DISABLED) {
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev != NULL) {
BTA_HhGetProtoMode(p_dev->dev_handle);
}
else {
return BT_STATUS_FAIL;
}
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function set_protocol
**
** Description Set the HID proto mode.
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t set_protocol (bt_bdaddr_t *bd_addr, bthh_protocol_mode_t protocolMode)
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
UINT8 proto_mode = protocolMode;
BD_ADDR* bda = (BD_ADDR*) bd_addr;
BTIF_TRACE_DEBUG2("%s:proto_mode = %d", __FUNCTION__,protocolMode);
BTIF_TRACE_DEBUG6("addr = %02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
if (btif_hh_cb.status == BTIF_HH_DISABLED) {
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev == NULL) {
BTIF_TRACE_WARNING6(" Error, device %02X:%02X:%02X:%02X:%02X:%02X not opened.",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
return BT_STATUS_FAIL;
}
else if (protocolMode != BTA_HH_PROTO_RPT_MODE && protocolMode != BTA_HH_PROTO_BOOT_MODE) {
BTIF_TRACE_WARNING2("s: Error, device proto_mode = %d.", __FUNCTION__, proto_mode);
return BT_STATUS_FAIL;
}
else {
BTA_HhSetProtoMode(p_dev->dev_handle, protocolMode);
}
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function get_report
**
** Description Send a GET_REPORT to HID device.
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t get_report (bt_bdaddr_t *bd_addr, bthh_report_type_t reportType, uint8_t reportId, int bufferSize)
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
BD_ADDR* bda = (BD_ADDR*) bd_addr;
BTIF_TRACE_DEBUG4("%s:proto_mode = %dr_type = %d, rpt_id = %d, buf_size = %d", __FUNCTION__,
reportType, reportId, bufferSize);
BTIF_TRACE_DEBUG6("addr = %02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
if (btif_hh_cb.status == BTIF_HH_DISABLED) {
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev == NULL) {
BTIF_TRACE_ERROR6("%s: Error, device %02X:%02X:%02X:%02X:%02X:%02X not opened.",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
return BT_STATUS_FAIL;
}
else if ( ((int) reportType) <= BTA_HH_RPTT_RESRV || ((int) reportType) > BTA_HH_RPTT_FEATURE) {
BTIF_TRACE_ERROR6(" Error, device %02X:%02X:%02X:%02X:%02X:%02X not opened.",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
return BT_STATUS_FAIL;
}
else {
BTA_HhGetReport(p_dev->dev_handle, reportType,
reportId, bufferSize);
}
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function set_report
**
** Description Send a SET_REPORT to HID device.
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t set_report (bt_bdaddr_t *bd_addr, bthh_report_type_t reportType, char* report)
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
BD_ADDR* bda = (BD_ADDR*) bd_addr;
BTIF_TRACE_DEBUG2("%s:reportType = %d", __FUNCTION__,reportType);
BTIF_TRACE_DEBUG6("addr = %02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
if (btif_hh_cb.status == BTIF_HH_DISABLED) {
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev == NULL) {
BTIF_TRACE_ERROR6("%s: Error, device %02X:%02X:%02X:%02X:%02X:%02X not opened.",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
return BT_STATUS_FAIL;
}
else if ( ( (int) reportType) <= BTA_HH_RPTT_RESRV || ( (int) reportType) > BTA_HH_RPTT_FEATURE) {
BTIF_TRACE_ERROR6(" Error, device %02X:%02X:%02X:%02X:%02X:%02X not opened.",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
return BT_STATUS_FAIL;
}
else {
int hex_bytes_filled;
UINT8 hexbuf[200];
UINT16 len = (strlen(report) + 1) / 2;
if (p_dev->p_buf != NULL) {
GKI_freebuf(p_dev->p_buf);
}
p_dev->p_buf = GKI_getbuf((UINT16) (len + BTA_HH_MIN_OFFSET + sizeof(BT_HDR)));
if (p_dev->p_buf == NULL) {
BTIF_TRACE_ERROR2("%s: Error, failed to allocate RPT buffer, len = %d", __FUNCTION__, len);
return BT_STATUS_FAIL;
}
p_dev->p_buf->len = len;
p_dev->p_buf->offset = BTA_HH_MIN_OFFSET;
/* Build a SetReport data buffer */
memset(hexbuf, 0, 200);
//TODO
hex_bytes_filled = ascii_2_hex(report, len, hexbuf);
ALOGI("Hex bytes filled, hex value: %d", hex_bytes_filled);
if (hex_bytes_filled) {
UINT8* pbuf_data;
pbuf_data = (UINT8*) (p_dev->p_buf + 1) + p_dev->p_buf->offset;
memcpy(pbuf_data, hexbuf, hex_bytes_filled);
BTA_HhSetReport(p_dev->dev_handle, reportType, p_dev->p_buf);
}
return BT_STATUS_SUCCESS;
}
}
/*******************************************************************************
**
** Function send_data
**
** Description Send a SEND_DATA to HID device.
**
** Returns bt_status_t
**
*******************************************************************************/
static bt_status_t send_data (bt_bdaddr_t *bd_addr, char* data)
{
CHECK_BTHH_INIT();
btif_hh_device_t *p_dev;
BD_ADDR* bda = (BD_ADDR*) bd_addr;
BTIF_TRACE_DEBUG1("%s", __FUNCTION__);
BTIF_TRACE_DEBUG6("addr = %02X:%02X:%02X:%02X:%02X:%02X",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
if (btif_hh_cb.status == BTIF_HH_DISABLED) {
BTIF_TRACE_ERROR2("%s: Error, HH status = %d", __FUNCTION__, btif_hh_cb.status);
return BT_STATUS_FAIL;
}
p_dev = btif_hh_find_connected_dev_by_bda(bd_addr);
if (p_dev == NULL) {
BTIF_TRACE_ERROR6("%s: Error, device %02X:%02X:%02X:%02X:%02X:%02X not opened.",
(*bda)[0], (*bda)[1], (*bda)[2], (*bda)[3], (*bda)[4], (*bda)[5]);
return BT_STATUS_FAIL;
}
else {
int hex_bytes_filled;
UINT8 hexbuf[200];
UINT16 len = (strlen(data) + 1) / 2;
if (p_dev->p_buf != NULL) {
GKI_freebuf(p_dev->p_buf);
}
p_dev->p_buf = GKI_getbuf((UINT16) (len + BTA_HH_MIN_OFFSET + sizeof(BT_HDR)));
if (p_dev->p_buf == NULL) {
BTIF_TRACE_ERROR2("%s: Error, failed to allocate RPT buffer, len = %d", __FUNCTION__, len);
return BT_STATUS_FAIL;
}
p_dev->p_buf->len = len;
p_dev->p_buf->offset = BTA_HH_MIN_OFFSET;
/* Build a SetReport data buffer */
memset(hexbuf, 0, 200);
hex_bytes_filled = ascii_2_hex(data, len, hexbuf);
BTIF_TRACE_ERROR2("Hex bytes filled, hex value: %d, %d", hex_bytes_filled, len);
if (hex_bytes_filled) {
UINT8* pbuf_data;
pbuf_data = (UINT8*) (p_dev->p_buf + 1) + p_dev->p_buf->offset;
memcpy(pbuf_data, hexbuf, hex_bytes_filled);
BTA_HhSendData(p_dev->dev_handle, *bda, p_dev->p_buf);
return BT_STATUS_SUCCESS;
}
}
return BT_STATUS_FAIL;
}
/*******************************************************************************
**
** Function cleanup
**
** Description Closes the HH interface
**
** Returns bt_status_t
**
*******************************************************************************/
static void cleanup( void )
{
BTIF_TRACE_EVENT1("%s", __FUNCTION__);
btif_hh_device_t *p_dev;
int i;
if (btif_hh_cb.status == BTIF_HH_DISABLED) {
BTIF_TRACE_WARNING2("%s: HH disabling or disabled already, status = %d", __FUNCTION__, btif_hh_cb.status);
return;
}
btif_hh_cb.status = BTIF_HH_DISABLING;
for (i = 0; i < BTIF_HH_MAX_HID; i++) {
p_dev = &btif_hh_cb.devices[i];
if (p_dev->dev_status != BTHH_CONN_STATE_UNKNOWN && p_dev->fd >= 0) {
BTIF_TRACE_DEBUG2("%s: Closing uhid fd = %d", __FUNCTION__, p_dev->fd);
bta_hh_co_destroy(p_dev->fd);
p_dev->fd = -1;
}
}
if (bt_hh_callbacks)
{
btif_disable_service(BTA_HID_SERVICE_ID);
bt_hh_callbacks = NULL;
}
}
static const bthh_interface_t bthhInterface = {
sizeof(bt_interface_t),
init,
connect,
disconnect,
virtual_unplug,
set_info,
get_protocol,
set_protocol,
// get_idle_time,
// set_idle_time,
get_report,
set_report,
send_data,
cleanup,
};
/*******************************************************************************
**
** Function btif_hh_execute_service
**
** Description Initializes/Shuts down the service
**
** Returns BT_STATUS_SUCCESS on success, BT_STATUS_FAIL otherwise
**
*******************************************************************************/
bt_status_t btif_hh_execute_service(BOOLEAN b_enable)
{
if (b_enable)
{
/* Enable and register with BTA-HH */
BTA_HhEnable(BTA_SEC_NONE, FALSE, bte_hh_evt);
}
else {
/* Disable HH */
BTA_HhDisable();
}
return BT_STATUS_SUCCESS;
}
/*******************************************************************************
**
** Function btif_hh_get_interface
**
** Description Get the hh callback interface
**
** Returns bthh_interface_t
**
*******************************************************************************/
const bthh_interface_t *btif_hh_get_interface()
{
BTIF_TRACE_EVENT1("%s", __FUNCTION__);
return &bthhInterface;
}
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