/*
* Custom OID/ioctl definitions for
* Broadcom 802.11abg Networking Device Driver
*
* Definitions subject to change without notice.
*
* Copyright (C) 1999-2014, Broadcom Corporation
*
* Unless you and Broadcom execute a separate written software license
* agreement governing use of this software, this software is licensed to you
* under the terms of the GNU General Public License version 2 (the "GPL"),
* available at http://www.broadcom.com/licenses/GPLv2.php, with the
* following added to such license:
*
* As a special exception, the copyright holders of this software give you
* permission to link this software with independent modules, and to copy and
* distribute the resulting executable under terms of your choice, provided that
* you also meet, for each linked independent module, the terms and conditions of
* the license of that module. An independent module is a module which is not
* derived from this software. The special exception does not apply to any
* modifications of the software.
*
* Notwithstanding the above, under no circumstances may you combine this
* software in any way with any other Broadcom software provided under a license
* other than the GPL, without Broadcom's express prior written consent.
*
* $Id: wlioctl.h 450748 2014-01-23 00:49:46Z $
*/
#ifndef _wlioctl_h_
#define _wlioctl_h_
#include <typedefs.h>
#include <proto/ethernet.h>
#include <proto/bcmip.h>
#include <proto/bcmeth.h>
#include <proto/bcmip.h>
#include <proto/bcmevent.h>
#include <proto/802.11.h>
#include <proto/802.1d.h>
#include <bcmwifi_channels.h>
#include <bcmwifi_rates.h>
#include <devctrl_if/wlioctl_defs.h>
#include <bcm_mpool_pub.h>
#include <bcmcdc.h>
#ifndef INTF_NAME_SIZ
#define INTF_NAME_SIZ 16
#endif
/* Used to send ioctls over the transport pipe */
typedef struct remote_ioctl {
cdc_ioctl_t msg;
uint32 data_len;
char intf_name[INTF_NAME_SIZ];
} rem_ioctl_t;
#define REMOTE_SIZE sizeof(rem_ioctl_t)
typedef struct {
uint32 num;
chanspec_t list[1];
} chanspec_list_t;
/* association decision information */
typedef struct {
bool assoc_approved; /* (re)association approved */
uint16 reject_reason; /* reason code for rejecting association */
struct ether_addr da;
int64 sys_time; /* current system time */
} assoc_decision_t;
#define ACTION_FRAME_SIZE 1800
typedef struct wl_action_frame {
struct ether_addr da;
uint16 len;
uint32 packetId;
uint8 data[ACTION_FRAME_SIZE];
} wl_action_frame_t;
#define WL_WIFI_ACTION_FRAME_SIZE sizeof(struct wl_action_frame)
typedef struct ssid_info
{
uint8 ssid_len; /* the length of SSID */
uint8 ssid[32]; /* SSID string */
} ssid_info_t;
typedef struct wl_af_params {
uint32 channel;
int32 dwell_time;
struct ether_addr BSSID;
wl_action_frame_t action_frame;
} wl_af_params_t;
#define WL_WIFI_AF_PARAMS_SIZE sizeof(struct wl_af_params)
#define MFP_TEST_FLAG_NORMAL 0
#define MFP_TEST_FLAG_ANY_KEY 1
typedef struct wl_sa_query {
uint32 flag;
uint8 action;
uint16 id;
struct ether_addr da;
} wl_sa_query_t;
/* require default structure packing */
#define BWL_DEFAULT_PACKING
#include <packed_section_start.h>
/* Legacy structure to help keep backward compatible wl tool and tray app */
#define LEGACY_WL_BSS_INFO_VERSION 107 /* older version of wl_bss_info struct */
typedef struct wl_bss_info_107 {
uint32 version; /* version field */
uint32 length; /* byte length of data in this record,
* starting at version and including IEs
*/
struct ether_addr BSSID;
uint16 beacon_period; /* units are Kusec */
uint16 capability; /* Capability information */
uint8 SSID_len;
uint8 SSID[32];
struct {
uint count; /* # rates in this set */
uint8 rates[16]; /* rates in 500kbps units w/hi bit set if basic */
} rateset; /* supported rates */
uint8 channel; /* Channel no. */
uint16 atim_window; /* units are Kusec */
uint8 dtim_period; /* DTIM period */
int16 RSSI; /* receive signal strength (in dBm) */
int8 phy_noise; /* noise (in dBm) */
uint32 ie_length; /* byte length of Information Elements */
/* variable length Information Elements */
} wl_bss_info_107_t;
/*
* Per-BSS information structure.
*/
#define LEGACY2_WL_BSS_INFO_VERSION 108 /* old version of wl_bss_info struct */
/* BSS info structure
* Applications MUST CHECK ie_offset field and length field to access IEs and
* next bss_info structure in a vector (in wl_scan_results_t)
*/
typedef struct wl_bss_info_108 {
uint32 version; /* version field */
uint32 length; /* byte length of data in this record,
* starting at version and including IEs
*/
struct ether_addr BSSID;
uint16 beacon_period; /* units are Kusec */
uint16 capability; /* Capability information */
uint8 SSID_len;
uint8 SSID[32];
struct {
uint count; /* # rates in this set */
uint8 rates[16]; /* rates in 500kbps units w/hi bit set if basic */
} rateset; /* supported rates */
chanspec_t chanspec; /* chanspec for bss */
uint16 atim_window; /* units are Kusec */
uint8 dtim_period; /* DTIM period */
int16 RSSI; /* receive signal strength (in dBm) */
int8 phy_noise; /* noise (in dBm) */
uint8 n_cap; /* BSS is 802.11N Capable */
uint32 nbss_cap; /* 802.11N BSS Capabilities (based on HT_CAP_*) */
uint8 ctl_ch; /* 802.11N BSS control channel number */
uint32 reserved32[1]; /* Reserved for expansion of BSS properties */
uint8 flags; /* flags */
uint8 reserved[3]; /* Reserved for expansion of BSS properties */
uint8 basic_mcs[MCSSET_LEN]; /* 802.11N BSS required MCS set */
uint16 ie_offset; /* offset at which IEs start, from beginning */
uint32 ie_length; /* byte length of Information Elements */
/* Add new fields here */
/* variable length Information Elements */
} wl_bss_info_108_t;
#define WL_BSS_INFO_VERSION 109 /* current version of wl_bss_info struct */
/* BSS info structure
* Applications MUST CHECK ie_offset field and length field to access IEs and
* next bss_info structure in a vector (in wl_scan_results_t)
*/
typedef struct wl_bss_info {
uint32 version; /* version field */
uint32 length; /* byte length of data in this record,
* starting at version and including IEs
*/
struct ether_addr BSSID;
uint16 beacon_period; /* units are Kusec */
uint16 capability; /* Capability information */
uint8 SSID_len;
uint8 SSID[32];
struct {
uint count; /* # rates in this set */
uint8 rates[16]; /* rates in 500kbps units w/hi bit set if basic */
} rateset; /* supported rates */
chanspec_t chanspec; /* chanspec for bss */
uint16 atim_window; /* units are Kusec */
uint8 dtim_period; /* DTIM period */
int16 RSSI; /* receive signal strength (in dBm) */
int8 phy_noise; /* noise (in dBm) */
uint8 n_cap; /* BSS is 802.11N Capable */
uint32 nbss_cap; /* 802.11N+AC BSS Capabilities */
uint8 ctl_ch; /* 802.11N BSS control channel number */
uint8 padding1[3]; /* explicit struct alignment padding */
uint16 vht_rxmcsmap; /* VHT rx mcs map (802.11ac IE, VHT_CAP_MCS_MAP_*) */
uint16 vht_txmcsmap; /* VHT tx mcs map (802.11ac IE, VHT_CAP_MCS_MAP_*) */
uint8 flags; /* flags */
uint8 vht_cap; /* BSS is vht capable */
uint8 reserved[2]; /* Reserved for expansion of BSS properties */
uint8 basic_mcs[MCSSET_LEN]; /* 802.11N BSS required MCS set */
uint16 ie_offset; /* offset at which IEs start, from beginning */
uint32 ie_length; /* byte length of Information Elements */
int16 SNR; /* average SNR of during frame reception */
/* Add new fields here */
/* variable length Information Elements */
} wl_bss_info_t;
typedef struct wl_bsscfg {
uint32 bsscfg_idx;
uint32 wsec;
uint32 WPA_auth;
uint32 wsec_index;
uint32 associated;
uint32 BSS;
uint32 phytest_on;
struct ether_addr prev_BSSID;
struct ether_addr BSSID;
uint32 targetbss_wpa2_flags;
uint32 assoc_type;
uint32 assoc_state;
} wl_bsscfg_t;
typedef struct wl_if_add {
uint32 bsscfg_flags;
uint32 if_flags;
uint32 ap;
struct ether_addr mac_addr;
} wl_if_add_t;
typedef struct wl_bss_config {
uint32 atim_window;
uint32 beacon_period;
uint32 chanspec;
} wl_bss_config_t;
#define WL_BSS_USER_RADAR_CHAN_SELECT 0x1 /* User application will randomly select
* radar channel.
*/
#define DLOAD_HANDLER_VER 1 /* Downloader version */
#define DLOAD_FLAG_VER_MASK 0xf000 /* Downloader version mask */
#define DLOAD_FLAG_VER_SHIFT 12 /* Downloader version shift */
#define DL_CRC_NOT_INUSE 0x0001
/* generic download types & flags */
enum {
DL_TYPE_UCODE = 1,
DL_TYPE_CLM = 2
};
/* ucode type values */
enum {
UCODE_FW,
INIT_VALS,
BS_INIT_VALS
};
struct wl_dload_data {
uint16 flag;
uint16 dload_type;
uint32 len;
uint32 crc;
uint8 data[1];
};
typedef struct wl_dload_data wl_dload_data_t;
struct wl_ucode_info {
uint32 ucode_type;
uint32 num_chunks;
uint32 chunk_len;
uint32 chunk_num;
uint8 data_chunk[1];
};
typedef struct wl_ucode_info wl_ucode_info_t;
struct wl_clm_dload_info {
uint32 ds_id;
uint32 clm_total_len;
uint32 num_chunks;
uint32 chunk_len;
uint32 chunk_offset;
uint8 data_chunk[1];
};
typedef struct wl_clm_dload_info wl_clm_dload_info_t;
typedef struct wlc_ssid {
uint32 SSID_len;
uchar SSID[DOT11_MAX_SSID_LEN];
} wlc_ssid_t;
#define MAX_PREFERRED_AP_NUM 5
typedef struct wlc_fastssidinfo {
uint32 SSID_channel[MAX_PREFERRED_AP_NUM];
wlc_ssid_t SSID_info[MAX_PREFERRED_AP_NUM];
} wlc_fastssidinfo_t;
typedef BWL_PRE_PACKED_STRUCT struct wnm_url {
uint8 len;
uint8 data[1];
} BWL_POST_PACKED_STRUCT wnm_url_t;
typedef struct chan_scandata {
uint8 txpower;
uint8 pad;
chanspec_t channel; /* Channel num, bw, ctrl_sb and band */
uint32 channel_mintime;
uint32 channel_maxtime;
} chan_scandata_t;
typedef enum wl_scan_type {
EXTDSCAN_FOREGROUND_SCAN,
EXTDSCAN_BACKGROUND_SCAN,
EXTDSCAN_FORCEDBACKGROUND_SCAN
} wl_scan_type_t;
#define WLC_EXTDSCAN_MAX_SSID 5
typedef struct wl_extdscan_params {
int8 nprobes; /* 0, passive, otherwise active */
int8 split_scan; /* split scan */
int8 band; /* band */
int8 pad;
wlc_ssid_t ssid[WLC_EXTDSCAN_MAX_SSID]; /* ssid list */
uint32 tx_rate; /* in 500ksec units */
wl_scan_type_t scan_type; /* enum */
int32 channel_num;
chan_scandata_t channel_list[1]; /* list of chandata structs */
} wl_extdscan_params_t;
#define WL_EXTDSCAN_PARAMS_FIXED_SIZE (sizeof(wl_extdscan_params_t) - sizeof(chan_scandata_t))
#define WL_SCAN_PARAMS_SSID_MAX 10
typedef struct wl_scan_params {
wlc_ssid_t ssid; /* default: {0, ""} */
struct ether_addr bssid; /* default: bcast */
int8 bss_type; /* default: any,
* DOT11_BSSTYPE_ANY/INFRASTRUCTURE/INDEPENDENT
*/
uint8 scan_type; /* flags, 0 use default */
int32 nprobes; /* -1 use default, number of probes per channel */
int32 active_time; /* -1 use default, dwell time per channel for
* active scanning
*/
int32 passive_time; /* -1 use default, dwell time per channel
* for passive scanning
*/
int32 home_time; /* -1 use default, dwell time for the home channel
* between channel scans
*/
int32 channel_num; /* count of channels and ssids that follow
*
* low half is count of channels in channel_list, 0
* means default (use all available channels)
*
* high half is entries in wlc_ssid_t array that
* follows channel_list, aligned for int32 (4 bytes)
* meaning an odd channel count implies a 2-byte pad
* between end of channel_list and first ssid
*
* if ssid count is zero, single ssid in the fixed
* parameter portion is assumed, otherwise ssid in
* the fixed portion is ignored
*/
uint16 channel_list[1]; /* list of chanspecs */
} wl_scan_params_t;
/* size of wl_scan_params not including variable length array */
#define WL_SCAN_PARAMS_FIXED_SIZE 64
#define ISCAN_REQ_VERSION 1
/* incremental scan struct */
typedef struct wl_iscan_params {
uint32 version;
uint16 action;
uint16 scan_duration;
wl_scan_params_t params;
} wl_iscan_params_t;
/* 3 fields + size of wl_scan_params, not including variable length array */
#define WL_ISCAN_PARAMS_FIXED_SIZE (OFFSETOF(wl_iscan_params_t, params) + sizeof(wlc_ssid_t))
typedef struct wl_scan_results {
uint32 buflen;
uint32 version;
uint32 count;
wl_bss_info_t bss_info[1];
} wl_scan_results_t;
/* size of wl_scan_results not including variable length array */
#define WL_SCAN_RESULTS_FIXED_SIZE (sizeof(wl_scan_results_t) - sizeof(wl_bss_info_t))
/* Used in EXT_STA */
#define DNGL_RXCTXT_SIZE 45
#if defined(SIMPLE_ISCAN)
/* the buf lengh can be WLC_IOCTL_MAXLEN (8K) to reduce iteration */
#define WLC_IW_ISCAN_MAXLEN 2048
typedef struct iscan_buf {
struct iscan_buf * next;
char iscan_buf[WLC_IW_ISCAN_MAXLEN];
} iscan_buf_t;
#endif /* SIMPLE_ISCAN */
#define ESCAN_REQ_VERSION 1
typedef struct wl_escan_params {
uint32 version;
uint16 action;
uint16 sync_id;
wl_scan_params_t params;
} wl_escan_params_t;
#define WL_ESCAN_PARAMS_FIXED_SIZE (OFFSETOF(wl_escan_params_t, params) + sizeof(wlc_ssid_t))
typedef struct wl_escan_result {
uint32 buflen;
uint32 version;
uint16 sync_id;
uint16 bss_count;
wl_bss_info_t bss_info[1];
} wl_escan_result_t;
#define WL_ESCAN_RESULTS_FIXED_SIZE (sizeof(wl_escan_result_t) - sizeof(wl_bss_info_t))
/* incremental scan results struct */
typedef struct wl_iscan_results {
uint32 status;
wl_scan_results_t results;
} wl_iscan_results_t;
/* size of wl_iscan_results not including variable length array */
#define WL_ISCAN_RESULTS_FIXED_SIZE \
(WL_SCAN_RESULTS_FIXED_SIZE + OFFSETOF(wl_iscan_results_t, results))
#define SCANOL_PARAMS_VERSION 1
typedef struct scanol_params {
uint32 version;
uint32 flags; /* offload scanning flags */
int32 active_time; /* -1 use default, dwell time per channel for active scanning */
int32 passive_time; /* -1 use default, dwell time per channel for passive scanning */
int32 idle_rest_time; /* -1 use default, time idle between scan cycle */
int32 idle_rest_time_multiplier;
int32 active_rest_time;
int32 active_rest_time_multiplier;
int32 scan_cycle_idle_rest_time;
int32 scan_cycle_idle_rest_multiplier;
int32 scan_cycle_active_rest_time;
int32 scan_cycle_active_rest_multiplier;
int32 max_rest_time;
int32 max_scan_cycles;
int32 nprobes; /* -1 use default, number of probes per channel */
int32 scan_start_delay;
uint32 nchannels;
uint32 ssid_count;
wlc_ssid_t ssidlist[1];
} scanol_params_t;
typedef struct wl_probe_params {
wlc_ssid_t ssid;
struct ether_addr bssid;
struct ether_addr mac;
} wl_probe_params_t;
#define WL_MAXRATES_IN_SET 16 /* max # of rates in a rateset */
typedef struct wl_rateset {
uint32 count; /* # rates in this set */
uint8 rates[WL_MAXRATES_IN_SET]; /* rates in 500kbps units w/hi bit set if basic */
} wl_rateset_t;
typedef struct wl_rateset_args {
uint32 count; /* # rates in this set */
uint8 rates[WL_MAXRATES_IN_SET]; /* rates in 500kbps units w/hi bit set if basic */
uint8 mcs[MCSSET_LEN]; /* supported mcs index bit map */
uint16 vht_mcs[VHT_CAP_MCS_MAP_NSS_MAX]; /* supported mcs index bit map per nss */
} wl_rateset_args_t;
#define TXBF_RATE_MCS_ALL 4
#define TXBF_RATE_VHT_ALL 4
#define TXBF_RATE_OFDM_ALL 8
typedef struct wl_txbf_rateset {
uint8 txbf_rate_mcs[TXBF_RATE_MCS_ALL]; /* one for each stream */
uint8 txbf_rate_mcs_bcm[TXBF_RATE_MCS_ALL]; /* one for each stream */
uint16 txbf_rate_vht[TXBF_RATE_VHT_ALL]; /* one for each stream */
uint16 txbf_rate_vht_bcm[TXBF_RATE_VHT_ALL]; /* one for each stream */
uint8 txbf_rate_ofdm[TXBF_RATE_OFDM_ALL]; /* bitmap of ofdm rates that enables txbf */
uint8 txbf_rate_ofdm_bcm[TXBF_RATE_OFDM_ALL]; /* bitmap of ofdm rates that enables txbf */
uint8 txbf_rate_ofdm_cnt;
uint8 txbf_rate_ofdm_cnt_bcm;
} wl_txbf_rateset_t;
#define OFDM_RATE_MASK 0x0000007f
typedef uint8 ofdm_rates_t;
typedef struct wl_rates_info {
wl_rateset_t rs_tgt;
uint32 phy_type;
int32 bandtype;
uint8 cck_only;
uint8 rate_mask;
uint8 mcsallow;
uint8 bw;
uint8 txstreams;
} wl_rates_info_t;
/* uint32 list */
typedef struct wl_uint32_list {
/* in - # of elements, out - # of entries */
uint32 count;
/* variable length uint32 list */
uint32 element[1];
} wl_uint32_list_t;
/* used for association with a specific BSSID and chanspec list */
typedef struct wl_assoc_params {
struct ether_addr bssid; /* 00:00:00:00:00:00: broadcast scan */
uint16 bssid_cnt; /* 0: use chanspec_num, and the single bssid,
* otherwise count of chanspecs in chanspec_list
* AND paired bssids following chanspec_list
* also, chanspec_num has to be set to zero
* for bssid list to be used
*/
int32 chanspec_num; /* 0: all available channels,
* otherwise count of chanspecs in chanspec_list
*/
chanspec_t chanspec_list[1]; /* list of chanspecs */
} wl_assoc_params_t;
#define WL_ASSOC_PARAMS_FIXED_SIZE OFFSETOF(wl_assoc_params_t, chanspec_list)
/* used for reassociation/roam to a specific BSSID and channel */
typedef wl_assoc_params_t wl_reassoc_params_t;
#define WL_REASSOC_PARAMS_FIXED_SIZE WL_ASSOC_PARAMS_FIXED_SIZE
/* used for association to a specific BSSID and channel */
typedef wl_assoc_params_t wl_join_assoc_params_t;
#define WL_JOIN_ASSOC_PARAMS_FIXED_SIZE WL_ASSOC_PARAMS_FIXED_SIZE
/* used for join with or without a specific bssid and channel list */
typedef struct wl_join_params {
wlc_ssid_t ssid;
wl_assoc_params_t params; /* optional field, but it must include the fixed portion
* of the wl_assoc_params_t struct when it does present.
*/
} wl_join_params_t;
#define WL_JOIN_PARAMS_FIXED_SIZE (OFFSETOF(wl_join_params_t, params) + \
WL_ASSOC_PARAMS_FIXED_SIZE)
/* scan params for extended join */
typedef struct wl_join_scan_params {
uint8 scan_type; /* 0 use default, active or passive scan */
int32 nprobes; /* -1 use default, number of probes per channel */
int32 active_time; /* -1 use default, dwell time per channel for
* active scanning
*/
int32 passive_time; /* -1 use default, dwell time per channel
* for passive scanning
*/
int32 home_time; /* -1 use default, dwell time for the home channel
* between channel scans
*/
} wl_join_scan_params_t;
/* extended join params */
typedef struct wl_extjoin_params {
wlc_ssid_t ssid; /* {0, ""}: wildcard scan */
wl_join_scan_params_t scan;
wl_join_assoc_params_t assoc; /* optional field, but it must include the fixed portion
* of the wl_join_assoc_params_t struct when it does
* present.
*/
} wl_extjoin_params_t;
#define WL_EXTJOIN_PARAMS_FIXED_SIZE (OFFSETOF(wl_extjoin_params_t, assoc) + \
WL_JOIN_ASSOC_PARAMS_FIXED_SIZE)
#define ANT_SELCFG_MAX 4 /* max number of antenna configurations */
#define MAX_STREAMS_SUPPORTED 4 /* max number of streams supported */
typedef struct {
uint8 ant_config[ANT_SELCFG_MAX]; /* antenna configuration */
uint8 num_antcfg; /* number of available antenna configurations */
} wlc_antselcfg_t;
typedef struct {
uint32 duration; /* millisecs spent sampling this channel */
uint32 congest_ibss; /* millisecs in our bss (presumably this traffic will */
/* move if cur bss moves channels) */
uint32 congest_obss; /* traffic not in our bss */
uint32 interference; /* millisecs detecting a non 802.11 interferer. */
uint32 timestamp; /* second timestamp */
} cca_congest_t;
typedef struct {
chanspec_t chanspec; /* Which channel? */
uint8 num_secs; /* How many secs worth of data */
cca_congest_t secs[1]; /* Data */
} cca_congest_channel_req_t;
/* interference sources */
enum interference_source {
ITFR_NONE = 0, /* interference */
ITFR_PHONE, /* wireless phone */
ITFR_VIDEO_CAMERA, /* wireless video camera */
ITFR_MICROWAVE_OVEN, /* microwave oven */
ITFR_BABY_MONITOR, /* wireless baby monitor */
ITFR_BLUETOOTH, /* bluetooth */
ITFR_VIDEO_CAMERA_OR_BABY_MONITOR, /* wireless camera or baby monitor */
ITFR_BLUETOOTH_OR_BABY_MONITOR, /* bluetooth or baby monitor */
ITFR_VIDEO_CAMERA_OR_PHONE, /* video camera or phone */
ITFR_UNIDENTIFIED /* interference from unidentified source */
};
/* structure for interference source report */
typedef struct {
uint32 flags; /* flags. bit definitions below */
uint32 source; /* last detected interference source */
uint32 timestamp; /* second timestamp on interferenced flag change */
} interference_source_rep_t;
#define WLC_CNTRY_BUF_SZ 4 /* Country string is 3 bytes + NUL */
typedef struct wl_country {
char country_abbrev[WLC_CNTRY_BUF_SZ]; /* nul-terminated country code used in
* the Country IE
*/
int32 rev; /* revision specifier for ccode
* on set, -1 indicates unspecified.
* on get, rev >= 0
*/
char ccode[WLC_CNTRY_BUF_SZ]; /* nul-terminated built-in country code.
* variable length, but fixed size in
* struct allows simple allocation for
* expected country strings <= 3 chars.
*/
} wl_country_t;
typedef struct wl_channels_in_country {
uint32 buflen;
uint32 band;
char country_abbrev[WLC_CNTRY_BUF_SZ];
uint32 count;
uint32 channel[1];
} wl_channels_in_country_t;
typedef struct wl_country_list {
uint32 buflen;
uint32 band_set;
uint32 band;
uint32 count;
char country_abbrev[1];
} wl_country_list_t;
typedef struct wl_rm_req_elt {
int8 type;
int8 flags;
chanspec_t chanspec;
uint32 token; /* token for this measurement */
uint32 tsf_h; /* TSF high 32-bits of Measurement start time */
uint32 tsf_l; /* TSF low 32-bits */
uint32 dur; /* TUs */
} wl_rm_req_elt_t;
typedef struct wl_rm_req {
uint32 token; /* overall measurement set token */
uint32 count; /* number of measurement requests */
void *cb; /* completion callback function: may be NULL */
void *cb_arg; /* arg to completion callback function */
wl_rm_req_elt_t req[1]; /* variable length block of requests */
} wl_rm_req_t;
#define WL_RM_REQ_FIXED_LEN OFFSETOF(wl_rm_req_t, req)
typedef struct wl_rm_rep_elt {
int8 type;
int8 flags;
chanspec_t chanspec;
uint32 token; /* token for this measurement */
uint32 tsf_h; /* TSF high 32-bits of Measurement start time */
uint32 tsf_l; /* TSF low 32-bits */
uint32 dur; /* TUs */
uint32 len; /* byte length of data block */
uint8 data[1]; /* variable length data block */
} wl_rm_rep_elt_t;
#define WL_RM_REP_ELT_FIXED_LEN 24 /* length excluding data block */
#define WL_RPI_REP_BIN_NUM 8
typedef struct wl_rm_rpi_rep {
uint8 rpi[WL_RPI_REP_BIN_NUM];
int8 rpi_max[WL_RPI_REP_BIN_NUM];
} wl_rm_rpi_rep_t;
typedef struct wl_rm_rep {
uint32 token; /* overall measurement set token */
uint32 len; /* length of measurement report block */
wl_rm_rep_elt_t rep[1]; /* variable length block of reports */
} wl_rm_rep_t;
#define WL_RM_REP_FIXED_LEN 8
#ifdef BCMCCX
#define LEAP_USER_MAX 32
#define LEAP_DOMAIN_MAX 32
#define LEAP_PASSWORD_MAX 32
typedef struct wl_leap_info {
wlc_ssid_t ssid;
uint8 user_len;
uchar user[LEAP_USER_MAX];
uint8 password_len;
uchar password[LEAP_PASSWORD_MAX];
uint8 domain_len;
uchar domain[LEAP_DOMAIN_MAX];
} wl_leap_info_t;
typedef struct wl_leap_list {
uint32 buflen;
uint32 version;
uint32 count;
wl_leap_info_t leap_info[1];
} wl_leap_list_t;
#endif /* BCMCCX */
typedef enum sup_auth_status {
/* Basic supplicant authentication states */
WLC_SUP_DISCONNECTED = 0,
WLC_SUP_CONNECTING,
WLC_SUP_IDREQUIRED,
WLC_SUP_AUTHENTICATING,
WLC_SUP_AUTHENTICATED,
WLC_SUP_KEYXCHANGE,
WLC_SUP_KEYED,
WLC_SUP_TIMEOUT,
WLC_SUP_LAST_BASIC_STATE,
/* Extended supplicant authentication states */
/* Waiting to receive handshake msg M1 */
WLC_SUP_KEYXCHANGE_WAIT_M1 = WLC_SUP_AUTHENTICATED,
/* Preparing to send handshake msg M2 */
WLC_SUP_KEYXCHANGE_PREP_M2 = WLC_SUP_KEYXCHANGE,
/* Waiting to receive handshake msg M3 */
WLC_SUP_KEYXCHANGE_WAIT_M3 = WLC_SUP_LAST_BASIC_STATE,
WLC_SUP_KEYXCHANGE_PREP_M4, /* Preparing to send handshake msg M4 */
WLC_SUP_KEYXCHANGE_WAIT_G1, /* Waiting to receive handshake msg G1 */
WLC_SUP_KEYXCHANGE_PREP_G2 /* Preparing to send handshake msg G2 */
} sup_auth_status_t;
typedef struct wl_wsec_key {
uint32 index; /* key index */
uint32 len; /* key length */
uint8 data[DOT11_MAX_KEY_SIZE]; /* key data */
uint32 pad_1[18];
uint32 algo; /* CRYPTO_ALGO_AES_CCM, CRYPTO_ALGO_WEP128, etc */
uint32 flags; /* misc flags */
uint32 pad_2[2];
int pad_3;
int iv_initialized; /* has IV been initialized already? */
int pad_4;
/* Rx IV */
struct {
uint32 hi; /* upper 32 bits of IV */
uint16 lo; /* lower 16 bits of IV */
} rxiv;
uint32 pad_5[2];
struct ether_addr ea; /* per station */
} wl_wsec_key_t;
#define WSEC_MIN_PSK_LEN 8
#define WSEC_MAX_PSK_LEN 64
/* Flag for key material needing passhash'ing */
#define WSEC_PASSPHRASE (1<<0)
/* receptacle for WLC_SET_WSEC_PMK parameter */
typedef struct {
ushort key_len; /* octets in key material */
ushort flags; /* key handling qualification */
uint8 key[WSEC_MAX_PSK_LEN]; /* PMK material */
} wsec_pmk_t;
typedef struct _pmkid {
struct ether_addr BSSID;
uint8 PMKID[WPA2_PMKID_LEN];
} pmkid_t;
typedef struct _pmkid_list {
uint32 npmkid;
pmkid_t pmkid[1];
} pmkid_list_t;
typedef struct _pmkid_cand {
struct ether_addr BSSID;
uint8 preauth;
} pmkid_cand_t;
typedef struct _pmkid_cand_list {
uint32 npmkid_cand;
pmkid_cand_t pmkid_cand[1];
} pmkid_cand_list_t;
#define WL_STA_ANT_MAX 4 /* max possible rx antennas */
typedef struct wl_assoc_info {
uint32 req_len;
uint32 resp_len;
uint32 flags;
struct dot11_assoc_req req;
struct ether_addr reassoc_bssid; /* used in reassoc's */
struct dot11_assoc_resp resp;
} wl_assoc_info_t;
typedef struct wl_led_info {
uint32 index; /* led index */
uint32 behavior;
uint8 activehi;
} wl_led_info_t;
/* srom read/write struct passed through ioctl */
typedef struct {
uint byteoff; /* byte offset */
uint nbytes; /* number of bytes */
uint16 buf[1];
} srom_rw_t;
/* similar cis (srom or otp) struct [iovar: may not be aligned] */
typedef struct {
uint32 source; /* cis source */
uint32 byteoff; /* byte offset */
uint32 nbytes; /* number of bytes */
/* data follows here */
} cis_rw_t;
/* R_REG and W_REG struct passed through ioctl */
typedef struct {
uint32 byteoff; /* byte offset of the field in d11regs_t */
uint32 val; /* read/write value of the field */
uint32 size; /* sizeof the field */
uint band; /* band (optional) */
} rw_reg_t;
/* Structure used by GET/SET_ATTEN ioctls - it controls power in b/g-band */
/* PCL - Power Control Loop */
typedef struct {
uint16 auto_ctrl; /* WL_ATTEN_XX */
uint16 bb; /* Baseband attenuation */
uint16 radio; /* Radio attenuation */
uint16 txctl1; /* Radio TX_CTL1 value */
} atten_t;
/* Per-AC retry parameters */
struct wme_tx_params_s {
uint8 short_retry;
uint8 short_fallback;
uint8 long_retry;
uint8 long_fallback;
uint16 max_rate; /* In units of 512 Kbps */
};
typedef struct wme_tx_params_s wme_tx_params_t;
#define WL_WME_TX_PARAMS_IO_BYTES (sizeof(wme_tx_params_t) * AC_COUNT)
typedef struct wl_plc_nodelist {
uint32 count; /* Number of nodes */
struct _node {
struct ether_addr ea; /* Node ether address */
uint32 node_type; /* Node type */
uint32 cost; /* PLC affinity */
} node[1];
} wl_plc_nodelist_t;
typedef struct wl_plc_params {
uint32 cmd; /* Command */
uint8 plc_failover; /* PLC failover control/status */
struct ether_addr node_ea; /* Node ether address */
uint32 cost; /* Link cost or mac cost */
} wl_plc_params_t;
/* Used to get specific link/ac parameters */
typedef struct {
int32 ac;
uint8 val;
struct ether_addr ea;
} link_val_t;
typedef struct {
uint16 ver; /* version of this struct */
uint16 len; /* length in bytes of this structure */
uint16 cap; /* sta's advertised capabilities */
uint32 flags; /* flags defined below */
uint32 idle; /* time since data pkt rx'd from sta */
struct ether_addr ea; /* Station address */
wl_rateset_t rateset; /* rateset in use */
uint32 in; /* seconds elapsed since associated */
uint32 listen_interval_inms; /* Min Listen interval in ms for this STA */
uint32 tx_pkts; /* # of packets transmitted */
uint32 tx_failures; /* # of packets failed */
uint32 rx_ucast_pkts; /* # of unicast packets received */
uint32 rx_mcast_pkts; /* # of multicast packets received */
uint32 tx_rate; /* Rate of last successful tx frame */
uint32 rx_rate; /* Rate of last successful rx frame */
uint32 rx_decrypt_succeeds; /* # of packet decrypted successfully */
uint32 rx_decrypt_failures; /* # of packet decrypted unsuccessfully */
uint32 tx_tot_pkts; /* # of tx pkts (ucast + mcast) */
uint32 rx_tot_pkts; /* # of data packets recvd (uni + mcast) */
uint32 tx_mcast_pkts; /* # of mcast pkts txed */
uint64 tx_tot_bytes; /* data bytes txed (ucast + mcast) */
uint64 rx_tot_bytes; /* data bytes recvd (ucast + mcast) */
uint64 tx_ucast_bytes; /* data bytes txed (ucast) */
uint64 tx_mcast_bytes; /* # data bytes txed (mcast) */
uint64 rx_ucast_bytes; /* data bytes recvd (ucast) */
uint64 rx_mcast_bytes; /* data bytes recvd (mcast) */
int8 rssi[WL_STA_ANT_MAX]; /* average rssi per antenna
* of data frames
*/
int8 nf[WL_STA_ANT_MAX]; /* per antenna noise floor */
uint16 aid; /* association ID */
uint16 ht_capabilities; /* advertised ht caps */
uint16 vht_flags; /* converted vht flags */
uint32 tx_pkts_retried; /* # of frames where a retry was necessary */
uint32 tx_pkts_retry_exhausted; /* # of frames where a retry was
* exhausted
*/
int8 rx_lastpkt_rssi[WL_STA_ANT_MAX]; /* Per antenna RSSI of last
* received data frame.
*/
} sta_info_t;
#define WL_OLD_STAINFO_SIZE OFFSETOF(sta_info_t, tx_tot_pkts)
#define WL_STA_VER 4
#define WLC_NUMRATES 16 /* max # of rates in a rateset */
typedef struct wlc_rateset {
uint32 count; /* number of rates in rates[] */
uint8 rates[WLC_NUMRATES]; /* rates in 500kbps units w/hi bit set if basic */
uint8 htphy_membership; /* HT PHY Membership */
uint8 mcs[MCSSET_LEN]; /* supported mcs index bit map */
uint16 vht_mcsmap; /* supported vht mcs nss bit map */
} wlc_rateset_t;
/* Used to get specific STA parameters */
typedef struct {
uint32 val;
struct ether_addr ea;
} scb_val_t;
/* Used by iovar versions of some ioctls, i.e. WLC_SCB_AUTHORIZE et al */
typedef struct {
uint32 code;
scb_val_t ioctl_args;
} authops_t;
/* channel encoding */
typedef struct channel_info {
int hw_channel;
int target_channel;
int scan_channel;
} channel_info_t;
/* For ioctls that take a list of MAC addresses */
struct maclist {
uint count; /* number of MAC addresses */
struct ether_addr ea[1]; /* variable length array of MAC addresses */
};
/* get pkt count struct passed through ioctl */
typedef struct get_pktcnt {
uint rx_good_pkt;
uint rx_bad_pkt;
uint tx_good_pkt;
uint tx_bad_pkt;
uint rx_ocast_good_pkt; /* unicast packets destined for others */
} get_pktcnt_t;
/* NINTENDO2 */
#define LQ_IDX_MIN 0
#define LQ_IDX_MAX 1
#define LQ_IDX_AVG 2
#define LQ_IDX_SUM 2
#define LQ_IDX_LAST 3
#define LQ_STOP_MONITOR 0
#define LQ_START_MONITOR 1
/* Get averages RSSI, Rx PHY rate and SNR values */
typedef struct {
int rssi[LQ_IDX_LAST]; /* Array to keep min, max, avg rssi */
int snr[LQ_IDX_LAST]; /* Array to keep min, max, avg snr */
int isvalid; /* Flag indicating whether above data is valid */
} wl_lq_t; /* Link Quality */
typedef enum wl_wakeup_reason_type {
LCD_ON = 1,
LCD_OFF,
DRC1_WAKE,
DRC2_WAKE,
REASON_LAST
} wl_wr_type_t;
typedef struct {
/* Unique filter id */
uint32 id;
/* stores the reason for the last wake up */
uint8 reason;
} wl_wr_t;
/* Get MAC specific rate histogram command */
typedef struct {
struct ether_addr ea; /* MAC Address */
uint8 ac_cat; /* Access Category */
uint8 num_pkts; /* Number of packet entries to be averaged */
} wl_mac_ratehisto_cmd_t; /* MAC Specific Rate Histogram command */
/* Get MAC rate histogram response */
typedef struct {
uint32 rate[DOT11_RATE_MAX + 1]; /* Rates */
uint32 mcs[WL_RATESET_SZ_HT_MCS * WL_TX_CHAINS_MAX]; /* MCS counts */
uint32 vht[WL_RATESET_SZ_VHT_MCS][WL_TX_CHAINS_MAX]; /* VHT counts */
uint32 tsf_timer[2][2]; /* Start and End time for 8bytes value */
} wl_mac_ratehisto_res_t; /* MAC Specific Rate Histogram Response */
/* Linux network driver ioctl encoding */
typedef struct wl_ioctl {
uint cmd; /* common ioctl definition */
void *buf; /* pointer to user buffer */
uint len; /* length of user buffer */
uint8 set; /* 1=set IOCTL; 0=query IOCTL */
uint used; /* bytes read or written (optional) */
uint needed; /* bytes needed (optional) */
} wl_ioctl_t;
/*
* Structure for passing hardware and software
* revision info up from the driver.
*/
typedef struct wlc_rev_info {
uint vendorid; /* PCI vendor id */
uint deviceid; /* device id of chip */
uint radiorev; /* radio revision */
uint chiprev; /* chip revision */
uint corerev; /* core revision */
uint boardid; /* board identifier (usu. PCI sub-device id) */
uint boardvendor; /* board vendor (usu. PCI sub-vendor id) */
uint boardrev; /* board revision */
uint driverrev; /* driver version */
uint ucoderev; /* microcode version */
uint bus; /* bus type */
uint chipnum; /* chip number */
uint phytype; /* phy type */
uint phyrev; /* phy revision */
uint anarev; /* anacore rev */
uint chippkg; /* chip package info */
uint nvramrev; /* nvram revision number */
} wlc_rev_info_t;
#define WL_REV_INFO_LEGACY_LENGTH 48
#define WL_BRAND_MAX 10
typedef struct wl_instance_info {
uint instance;
char brand[WL_BRAND_MAX];
} wl_instance_info_t;
/* structure to change size of tx fifo */
typedef struct wl_txfifo_sz {
uint16 magic;
uint16 fifo;
uint16 size;
} wl_txfifo_sz_t;
/* Transfer info about an IOVar from the driver */
/* Max supported IOV name size in bytes, + 1 for nul termination */
#define WLC_IOV_NAME_LEN 30
typedef struct wlc_iov_trx_s {
uint8 module;
uint8 type;
char name[WLC_IOV_NAME_LEN];
} wlc_iov_trx_t;
/* bump this number if you change the ioctl interface */
#define WLC_IOCTL_VERSION 2
#define WLC_IOCTL_VERSION_LEGACY_IOTYPES 1
#ifdef CONFIG_USBRNDIS_RETAIL
/* struct passed in for WLC_NDCONFIG_ITEM */
typedef struct {
char *name;
void *param;
} ndconfig_item_t;
#endif
#define WL_PHY_PAVARS_LEN 32 /* Phy type, Band range, chain, a1[0], b0[0], b1[0] ... */
#define WL_PHY_PAVAR_VER 1 /* pavars version */
#define WL_PHY_PAVARS2_NUM 3 /* a1, b0, b1 */
typedef struct wl_pavars2 {
uint16 ver; /* version of this struct */
uint16 len; /* len of this structure */
uint16 inuse; /* driver return 1 for a1,b0,b1 in current band range */
uint16 phy_type; /* phy type */
uint16 bandrange;
uint16 chain;
uint16 inpa[WL_PHY_PAVARS2_NUM]; /* phy pavars for one band range */
} wl_pavars2_t;
typedef struct wl_po {
uint16 phy_type; /* Phy type */
uint16 band;
uint16 cckpo;
uint32 ofdmpo;
uint16 mcspo[8];
} wl_po_t;
#define WL_NUM_RPCALVARS 5 /* number of rpcal vars */
typedef struct wl_rpcal {
uint16 value;
uint16 update;
} wl_rpcal_t;
typedef struct wl_aci_args {
int enter_aci_thresh; /* Trigger level to start detecting ACI */
int exit_aci_thresh; /* Trigger level to exit ACI mode */
int usec_spin; /* microsecs to delay between rssi samples */
int glitch_delay; /* interval between ACI scans when glitch count is consistently high */
uint16 nphy_adcpwr_enter_thresh; /* ADC power to enter ACI mitigation mode */
uint16 nphy_adcpwr_exit_thresh; /* ADC power to exit ACI mitigation mode */
uint16 nphy_repeat_ctr; /* Number of tries per channel to compute power */
uint16 nphy_num_samples; /* Number of samples to compute power on one channel */
uint16 nphy_undetect_window_sz; /* num of undetects to exit ACI Mitigation mode */
uint16 nphy_b_energy_lo_aci; /* low ACI power energy threshold for bphy */
uint16 nphy_b_energy_md_aci; /* mid ACI power energy threshold for bphy */
uint16 nphy_b_energy_hi_aci; /* high ACI power energy threshold for bphy */
uint16 nphy_noise_noassoc_glitch_th_up; /* wl interference 4 */
uint16 nphy_noise_noassoc_glitch_th_dn;
uint16 nphy_noise_assoc_glitch_th_up;
uint16 nphy_noise_assoc_glitch_th_dn;
uint16 nphy_noise_assoc_aci_glitch_th_up;
uint16 nphy_noise_assoc_aci_glitch_th_dn;
uint16 nphy_noise_assoc_enter_th;
uint16 nphy_noise_noassoc_enter_th;
uint16 nphy_noise_assoc_rx_glitch_badplcp_enter_th;
uint16 nphy_noise_noassoc_crsidx_incr;
uint16 nphy_noise_assoc_crsidx_incr;
uint16 nphy_noise_crsidx_decr;
} wl_aci_args_t;
#define WL_ACI_ARGS_LEGACY_LENGTH 16 /* bytes of pre NPHY aci args */
#define WL_SAMPLECOLLECT_T_VERSION 2 /* version of wl_samplecollect_args_t struct */
typedef struct wl_samplecollect_args {
/* version 0 fields */
uint8 coll_us;
int cores;
/* add'l version 1 fields */
uint16 version; /* see definition of WL_SAMPLECOLLECT_T_VERSION */
uint16 length; /* length of entire structure */
int8 trigger;
uint16 timeout;
uint16 mode;
uint32 pre_dur;
uint32 post_dur;
uint8 gpio_sel;
uint8 downsamp;
uint8 be_deaf;
uint8 agc; /* loop from init gain and going down */
uint8 filter; /* override high pass corners to lowest */
/* add'l version 2 fields */
uint8 trigger_state;
uint8 module_sel1;
uint8 module_sel2;
uint16 nsamps;
int bitStart;
uint32 gpioCapMask;
} wl_samplecollect_args_t;
#define WL_SAMPLEDATA_T_VERSION 1 /* version of wl_samplecollect_args_t struct */
/* version for unpacked sample data, int16 {(I,Q),Core(0..N)} */
#define WL_SAMPLEDATA_T_VERSION_SPEC_AN 2
typedef struct wl_sampledata {
uint16 version; /* structure version */
uint16 size; /* size of structure */
uint16 tag; /* Header/Data */
uint16 length; /* data length */
uint32 flag; /* bit def */
} wl_sampledata_t;
/* WL_OTA START */
/* OTA Test Status */
enum {
WL_OTA_TEST_IDLE = 0, /* Default Idle state */
WL_OTA_TEST_ACTIVE = 1, /* Test Running */
WL_OTA_TEST_SUCCESS = 2, /* Successfully Finished Test */
WL_OTA_TEST_FAIL = 3 /* Test Failed in the Middle */
};
/* OTA SYNC Status */
enum {
WL_OTA_SYNC_IDLE = 0, /* Idle state */
WL_OTA_SYNC_ACTIVE = 1, /* Waiting for Sync */
WL_OTA_SYNC_FAIL = 2 /* Sync pkt not recieved */
};
/* Various error states dut can get stuck during test */
enum {
WL_OTA_SKIP_TEST_CAL_FAIL = 1, /* Phy calibration failed */
WL_OTA_SKIP_TEST_SYNCH_FAIL = 2, /* Sync Packet not recieved */
WL_OTA_SKIP_TEST_FILE_DWNLD_FAIL = 3, /* Cmd flow file download failed */
WL_OTA_SKIP_TEST_NO_TEST_FOUND = 4, /* No test found in Flow file */
WL_OTA_SKIP_TEST_WL_NOT_UP = 5, /* WL UP failed */
WL_OTA_SKIP_TEST_UNKNOWN_CALL /* Unintentional scheduling on ota test */
};
/* Differentiator for ota_tx and ota_rx */
enum {
WL_OTA_TEST_TX = 0, /* ota_tx */
WL_OTA_TEST_RX = 1, /* ota_rx */
};
/* Catch 3 modes of operation: 20Mhz, 40Mhz, 20 in 40 Mhz */
enum {
WL_OTA_TEST_BW_20_IN_40MHZ = 0, /* 20 in 40 operation */
WL_OTA_TEST_BW_20MHZ = 1, /* 20 Mhz operation */
WL_OTA_TEST_BW_40MHZ = 2 /* full 40Mhz operation */
};
typedef struct ota_rate_info {
uint8 rate_cnt; /* Total number of rates */
uint8 rate_val_mbps[WL_OTA_TEST_MAX_NUM_RATE]; /* array of rates from 1mbps to 130mbps */
/* for legacy rates : ratein mbps * 2 */
/* for HT rates : mcs index */
} ota_rate_info_t;
typedef struct ota_power_info {
int8 pwr_ctrl_on; /* power control on/off */
int8 start_pwr; /* starting power/index */
int8 delta_pwr; /* delta power/index */
int8 end_pwr; /* end power/index */
} ota_power_info_t;
typedef struct ota_packetengine {
uint16 delay; /* Inter-packet delay */
/* for ota_tx, delay is tx ifs in micro seconds */
/* for ota_rx, delay is wait time in milliseconds */
uint16 nframes; /* Number of frames */
uint16 length; /* Packet length */
} ota_packetengine_t;
/* Test info vector */
typedef struct wl_ota_test_args {
uint8 cur_test; /* test phase */
uint8 chan; /* channel */
uint8 bw; /* bandwidth */
uint8 control_band; /* control band */
uint8 stf_mode; /* stf mode */
ota_rate_info_t rt_info; /* Rate info */
ota_packetengine_t pkteng; /* packeteng info */
uint8 txant; /* tx antenna */
uint8 rxant; /* rx antenna */
ota_power_info_t pwr_info; /* power sweep info */
uint8 wait_for_sync; /* wait for sync or not */
} wl_ota_test_args_t;
typedef struct wl_ota_test_vector {
wl_ota_test_args_t test_arg[WL_OTA_TEST_MAX_NUM_SEQ]; /* Test argument struct */
uint16 test_cnt; /* Total no of test */
uint8 file_dwnld_valid; /* File successfully downloaded */
uint8 sync_timeout; /* sync packet timeout */
int8 sync_fail_action; /* sync fail action */
struct ether_addr sync_mac; /* macaddress for sync pkt */
struct ether_addr tx_mac; /* macaddress for tx */
struct ether_addr rx_mac; /* macaddress for rx */
int8 loop_test; /* dbg feature to loop the test */
} wl_ota_test_vector_t;
/* struct copied back form dongle to host to query the status */
typedef struct wl_ota_test_status {
int16 cur_test_cnt; /* test phase */
int8 skip_test_reason; /* skip test reasoin */
wl_ota_test_args_t test_arg; /* cur test arg details */
uint16 test_cnt; /* total no of test downloaded */
uint8 file_dwnld_valid; /* file successfully downloaded ? */
uint8 sync_timeout; /* sync timeout */
int8 sync_fail_action; /* sync fail action */
struct ether_addr sync_mac; /* macaddress for sync pkt */
struct ether_addr tx_mac; /* tx mac address */
struct ether_addr rx_mac; /* rx mac address */
uint8 test_stage; /* check the test status */
int8 loop_test; /* Debug feature to puts test enfine in a loop */
uint8 sync_status; /* sync status */
} wl_ota_test_status_t;
/* WL_OTA END */
/* wl_radar_args_t */
typedef struct {
int npulses; /* required number of pulses at n * t_int */
int ncontig; /* required number of pulses at t_int */
int min_pw; /* minimum pulse width (20 MHz clocks) */
int max_pw; /* maximum pulse width (20 MHz clocks) */
uint16 thresh0; /* Radar detection, thresh 0 */
uint16 thresh1; /* Radar detection, thresh 1 */
uint16 blank; /* Radar detection, blank control */
uint16 fmdemodcfg; /* Radar detection, fmdemod config */
int npulses_lp; /* Radar detection, minimum long pulses */
int min_pw_lp; /* Minimum pulsewidth for long pulses */
int max_pw_lp; /* Maximum pulsewidth for long pulses */
int min_fm_lp; /* Minimum fm for long pulses */
int max_span_lp; /* Maximum deltat for long pulses */
int min_deltat; /* Minimum spacing between pulses */
int max_deltat; /* Maximum spacing between pulses */
uint16 autocorr; /* Radar detection, autocorr on or off */
uint16 st_level_time; /* Radar detection, start_timing level */
uint16 t2_min; /* minimum clocks needed to remain in state 2 */
uint32 version; /* version */
uint32 fra_pulse_err; /* sample error margin for detecting French radar pulsed */
int npulses_fra; /* Radar detection, minimum French pulses set */
int npulses_stg2; /* Radar detection, minimum staggered-2 pulses set */
int npulses_stg3; /* Radar detection, minimum staggered-3 pulses set */
uint16 percal_mask; /* defines which period cal is masked from radar detection */
int quant; /* quantization resolution to pulse positions */
uint32 min_burst_intv_lp; /* minimum burst to burst interval for bin3 radar */
uint32 max_burst_intv_lp; /* maximum burst to burst interval for bin3 radar */
int nskip_rst_lp; /* number of skipped pulses before resetting lp buffer */
int max_pw_tol; /* maximum tollerance allowed in detected pulse width for radar detection */
uint16 feature_mask; /* 16-bit mask to specify enabled features */
} wl_radar_args_t;
#define WL_RADAR_ARGS_VERSION 2
typedef struct {
uint32 version; /* version */
uint16 thresh0_20_lo; /* Radar detection, thresh 0 (range 5250-5350MHz) for BW 20MHz */
uint16 thresh1_20_lo; /* Radar detection, thresh 1 (range 5250-5350MHz) for BW 20MHz */
uint16 thresh0_40_lo; /* Radar detection, thresh 0 (range 5250-5350MHz) for BW 40MHz */
uint16 thresh1_40_lo; /* Radar detection, thresh 1 (range 5250-5350MHz) for BW 40MHz */
uint16 thresh0_80_lo; /* Radar detection, thresh 0 (range 5250-5350MHz) for BW 80MHz */
uint16 thresh1_80_lo; /* Radar detection, thresh 1 (range 5250-5350MHz) for BW 80MHz */
uint16 thresh0_20_hi; /* Radar detection, thresh 0 (range 5470-5725MHz) for BW 20MHz */
uint16 thresh1_20_hi; /* Radar detection, thresh 1 (range 5470-5725MHz) for BW 20MHz */
uint16 thresh0_40_hi; /* Radar detection, thresh 0 (range 5470-5725MHz) for BW 40MHz */
uint16 thresh1_40_hi; /* Radar detection, thresh 1 (range 5470-5725MHz) for BW 40MHz */
uint16 thresh0_80_hi; /* Radar detection, thresh 0 (range 5470-5725MHz) for BW 80MHz */
uint16 thresh1_80_hi; /* Radar detection, thresh 1 (range 5470-5725MHz) for BW 80MHz */
#ifdef WL11AC160
uint16 thresh0_160_lo; /* Radar detection, thresh 0 (range 5250-5350MHz) for BW 160MHz */
uint16 thresh1_160_lo; /* Radar detection, thresh 1 (range 5250-5350MHz) for BW 160MHz */
uint16 thresh0_160_hi; /* Radar detection, thresh 0 (range 5470-5725MHz) for BW 160MHz */
uint16 thresh1_160_hi; /* Radar detection, thresh 1 (range 5470-5725MHz) for BW 160MHz */
#endif /* WL11AC160 */
} wl_radar_thr_t;
#define WL_RADAR_THR_VERSION 2
/* RSSI per antenna */
typedef struct {
uint32 version; /* version field */
uint32 count; /* number of valid antenna rssi */
int8 rssi_ant[WL_RSSI_ANT_MAX]; /* rssi per antenna */
} wl_rssi_ant_t;
/* data structure used in 'dfs_status' wl interface, which is used to query dfs status */
typedef struct {
uint state; /* noted by WL_DFS_CACSTATE_XX. */
uint duration; /* time spent in ms in state. */
/* as dfs enters ISM state, it removes the operational channel from quiet channel
* list and notes the channel in channel_cleared. set to 0 if no channel is cleared
*/
chanspec_t chanspec_cleared;
/* chanspec cleared used to be a uint, add another to uint16 to maintain size */
uint16 pad;
} wl_dfs_status_t;
/* data structure used in 'radar_status' wl interface, which is use to query radar det status */
typedef struct {
bool detected;
int count;
bool pretended;
uint32 radartype;
uint32 timenow;
uint32 timefromL;
int lp_csect_single;
int detected_pulse_index;
int nconsecq_pulses;
chanspec_t ch;
int pw[10];
int intv[10];
int fm[10];
} wl_radar_status_t;
#define NUM_PWRCTRL_RATES 12
typedef struct {
uint8 txpwr_band_max[NUM_PWRCTRL_RATES]; /* User set target */
uint8 txpwr_limit[NUM_PWRCTRL_RATES]; /* reg and local power limit */
uint8 txpwr_local_max; /* local max according to the AP */
uint8 txpwr_local_constraint; /* local constraint according to the AP */
uint8 txpwr_chan_reg_max; /* Regulatory max for this channel */
uint8 txpwr_target[2][NUM_PWRCTRL_RATES]; /* Latest target for 2.4 and 5 Ghz */
uint8 txpwr_est_Pout[2]; /* Latest estimate for 2.4 and 5 Ghz */
uint8 txpwr_opo[NUM_PWRCTRL_RATES]; /* On G phy, OFDM power offset */
uint8 txpwr_bphy_cck_max[NUM_PWRCTRL_RATES]; /* Max CCK power for this band (SROM) */
uint8 txpwr_bphy_ofdm_max; /* Max OFDM power for this band (SROM) */
uint8 txpwr_aphy_max[NUM_PWRCTRL_RATES]; /* Max power for A band (SROM) */
int8 txpwr_antgain[2]; /* Ant gain for each band - from SROM */
uint8 txpwr_est_Pout_gofdm; /* Pwr estimate for 2.4 OFDM */
} tx_power_legacy_t;
#define WL_TX_POWER_RATES_LEGACY 45
#define WL_TX_POWER_MCS20_FIRST 12
#define WL_TX_POWER_MCS20_NUM 16
#define WL_TX_POWER_MCS40_FIRST 28
#define WL_TX_POWER_MCS40_NUM 17
typedef struct {
uint32 flags;
chanspec_t chanspec; /* txpwr report for this channel */
chanspec_t local_chanspec; /* channel on which we are associated */
uint8 local_max; /* local max according to the AP */
uint8 local_constraint; /* local constraint according to the AP */
int8 antgain[2]; /* Ant gain for each band - from SROM */
uint8 rf_cores; /* count of RF Cores being reported */
uint8 est_Pout[4]; /* Latest tx power out estimate per RF
* chain without adjustment
*/
uint8 est_Pout_cck; /* Latest CCK tx power out estimate */
uint8 user_limit[WL_TX_POWER_RATES_LEGACY]; /* User limit */
uint8 reg_limit[WL_TX_POWER_RATES_LEGACY]; /* Regulatory power limit */
uint8 board_limit[WL_TX_POWER_RATES_LEGACY]; /* Max power board can support (SROM) */
uint8 target[WL_TX_POWER_RATES_LEGACY]; /* Latest target power */
} tx_power_legacy2_t;
/* TX Power index defines */
#define WL_NUM_RATES_CCK 4 /* 1, 2, 5.5, 11 Mbps */
#define WL_NUM_RATES_OFDM 8 /* 6, 9, 12, 18, 24, 36, 48, 54 Mbps SISO/CDD */
#define WL_NUM_RATES_MCS_1STREAM 8 /* MCS 0-7 1-stream rates - SISO/CDD/STBC/MCS */
#define WL_NUM_RATES_EXTRA_VHT 2 /* Additional VHT 11AC rates */
#define WL_NUM_RATES_VHT 10
#define WL_NUM_RATES_MCS32 1
#define WLC_NUM_RATES_CCK WL_NUM_RATES_CCK
#define WLC_NUM_RATES_OFDM WL_NUM_RATES_OFDM
#define WLC_NUM_RATES_MCS_1_STREAM WL_NUM_RATES_MCS_1STREAM
#define WLC_NUM_RATES_MCS_2_STREAM WL_NUM_RATES_MCS_1STREAM
#define WLC_NUM_RATES_MCS32 WL_NUM_RATES_MCS32
#define WL_TX_POWER_CCK_NUM WL_NUM_RATES_CCK
#define WL_TX_POWER_OFDM_NUM WL_NUM_RATES_OFDM
#define WL_TX_POWER_MCS_1_STREAM_NUM WL_NUM_RATES_MCS_1STREAM
#define WL_TX_POWER_MCS_2_STREAM_NUM WL_NUM_RATES_MCS_1STREAM
#define WL_TX_POWER_MCS_32_NUM WL_NUM_RATES_MCS32
#define WL_NUM_2x2_ELEMENTS 4
#define WL_NUM_3x3_ELEMENTS 6
typedef struct {
uint16 ver; /* version of this struct */
uint16 len; /* length in bytes of this structure */
uint32 flags;
chanspec_t chanspec; /* txpwr report for this channel */
chanspec_t local_chanspec; /* channel on which we are associated */
uint32 buflen; /* ppr buffer length */
uint8 pprbuf[1]; /* Latest target power buffer */
} wl_txppr_t;
#define WL_TXPPR_VERSION 1
#define WL_TXPPR_LENGTH (sizeof(wl_txppr_t))
#define TX_POWER_T_VERSION 44
typedef struct tx_inst_power {
uint8 txpwr_est_Pout[2]; /* Latest estimate for 2.4 and 5 Ghz */
uint8 txpwr_est_Pout_gofdm; /* Pwr estimate for 2.4 OFDM */
} tx_inst_power_t;
#define WL_NUM_TXCHAIN_MAX 4
typedef struct wl_txchain_pwr_offsets {
int8 offset[WL_NUM_TXCHAIN_MAX]; /* quarter dBm signed offset for each chain */
} wl_txchain_pwr_offsets_t;
/* maximum channels returned by the get valid channels iovar */
#define WL_NUMCHANNELS 64
/*
* Join preference iovar value is an array of tuples. Each tuple has a one-byte type,
* a one-byte length, and a variable length value. RSSI type tuple must be present
* in the array.
*
* Types are defined in "join preference types" section.
*
* Length is the value size in octets. It is reserved for WL_JOIN_PREF_WPA type tuple
* and must be set to zero.
*
* Values are defined below.
*
* 1. RSSI - 2 octets
* offset 0: reserved
* offset 1: reserved
*
* 2. WPA - 2 + 12 * n octets (n is # tuples defined below)
* offset 0: reserved
* offset 1: # of tuples
* offset 2: tuple 1
* offset 14: tuple 2
* ...
* offset 2 + 12 * (n - 1) octets: tuple n
*
* struct wpa_cfg_tuple {
* uint8 akm[DOT11_OUI_LEN+1]; akm suite
* uint8 ucipher[DOT11_OUI_LEN+1]; unicast cipher suite
* uint8 mcipher[DOT11_OUI_LEN+1]; multicast cipher suite
* };
*
* multicast cipher suite can be specified as a specific cipher suite or WL_WPA_ACP_MCS_ANY.
*
* 3. BAND - 2 octets
* offset 0: reserved
* offset 1: see "band preference" and "band types"
*
* 4. BAND RSSI - 2 octets
* offset 0: band types
* offset 1: +ve RSSI boost value in dB
*/
struct tsinfo_arg {
uint8 octets[3];
};
#define NFIFO 6 /* # tx/rx fifopairs */
#define NREINITREASONCOUNT 8
#define REINITREASONIDX(_x) (((_x) < NREINITREASONCOUNT) ? (_x) : 0)
#define WL_CNT_T_VERSION 10 /* current version of wl_cnt_t struct */
typedef struct {
uint16 version; /* see definition of WL_CNT_T_VERSION */
uint16 length; /* length of entire structure */
/* transmit stat counters */
uint32 txframe; /* tx data frames */
uint32 txbyte; /* tx data bytes */
uint32 txretrans; /* tx mac retransmits */
uint32 txerror; /* tx data errors (derived: sum of others) */
uint32 txctl; /* tx management frames */
uint32 txprshort; /* tx short preamble frames */
uint32 txserr; /* tx status errors */
uint32 txnobuf; /* tx out of buffers errors */
uint32 txnoassoc; /* tx discard because we're not associated */
uint32 txrunt; /* tx runt frames */
uint32 txchit; /* tx header cache hit (fastpath) */
uint32 txcmiss; /* tx header cache miss (slowpath) */
/* transmit chip error counters */
uint32 txuflo; /* tx fifo underflows */
uint32 txphyerr; /* tx phy errors (indicated in tx status) */
uint32 txphycrs;
/* receive stat counters */
uint32 rxframe; /* rx data frames */
uint32 rxbyte; /* rx data bytes */
uint32 rxerror; /* rx data errors (derived: sum of others) */
uint32 rxctl; /* rx management frames */
uint32 rxnobuf; /* rx out of buffers errors */
uint32 rxnondata; /* rx non data frames in the data channel errors */
uint32 rxbadds; /* rx bad DS errors */
uint32 rxbadcm; /* rx bad control or management frames */
uint32 rxfragerr; /* rx fragmentation errors */
uint32 rxrunt; /* rx runt frames */
uint32 rxgiant; /* rx giant frames */
uint32 rxnoscb; /* rx no scb error */
uint32 rxbadproto; /* rx invalid frames */
uint32 rxbadsrcmac; /* rx frames with Invalid Src Mac */
uint32 rxbadda; /* rx frames tossed for invalid da */
uint32 rxfilter; /* rx frames filtered out */
/* receive chip error counters */
uint32 rxoflo; /* rx fifo overflow errors */
uint32 rxuflo[NFIFO]; /* rx dma descriptor underflow errors */
uint32 d11cnt_txrts_off; /* d11cnt txrts value when reset d11cnt */
uint32 d11cnt_rxcrc_off; /* d11cnt rxcrc value when reset d11cnt */
uint32 d11cnt_txnocts_off; /* d11cnt txnocts value when reset d11cnt */
/* misc counters */
uint32 dmade; /* tx/rx dma descriptor errors */
uint32 dmada; /* tx/rx dma data errors */
uint32 dmape; /* tx/rx dma descriptor protocol errors */
uint32 reset; /* reset count */
uint32 tbtt; /* cnts the TBTT int's */
uint32 txdmawar;
uint32 pkt_callback_reg_fail; /* callbacks register failure */
/* MAC counters: 32-bit version of d11.h's macstat_t */
uint32 txallfrm; /* total number of frames sent, incl. Data, ACK, RTS, CTS,
* Control Management (includes retransmissions)
*/
uint32 txrtsfrm; /* number of RTS sent out by the MAC */
uint32 txctsfrm; /* number of CTS sent out by the MAC */
uint32 txackfrm; /* number of ACK frames sent out */
uint32 txdnlfrm; /* Not used */
uint32 txbcnfrm; /* beacons transmitted */
uint32 txfunfl[6]; /* per-fifo tx underflows */
uint32 rxtoolate; /* receive too late */
uint32 txfbw; /* transmit at fallback bw (dynamic bw) */
uint32 txtplunfl; /* Template underflows (mac was too slow to transmit ACK/CTS
* or BCN)
*/
uint32 txphyerror; /* Transmit phy error, type of error is reported in tx-status for
* driver enqueued frames
*/
uint32 rxfrmtoolong; /* Received frame longer than legal limit (2346 bytes) */
uint32 rxfrmtooshrt; /* Received frame did not contain enough bytes for its frame type */
uint32 rxinvmachdr; /* Either the protocol version != 0 or frame type not
* data/control/management
*/
uint32 rxbadfcs; /* number of frames for which the CRC check failed in the MAC */
uint32 rxbadplcp; /* parity check of the PLCP header failed */
uint32 rxcrsglitch; /* PHY was able to correlate the preamble but not the header */
uint32 rxstrt; /* Number of received frames with a good PLCP
* (i.e. passing parity check)
*/
uint32 rxdfrmucastmbss; /* Number of received DATA frames with good FCS and matching RA */
uint32 rxmfrmucastmbss; /* number of received mgmt frames with good FCS and matching RA */
uint32 rxcfrmucast; /* number of received CNTRL frames with good FCS and matching RA */
uint32 rxrtsucast; /* number of unicast RTS addressed to the MAC (good FCS) */
uint32 rxctsucast; /* number of unicast CTS addressed to the MAC (good FCS) */
uint32 rxackucast; /* number of ucast ACKS received (good FCS) */
uint32 rxdfrmocast; /* number of received DATA frames (good FCS and not matching RA) */
uint32 rxmfrmocast; /* number of received MGMT frames (good FCS and not matching RA) */
uint32 rxcfrmocast; /* number of received CNTRL frame (good FCS and not matching RA) */
uint32 rxrtsocast; /* number of received RTS not addressed to the MAC */
uint32 rxctsocast; /* number of received CTS not addressed to the MAC */
uint32 rxdfrmmcast; /* number of RX Data multicast frames received by the MAC */
uint32 rxmfrmmcast; /* number of RX Management multicast frames received by the MAC */
uint32 rxcfrmmcast; /* number of RX Control multicast frames received by the MAC
* (unlikely to see these)
*/
uint32 rxbeaconmbss; /* beacons received from member of BSS */
uint32 rxdfrmucastobss; /* number of unicast frames addressed to the MAC from
* other BSS (WDS FRAME)
*/
uint32 rxbeaconobss; /* beacons received from other BSS */
uint32 rxrsptmout; /* Number of response timeouts for transmitted frames
* expecting a response
*/
uint32 bcntxcancl; /* transmit beacons canceled due to receipt of beacon (IBSS) */
uint32 rxf0ovfl; /* Number of receive fifo 0 overflows */
uint32 rxf1ovfl; /* Number of receive fifo 1 overflows (obsolete) */
uint32 rxf2ovfl; /* Number of receive fifo 2 overflows (obsolete) */
uint32 txsfovfl; /* Number of transmit status fifo overflows (obsolete) */
uint32 pmqovfl; /* Number of PMQ overflows */
uint32 rxcgprqfrm; /* Number of received Probe requests that made it into
* the PRQ fifo
*/
uint32 rxcgprsqovfl; /* Rx Probe Request Que overflow in the AP */
uint32 txcgprsfail; /* Tx Probe Response Fail. AP sent probe response but did
* not get ACK
*/
uint32 txcgprssuc; /* Tx Probe Response Success (ACK was received) */
uint32 prs_timeout; /* Number of probe requests that were dropped from the PRQ
* fifo because a probe response could not be sent out within
* the time limit defined in M_PRS_MAXTIME
*/
uint32 rxnack; /* obsolete */
uint32 frmscons; /* obsolete */
uint32 txnack; /* obsolete */
uint32 rxback; /* blockack rxcnt */
uint32 txback; /* blockack txcnt */
/* 802.11 MIB counters, pp. 614 of 802.11 reaff doc. */
uint32 txfrag; /* dot11TransmittedFragmentCount */
uint32 txmulti; /* dot11MulticastTransmittedFrameCount */
uint32 txfail; /* dot11FailedCount */
uint32 txretry; /* dot11RetryCount */
uint32 txretrie; /* dot11MultipleRetryCount */
uint32 rxdup; /* dot11FrameduplicateCount */
uint32 txrts; /* dot11RTSSuccessCount */
uint32 txnocts; /* dot11RTSFailureCount */
uint32 txnoack; /* dot11ACKFailureCount */
uint32 rxfrag; /* dot11ReceivedFragmentCount */
uint32 rxmulti; /* dot11MulticastReceivedFrameCount */
uint32 rxcrc; /* dot11FCSErrorCount */
uint32 txfrmsnt; /* dot11TransmittedFrameCount (bogus MIB?) */
uint32 rxundec; /* dot11WEPUndecryptableCount */
/* WPA2 counters (see rxundec for DecryptFailureCount) */
uint32 tkipmicfaill; /* TKIPLocalMICFailures */
uint32 tkipcntrmsr; /* TKIPCounterMeasuresInvoked */
uint32 tkipreplay; /* TKIPReplays */
uint32 ccmpfmterr; /* CCMPFormatErrors */
uint32 ccmpreplay; /* CCMPReplays */
uint32 ccmpundec; /* CCMPDecryptErrors */
uint32 fourwayfail; /* FourWayHandshakeFailures */
uint32 wepundec; /* dot11WEPUndecryptableCount */
uint32 wepicverr; /* dot11WEPICVErrorCount */
uint32 decsuccess; /* DecryptSuccessCount */
uint32 tkipicverr; /* TKIPICVErrorCount */
uint32 wepexcluded; /* dot11WEPExcludedCount */
uint32 txchanrej; /* Tx frames suppressed due to channel rejection */
uint32 psmwds; /* Count PSM watchdogs */
uint32 phywatchdog; /* Count Phy watchdogs (triggered by ucode) */
/* MBSS counters, AP only */
uint32 prq_entries_handled; /* PRQ entries read in */
uint32 prq_undirected_entries; /* which were bcast bss & ssid */
uint32 prq_bad_entries; /* which could not be translated to info */
uint32 atim_suppress_count; /* TX suppressions on ATIM fifo */
uint32 bcn_template_not_ready; /* Template marked in use on send bcn ... */
uint32 bcn_template_not_ready_done; /* ...but "DMA done" interrupt rcvd */
uint32 late_tbtt_dpc; /* TBTT DPC did not happen in time */
/* per-rate receive stat counters */
uint32 rx1mbps; /* packets rx at 1Mbps */
uint32 rx2mbps; /* packets rx at 2Mbps */
uint32 rx5mbps5; /* packets rx at 5.5Mbps */
uint32 rx6mbps; /* packets rx at 6Mbps */
uint32 rx9mbps; /* packets rx at 9Mbps */
uint32 rx11mbps; /* packets rx at 11Mbps */
uint32 rx12mbps; /* packets rx at 12Mbps */
uint32 rx18mbps; /* packets rx at 18Mbps */
uint32 rx24mbps; /* packets rx at 24Mbps */
uint32 rx36mbps; /* packets rx at 36Mbps */
uint32 rx48mbps; /* packets rx at 48Mbps */
uint32 rx54mbps; /* packets rx at 54Mbps */
uint32 rx108mbps; /* packets rx at 108mbps */
uint32 rx162mbps; /* packets rx at 162mbps */
uint32 rx216mbps; /* packets rx at 216 mbps */
uint32 rx270mbps; /* packets rx at 270 mbps */
uint32 rx324mbps; /* packets rx at 324 mbps */
uint32 rx378mbps; /* packets rx at 378 mbps */
uint32 rx432mbps; /* packets rx at 432 mbps */
uint32 rx486mbps; /* packets rx at 486 mbps */
uint32 rx540mbps; /* packets rx at 540 mbps */
/* pkteng rx frame stats */
uint32 pktengrxducast; /* unicast frames rxed by the pkteng code */
uint32 pktengrxdmcast; /* multicast frames rxed by the pkteng code */
uint32 rfdisable; /* count of radio disables */
uint32 bphy_rxcrsglitch; /* PHY count of bphy glitches */
uint32 bphy_badplcp;
uint32 txexptime; /* Tx frames suppressed due to timer expiration */
uint32 txmpdu_sgi; /* count for sgi transmit */
uint32 rxmpdu_sgi; /* count for sgi received */
uint32 txmpdu_stbc; /* count for stbc transmit */
uint32 rxmpdu_stbc; /* count for stbc received */
uint32 rxundec_mcst; /* dot11WEPUndecryptableCount */
/* WPA2 counters (see rxundec for DecryptFailureCount) */
uint32 tkipmicfaill_mcst; /* TKIPLocalMICFailures */
uint32 tkipcntrmsr_mcst; /* TKIPCounterMeasuresInvoked */
uint32 tkipreplay_mcst; /* TKIPReplays */
uint32 ccmpfmterr_mcst; /* CCMPFormatErrors */
uint32 ccmpreplay_mcst; /* CCMPReplays */
uint32 ccmpundec_mcst; /* CCMPDecryptErrors */
uint32 fourwayfail_mcst; /* FourWayHandshakeFailures */
uint32 wepundec_mcst; /* dot11WEPUndecryptableCount */
uint32 wepicverr_mcst; /* dot11WEPICVErrorCount */
uint32 decsuccess_mcst; /* DecryptSuccessCount */
uint32 tkipicverr_mcst; /* TKIPICVErrorCount */
uint32 wepexcluded_mcst; /* dot11WEPExcludedCount */
uint32 dma_hang; /* count for dma hang */
uint32 reinit; /* count for reinit */
uint32 pstatxucast; /* count of ucast frames xmitted on all psta assoc */
uint32 pstatxnoassoc; /* count of txnoassoc frames xmitted on all psta assoc */
uint32 pstarxucast; /* count of ucast frames received on all psta assoc */
uint32 pstarxbcmc; /* count of bcmc frames received on all psta */
uint32 pstatxbcmc; /* count of bcmc frames transmitted on all psta */
uint32 cso_passthrough; /* hw cso required but passthrough */
uint32 cso_normal; /* hw cso hdr for normal process */
uint32 chained; /* number of frames chained */
uint32 chainedsz1; /* number of chain size 1 frames */
uint32 unchained; /* number of frames not chained */
uint32 maxchainsz; /* max chain size so far */
uint32 currchainsz; /* current chain size */
uint32 rxdrop20s; /* drop secondary cnt */
uint32 pciereset; /* Secondary Bus Reset issued by driver */
uint32 cfgrestore; /* configspace restore by driver */
uint32 reinitreason[NREINITREASONCOUNT]; /* reinitreason counters; 0: Unknown reason */
} wl_cnt_t;
typedef struct {
uint16 version; /* see definition of WL_CNT_T_VERSION */
uint16 length; /* length of entire structure */
/* transmit stat counters */
uint32 txframe; /* tx data frames */
uint32 txbyte; /* tx data bytes */
uint32 txretrans; /* tx mac retransmits */
uint32 txerror; /* tx data errors (derived: sum of others) */
uint32 txctl; /* tx management frames */
uint32 txprshort; /* tx short preamble frames */
uint32 txserr; /* tx status errors */
uint32 txnobuf; /* tx out of buffers errors */
uint32 txnoassoc; /* tx discard because we're not associated */
uint32 txrunt; /* tx runt frames */
uint32 txchit; /* tx header cache hit (fastpath) */
uint32 txcmiss; /* tx header cache miss (slowpath) */
/* transmit chip error counters */
uint32 txuflo; /* tx fifo underflows */
uint32 txphyerr; /* tx phy errors (indicated in tx status) */
uint32 txphycrs;
/* receive stat counters */
uint32 rxframe; /* rx data frames */
uint32 rxbyte; /* rx data bytes */
uint32 rxerror; /* rx data errors (derived: sum of others) */
uint32 rxctl; /* rx management frames */
uint32 rxnobuf; /* rx out of buffers errors */
uint32 rxnondata; /* rx non data frames in the data channel errors */
uint32 rxbadds; /* rx bad DS errors */
uint32 rxbadcm; /* rx bad control or management frames */
uint32 rxfragerr; /* rx fragmentation errors */
uint32 rxrunt; /* rx runt frames */
uint32 rxgiant; /* rx giant frames */
uint32 rxnoscb; /* rx no scb error */
uint32 rxbadproto; /* rx invalid frames */
uint32 rxbadsrcmac; /* rx frames with Invalid Src Mac */
uint32 rxbadda; /* rx frames tossed for invalid da */
uint32 rxfilter; /* rx frames filtered out */
/* receive chip error counters */
uint32 rxoflo; /* rx fifo overflow errors */
uint32 rxuflo[NFIFO]; /* rx dma descriptor underflow errors */
uint32 d11cnt_txrts_off; /* d11cnt txrts value when reset d11cnt */
uint32 d11cnt_rxcrc_off; /* d11cnt rxcrc value when reset d11cnt */
uint32 d11cnt_txnocts_off; /* d11cnt txnocts value when reset d11cnt */
/* misc counters */
uint32 dmade; /* tx/rx dma descriptor errors */
uint32 dmada; /* tx/rx dma data errors */
uint32 dmape; /* tx/rx dma descriptor protocol errors */
uint32 reset; /* reset count */
uint32 tbtt; /* cnts the TBTT int's */
uint32 txdmawar;
uint32 pkt_callback_reg_fail; /* callbacks register failure */
/* MAC counters: 32-bit version of d11.h's macstat_t */
uint32 txallfrm; /* total number of frames sent, incl. Data, ACK, RTS, CTS,
* Control Management (includes retransmissions)
*/
uint32 txrtsfrm; /* number of RTS sent out by the MAC */
uint32 txctsfrm; /* number of CTS sent out by the MAC */
uint32 txackfrm; /* number of ACK frames sent out */
uint32 txdnlfrm; /* Not used */
uint32 txbcnfrm; /* beacons transmitted */
uint32 txfunfl[6]; /* per-fifo tx underflows */
uint32 rxtoolate; /* receive too late */
uint32 txfbw; /* transmit at fallback bw (dynamic bw) */
uint32 txtplunfl; /* Template underflows (mac was too slow to transmit ACK/CTS
* or BCN)
*/
uint32 txphyerror; /* Transmit phy error, type of error is reported in tx-status for
* driver enqueued frames
*/
uint32 rxfrmtoolong; /* Received frame longer than legal limit (2346 bytes) */
uint32 rxfrmtooshrt; /* Received frame did not contain enough bytes for its frame type */
uint32 rxinvmachdr; /* Either the protocol version != 0 or frame type not
* data/control/management
*/
uint32 rxbadfcs; /* number of frames for which the CRC check failed in the MAC */
uint32 rxbadplcp; /* parity check of the PLCP header failed */
uint32 rxcrsglitch; /* PHY was able to correlate the preamble but not the header */
uint32 rxstrt; /* Number of received frames with a good PLCP
* (i.e. passing parity check)
*/
uint32 rxdfrmucastmbss; /* Number of received DATA frames with good FCS and matching RA */
uint32 rxmfrmucastmbss; /* number of received mgmt frames with good FCS and matching RA */
uint32 rxcfrmucast; /* number of received CNTRL frames with good FCS and matching RA */
uint32 rxrtsucast; /* number of unicast RTS addressed to the MAC (good FCS) */
uint32 rxctsucast; /* number of unicast CTS addressed to the MAC (good FCS) */
uint32 rxackucast; /* number of ucast ACKS received (good FCS) */
uint32 rxdfrmocast; /* number of received DATA frames (good FCS and not matching RA) */
uint32 rxmfrmocast; /* number of received MGMT frames (good FCS and not matching RA) */
uint32 rxcfrmocast; /* number of received CNTRL frame (good FCS and not matching RA) */
uint32 rxrtsocast; /* number of received RTS not addressed to the MAC */
uint32 rxctsocast; /* number of received CTS not addressed to the MAC */
uint32 rxdfrmmcast; /* number of RX Data multicast frames received by the MAC */
uint32 rxmfrmmcast; /* number of RX Management multicast frames received by the MAC */
uint32 rxcfrmmcast; /* number of RX Control multicast frames received by the MAC
* (unlikely to see these)
*/
uint32 rxbeaconmbss; /* beacons received from member of BSS */
uint32 rxdfrmucastobss; /* number of unicast frames addressed to the MAC from
* other BSS (WDS FRAME)
*/
uint32 rxbeaconobss; /* beacons received from other BSS */
uint32 rxrsptmout; /* Number of response timeouts for transmitted frames
* expecting a response
*/
uint32 bcntxcancl; /* transmit beacons canceled due to receipt of beacon (IBSS) */
uint32 rxf0ovfl; /* Number of receive fifo 0 overflows */
uint32 rxf1ovfl; /* Number of receive fifo 1 overflows (obsolete) */
uint32 rxf2ovfl; /* Number of receive fifo 2 overflows (obsolete) */
uint32 txsfovfl; /* Number of transmit status fifo overflows (obsolete) */
uint32 pmqovfl; /* Number of PMQ overflows */
uint32 rxcgprqfrm; /* Number of received Probe requests that made it into
* the PRQ fifo
*/
uint32 rxcgprsqovfl; /* Rx Probe Request Que overflow in the AP */
uint32 txcgprsfail; /* Tx Probe Response Fail. AP sent probe response but did
* not get ACK
*/
uint32 txcgprssuc; /* Tx Probe Response Success (ACK was received) */
uint32 prs_timeout; /* Number of probe requests that were dropped from the PRQ
* fifo because a probe response could not be sent out within
* the time limit defined in M_PRS_MAXTIME
*/
uint32 rxnack;
uint32 frmscons;
uint32 txnack; /* obsolete */
uint32 rxback; /* blockack rxcnt */
uint32 txback; /* blockack txcnt */
/* 802.11 MIB counters, pp. 614 of 802.11 reaff doc. */
uint32 txfrag; /* dot11TransmittedFragmentCount */
uint32 txmulti; /* dot11MulticastTransmittedFrameCount */
uint32 txfail; /* dot11FailedCount */
uint32 txretry; /* dot11RetryCount */
uint32 txretrie; /* dot11MultipleRetryCount */
uint32 rxdup; /* dot11FrameduplicateCount */
uint32 txrts; /* dot11RTSSuccessCount */
uint32 txnocts; /* dot11RTSFailureCount */
uint32 txnoack; /* dot11ACKFailureCount */
uint32 rxfrag; /* dot11ReceivedFragmentCount */
uint32 rxmulti; /* dot11MulticastReceivedFrameCount */
uint32 rxcrc; /* dot11FCSErrorCount */
uint32 txfrmsnt; /* dot11TransmittedFrameCount (bogus MIB?) */
uint32 rxundec; /* dot11WEPUndecryptableCount */
/* WPA2 counters (see rxundec for DecryptFailureCount) */
uint32 tkipmicfaill; /* TKIPLocalMICFailures */
uint32 tkipcntrmsr; /* TKIPCounterMeasuresInvoked */
uint32 tkipreplay; /* TKIPReplays */
uint32 ccmpfmterr; /* CCMPFormatErrors */
uint32 ccmpreplay; /* CCMPReplays */
uint32 ccmpundec; /* CCMPDecryptErrors */
uint32 fourwayfail; /* FourWayHandshakeFailures */
uint32 wepundec; /* dot11WEPUndecryptableCount */
uint32 wepicverr; /* dot11WEPICVErrorCount */
uint32 decsuccess; /* DecryptSuccessCount */
uint32 tkipicverr; /* TKIPICVErrorCount */
uint32 wepexcluded; /* dot11WEPExcludedCount */
uint32 rxundec_mcst; /* dot11WEPUndecryptableCount */
/* WPA2 counters (see rxundec for DecryptFailureCount) */
uint32 tkipmicfaill_mcst; /* TKIPLocalMICFailures */
uint32 tkipcntrmsr_mcst; /* TKIPCounterMeasuresInvoked */
uint32 tkipreplay_mcst; /* TKIPReplays */
uint32 ccmpfmterr_mcst; /* CCMPFormatErrors */
uint32 ccmpreplay_mcst; /* CCMPReplays */
uint32 ccmpundec_mcst; /* CCMPDecryptErrors */
uint32 fourwayfail_mcst; /* FourWayHandshakeFailures */
uint32 wepundec_mcst; /* dot11WEPUndecryptableCount */
uint32 wepicverr_mcst; /* dot11WEPICVErrorCount */
uint32 decsuccess_mcst; /* DecryptSuccessCount */
uint32 tkipicverr_mcst; /* TKIPICVErrorCount */
uint32 wepexcluded_mcst; /* dot11WEPExcludedCount */
uint32 txchanrej; /* Tx frames suppressed due to channel rejection */
uint32 txexptime; /* Tx frames suppressed due to timer expiration */
uint32 psmwds; /* Count PSM watchdogs */
uint32 phywatchdog; /* Count Phy watchdogs (triggered by ucode) */
/* MBSS counters, AP only */
uint32 prq_entries_handled; /* PRQ entries read in */
uint32 prq_undirected_entries; /* which were bcast bss & ssid */
uint32 prq_bad_entries; /* which could not be translated to info */
uint32 atim_suppress_count; /* TX suppressions on ATIM fifo */
uint32 bcn_template_not_ready; /* Template marked in use on send bcn ... */
uint32 bcn_template_not_ready_done; /* ...but "DMA done" interrupt rcvd */
uint32 late_tbtt_dpc; /* TBTT DPC did not happen in time */
/* per-rate receive stat counters */
uint32 rx1mbps; /* packets rx at 1Mbps */
uint32 rx2mbps; /* packets rx at 2Mbps */
uint32 rx5mbps5; /* packets rx at 5.5Mbps */
uint32 rx6mbps; /* packets rx at 6Mbps */
uint32 rx9mbps; /* packets rx at 9Mbps */
uint32 rx11mbps; /* packets rx at 11Mbps */
uint32 rx12mbps; /* packets rx at 12Mbps */
uint32 rx18mbps; /* packets rx at 18Mbps */
uint32 rx24mbps; /* packets rx at 24Mbps */
uint32 rx36mbps; /* packets rx at 36Mbps */
uint32 rx48mbps; /* packets rx at 48Mbps */
uint32 rx54mbps; /* packets rx at 54Mbps */
uint32 rx108mbps; /* packets rx at 108mbps */
uint32 rx162mbps; /* packets rx at 162mbps */
uint32 rx216mbps; /* packets rx at 216 mbps */
uint32 rx270mbps; /* packets rx at 270 mbps */
uint32 rx324mbps; /* packets rx at 324 mbps */
uint32 rx378mbps; /* packets rx at 378 mbps */
uint32 rx432mbps; /* packets rx at 432 mbps */
uint32 rx486mbps; /* packets rx at 486 mbps */
uint32 rx540mbps; /* packets rx at 540 mbps */
/* pkteng rx frame stats */
uint32 pktengrxducast; /* unicast frames rxed by the pkteng code */
uint32 pktengrxdmcast; /* multicast frames rxed by the pkteng code */
uint32 rfdisable; /* count of radio disables */
uint32 bphy_rxcrsglitch; /* PHY count of bphy glitches */
uint32 bphy_badplcp;
uint32 txmpdu_sgi; /* count for sgi transmit */
uint32 rxmpdu_sgi; /* count for sgi received */
uint32 txmpdu_stbc; /* count for stbc transmit */
uint32 rxmpdu_stbc; /* count for stbc received */
uint32 rxdrop20s; /* drop secondary cnt */
} wl_cnt_ver_six_t;
#define WL_DELTA_STATS_T_VERSION 2 /* current version of wl_delta_stats_t struct */
typedef struct {
uint16 version; /* see definition of WL_DELTA_STATS_T_VERSION */
uint16 length; /* length of entire structure */
/* transmit stat counters */
uint32 txframe; /* tx data frames */
uint32 txbyte; /* tx data bytes */
uint32 txretrans; /* tx mac retransmits */
uint32 txfail; /* tx failures */
/* receive stat counters */
uint32 rxframe; /* rx data frames */
uint32 rxbyte; /* rx data bytes */
/* per-rate receive stat counters */
uint32 rx1mbps; /* packets rx at 1Mbps */
uint32 rx2mbps; /* packets rx at 2Mbps */
uint32 rx5mbps5; /* packets rx at 5.5Mbps */
uint32 rx6mbps; /* packets rx at 6Mbps */
uint32 rx9mbps; /* packets rx at 9Mbps */
uint32 rx11mbps; /* packets rx at 11Mbps */
uint32 rx12mbps; /* packets rx at 12Mbps */
uint32 rx18mbps; /* packets rx at 18Mbps */
uint32 rx24mbps; /* packets rx at 24Mbps */
uint32 rx36mbps; /* packets rx at 36Mbps */
uint32 rx48mbps; /* packets rx at 48Mbps */
uint32 rx54mbps; /* packets rx at 54Mbps */
uint32 rx108mbps; /* packets rx at 108mbps */
uint32 rx162mbps; /* packets rx at 162mbps */
uint32 rx216mbps; /* packets rx at 216 mbps */
uint32 rx270mbps; /* packets rx at 270 mbps */
uint32 rx324mbps; /* packets rx at 324 mbps */
uint32 rx378mbps; /* packets rx at 378 mbps */
uint32 rx432mbps; /* packets rx at 432 mbps */
uint32 rx486mbps; /* packets rx at 486 mbps */
uint32 rx540mbps; /* packets rx at 540 mbps */
/* phy stats */
uint32 rxbadplcp;
uint32 rxcrsglitch;
uint32 bphy_rxcrsglitch;
uint32 bphy_badplcp;
} wl_delta_stats_t;
typedef struct {
uint32 packets;
uint32 bytes;
} wl_traffic_stats_t;
typedef struct {
uint16 version; /* see definition of WL_WME_CNT_VERSION */
uint16 length; /* length of entire structure */
wl_traffic_stats_t tx[AC_COUNT]; /* Packets transmitted */
wl_traffic_stats_t tx_failed[AC_COUNT]; /* Packets dropped or failed to transmit */
wl_traffic_stats_t rx[AC_COUNT]; /* Packets received */
wl_traffic_stats_t rx_failed[AC_COUNT]; /* Packets failed to receive */
wl_traffic_stats_t forward[AC_COUNT]; /* Packets forwarded by AP */
wl_traffic_stats_t tx_expired[AC_COUNT]; /* packets dropped due to lifetime expiry */
} wl_wme_cnt_t;
struct wl_msglevel2 {
uint32 low;
uint32 high;
};
typedef struct wl_mkeep_alive_pkt {
uint16 version; /* Version for mkeep_alive */
uint16 length; /* length of fixed parameters in the structure */
uint32 period_msec;
uint16 len_bytes;
uint8 keep_alive_id; /* 0 - 3 for N = 4 */
uint8 data[1];
} wl_mkeep_alive_pkt_t;
#define WL_MKEEP_ALIVE_VERSION 1
#define WL_MKEEP_ALIVE_FIXED_LEN OFFSETOF(wl_mkeep_alive_pkt_t, data)
#define WL_MKEEP_ALIVE_PRECISION 500
/* TCP Keep-Alive conn struct */
typedef struct wl_mtcpkeep_alive_conn_pkt {
struct ether_addr saddr; /* src mac address */
struct ether_addr daddr; /* dst mac address */
struct ipv4_addr sipaddr; /* source IP addr */
struct ipv4_addr dipaddr; /* dest IP addr */
uint16 sport; /* src port */
uint16 dport; /* dest port */
uint32 seq; /* seq number */
uint32 ack; /* ACK number */
uint16 tcpwin; /* TCP window */
} wl_mtcpkeep_alive_conn_pkt_t;
/* TCP Keep-Alive interval struct */
typedef struct wl_mtcpkeep_alive_timers_pkt {
uint16 interval; /* interval timer */
uint16 retry_interval; /* retry_interval timer */
uint16 retry_count; /* retry_count */
} wl_mtcpkeep_alive_timers_pkt_t;
typedef struct wake_info {
uint32 wake_reason;
uint32 wake_info_len; /* size of packet */
uchar packet[1];
} wake_info_t;
typedef struct wake_pkt {
uint32 wake_pkt_len; /* size of packet */
uchar packet[1];
} wake_pkt_t;
#define WL_MTCPKEEP_ALIVE_VERSION 1
#ifdef WLBA
#define WLC_BA_CNT_VERSION 1 /* current version of wlc_ba_cnt_t */
/* block ack related stats */
typedef struct wlc_ba_cnt {
uint16 version; /* WLC_BA_CNT_VERSION */
uint16 length; /* length of entire structure */
/* transmit stat counters */
uint32 txpdu; /* pdus sent */
uint32 txsdu; /* sdus sent */
uint32 txfc; /* tx side flow controlled packets */
uint32 txfci; /* tx side flow control initiated */
uint32 txretrans; /* retransmitted pdus */
uint32 txbatimer; /* ba resend due to timer */
uint32 txdrop; /* dropped packets */
uint32 txaddbareq; /* addba req sent */
uint32 txaddbaresp; /* addba resp sent */
uint32 txdelba; /* delba sent */
uint32 txba; /* ba sent */
uint32 txbar; /* bar sent */
uint32 txpad[4]; /* future */
/* receive side counters */
uint32 rxpdu; /* pdus recd */
uint32 rxqed; /* pdus buffered before sending up */
uint32 rxdup; /* duplicate pdus */
uint32 rxnobuf; /* pdus discarded due to no buf */
uint32 rxaddbareq; /* addba req recd */
uint32 rxaddbaresp; /* addba resp recd */
uint32 rxdelba; /* delba recd */
uint32 rxba; /* ba recd */
uint32 rxbar; /* bar recd */
uint32 rxinvba; /* invalid ba recd */
uint32 rxbaholes; /* ba recd with holes */
uint32 rxunexp; /* unexpected packets */
uint32 rxpad[4]; /* future */
} wlc_ba_cnt_t;
#endif /* WLBA */
/* structure for per-tid ampdu control */
struct ampdu_tid_control {
uint8 tid; /* tid */
uint8 enable; /* enable/disable */
};
/* struct for per-tid, per-mode ampdu control */
struct ampdu_tid_control_mode {
struct ampdu_tid_control control[NUMPRIO]; /* tid will be 0xff for not used element */
char mode_name[8]; /* supported mode : AIBSS */
};
/* structure for identifying ea/tid for sending addba/delba */
struct ampdu_ea_tid {
struct ether_addr ea; /* Station address */
uint8 tid; /* tid */
};
/* structure for identifying retry/tid for retry_limit_tid/rr_retry_limit_tid */
struct ampdu_retry_tid {
uint8 tid; /* tid */
uint8 retry; /* retry value */
};
/* structure for dpt iovars */
typedef struct dpt_iovar {
struct ether_addr ea; /* Station address */
uint8 mode; /* mode: depends on iovar */
uint32 pad; /* future */
} dpt_iovar_t;
#define DPT_FNAME_LEN 48 /* Max length of friendly name */
typedef struct dpt_status {
uint8 status; /* flags to indicate status */
uint8 fnlen; /* length of friendly name */
uchar name[DPT_FNAME_LEN]; /* friendly name */
uint32 rssi; /* RSSI of the link */
sta_info_t sta; /* sta info */
} dpt_status_t;
/* structure for dpt list */
typedef struct dpt_list {
uint32 num; /* number of entries in struct */
dpt_status_t status[1]; /* per station info */
} dpt_list_t;
/* structure for dpt friendly name */
typedef struct dpt_fname {
uint8 len; /* length of friendly name */
uchar name[DPT_FNAME_LEN]; /* friendly name */
} dpt_fname_t;
#define BDD_FNAME_LEN 32 /* Max length of friendly name */
typedef struct bdd_fname {
uint8 len; /* length of friendly name */
uchar name[BDD_FNAME_LEN]; /* friendly name */
} bdd_fname_t;
/* structure for addts arguments */
/* For ioctls that take a list of TSPEC */
struct tslist {
int count; /* number of tspecs */
struct tsinfo_arg tsinfo[1]; /* variable length array of tsinfo */
};
#ifdef WLTDLS
/* structure for tdls iovars */
typedef struct tdls_iovar {
struct ether_addr ea; /* Station address */
uint8 mode; /* mode: depends on iovar */
chanspec_t chanspec;
uint32 pad; /* future */
} tdls_iovar_t;
#define TDLS_WFD_IE_SIZE 512
/* structure for tdls wfd ie */
typedef struct tdls_wfd_ie_iovar {
struct ether_addr ea; /* Station address */
uint8 mode;
uint16 length;
uint8 data[TDLS_WFD_IE_SIZE];
} tdls_wfd_ie_iovar_t;
#endif /* WLTDLS */
/* structure for addts/delts arguments */
typedef struct tspec_arg {
uint16 version; /* see definition of TSPEC_ARG_VERSION */
uint16 length; /* length of entire structure */
uint flag; /* bit field */
/* TSPEC Arguments */
struct tsinfo_arg tsinfo; /* TS Info bit field */
uint16 nom_msdu_size; /* (Nominal or fixed) MSDU Size (bytes) */
uint16 max_msdu_size; /* Maximum MSDU Size (bytes) */
uint min_srv_interval; /* Minimum Service Interval (us) */
uint max_srv_interval; /* Maximum Service Interval (us) */
uint inactivity_interval; /* Inactivity Interval (us) */
uint suspension_interval; /* Suspension Interval (us) */
uint srv_start_time; /* Service Start Time (us) */
uint min_data_rate; /* Minimum Data Rate (bps) */
uint mean_data_rate; /* Mean Data Rate (bps) */
uint peak_data_rate; /* Peak Data Rate (bps) */
uint max_burst_size; /* Maximum Burst Size (bytes) */
uint delay_bound; /* Delay Bound (us) */
uint min_phy_rate; /* Minimum PHY Rate (bps) */
uint16 surplus_bw; /* Surplus Bandwidth Allowance (range 1.0 to 8.0) */
uint16 medium_time; /* Medium Time (32 us/s periods) */
uint8 dialog_token; /* dialog token */
} tspec_arg_t;
/* tspec arg for desired station */
typedef struct tspec_per_sta_arg {
struct ether_addr ea;
struct tspec_arg ts;
} tspec_per_sta_arg_t;
/* structure for max bandwidth for each access category */
typedef struct wme_max_bandwidth {
uint32 ac[AC_COUNT]; /* max bandwidth for each access category */
} wme_max_bandwidth_t;
#define WL_WME_MBW_PARAMS_IO_BYTES (sizeof(wme_max_bandwidth_t))
/* current version of wl_tspec_arg_t struct */
#define TSPEC_ARG_VERSION 2 /* current version of wl_tspec_arg_t struct */
#define TSPEC_ARG_LENGTH 55 /* argument length from tsinfo to medium_time */
#define TSPEC_DEFAULT_DIALOG_TOKEN 42 /* default dialog token */
#define TSPEC_DEFAULT_SBW_FACTOR 0x3000 /* default surplus bw */
#define WL_WOWL_KEEPALIVE_MAX_PACKET_SIZE 80
#define WLC_WOWL_MAX_KEEPALIVE 2
/* Packet lifetime configuration per ac */
typedef struct wl_lifetime {
uint32 ac; /* access class */
uint32 lifetime; /* Packet lifetime value in ms */
} wl_lifetime_t;
/* Channel Switch Announcement param */
typedef struct wl_chan_switch {
uint8 mode; /* value 0 or 1 */
uint8 count; /* count # of beacons before switching */
chanspec_t chspec; /* chanspec */
uint8 reg; /* regulatory class */
uint8 frame_type; /* csa frame type, unicast or broadcast */
} wl_chan_switch_t;
enum {
PFN_LIST_ORDER,
PFN_RSSI
};
enum {
DISABLE,
ENABLE
};
enum {
OFF_ADAPT,
SMART_ADAPT,
STRICT_ADAPT,
SLOW_ADAPT
};
#define SORT_CRITERIA_BIT 0
#define AUTO_NET_SWITCH_BIT 1
#define ENABLE_BKGRD_SCAN_BIT 2
#define IMMEDIATE_SCAN_BIT 3
#define AUTO_CONNECT_BIT 4
#define ENABLE_BD_SCAN_BIT 5
#define ENABLE_ADAPTSCAN_BIT 6
#define IMMEDIATE_EVENT_BIT 8
#define SUPPRESS_SSID_BIT 9
#define ENABLE_NET_OFFLOAD_BIT 10
/* report found/lost events for SSID and BSSID networks seperately */
#define REPORT_SEPERATELY_BIT 11
#define SORT_CRITERIA_MASK 0x0001
#define AUTO_NET_SWITCH_MASK 0x0002
#define ENABLE_BKGRD_SCAN_MASK 0x0004
#define IMMEDIATE_SCAN_MASK 0x0008
#define AUTO_CONNECT_MASK 0x0010
#define ENABLE_BD_SCAN_MASK 0x0020
#define ENABLE_ADAPTSCAN_MASK 0x00c0
#define IMMEDIATE_EVENT_MASK 0x0100
#define SUPPRESS_SSID_MASK 0x0200
#define ENABLE_NET_OFFLOAD_MASK 0x0400
/* report found/lost events for SSID and BSSID networks seperately */
#define REPORT_SEPERATELY_MASK 0x0800
#define PFN_VERSION 2
#define PFN_SCANRESULT_VERSION 1
#define MAX_PFN_LIST_COUNT 16
#define PFN_COMPLETE 1
#define PFN_INCOMPLETE 0
#define DEFAULT_BESTN 2
#define DEFAULT_MSCAN 0
#define DEFAULT_REPEAT 10
#define DEFAULT_EXP 2
#define PFN_PARTIAL_SCAN_BIT 0
#define PFN_PARTIAL_SCAN_MASK 1
/* PFN network info structure */
typedef struct wl_pfn_subnet_info {
struct ether_addr BSSID;
uint8 channel; /* channel number only */
uint8 SSID_len;
uint8 SSID[32];
} wl_pfn_subnet_info_t;
typedef struct wl_pfn_net_info {
wl_pfn_subnet_info_t pfnsubnet;
int16 RSSI; /* receive signal strength (in dBm) */
uint16 timestamp; /* age in seconds */
} wl_pfn_net_info_t;
typedef struct wl_pfn_lnet_info {
wl_pfn_subnet_info_t pfnsubnet; /* BSSID + channel + SSID len + SSID */
uint16 flags; /* partial scan, etc */
int16 RSSI; /* receive signal strength (in dBm) */
uint32 timestamp; /* age in miliseconds */
uint16 rtt0; /* estimated distance to this AP in centimeters */
uint16 rtt1; /* standard deviation of the distance to this AP in centimeters */
} wl_pfn_lnet_info_t;
typedef struct wl_pfn_lscanresults {
uint32 version;
uint32 status;
uint32 count;
wl_pfn_lnet_info_t netinfo[1];
} wl_pfn_lscanresults_t;
typedef struct wl_pfn_scanresults {
uint32 version;
uint32 status;
uint32 count;
wl_pfn_net_info_t netinfo[1];
} wl_pfn_scanresults_t;
/* PFN data structure */
typedef struct wl_pfn_param {
int32 version; /* PNO parameters version */
int32 scan_freq; /* Scan frequency */
int32 lost_network_timeout; /* Timeout in sec. to declare
* discovered network as lost
*/
int16 flags; /* Bit field to control features
* of PFN such as sort criteria auto
* enable switch and background scan
*/
int16 rssi_margin; /* Margin to avoid jitter for choosing a
* PFN based on RSSI sort criteria
*/
uint8 bestn; /* number of best networks in each scan */
uint8 mscan; /* number of scans recorded */
uint8 repeat; /* Minimum number of scan intervals
*before scan frequency changes in adaptive scan
*/
uint8 exp; /* Exponent of 2 for maximum scan interval */
int32 slow_freq; /* slow scan period */
} wl_pfn_param_t;
typedef struct wl_pfn_bssid {
struct ether_addr macaddr;
/* Bit4: suppress_lost, Bit3: suppress_found */
uint16 flags;
} wl_pfn_bssid_t;
#define WL_PFN_SUPPRESSFOUND_MASK 0x08
#define WL_PFN_SUPPRESSLOST_MASK 0x10
#define WL_PFN_RSSI_MASK 0xff00
#define WL_PFN_RSSI_SHIFT 8
typedef struct wl_pfn_cfg {
uint32 reporttype;
int32 channel_num;
uint16 channel_list[WL_NUMCHANNELS];
uint32 flags;
} wl_pfn_cfg_t;
#define WL_PFN_REPORT_ALLNET 0
#define WL_PFN_REPORT_SSIDNET 1
#define WL_PFN_REPORT_BSSIDNET 2
#define WL_PFN_CFG_FLAGS_PROHIBITED 0x00000001 /* Accept and use prohibited channels */
#define WL_PFN_CFG_FLAGS_RESERVED 0xfffffffe /* Remaining reserved for future use */
typedef struct wl_pfn {
wlc_ssid_t ssid; /* ssid name and its length */
int32 flags; /* bit2: hidden */
int32 infra; /* BSS Vs IBSS */
int32 auth; /* Open Vs Closed */
int32 wpa_auth; /* WPA type */
int32 wsec; /* wsec value */
} wl_pfn_t;
typedef struct wl_pfn_list {
uint32 version;
uint32 enabled;
uint32 count;
wl_pfn_t pfn[1];
} wl_pfn_list_t;
typedef BWL_PRE_PACKED_STRUCT struct pfn_olmsg_params_t {
wlc_ssid_t ssid;
uint32 cipher_type;
uint32 auth_type;
uint8 channels[4];
} BWL_POST_PACKED_STRUCT pfn_olmsg_params;
#define WL_PFN_HIDDEN_BIT 2
#define WL_PFN_HIDDEN_MASK 0x4
#ifndef BESTN_MAX
#define BESTN_MAX 3
#endif
#ifndef MSCAN_MAX
#define MSCAN_MAX 90
#endif
/* Service discovery */
typedef struct {
uint8 transaction_id; /* Transaction id */
uint8 protocol; /* Service protocol type */
uint16 query_len; /* Length of query */
uint16 response_len; /* Length of response */
uint8 qrbuf[1];
} wl_p2po_qr_t;
typedef struct {
uint16 period; /* extended listen period */
uint16 interval; /* extended listen interval */
} wl_p2po_listen_t;
/* ANQP offload */
#define ANQPO_MAX_QUERY_SIZE 256
typedef struct {
uint16 max_retransmit; /* ~0 use default, max retransmit on no ACK from peer */
uint16 response_timeout; /* ~0 use default, msec to wait for resp after tx packet */
uint16 max_comeback_delay; /* ~0 use default, max comeback delay in resp else fail */
uint16 max_retries; /* ~0 use default, max retries on failure */
uint16 query_len; /* length of ANQP query */
uint8 query_data[1]; /* ANQP encoded query (max ANQPO_MAX_QUERY_SIZE) */
} wl_anqpo_set_t;
typedef struct {
uint16 channel; /* channel of the peer */
struct ether_addr addr; /* addr of the peer */
} wl_anqpo_peer_t;
#define ANQPO_MAX_PEER_LIST 64
typedef struct {
uint16 count; /* number of peers in list */
wl_anqpo_peer_t peer[1]; /* max ANQPO_MAX_PEER_LIST */
} wl_anqpo_peer_list_t;
#define ANQPO_MAX_IGNORE_SSID 64
typedef struct {
bool is_clear; /* set to clear list (not used on GET) */
uint16 count; /* number of SSID in list */
wlc_ssid_t ssid[1]; /* max ANQPO_MAX_IGNORE_SSID */
} wl_anqpo_ignore_ssid_list_t;
#define ANQPO_MAX_IGNORE_BSSID 64
typedef struct {
bool is_clear; /* set to clear list (not used on GET) */
uint16 count; /* number of addr in list */
struct ether_addr bssid[1]; /* max ANQPO_MAX_IGNORE_BSSID */
} wl_anqpo_ignore_bssid_list_t;
struct toe_ol_stats_t {
/* Num of tx packets that don't need to be checksummed */
uint32 tx_summed;
/* Num of tx packets where checksum is filled by offload engine */
uint32 tx_iph_fill;
uint32 tx_tcp_fill;
uint32 tx_udp_fill;
uint32 tx_icmp_fill;
/* Num of rx packets where toe finds out if checksum is good or bad */
uint32 rx_iph_good;
uint32 rx_iph_bad;
uint32 rx_tcp_good;
uint32 rx_tcp_bad;
uint32 rx_udp_good;
uint32 rx_udp_bad;
uint32 rx_icmp_good;
uint32 rx_icmp_bad;
/* Num of tx packets in which csum error is injected */
uint32 tx_tcp_errinj;
uint32 tx_udp_errinj;
uint32 tx_icmp_errinj;
/* Num of rx packets in which csum error is injected */
uint32 rx_tcp_errinj;
uint32 rx_udp_errinj;
uint32 rx_icmp_errinj;
};
/* Arp offload statistic counts */
struct arp_ol_stats_t {
uint32 host_ip_entries; /* Host IP table addresses (more than one if multihomed) */
uint32 host_ip_overflow; /* Host IP table additions skipped due to overflow */
uint32 arp_table_entries; /* ARP table entries */
uint32 arp_table_overflow; /* ARP table additions skipped due to overflow */
uint32 host_request; /* ARP requests from host */
uint32 host_reply; /* ARP replies from host */
uint32 host_service; /* ARP requests from host serviced by ARP Agent */
uint32 peer_request; /* ARP requests received from network */
uint32 peer_request_drop; /* ARP requests from network that were dropped */
uint32 peer_reply; /* ARP replies received from network */
uint32 peer_reply_drop; /* ARP replies from network that were dropped */
uint32 peer_service; /* ARP request from host serviced by ARP Agent */
};
/* NS offload statistic counts */
struct nd_ol_stats_t {
uint32 host_ip_entries; /* Host IP table addresses (more than one if multihomed) */
uint32 host_ip_overflow; /* Host IP table additions skipped due to overflow */
uint32 peer_request; /* NS requests received from network */
uint32 peer_request_drop; /* NS requests from network that were dropped */
uint32 peer_reply_drop; /* NA replies from network that were dropped */
uint32 peer_service; /* NS request from host serviced by firmware */
};
/*
* Keep-alive packet offloading.
*/
/* NAT keep-alive packets format: specifies the re-transmission period, the packet
* length, and packet contents.
*/
typedef struct wl_keep_alive_pkt {
uint32 period_msec; /* Retransmission period (0 to disable packet re-transmits) */
uint16 len_bytes; /* Size of packet to transmit (0 to disable packet re-transmits) */
uint8 data[1]; /* Variable length packet to transmit. Contents should include
* entire ethernet packet (enet header, IP header, UDP header,
* and UDP payload) in network byte order.
*/
} wl_keep_alive_pkt_t;
#define WL_KEEP_ALIVE_FIXED_LEN OFFSETOF(wl_keep_alive_pkt_t, data)
typedef struct awdl_config_params {
uint32 version;
uint8 awdl_chan; /* awdl channel */
uint8 guard_time; /* Guard Time */
uint16 aw_period; /* AW interval period */
uint16 aw_cmn_length; /* Radio on Time AW */
uint16 action_frame_period; /* awdl action frame period */
uint16 awdl_pktlifetime; /* max packet life time in msec for awdl action frames */
uint16 awdl_maxnomaster; /* max master missing time */
uint16 awdl_extcount; /* Max extended period count for traffic */
uint16 aw_ext_length; /* AW ext period */
uint16 awdl_nmode; /* Operation mode of awdl interface; * 0 - Legacy mode
* 1 - 11n rate only * 2 - 11n + ampdu rx/tx
*/
struct ether_addr ea; /* destination bcast/mcast address to which action frame
* need to be sent
*/
} awdl_config_params_t;
typedef struct wl_awdl_action_frame {
uint16 len_bytes;
uint8 awdl_action_frame_data[1];
} wl_awdl_action_frame_t;
#define WL_AWDL_ACTION_FRAME_FIXED_LEN OFFSETOF(wl_awdl_action_frame_t, awdl_sync_frame)
typedef struct awdl_peer_node {
uint32 type_state; /* Master, slave , etc.. */
uint16 aw_counter; /* avail window counter */
int8 rssi; /* rssi last af was received at */
int8 last_rssi; /* rssi in the last AF */
uint16 tx_counter;
uint16 tx_delay; /* ts_hw - ts_fw */
uint16 period_tu;
uint16 aw_period;
uint16 aw_cmn_length;
uint16 aw_ext_length;
uint32 self_metrics; /* Election Metric */
uint32 top_master_metrics; /* Top Master Metric */
struct ether_addr addr;
struct ether_addr top_master;
uint8 dist_top; /* Distance from Top */
} awdl_peer_node_t;
typedef struct awdl_peer_table {
uint16 version;
uint16 len;
uint8 peer_nodes[1];
} awdl_peer_table_t;
typedef struct awdl_af_hdr {
struct ether_addr dst_mac;
uint8 action_hdr[4]; /* Category + OUI[3] */
} awdl_af_hdr_t;
typedef struct awdl_oui {
uint8 oui[3]; /* default: 0x00 0x17 0xf2 */
uint8 oui_type; /* AWDL: 0x08 */
} awdl_oui_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_hdr {
uint8 type; /* 0x08 AWDL */
uint8 version;
uint8 sub_type; /* Sub type */
uint8 rsvd; /* Reserved */
uint32 phy_timestamp; /* PHY Tx time */
uint32 fw_timestamp; /* Target Tx time */
} BWL_POST_PACKED_STRUCT awdl_hdr_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_oob_af_params {
struct ether_addr bssid;
struct ether_addr dst_mac;
uint32 channel;
uint32 dwell_time;
uint32 flags;
uint32 pkt_lifetime;
uint32 tx_rate;
uint32 max_retries; /* for unicast frames only */
uint16 payload_len;
uint8 payload[1]; /* complete AF payload */
} BWL_POST_PACKED_STRUCT awdl_oob_af_params_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_sync_params {
uint8 type; /* Type */
uint16 param_len; /* sync param length */
uint8 tx_chan; /* tx channel */
uint16 tx_counter; /* tx down counter */
uint8 master_chan; /* master home channel */
uint8 guard_time; /* Gaurd Time */
uint16 aw_period; /* AW period */
uint16 action_frame_period; /* awdl action frame period */
uint16 awdl_flags; /* AWDL Flags */
uint16 aw_ext_length; /* AW extention len */
uint16 aw_cmn_length; /* AW common len */
uint16 aw_remaining; /* Remaining AW length */
uint8 min_ext; /* Minimum Extention count */
uint8 max_ext_multi; /* Max multicast Extention count */
uint8 max_ext_uni; /* Max unicast Extention count */
uint8 max_ext_af; /* Max af Extention count */
struct ether_addr current_master; /* Current Master mac addr */
uint8 presence_mode; /* Presence mode */
uint8 reserved;
uint16 aw_counter; /* AW seq# */
uint16 ap_bcn_alignment_delta; /* AP Beacon alignment delta */
} BWL_POST_PACKED_STRUCT awdl_sync_params_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_channel_sequence {
uint8 aw_seq_len; /* AW seq length */
uint8 aw_seq_enc; /* AW seq encoding */
uint8 aw_seq_duplicate_cnt; /* AW seq dupilcate count */
uint8 seq_step_cnt; /* Seq spet count */
uint16 seq_fill_chan; /* channel to fill in; 0xffff repeat current channel */
uint8 chan_sequence[1]; /* Variable list of channel Sequence */
} BWL_POST_PACKED_STRUCT awdl_channel_sequence_t;
#define WL_AWDL_CHAN_SEQ_FIXED_LEN OFFSETOF(awdl_channel_sequence_t, chan_sequence)
typedef BWL_PRE_PACKED_STRUCT struct awdl_election_info {
uint8 election_flags; /* Election Flags */
uint16 election_ID; /* Election ID */
uint32 self_metrics;
} BWL_POST_PACKED_STRUCT awdl_election_info_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_election_tree_info {
uint8 election_flags; /* Election Flags */
uint16 election_ID; /* Election ID */
uint32 self_metrics;
int8 master_sync_rssi_thld;
int8 slave_sync_rssi_thld;
int8 edge_sync_rssi_thld;
int8 close_range_rssi_thld;
int8 mid_range_rssi_thld;
uint8 max_higher_masters_close_range;
uint8 max_higher_masters_mid_range;
uint8 max_tree_depth;
/* read only */
struct ether_addr top_master; /* top Master mac addr */
uint32 top_master_self_metric;
uint8 current_tree_depth;
} BWL_POST_PACKED_STRUCT awdl_election_tree_info_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_election_params_tlv {
uint8 type; /* Type */
uint16 param_len; /* Election param length */
uint8 election_flags; /* Election Flags */
uint16 election_ID; /* Election ID */
uint8 dist_top; /* Distance from Top */
uint8 rsvd; /* Reserved */
struct ether_addr top_master; /* Top Master mac addr */
uint32 top_master_metrics;
uint32 self_metrics;
uint8 pad[2]; /* Padding */
} BWL_POST_PACKED_STRUCT awdl_election_params_tlv_t;
typedef struct awdl_payload {
uint32 len; /* Payload length */
uint8 payload[1]; /* Payload */
} awdl_payload_t;
typedef struct awdl_long_payload {
uint8 long_psf_period; /* transmit every long_psf_perios AWs */
uint8 long_psf_tx_offset; /* delay from aw_start */
uint16 len; /* Payload length */
uint8 payload[1]; /* Payload */
} BWL_POST_PACKED_STRUCT awdl_long_payload_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_opmode {
uint8 mode; /* 0 - Auto; 1 - Fixed */
uint8 role; /* 0 - slave; 1 - non-elect master; 2 - master */
uint16 bcast_tu; /* Bcasting period(TU) for non-elect master */
struct ether_addr master; /* Address of master to sync to */
uint16 cur_bcast_tu; /* Current Bcasting Period(TU) */
} BWL_PRE_PACKED_STRUCT awdl_opmode_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_extcount {
uint8 minExt; /* Min extension count */
uint8 maxExtMulti; /* Max extension count for mcast packets */
uint8 maxExtUni; /* Max extension count for unicast packets */
uint8 maxAfExt; /* Max extension count */
} BWL_PRE_PACKED_STRUCT awdl_extcount_t;
/* peer add/del operation */
typedef struct awdl_peer_op {
uint8 version;
uint8 opcode; /* see opcode definition */
struct ether_addr addr;
uint8 mode;
} awdl_peer_op_t;
/* peer op table */
typedef struct awdl_peer_op_tbl {
uint16 len; /* length */
uint8 tbl[1]; /* Peer table */
} awdl_peer_op_tbl_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_peer_op_node {
struct ether_addr addr;
uint32 flags; /* Flags to indicate various states */
} BWL_POST_PACKED_STRUCT awdl_peer_op_node_t;
#define AWDL_PEER_OP_CUR_VER 0
/* AWDL related statistics */
typedef BWL_PRE_PACKED_STRUCT struct awdl_stats {
uint32 afrx;
uint32 aftx;
uint32 datatx;
uint32 datarx;
uint32 txdrop;
uint32 rxdrop;
uint32 monrx;
uint32 lostmaster;
uint32 misalign;
uint32 aws;
uint32 aw_dur;
uint32 debug;
uint32 txsupr;
uint32 afrxdrop;
uint32 awdrop;
uint32 noawchansw;
uint32 rx80211;
uint32 peeropdrop;
} BWL_POST_PACKED_STRUCT awdl_stats_t;
typedef BWL_PRE_PACKED_STRUCT struct awdl_uct_stats {
uint32 aw_proc_in_aw_sched;
uint32 aw_upd_in_pre_aw_proc;
uint32 pre_aw_proc_in_aw_set;
uint32 ignore_pre_aw_proc;
uint32 miss_pre_aw_intr;
uint32 aw_dur_zero;
uint32 aw_sched;
uint32 aw_proc;
uint32 pre_aw_proc;
uint32 not_init;
uint32 null_awdl;
} BWL_POST_PACKED_STRUCT awdl_uct_stats_t;
typedef struct awdl_pw_opmode {
struct ether_addr top_master; /* Peer mac addr */
uint8 mode; /* 0 - normal; 1 - fast mode */
} awdl_pw_opmode_t;
/* i/f request */
typedef struct wl_awdl_if {
int32 cfg_idx;
int32 up;
struct ether_addr if_addr;
struct ether_addr bssid;
} wl_awdl_if_t;
typedef struct _aw_start {
uint8 role;
struct ether_addr master;
uint8 aw_seq_num;
} aw_start_t;
typedef struct _aw_extension_start {
uint8 aw_ext_num;
} aw_extension_start_t;
typedef struct _awdl_peer_state {
struct ether_addr peer;
uint8 state;
} awdl_peer_state_t;
typedef struct _awdl_sync_state_changed {
uint8 new_role;
struct ether_addr master;
} awdl_sync_state_changed_t;
typedef struct _awdl_sync_state {
uint8 role;
struct ether_addr master;
uint32 continuous_election_enable;
} awdl_sync_state_t;
typedef struct _awdl_aw_ap_alignment {
uint32 enabled;
int32 offset;
uint32 align_on_dtim;
} awdl_aw_ap_alignment_t;
typedef struct _awdl_peer_stats {
uint32 version;
struct ether_addr address;
uint8 clear;
int8 rssi;
int8 avg_rssi;
uint8 txRate;
uint8 rxRate;
uint32 numTx;
uint32 numTxRetries;
uint32 numTxFailures;
} awdl_peer_stats_t;
#define MAX_NUM_AWDL_KEYS 4
typedef struct _awdl_aes_key {
uint32 version;
int32 enable;
struct ether_addr awdl_peer;
uint8 keys[MAX_NUM_AWDL_KEYS][16];
} awdl_aes_key_t;
/*
* Dongle pattern matching filter.
*/
#define MAX_WAKE_PACKET_CACHE_BYTES 128 /* Maximum cached wake packet */
#define MAX_WAKE_PACKET_BYTES (DOT11_A3_HDR_LEN + \
DOT11_QOS_LEN + \
sizeof(struct dot11_llc_snap_header) + \
ETHER_MAX_DATA)
typedef struct pm_wake_packet {
uint32 status; /* Is the wake reason a packet (if all the other field's valid) */
uint32 pattern_id; /* Pattern ID that matched */
uint32 original_packet_size;
uint32 saved_packet_size;
uchar packet[MAX_WAKE_PACKET_CACHE_BYTES];
} pm_wake_packet_t;
/* Packet filter types. Currently, only pattern matching is supported. */
typedef enum wl_pkt_filter_type {
WL_PKT_FILTER_TYPE_PATTERN_MATCH=0, /* Pattern matching filter */
WL_PKT_FILTER_TYPE_MAGIC_PATTERN_MATCH=1, /* Magic packet match */
WL_PKT_FILTER_TYPE_PATTERN_LIST_MATCH=2 /* A pattern list (match all to match filter) */
} wl_pkt_filter_type_t;
#define WL_PKT_FILTER_TYPE wl_pkt_filter_type_t
/* String mapping for types that may be used by applications or debug */
#define WL_PKT_FILTER_TYPE_NAMES \
{ "PATTERN", WL_PKT_FILTER_TYPE_PATTERN_MATCH }, \
{ "MAGIC", WL_PKT_FILTER_TYPE_MAGIC_PATTERN_MATCH }, \
{ "PATLIST", WL_PKT_FILTER_TYPE_PATTERN_LIST_MATCH }
/* Pattern matching filter. Specifies an offset within received packets to
* start matching, the pattern to match, the size of the pattern, and a bitmask
* that indicates which bits within the pattern should be matched.
*/
typedef struct wl_pkt_filter_pattern {
uint32 offset; /* Offset within received packet to start pattern matching.
* Offset '0' is the first byte of the ethernet header.
*/
uint32 size_bytes; /* Size of the pattern. Bitmask must be the same size. */
uint8 mask_and_pattern[1]; /* Variable length mask and pattern data. mask starts
* at offset 0. Pattern immediately follows mask.
*/
} wl_pkt_filter_pattern_t;
/* A pattern list is a numerically specified list of modified pattern structures. */
typedef struct wl_pkt_filter_pattern_listel {
uint16 rel_offs; /* Offset to begin match (relative to 'base' below) */
uint16 base_offs; /* Base for offset (defined below) */
uint16 size_bytes; /* Size of mask/pattern */
uint16 match_flags; /* Addition flags controlling the match */
uint8 mask_and_data[1]; /* Variable length mask followed by data, each size_bytes */
} wl_pkt_filter_pattern_listel_t;
typedef struct wl_pkt_filter_pattern_list {
uint8 list_cnt; /* Number of elements in the list */
uint8 PAD1[1]; /* Reserved (possible version: reserved) */
uint16 totsize; /* Total size of this pattern list (includes this struct) */
wl_pkt_filter_pattern_listel_t patterns[1]; /* Variable number of list elements */
} wl_pkt_filter_pattern_list_t;
/* IOVAR "pkt_filter_add" parameter. Used to install packet filters. */
typedef struct wl_pkt_filter {
uint32 id; /* Unique filter id, specified by app. */
uint32 type; /* Filter type (WL_PKT_FILTER_TYPE_xxx). */
uint32 negate_match; /* Negate the result of filter matches */
union { /* Filter definitions */
wl_pkt_filter_pattern_t pattern; /* Pattern matching filter */
wl_pkt_filter_pattern_list_t patlist; /* List of patterns to match */
} u;
} wl_pkt_filter_t;
/* IOVAR "tcp_keep_set" parameter. Used to install tcp keep_alive stuff. */
typedef struct wl_tcp_keep_set {
uint32 val1;
uint32 val2;
} wl_tcp_keep_set_t;
#define WL_PKT_FILTER_FIXED_LEN OFFSETOF(wl_pkt_filter_t, u)
#define WL_PKT_FILTER_PATTERN_FIXED_LEN OFFSETOF(wl_pkt_filter_pattern_t, mask_and_pattern)
#define WL_PKT_FILTER_PATTERN_LIST_FIXED_LEN OFFSETOF(wl_pkt_filter_pattern_list_t, patterns)
#define WL_PKT_FILTER_PATTERN_LISTEL_FIXED_LEN \
OFFSETOF(wl_pkt_filter_pattern_listel_t, mask_and_data)
/* IOVAR "pkt_filter_enable" parameter. */
typedef struct wl_pkt_filter_enable {
uint32 id; /* Unique filter id */
uint32 enable; /* Enable/disable bool */
} wl_pkt_filter_enable_t;
/* IOVAR "pkt_filter_list" parameter. Used to retrieve a list of installed filters. */
typedef struct wl_pkt_filter_list {
uint32 num; /* Number of installed packet filters */
wl_pkt_filter_t filter[1]; /* Variable array of packet filters. */
} wl_pkt_filter_list_t;
#define WL_PKT_FILTER_LIST_FIXED_LEN OFFSETOF(wl_pkt_filter_list_t, filter)
/* IOVAR "pkt_filter_stats" parameter. Used to retrieve debug statistics. */
typedef struct wl_pkt_filter_stats {
uint32 num_pkts_matched; /* # filter matches for specified filter id */
uint32 num_pkts_forwarded; /* # packets fwded from dongle to host for all filters */
uint32 num_pkts_discarded; /* # packets discarded by dongle for all filters */
} wl_pkt_filter_stats_t;
/* IOVAR "pkt_filter_ports" parameter. Configure TCP/UDP port filters. */
typedef struct wl_pkt_filter_ports {
uint8 version; /* Be proper */
uint8 reserved; /* Be really proper */
uint16 count; /* Number of ports following */
/* End of fixed data */
uint16 ports[1]; /* Placeholder for ports[<count>] */
} wl_pkt_filter_ports_t;
#define WL_PKT_FILTER_PORTS_FIXED_LEN OFFSETOF(wl_pkt_filter_ports_t, ports)
#define WL_PKT_FILTER_PORTS_VERSION 0
#define WL_PKT_FILTER_PORTS_MAX 128
#define RSN_KCK_LENGTH 16
#define RSN_KEK_LENGTH 16
#define RSN_REPLAY_LEN 8
typedef struct _gtkrefresh {
uchar KCK[RSN_KCK_LENGTH];
uchar KEK[RSN_KEK_LENGTH];
uchar ReplayCounter[RSN_REPLAY_LEN];
} gtk_keyinfo_t, *pgtk_keyinfo_t;
/* Sequential Commands ioctl */
typedef struct wl_seq_cmd_ioctl {
uint32 cmd; /* common ioctl definition */
uint32 len; /* length of user buffer */
} wl_seq_cmd_ioctl_t;
#define WL_SEQ_CMD_ALIGN_BYTES 4
/* These are the set of get IOCTLs that should be allowed when using
* IOCTL sequence commands. These are issued implicitly by wl.exe each time
* it is invoked. We never want to buffer these, or else wl.exe will stop working.
*/
#define WL_SEQ_CMDS_GET_IOCTL_FILTER(cmd) \
(((cmd) == WLC_GET_MAGIC) || \
((cmd) == WLC_GET_VERSION) || \
((cmd) == WLC_GET_AP) || \
((cmd) == WLC_GET_INSTANCE))
typedef struct wl_pkteng {
uint32 flags;
uint32 delay; /* Inter-packet delay */
uint32 nframes; /* Number of frames */
uint32 length; /* Packet length */
uint8 seqno; /* Enable/disable sequence no. */
struct ether_addr dest; /* Destination address */
struct ether_addr src; /* Source address */
} wl_pkteng_t;
typedef struct wl_pkteng_stats {
uint32 lostfrmcnt; /* RX PER test: no of frames lost (skip seqno) */
int32 rssi; /* RSSI */
int32 snr; /* signal to noise ratio */
uint16 rxpktcnt[NUM_80211_RATES+1];
uint8 rssi_qdb; /* qdB portion of the computed rssi */
} wl_pkteng_stats_t;
typedef enum {
wowl_pattern_type_bitmap = 0,
wowl_pattern_type_arp,
wowl_pattern_type_na
} wowl_pattern_type_t;
typedef struct wl_wowl_pattern {
uint32 masksize; /* Size of the mask in #of bytes */
uint32 offset; /* Pattern byte offset in packet */
uint32 patternoffset; /* Offset of start of pattern in the structure */
uint32 patternsize; /* Size of the pattern itself in #of bytes */
uint32 id; /* id */
uint32 reasonsize; /* Size of the wakeup reason code */
wowl_pattern_type_t type; /* Type of pattern */
/* Mask follows the structure above */
/* Pattern follows the mask is at 'patternoffset' from the start */
} wl_wowl_pattern_t;
typedef struct wl_wowl_pattern_list {
uint count;
wl_wowl_pattern_t pattern[1];
} wl_wowl_pattern_list_t;
typedef struct wl_wowl_wakeind {
uint8 pci_wakeind; /* Whether PCI PMECSR PMEStatus bit was set */
uint32 ucode_wakeind; /* What wakeup-event indication was set by ucode */
} wl_wowl_wakeind_t;
typedef struct {
uint32 pktlen; /* size of packet */
void *sdu;
} tcp_keepalive_wake_pkt_infop_t;
/* per AC rate control related data structure */
typedef struct wl_txrate_class {
uint8 init_rate;
uint8 min_rate;
uint8 max_rate;
} wl_txrate_class_t;
/* structure for Overlap BSS scan arguments */
typedef struct wl_obss_scan_arg {
int16 passive_dwell;
int16 active_dwell;
int16 bss_widthscan_interval;
int16 passive_total;
int16 active_total;
int16 chanwidth_transition_delay;
int16 activity_threshold;
} wl_obss_scan_arg_t;
#define WL_OBSS_SCAN_PARAM_LEN sizeof(wl_obss_scan_arg_t)
/* RSSI event notification configuration. */
typedef struct wl_rssi_event {
uint32 rate_limit_msec; /* # of events posted to application will be limited to
* one per specified period (0 to disable rate limit).
*/
uint8 num_rssi_levels; /* Number of entries in rssi_levels[] below */
int8 rssi_levels[MAX_RSSI_LEVELS]; /* Variable number of RSSI levels. An event
* will be posted each time the RSSI of received
* beacons/packets crosses a level.
*/
} wl_rssi_event_t;
typedef struct wl_action_obss_coex_req {
uint8 info;
uint8 num;
uint8 ch_list[1];
} wl_action_obss_coex_req_t;
/* IOVar parameter block for small MAC address array with type indicator */
#define WL_IOV_MAC_PARAM_LEN 4
#define WL_IOV_PKTQ_LOG_PRECS 16
typedef struct {
uint32 num_addrs;
char addr_type[WL_IOV_MAC_PARAM_LEN];
struct ether_addr ea[WL_IOV_MAC_PARAM_LEN];
} wl_iov_mac_params_t;
/* This is extra info that follows wl_iov_mac_params_t */
typedef struct {
uint32 addr_info[WL_IOV_MAC_PARAM_LEN];
} wl_iov_mac_extra_params_t;
/* Combined structure */
typedef struct {
wl_iov_mac_params_t params;
wl_iov_mac_extra_params_t extra_params;
} wl_iov_mac_full_params_t;
/* Parameter block for PKTQ_LOG statistics */
#define PKTQ_LOG_COUNTERS_V4 \
/* packets requested to be stored */ \
uint32 requested; \
/* packets stored */ \
uint32 stored; \
/* packets saved, because a lowest priority queue has given away one packet */ \
uint32 saved; \
/* packets saved, because an older packet from the same queue has been dropped */ \
uint32 selfsaved; \
/* packets dropped, because pktq is full with higher precedence packets */ \
uint32 full_dropped; \
/* packets dropped because pktq per that precedence is full */ \
uint32 dropped; \
/* packets dropped, in order to save one from a queue of a highest priority */ \
uint32 sacrificed; \
/* packets droped because of hardware/transmission error */ \
uint32 busy; \
/* packets re-sent because they were not received */ \
uint32 retry; \
/* packets retried again (ps pretend) prior to moving power save mode */ \
uint32 ps_retry; \
/* suppressed packet count */ \
uint32 suppress; \
/* packets finally dropped after retry limit */ \
uint32 retry_drop; \
/* the high-water mark of the queue capacity for packets - goes to zero as queue fills */ \
uint32 max_avail; \
/* the high-water mark of the queue utilisation for packets - ('inverse' of max_avail) */ \
uint32 max_used; \
/* the maximum capacity of the queue */ \
uint32 queue_capacity; \
/* count of rts attempts that failed to receive cts */ \
uint32 rtsfail; \
/* count of packets sent (acked) successfully */ \
uint32 acked; \
/* running total of phy rate of packets sent successfully */ \
uint32 txrate_succ; \
/* running total of phy 'main' rate */ \
uint32 txrate_main; \
/* actual data transferred successfully */ \
uint32 throughput; \
/* time difference since last pktq_stats */ \
uint32 time_delta;
typedef struct {
PKTQ_LOG_COUNTERS_V4
} pktq_log_counters_v04_t;
/* v5 is the same as V4 with extra parameter */
typedef struct {
PKTQ_LOG_COUNTERS_V4
/* cumulative time to transmit */
uint32 airtime;
} pktq_log_counters_v05_t;
typedef struct {
uint8 num_prec[WL_IOV_MAC_PARAM_LEN];
pktq_log_counters_v04_t counters[WL_IOV_MAC_PARAM_LEN][WL_IOV_PKTQ_LOG_PRECS];
uint32 counter_info[WL_IOV_MAC_PARAM_LEN];
uint32 pspretend_time_delta[WL_IOV_MAC_PARAM_LEN];
char headings[1];
} pktq_log_format_v04_t;
typedef struct {
uint8 num_prec[WL_IOV_MAC_PARAM_LEN];
pktq_log_counters_v05_t counters[WL_IOV_MAC_PARAM_LEN][WL_IOV_PKTQ_LOG_PRECS];
uint32 counter_info[WL_IOV_MAC_PARAM_LEN];
uint32 pspretend_time_delta[WL_IOV_MAC_PARAM_LEN];
char headings[1];
} pktq_log_format_v05_t;
typedef struct {
uint32 version;
wl_iov_mac_params_t params;
union {
pktq_log_format_v04_t v04;
pktq_log_format_v05_t v05;
} pktq_log;
} wl_iov_pktq_log_t;
/* PKTQ_LOG_AUTO, PKTQ_LOG_DEF_PREC flags introduced in v05, they are ignored by v04 */
#define PKTQ_LOG_AUTO (1 << 31)
#define PKTQ_LOG_DEF_PREC (1 << 30)
/*
* SCB_BS_DATA iovar definitions start.
*/
#define SCB_BS_DATA_STRUCT_VERSION 1
/* The actual counters maintained for each station */
typedef BWL_PRE_PACKED_STRUCT struct {
/* The following counters are a subset of what pktq_stats provides per precedence. */
uint32 retry; /* packets re-sent because they were not received */
uint32 retry_drop; /* packets finally dropped after retry limit */
uint32 rtsfail; /* count of rts attempts that failed to receive cts */
uint32 acked; /* count of packets sent (acked) successfully */
uint32 txrate_succ; /* running total of phy rate of packets sent successfully */
uint32 txrate_main; /* running total of phy 'main' rate */
uint32 throughput; /* actual data transferred successfully */
uint32 time_delta; /* time difference since last pktq_stats */
uint32 airtime; /* cumulative total medium access delay in useconds */
} BWL_POST_PACKED_STRUCT iov_bs_data_counters_t;
/* The structure for individual station information. */
typedef BWL_PRE_PACKED_STRUCT struct {
struct ether_addr station_address; /* The station MAC address */
uint16 station_flags; /* Bit mask of flags, for future use. */
iov_bs_data_counters_t station_counters; /* The actual counter values */
} BWL_POST_PACKED_STRUCT iov_bs_data_record_t;
typedef BWL_PRE_PACKED_STRUCT struct {
uint16 structure_version; /* Structure version number (for wl/wlu matching) */
uint16 structure_count; /* Number of iov_bs_data_record_t records following */
iov_bs_data_record_t structure_record[1]; /* 0 - structure_count records */
} BWL_POST_PACKED_STRUCT iov_bs_data_struct_t;
/* Bitmask of options that can be passed in to the iovar. */
enum {
SCB_BS_DATA_FLAG_NO_RESET = (1<<0) /* Do not clear the counters after reading */
};
/*
* SCB_BS_DATA iovar definitions end.
*/
typedef struct wlc_extlog_cfg {
int max_number;
uint16 module; /* bitmap */
uint8 level;
uint8 flag;
uint16 version;
} wlc_extlog_cfg_t;
typedef struct log_record {
uint32 time;
uint16 module;
uint16 id;
uint8 level;
uint8 sub_unit;
uint8 seq_num;
int32 arg;
char str[MAX_ARGSTR_LEN];
} log_record_t;
typedef struct wlc_extlog_req {
uint32 from_last;
uint32 num;
} wlc_extlog_req_t;
typedef struct wlc_extlog_results {
uint16 version;
uint16 record_len;
uint32 num;
log_record_t logs[1];
} wlc_extlog_results_t;
typedef struct log_idstr {
uint16 id;
uint16 flag;
uint8 arg_type;
const char *fmt_str;
} log_idstr_t;
#define FMTSTRF_USER 1
/* flat ID definitions
* New definitions HAVE TO BE ADDED at the end of the table. Otherwise, it will
* affect backward compatibility with pre-existing apps
*/
typedef enum {
FMTSTR_DRIVER_UP_ID = 0,
FMTSTR_DRIVER_DOWN_ID = 1,
FMTSTR_SUSPEND_MAC_FAIL_ID = 2,
FMTSTR_NO_PROGRESS_ID = 3,
FMTSTR_RFDISABLE_ID = 4,
FMTSTR_REG_PRINT_ID = 5,
FMTSTR_EXPTIME_ID = 6,
FMTSTR_JOIN_START_ID = 7,
FMTSTR_JOIN_COMPLETE_ID = 8,
FMTSTR_NO_NETWORKS_ID = 9,
FMTSTR_SECURITY_MISMATCH_ID = 10,
FMTSTR_RATE_MISMATCH_ID = 11,
FMTSTR_AP_PRUNED_ID = 12,
FMTSTR_KEY_INSERTED_ID = 13,
FMTSTR_DEAUTH_ID = 14,
FMTSTR_DISASSOC_ID = 15,
FMTSTR_LINK_UP_ID = 16,
FMTSTR_LINK_DOWN_ID = 17,
FMTSTR_RADIO_HW_OFF_ID = 18,
FMTSTR_RADIO_HW_ON_ID = 19,
FMTSTR_EVENT_DESC_ID = 20,
FMTSTR_PNP_SET_POWER_ID = 21,
FMTSTR_RADIO_SW_OFF_ID = 22,
FMTSTR_RADIO_SW_ON_ID = 23,
FMTSTR_PWD_MISMATCH_ID = 24,
FMTSTR_FATAL_ERROR_ID = 25,
FMTSTR_AUTH_FAIL_ID = 26,
FMTSTR_ASSOC_FAIL_ID = 27,
FMTSTR_IBSS_FAIL_ID = 28,
FMTSTR_EXTAP_FAIL_ID = 29,
FMTSTR_MAX_ID
} log_fmtstr_id_t;
#ifdef DONGLEOVERLAYS
typedef struct {
uint32 flags_idx; /* lower 8 bits: overlay index; upper 24 bits: flags */
uint32 offset; /* offset into overlay region to write code */
uint32 len; /* overlay code len */
/* overlay code follows this struct */
} wl_ioctl_overlay_t;
#endif /* DONGLEOVERLAYS */
/* 11k Neighbor Report element */
typedef struct nbr_element {
uint8 id;
uint8 len;
struct ether_addr bssid;
uint32 bssid_info;
uint8 reg;
uint8 channel;
uint8 phytype;
uint8 pad;
} nbr_element_t;
/* no default structure packing */
#include <packed_section_end.h>
typedef struct keepalives_max_idle {
uint16 keepalive_count; /* nmbr of keepalives per bss_max_idle period */
uint8 mkeepalive_index; /* mkeepalive_index for keepalive frame to be used */
uint8 PAD; /* to align next field */
uint16 max_interval; /* seconds */
} keepalives_max_idle_t;
#define PM_IGNORE_BCMC_PROXY_ARP (1 << 0)
#define PM_IGNORE_BCMC_ALL_DMS_ACCEPTED (1 << 1)
/* require strict packing */
#include <packed_section_start.h>
/* Structures and constants used for "vndr_ie" IOVar interface */
#define VNDR_IE_CMD_LEN 4 /* length of the set command string:
* "add", "del" (+ NUL)
*/
#define VNDR_IE_INFO_HDR_LEN (sizeof(uint32))
typedef BWL_PRE_PACKED_STRUCT struct {
uint32 pktflag; /* bitmask indicating which packet(s) contain this IE */
vndr_ie_t vndr_ie_data; /* vendor IE data */
} BWL_POST_PACKED_STRUCT vndr_ie_info_t;
typedef BWL_PRE_PACKED_STRUCT struct {
int iecount; /* number of entries in the vndr_ie_list[] array */
vndr_ie_info_t vndr_ie_list[1]; /* variable size list of vndr_ie_info_t structs */
} BWL_POST_PACKED_STRUCT vndr_ie_buf_t;
typedef BWL_PRE_PACKED_STRUCT struct {
char cmd[VNDR_IE_CMD_LEN]; /* vndr_ie IOVar set command : "add", "del" + NUL */
vndr_ie_buf_t vndr_ie_buffer; /* buffer containing Vendor IE list information */
} BWL_POST_PACKED_STRUCT vndr_ie_setbuf_t;
/* tag_ID/length/value_buffer tuple */
typedef BWL_PRE_PACKED_STRUCT struct {
uint8 id;
uint8 len;
uint8 data[1];
} BWL_POST_PACKED_STRUCT tlv_t;
typedef BWL_PRE_PACKED_STRUCT struct {
uint32 pktflag; /* bitmask indicating which packet(s) contain this IE */
tlv_t ie_data; /* IE data */
} BWL_POST_PACKED_STRUCT ie_info_t;
typedef BWL_PRE_PACKED_STRUCT struct {
int iecount; /* number of entries in the ie_list[] array */
ie_info_t ie_list[1]; /* variable size list of ie_info_t structs */
} BWL_POST_PACKED_STRUCT ie_buf_t;
typedef BWL_PRE_PACKED_STRUCT struct {
char cmd[VNDR_IE_CMD_LEN]; /* ie IOVar set command : "add" + NUL */
ie_buf_t ie_buffer; /* buffer containing IE list information */
} BWL_POST_PACKED_STRUCT ie_setbuf_t;
typedef BWL_PRE_PACKED_STRUCT struct {
uint32 pktflag; /* bitmask indicating which packet(s) contain this IE */
uint8 id; /* IE type */
} BWL_POST_PACKED_STRUCT ie_getbuf_t;
/* structures used to define format of wps ie data from probe requests */
/* passed up to applications via iovar "prbreq_wpsie" */
typedef BWL_PRE_PACKED_STRUCT struct sta_prbreq_wps_ie_hdr {
struct ether_addr staAddr;
uint16 ieLen;
} BWL_POST_PACKED_STRUCT sta_prbreq_wps_ie_hdr_t;
typedef BWL_PRE_PACKED_STRUCT struct sta_prbreq_wps_ie_data {
sta_prbreq_wps_ie_hdr_t hdr;
uint8 ieData[1];
} BWL_POST_PACKED_STRUCT sta_prbreq_wps_ie_data_t;
typedef BWL_PRE_PACKED_STRUCT struct sta_prbreq_wps_ie_list {
uint32 totLen;
uint8 ieDataList[1];
} BWL_POST_PACKED_STRUCT sta_prbreq_wps_ie_list_t;
#ifdef WLMEDIA_TXFAILEVENT
typedef BWL_PRE_PACKED_STRUCT struct {
char dest[ETHER_ADDR_LEN]; /* destination MAC */
uint8 prio; /* Packet Priority */
uint8 flags; /* Flags */
uint32 tsf_l; /* TSF timer low */
uint32 tsf_h; /* TSF timer high */
uint16 rates; /* Main Rates */
uint16 txstatus; /* TX Status */
} BWL_POST_PACKED_STRUCT txfailinfo_t;
#endif /* WLMEDIA_TXFAILEVENT */
typedef BWL_PRE_PACKED_STRUCT struct {
uint32 flags;
chanspec_t chanspec; /* txpwr report for this channel */
chanspec_t local_chanspec; /* channel on which we are associated */
uint8 local_max; /* local max according to the AP */
uint8 local_constraint; /* local constraint according to the AP */
int8 antgain[2]; /* Ant gain for each band - from SROM */
uint8 rf_cores; /* count of RF Cores being reported */
uint8 est_Pout[4]; /* Latest tx power out estimate per RF chain */
uint8 est_Pout_act[4]; /* Latest tx power out estimate per RF chain w/o adjustment */
uint8 est_Pout_cck; /* Latest CCK tx power out estimate */
uint8 tx_power_max[4]; /* Maximum target power among all rates */
uint tx_power_max_rate_ind[4]; /* Index of the rate with the max target power */
int8 clm_limits[WL_NUMRATES]; /* regulatory limits - 20, 40 or 80MHz */
int8 clm_limits_subchan1[WL_NUMRATES]; /* regulatory limits - 20in40 or 40in80 */
int8 clm_limits_subchan2[WL_NUMRATES]; /* regulatory limits - 20in80MHz */
int8 sar; /* SAR limit for display by wl executable */
int8 channel_bandwidth; /* 20, 40 or 80 MHz bandwidth? */
uint8 version; /* Version of the data format wlu <--> driver */
uint8 display_core; /* Displayed curpower core */
int8 target_offsets[4]; /* Target power offsets for current rate per core */
uint32 last_tx_ratespec; /* Ratespec for last transmition */
uint user_target; /* user limit */
uint32 board_limit_len; /* length of board limit buffer */
uint32 target_len; /* length of target power buffer */
int8 SARLIMIT[MAX_STREAMS_SUPPORTED];
uint8 pprdata[1]; /* ppr serialization buffer */
} BWL_POST_PACKED_STRUCT tx_pwr_rpt_t;
typedef BWL_PRE_PACKED_STRUCT struct {
struct ipv4_addr ipv4_addr;
struct ether_addr nexthop;
} BWL_POST_PACKED_STRUCT ibss_route_entry_t;
typedef BWL_PRE_PACKED_STRUCT struct {
uint32 num_entry;
ibss_route_entry_t route_entry[1];
} BWL_POST_PACKED_STRUCT ibss_route_tbl_t;
#define MAX_IBSS_ROUTE_TBL_ENTRY 64
#define TXPWR_TARGET_VERSION 0
typedef BWL_PRE_PACKED_STRUCT struct {
int32 version; /* version number */
chanspec_t chanspec; /* txpwr report for this channel */
int8 txpwr[WL_STA_ANT_MAX]; /* Max tx target power, in qdb */
uint8 rf_cores; /* count of RF Cores being reported */
} BWL_POST_PACKED_STRUCT txpwr_target_max_t;
#define BSS_PEER_INFO_PARAM_CUR_VER 0
/* Input structure for IOV_BSS_PEER_INFO */
typedef BWL_PRE_PACKED_STRUCT struct {
uint16 version;
struct ether_addr ea; /* peer MAC address */
} BWL_POST_PACKED_STRUCT bss_peer_info_param_t;
#define BSS_PEER_INFO_CUR_VER 0
typedef BWL_PRE_PACKED_STRUCT struct {
uint16 version;
struct ether_addr ea;
int32 rssi;
uint32 tx_rate; /* current tx rate */
uint32 rx_rate; /* current rx rate */
wl_rateset_t rateset; /* rateset in use */
uint32 age; /* age in seconds */
} BWL_POST_PACKED_STRUCT bss_peer_info_t;
#define BSS_PEER_LIST_INFO_CUR_VER 0
typedef BWL_PRE_PACKED_STRUCT struct {
uint16 version;
uint16 bss_peer_info_len; /* length of bss_peer_info_t */
uint32 count; /* number of peer info */
bss_peer_info_t peer_info[1]; /* peer info */
} BWL_POST_PACKED_STRUCT bss_peer_list_info_t;
#define BSS_PEER_LIST_INFO_FIXED_LEN OFFSETOF(bss_peer_list_info_t, peer_info)
#define AIBSS_BCN_FORCE_CONFIG_VER_0 0
/* structure used to configure AIBSS beacon force xmit */
typedef BWL_PRE_PACKED_STRUCT struct {
uint16 version;
uint16 len;
uint32 initial_min_bcn_dur; /* dur in ms to check a bcn in bcn_flood period */
uint32 min_bcn_dur; /* dur in ms to check a bcn after bcn_flood period */
uint32 bcn_flood_dur; /* Initial bcn xmit period in ms */
} BWL_POST_PACKED_STRUCT aibss_bcn_force_config_t;
#define AIBSS_TXFAIL_CONFIG_VER_0 0
/* structure used to configure aibss tx fail event */
typedef BWL_PRE_PACKED_STRUCT struct {
uint16 version;
uint16 len;
uint32 bcn_timeout; /* dur in seconds to receive 1 bcn */
uint32 max_tx_retry; /* no of consecutive no acks to send txfail event */
} BWL_POST_PACKED_STRUCT aibss_txfail_config_t;
/* no strict structure packing */
#include <packed_section_end.h>
/* Global ASSERT Logging */
#define ASSERTLOG_CUR_VER 0x0100
#define MAX_ASSRTSTR_LEN 64
typedef struct assert_record {
uint32 time;
uint8 seq_num;
char str[MAX_ASSRTSTR_LEN];
} assert_record_t;
typedef struct assertlog_results {
uint16 version;
uint16 record_len;
uint32 num;
assert_record_t logs[1];
} assertlog_results_t;
#define LOGRRC_FIX_LEN 8
#define IOBUF_ALLOWED_NUM_OF_LOGREC(type, len) ((len - LOGRRC_FIX_LEN)/sizeof(type))
#ifdef BCMWAPI_WAI
#define IV_LEN 16
struct wapi_sta_msg_t
{
uint16 msg_type;
uint16 datalen;
uint8 vap_mac[6];
uint8 reserve_data1[2];
uint8 sta_mac[6];
uint8 reserve_data2[2];
uint8 gsn[IV_LEN];
uint8 wie[256];
};
#endif /* BCMWAPI_WAI */
/* chanim acs record */
typedef struct {
bool valid;
uint8 trigger;
chanspec_t selected_chspc;
int8 bgnoise;
uint32 glitch_cnt;
uint8 ccastats;
uint timestamp;
} chanim_acs_record_t;
typedef struct {
chanim_acs_record_t acs_record[CHANIM_ACS_RECORD];
uint8 count;
uint timestamp;
} wl_acs_record_t;
typedef struct chanim_stats {
uint32 glitchcnt; /* normalized as per second count */
uint32 badplcp; /* normalized as per second count */
uint8 ccastats[CCASTATS_MAX]; /* normalized as 0-255 */
int8 bgnoise; /* background noise level (in dBm) */
chanspec_t chanspec;
uint32 timestamp;
uint32 bphy_glitchcnt; /* normalized as per second count */
uint32 bphy_badplcp; /* normalized as per second count */
uint8 chan_idle; /* normalized as 0~255 */
} chanim_stats_t;
#define WL_CHANIM_STATS_VERSION 2
typedef struct {
uint32 buflen;
uint32 version;
uint32 count;
chanim_stats_t stats[1];
} wl_chanim_stats_t;
#define WL_CHANIM_STATS_FIXED_LEN OFFSETOF(wl_chanim_stats_t, stats)
/* Noise measurement metrics. */
#define NOISE_MEASURE_KNOISE 0x1
/* scb probe parameter */
typedef struct {
uint32 scb_timeout;
uint32 scb_activity_time;
uint32 scb_max_probe;
} wl_scb_probe_t;
/* structure/defines for selective mgmt frame (smf) stats support */
#define SMFS_VERSION 1
/* selected mgmt frame (smf) stats element */
typedef struct wl_smfs_elem {
uint32 count;
uint16 code; /* SC or RC code */
} wl_smfs_elem_t;
typedef struct wl_smf_stats {
uint32 version;
uint16 length; /* reserved for future usage */
uint8 type;
uint8 codetype;
uint32 ignored_cnt;
uint32 malformed_cnt;
uint32 count_total; /* count included the interested group */
wl_smfs_elem_t elem[1];
} wl_smf_stats_t;
#define WL_SMFSTATS_FIXED_LEN OFFSETOF(wl_smf_stats_t, elem);
enum {
SMFS_CODETYPE_SC,
SMFS_CODETYPE_RC
};
typedef enum smfs_type {
SMFS_TYPE_AUTH,
SMFS_TYPE_ASSOC,
SMFS_TYPE_REASSOC,
SMFS_TYPE_DISASSOC_TX,
SMFS_TYPE_DISASSOC_RX,
SMFS_TYPE_DEAUTH_TX,
SMFS_TYPE_DEAUTH_RX,
SMFS_TYPE_MAX
} smfs_type_t;
#ifdef PHYMON
#define PHYMON_VERSION 1
typedef struct wl_phycal_core_state {
/* Tx IQ/LO calibration coeffs */
int16 tx_iqlocal_a;
int16 tx_iqlocal_b;
int8 tx_iqlocal_ci;
int8 tx_iqlocal_cq;
int8 tx_iqlocal_di;
int8 tx_iqlocal_dq;
int8 tx_iqlocal_ei;
int8 tx_iqlocal_eq;
int8 tx_iqlocal_fi;
int8 tx_iqlocal_fq;
/* Rx IQ calibration coeffs */
int16 rx_iqcal_a;
int16 rx_iqcal_b;
uint8 tx_iqlocal_pwridx; /* Tx Power Index for Tx IQ/LO calibration */
uint32 papd_epsilon_table[64]; /* PAPD epsilon table */
int16 papd_epsilon_offset; /* PAPD epsilon offset */
uint8 curr_tx_pwrindex; /* Tx power index */
int8 idle_tssi; /* Idle TSSI */
int8 est_tx_pwr; /* Estimated Tx Power (dB) */
int8 est_rx_pwr; /* Estimated Rx Power (dB) from RSSI */
uint16 rx_gaininfo; /* Rx gain applied on last Rx pkt */
uint16 init_gaincode; /* initgain required for ACI */
int8 estirr_tx;
int8 estirr_rx;
} wl_phycal_core_state_t;
typedef struct wl_phycal_state {
int version;
int8 num_phy_cores; /* number of cores */
int8 curr_temperature; /* on-chip temperature sensor reading */
chanspec_t chspec; /* channspec for this state */
bool aci_state; /* ACI state: ON/OFF */
uint16 crsminpower; /* crsminpower required for ACI */
uint16 crsminpowerl; /* crsminpowerl required for ACI */
uint16 crsminpoweru; /* crsminpoweru required for ACI */
wl_phycal_core_state_t phycal_core[1];
} wl_phycal_state_t;
#define WL_PHYCAL_STAT_FIXED_LEN OFFSETOF(wl_phycal_state_t, phycal_core)
#endif /* PHYMON */
/* discovery state */
typedef struct wl_p2p_disc_st {
uint8 state; /* see state */
chanspec_t chspec; /* valid in listen state */
uint16 dwell; /* valid in listen state, in ms */
} wl_p2p_disc_st_t;
/* scan request */
typedef struct wl_p2p_scan {
uint8 type; /* 'S' for WLC_SCAN, 'E' for "escan" */
uint8 reserved[3];
/* scan or escan parms... */
} wl_p2p_scan_t;
/* i/f request */
typedef struct wl_p2p_if {
struct ether_addr addr;
uint8 type; /* see i/f type */
chanspec_t chspec; /* for p2p_ifadd GO */
} wl_p2p_if_t;
/* i/f query */
typedef struct wl_p2p_ifq {
uint bsscfgidx;
char ifname[BCM_MSG_IFNAME_MAX];
} wl_p2p_ifq_t;
/* OppPS & CTWindow */
typedef struct wl_p2p_ops {
uint8 ops; /* 0: disable 1: enable */
uint8 ctw; /* >= 10 */
} wl_p2p_ops_t;
/* absence and presence request */
typedef struct wl_p2p_sched_desc {
uint32 start;
uint32 interval;
uint32 duration;
uint32 count; /* see count */
} wl_p2p_sched_desc_t;
typedef struct wl_p2p_sched {
uint8 type; /* see schedule type */
uint8 action; /* see schedule action */
uint8 option; /* see schedule option */
wl_p2p_sched_desc_t desc[1];
} wl_p2p_sched_t;
typedef struct wl_bcmdcs_data {
uint reason;
chanspec_t chspec;
} wl_bcmdcs_data_t;
/* NAT configuration */
typedef struct {
uint32 ipaddr; /* interface ip address */
uint32 ipaddr_mask; /* interface ip address mask */
uint32 ipaddr_gateway; /* gateway ip address */
uint8 mac_gateway[6]; /* gateway mac address */
uint32 ipaddr_dns; /* DNS server ip address, valid only for public if */
uint8 mac_dns[6]; /* DNS server mac address, valid only for public if */
uint8 GUID[38]; /* interface GUID */
} nat_if_info_t;
typedef struct {
uint op; /* operation code */
bool pub_if; /* set for public if, clear for private if */
nat_if_info_t if_info; /* interface info */
} nat_cfg_t;
typedef struct {
int state; /* NAT state returned */
} nat_state_t;
#define BTA_STATE_LOG_SZ 64
/* BTAMP Statemachine states */
enum {
HCIReset = 1,
HCIReadLocalAMPInfo,
HCIReadLocalAMPASSOC,
HCIWriteRemoteAMPASSOC,
HCICreatePhysicalLink,
HCIAcceptPhysicalLinkRequest,
HCIDisconnectPhysicalLink,
HCICreateLogicalLink,
HCIAcceptLogicalLink,
HCIDisconnectLogicalLink,
HCILogicalLinkCancel,
HCIAmpStateChange,
HCIWriteLogicalLinkAcceptTimeout
};
typedef struct flush_txfifo {
uint32 txfifobmp;
uint32 hwtxfifoflush;
struct ether_addr ea;
} flush_txfifo_t;
enum {
SPATIAL_MODE_2G_IDX = 0,
SPATIAL_MODE_5G_LOW_IDX,
SPATIAL_MODE_5G_MID_IDX,
SPATIAL_MODE_5G_HIGH_IDX,
SPATIAL_MODE_5G_UPPER_IDX,
SPATIAL_MODE_MAX_IDX
};
#define WLC_TXCORE_MAX 4 /* max number of txcore supports */
#define WLC_SUBBAND_MAX 4 /* max number of sub-band supports */
typedef struct {
uint8 band2g[WLC_TXCORE_MAX];
uint8 band5g[WLC_SUBBAND_MAX][WLC_TXCORE_MAX];
} sar_limit_t;
/* IOVAR "mempool" parameter. Used to retrieve a list of memory pool statistics. */
typedef struct wl_mempool_stats {
int num; /* Number of memory pools */
bcm_mp_stats_t s[1]; /* Variable array of memory pool stats. */
} wl_mempool_stats_t;
typedef struct {
uint32 ipaddr;
uint32 ipaddr_netmask;
uint32 ipaddr_gateway;
} nwoe_ifconfig_t;
/* Traffic management priority classes */
typedef enum trf_mgmt_priority_class {
trf_mgmt_priority_low = 0, /* Maps to 802.1p BK */
trf_mgmt_priority_medium = 1, /* Maps to 802.1p BE */
trf_mgmt_priority_high = 2, /* Maps to 802.1p VI */
trf_mgmt_priority_nochange = 3, /* do not update the priority */
trf_mgmt_priority_invalid = (trf_mgmt_priority_nochange + 1)
} trf_mgmt_priority_class_t;
/* Traffic management configuration parameters */
typedef struct trf_mgmt_config {
uint32 trf_mgmt_enabled; /* 0 - disabled, 1 - enabled */
uint32 flags; /* See TRF_MGMT_FLAG_xxx defines */
uint32 host_ip_addr; /* My IP address to determine subnet */
uint32 host_subnet_mask; /* My subnet mask */
uint32 downlink_bandwidth; /* In units of kbps */
uint32 uplink_bandwidth; /* In units of kbps */
uint32 min_tx_bandwidth[TRF_MGMT_MAX_PRIORITIES]; /* Minimum guaranteed tx bandwidth */
uint32 min_rx_bandwidth[TRF_MGMT_MAX_PRIORITIES]; /* Minimum guaranteed rx bandwidth */
} trf_mgmt_config_t;
/* Traffic management filter */
typedef struct trf_mgmt_filter {
struct ether_addr dst_ether_addr; /* His L2 address */
uint32 dst_ip_addr; /* His IP address */
uint16 dst_port; /* His L4 port */
uint16 src_port; /* My L4 port */
uint16 prot; /* L4 protocol (only TCP or UDP) */
uint16 flags; /* TBD. For now, this must be zero. */
trf_mgmt_priority_class_t priority; /* Priority for filtered packets */
uint32 dscp; /* DSCP */
} trf_mgmt_filter_t;
/* Traffic management filter list (variable length) */
typedef struct trf_mgmt_filter_list {
uint32 num_filters;
trf_mgmt_filter_t filter[1];
} trf_mgmt_filter_list_t;
/* Traffic management global info used for all queues */
typedef struct trf_mgmt_global_info {
uint32 maximum_bytes_per_second;
uint32 maximum_bytes_per_sampling_period;
uint32 total_bytes_consumed_per_second;
uint32 total_bytes_consumed_per_sampling_period;
uint32 total_unused_bytes_per_sampling_period;
} trf_mgmt_global_info_t;
/* Traffic management shaping info per priority queue */
typedef struct trf_mgmt_shaping_info {
uint32 gauranteed_bandwidth_percentage;
uint32 guaranteed_bytes_per_second;
uint32 guaranteed_bytes_per_sampling_period;
uint32 num_bytes_produced_per_second;
uint32 num_bytes_consumed_per_second;
uint32 num_queued_packets; /* Number of packets in queue */
uint32 num_queued_bytes; /* Number of bytes in queue */
} trf_mgmt_shaping_info_t;
/* Traffic management shaping info array */
typedef struct trf_mgmt_shaping_info_array {
trf_mgmt_global_info_t tx_global_shaping_info;
trf_mgmt_shaping_info_t tx_queue_shaping_info[TRF_MGMT_MAX_PRIORITIES];
trf_mgmt_global_info_t rx_global_shaping_info;
trf_mgmt_shaping_info_t rx_queue_shaping_info[TRF_MGMT_MAX_PRIORITIES];
} trf_mgmt_shaping_info_array_t;
/* Traffic management statistical counters */
typedef struct trf_mgmt_stats {
uint32 num_processed_packets; /* Number of packets processed */
uint32 num_processed_bytes; /* Number of bytes processed */
uint32 num_discarded_packets; /* Number of packets discarded from queue */
} trf_mgmt_stats_t;
/* Traffic management statisics array */
typedef struct trf_mgmt_stats_array {
trf_mgmt_stats_t tx_queue_stats[TRF_MGMT_MAX_PRIORITIES];
trf_mgmt_stats_t rx_queue_stats[TRF_MGMT_MAX_PRIORITIES];
} trf_mgmt_stats_array_t;
typedef struct powersel_params {
/* LPC Params exposed via IOVAR */
int32 tp_ratio_thresh; /* Throughput ratio threshold */
uint8 rate_stab_thresh; /* Thresh for rate stability based on nupd */
uint8 pwr_stab_thresh; /* Number of successes before power step down */
uint8 pwr_sel_exp_time; /* Time lapse for expiry of database */
} powersel_params_t;
typedef struct lpc_params {
/* LPC Params exposed via IOVAR */
uint8 rate_stab_thresh; /* Thresh for rate stability based on nupd */
uint8 pwr_stab_thresh; /* Number of successes before power step down */
uint8 lpc_exp_time; /* Time lapse for expiry of database */
uint8 pwrup_slow_step; /* Step size for slow step up */
uint8 pwrup_fast_step; /* Step size for fast step up */
uint8 pwrdn_slow_step; /* Step size for slow step down */
} lpc_params_t;
/* tx pkt delay statistics */
#define SCB_RETRY_SHORT_DEF 7 /* Default Short retry Limit */
#define WLPKTDLY_HIST_NBINS 16 /* number of bins used in the Delay histogram */
/* structure to store per-AC delay statistics */
typedef struct scb_delay_stats {
uint32 txmpdu_lost; /* number of MPDUs lost */
uint32 txmpdu_cnt[SCB_RETRY_SHORT_DEF]; /* retry times histogram */
uint32 delay_sum[SCB_RETRY_SHORT_DEF]; /* cumulative packet latency */
uint32 delay_min; /* minimum packet latency observed */
uint32 delay_max; /* maximum packet latency observed */
uint32 delay_avg; /* packet latency average */
uint32 delay_hist[WLPKTDLY_HIST_NBINS]; /* delay histogram */
} scb_delay_stats_t;
/* structure for txdelay event */
typedef struct txdelay_event {
uint8 status;
int rssi;
chanim_stats_t chanim_stats;
scb_delay_stats_t delay_stats[AC_COUNT];
} txdelay_event_t;
/* structure for txdelay parameters */
typedef struct txdelay_params {
uint16 ratio; /* Avg Txdelay Delta */
uint8 cnt; /* Sample cnt */
uint8 period; /* Sample period */
uint8 tune; /* Debug */
} txdelay_params_t;
enum {
WNM_SERVICE_DMS = 1,
WNM_SERVICE_FMS = 2,
WNM_SERVICE_TFS = 3
};
/* Definitions for WNM/NPS TCLAS */
typedef struct wl_tclas {
uint8 user_priority;
uint8 fc_len;
dot11_tclas_fc_t fc;
} wl_tclas_t;
#define WL_TCLAS_FIXED_SIZE OFFSETOF(wl_tclas_t, fc)
typedef struct wl_tclas_list {
uint32 num;
wl_tclas_t tclas[1];
} wl_tclas_list_t;
/* Definitions for WNM/NPS Traffic Filter Service */
typedef struct wl_tfs_req {
uint8 tfs_id;
uint8 tfs_actcode;
uint8 tfs_subelem_id;
uint8 send;
} wl_tfs_req_t;
typedef struct wl_tfs_filter {
uint8 status; /* Status returned by the AP */
uint8 tclas_proc; /* TCLAS processing value (0:and, 1:or) */
uint8 tclas_cnt; /* count of all wl_tclas_t in tclas array */
uint8 tclas[1]; /* VLA of wl_tclas_t */
} wl_tfs_filter_t;
#define WL_TFS_FILTER_FIXED_SIZE OFFSETOF(wl_tfs_filter_t, tclas)
typedef struct wl_tfs_fset {
struct ether_addr ea; /* Address of AP/STA involved with this filter set */
uint8 tfs_id; /* TFS ID field chosen by STA host */
uint8 status; /* Internal status TFS_STATUS_xxx */
uint8 actcode; /* Action code DOT11_TFS_ACTCODE_xxx */
uint8 token; /* Token used in last request frame */
uint8 notify; /* Notify frame sent/received because of this set */
uint8 filter_cnt; /* count of all wl_tfs_filter_t in filter array */
uint8 filter[1]; /* VLA of wl_tfs_filter_t */
} wl_tfs_fset_t;
#define WL_TFS_FSET_FIXED_SIZE OFFSETOF(wl_tfs_fset_t, filter)
enum {
TFS_STATUS_DISABLED = 0, /* TFS filter set disabled by user */
TFS_STATUS_DISABLING = 1, /* Empty request just sent to AP */
TFS_STATUS_VALIDATED = 2, /* Filter set validated by AP (but maybe not enabled!) */
TFS_STATUS_VALIDATING = 3, /* Filter set just sent to AP */
TFS_STATUS_NOT_ASSOC = 4, /* STA not associated */
TFS_STATUS_NOT_SUPPORT = 5, /* TFS not supported by AP */
TFS_STATUS_DENIED = 6, /* Filter set refused by AP (=> all sets are disabled!) */
};
typedef struct wl_tfs_status {
uint8 fset_cnt; /* count of all wl_tfs_fset_t in fset array */
wl_tfs_fset_t fset[1]; /* VLA of wl_tfs_fset_t */
} wl_tfs_status_t;
typedef struct wl_tfs_set {
uint8 send; /* Immediatly register registered sets on AP side */
uint8 tfs_id; /* ID of a specific set (existing or new), or nul for all */
uint8 actcode; /* Action code for this filter set */
uint8 tclas_proc; /* TCLAS processing operator for this filter set */
} wl_tfs_set_t;
typedef struct wl_tfs_term {
uint8 del; /* Delete internal set once confirmation received */
uint8 tfs_id; /* ID of a specific set (existing), or nul for all */
} wl_tfs_term_t;
#define DMS_DEP_PROXY_ARP (1 << 0)
/* Definitions for WNM/NPS Directed Multicast Service */
enum {
DMS_STATUS_DISABLED = 0, /* DMS desc disabled by user */
DMS_STATUS_ACCEPTED = 1, /* Request accepted by AP */
DMS_STATUS_NOT_ASSOC = 2, /* STA not associated */
DMS_STATUS_NOT_SUPPORT = 3, /* DMS not supported by AP */
DMS_STATUS_DENIED = 4, /* Request denied by AP */
DMS_STATUS_TERM = 5, /* Request terminated by AP */
DMS_STATUS_REMOVING = 6, /* Remove request just sent */
DMS_STATUS_ADDING = 7, /* Add request just sent */
DMS_STATUS_ERROR = 8, /* Non compliant AP behvior */
DMS_STATUS_IN_PROGRESS = 9, /* Request just sent */
DMS_STATUS_REQ_MISMATCH = 10 /* Conditions for sending DMS req not met */
};
typedef struct wl_dms_desc {
uint8 user_id;
uint8 status;
uint8 token;
uint8 dms_id;
uint8 tclas_proc;
uint8 mac_len; /* length of all ether_addr in data array, 0 if STA */
uint8 tclas_len; /* length of all wl_tclas_t in data array */
uint8 data[1]; /* VLA of 'ether_addr' and 'wl_tclas_t' (in this order ) */
} wl_dms_desc_t;
#define WL_DMS_DESC_FIXED_SIZE OFFSETOF(wl_dms_desc_t, data)
typedef struct wl_dms_status {
uint32 cnt;
wl_dms_desc_t desc[1];
} wl_dms_status_t;
typedef struct wl_dms_set {
uint8 send;
uint8 user_id;
uint8 tclas_proc;
} wl_dms_set_t;
typedef struct wl_dms_term {
uint8 del;
uint8 user_id;
} wl_dms_term_t;
typedef struct wl_service_term {
uint8 service;
union {
wl_dms_term_t dms;
} u;
} wl_service_term_t;
/* Definitions for WNM/NPS BSS Transistion */
typedef struct wl_bsstrans_req {
uint16 tbtt; /* time of BSS to end of life, in unit of TBTT */
uint16 dur; /* time of BSS to keep off, in unit of minute */
uint8 reqmode; /* request mode of BSS transition request */
uint8 unicast; /* request by unicast or by broadcast */
} wl_bsstrans_req_t;
enum {
BSSTRANS_RESP_AUTO = 0, /* Currently equivalent to ENABLE */
BSSTRANS_RESP_DISABLE = 1, /* Never answer BSS Trans Req frames */
BSSTRANS_RESP_ENABLE = 2, /* Always answer Req frames with preset data */
BSSTRANS_RESP_WAIT = 3, /* Send ind, wait and/or send preset data (NOT IMPL) */
BSSTRANS_RESP_IMMEDIATE = 4 /* After an ind, set data and send resp (NOT IMPL) */
};
typedef struct wl_bsstrans_resp {
uint8 policy;
uint8 status;
uint8 delay;
struct ether_addr target;
} wl_bsstrans_resp_t;
/* "wnm_bsstrans_resp" argument programming behavior after BSSTRANS Req reception */
enum {
WL_BSSTRANS_RESP_ROAM_ALWAYS = 0, /* Roam (or disassociate) in all cases */
WL_BSSTRANS_RESP_ROAM_IF_MODE = 1, /* Roam only if requested by Request Mode field */
WL_BSSTRANS_RESP_ROAM_IF_PREF = 2, /* Roam only if Preferred BSS provided */
WL_BSSTRANS_RESP_WAIT = 3 /* Wait for deauth and send Accepted status */
};
/* Definitions for WNM/NPS TIM Broadcast */
typedef struct wl_timbc_offset {
int16 offset; /* offset in us */
uint16 fix_intv; /* override interval sent from STA */
uint16 rate_override; /* use rate override to send high rate TIM broadcast frame */
uint8 tsf_present; /* show timestamp in TIM broadcast frame */
} wl_timbc_offset_t;
typedef struct wl_timbc_set {
uint8 interval; /* Interval in DTIM wished or required. */
uint8 flags; /* Bitfield described below */
uint16 rate_min; /* Minimum rate required for High/Low TIM frames. Optionnal */
uint16 rate_max; /* Maximum rate required for High/Low TIM frames. Optionnal */
} wl_timbc_set_t;
enum {
WL_TIMBC_SET_TSF_REQUIRED = 1, /* Enable TIMBC only if TSF in TIM frames */
WL_TIMBC_SET_NO_OVERRIDE = 2, /* ... if AP does not override interval */
WL_TIMBC_SET_PROXY_ARP = 4, /* ... if AP support Proxy ARP */
WL_TIMBC_SET_DMS_ACCEPTED = 8 /* ... if all DMS desc have been accepted */
};
typedef struct wl_timbc_status {
uint8 status_sta; /* Status from internal state machine (check below) */
uint8 status_ap; /* From AP response frame (check 8.4.2.86 from 802.11) */
uint8 interval;
uint8 pad;
int32 offset;
uint16 rate_high;
uint16 rate_low;
} wl_timbc_status_t;
enum {
WL_TIMBC_STATUS_DISABLE = 0, /* TIMBC disabled by user */
WL_TIMBC_STATUS_REQ_MISMATCH = 1, /* AP settings do no match user requirements */
WL_TIMBC_STATUS_NOT_ASSOC = 2, /* STA not associated */
WL_TIMBC_STATUS_NOT_SUPPORT = 3, /* TIMBC not supported by AP */
WL_TIMBC_STATUS_DENIED = 4, /* Req to disable TIMBC sent to AP */
WL_TIMBC_STATUS_ENABLE = 5 /* TIMBC enabled */
};
/* Definitions for PM2 Dynamic Fast Return To Sleep */
typedef struct wl_pm2_sleep_ret_ext {
uint8 logic; /* DFRTS logic: see WL_DFRTS_LOGIC_* below */
uint16 low_ms; /* Low FRTS timeout */
uint16 high_ms; /* High FRTS timeout */
uint16 rx_pkts_threshold; /* switching threshold: # rx pkts */
uint16 tx_pkts_threshold; /* switching threshold: # tx pkts */
uint16 txrx_pkts_threshold; /* switching threshold: # (tx+rx) pkts */
uint32 rx_bytes_threshold; /* switching threshold: # rx bytes */
uint32 tx_bytes_threshold; /* switching threshold: # tx bytes */
uint32 txrx_bytes_threshold; /* switching threshold: # (tx+rx) bytes */
} wl_pm2_sleep_ret_ext_t;
#define WL_DFRTS_LOGIC_OFF 0 /* Feature is disabled */
#define WL_DFRTS_LOGIC_OR 1 /* OR all non-zero threshold conditions */
#define WL_DFRTS_LOGIC_AND 2 /* AND all non-zero threshold conditions */
/* Values for the passive_on_restricted_mode iovar. When set to non-zero, this iovar
* disables automatic conversions of a channel from passively scanned to
* actively scanned. These values only have an effect for country codes such
* as XZ where some 5 GHz channels are defined to be passively scanned.
*/
#define WL_PASSACTCONV_DISABLE_NONE 0 /* Enable permanent and temporary conversions */
#define WL_PASSACTCONV_DISABLE_ALL 1 /* Disable permanent and temporary conversions */
#define WL_PASSACTCONV_DISABLE_PERM 2 /* Disable only permanent conversions */
/* Definitions for Reliable Multicast */
#define WL_RMC_CNT_VERSION 1
#define WL_RMC_MAX_CLIENT 32
#define WL_RMC_FLAG_INBLACKLIST 1
#define WL_RMC_FLAG_ACTIVEACKER 2
#define WL_RMC_FLAG_RELMCAST 4
#define WL_RMC_MAX_TABLE_ENTRY 4
#define WL_RMC_VER 1
#define WL_RMC_INDEX_ACK_ALL 255
#define WL_RMC_NUM_OF_MC_STREAMS 4
#define WL_RMC_MAX_TRS_PER_GROUP 1
#define WL_RMC_MAX_TRS_IN_ACKALL 1
#define WL_RMC_ACK_MCAST0 0x02
#define WL_RMC_ACK_MCAST_ALL 0x01
#define WL_RMC_ACTF_TIME_MIN 300 /* time in ms */
#define WL_RMC_ACTF_TIME_MAX 20000 /* time in ms */
#define WL_RMC_ARTMO_MIN 350 /* time in ms */
#define WL_RMC_ARTMO_MAX 40000 /* time in ms */
/* RMC events in action frames */
enum rmc_opcodes {
RELMCAST_ENTRY_OP_DISABLE = 0, /* Disable multi-cast group */
RELMCAST_ENTRY_OP_DELETE = 1, /* Delete multi-cast group */
RELMCAST_ENTRY_OP_ENABLE = 2, /* Enable multi-cast group */
RELMCAST_ENTRY_OP_ACK_ALL = 3 /* Enable ACK ALL bit in AMT */
};
/* RMC operational modes */
enum rmc_modes {
WL_RMC_MODE_RECEIVER = 0, /* Receiver mode by default */
WL_RMC_MODE_TRANSMITTER = 1, /* Transmitter mode using wl ackreq */
WL_RMC_MODE_INITIATOR = 2 /* Initiator mode using wl ackreq */
};
/* Each RMC mcast client info */
typedef struct wl_relmcast_client {
uint8 flag; /* status of client such as AR, R, or blacklisted */
int16 rssi; /* rssi value of RMC client */
struct ether_addr addr; /* mac address of RMC client */
} wl_relmcast_client_t;
/* RMC Counters */
typedef struct wl_rmc_cnts {
uint16 version; /* see definition of WL_CNT_T_VERSION */
uint16 length; /* length of entire structure */
uint16 dupcnt; /* counter for duplicate rmc MPDU */
uint16 ackreq_err; /* counter for wl ackreq error */
uint16 af_tx_err; /* error count for action frame transmit */
uint16 null_tx_err; /* error count for rmc null frame transmit */
uint16 af_unicast_tx_err; /* error count for rmc unicast frame transmit */
uint16 mc_no_amt_slot; /* No mcast AMT entry available */
uint16 mc_no_glb_slot; /* No mcast entry available in global table */
uint16 mc_not_mirrored; /* mcast group is not mirrored */
uint16 mc_existing_tr; /* mcast group is already taken by transmitter */
uint16 mc_exist_in_amt; /* mcast group is already programmed in amt */
uint16 mc_not_exist_in_gbl; /* mcast group is not in global table */
uint16 mc_not_exist_in_amt; /* mcast group is not in AMT table */
uint16 mc_utilized; /* mcast addressed is already taken */
uint16 mc_taken_other_tr; /* multi-cast addressed is already taken */
uint32 rmc_rx_frames_mac; /* no of mc frames received from mac */
uint32 rmc_tx_frames_mac; /* no of mc frames transmitted to mac */
uint32 mc_null_ar_cnt; /* no. of times NULL AR is received */
uint32 mc_ar_role_selected; /* no. of times took AR role */
uint32 mc_ar_role_deleted; /* no. of times AR role cancelled */
uint32 mc_noacktimer_expired; /* no. of times noack timer expired */
} wl_rmc_cnts_t;
/* RMC Status */
typedef struct wl_relmcast_st {
uint8 ver; /* version of RMC */
uint8 num; /* number of clients detected by transmitter */
wl_relmcast_client_t clients[WL_RMC_MAX_CLIENT];
uint16 err; /* error status (used in infra) */
uint16 actf_time; /* action frame time period */
} wl_relmcast_status_t;
/* Entry for each STA/node */
typedef struct wl_rmc_entry {
/* operation on multi-cast entry such add,
* delete, ack-all
*/
int8 flag;
struct ether_addr addr; /* multi-cast group mac address */
} wl_rmc_entry_t;
/* RMC table */
typedef struct wl_rmc_entry_table {
uint8 index; /* index to a particular mac entry in table */
uint8 opcode; /* opcodes or operation on entry */
wl_rmc_entry_t entry[WL_RMC_MAX_TABLE_ENTRY];
} wl_rmc_entry_table_t;
/* Transmitter Info */
typedef struct wl_rmc_trans_info {
struct ether_addr addr; /* transmitter mac */
uint32 time_val; /* timer val in case aging of entry is required */
uint16 seq; /* last seq number of packet received from transmitter */
uint16 artmo;
} wl_rmc_trans_info_t;
/* Multicast Group */
typedef struct wl_rmc_grp_entry {
struct ether_addr mcaddr; /* multi-cast group mac */
struct ether_addr ar; /* active receiver for the group */
wl_rmc_trans_info_t tr_info[WL_RMC_MAX_TRS_PER_GROUP];
} wl_rmc_grp_entry_t;
/* RMC ACKALL Table */
typedef struct wl_rmc_ackall_entry {
struct ether_addr ar; /* active receiver for the entry */
wl_rmc_trans_info_t tr_info[WL_RMC_NUM_OF_MC_STREAMS];
} wl_rmc_ackall_entry_t;
/* RMC Peers Table */
typedef struct wl_rmc_gbl_table {
uint8 activeMask; /* mask to denote the entry(s) that are active */
wl_rmc_ackall_entry_t ackAll; /* structure to keep info related to ACK all */
wl_rmc_grp_entry_t mc_entry[WL_RMC_NUM_OF_MC_STREAMS];
} wl_rmc_gbl_table_t;
/* To update vendor specific ie for RMC */
typedef struct wl_rmc_vsie {
uint8 oui[DOT11_OUI_LEN];
uint16 payload; /* IE Data Payload */
} wl_rmc_vsie_t;
typedef struct wl_proxd_iovar {
uint16 method; /* Proxmity Detection method */
uint16 mode; /* Mode (neutral, initiator, target) */
} wl_proxd_iovar_t;
/* structures for proximity detection parameters */
typedef struct wl_proxd_params_rssi_method {
chanspec_t chanspec; /* chanspec for home channel */
uint16 interval; /* interval between neighbor finding attempts (in TU) */
uint16 duration; /* duration of neighbor finding attempts (in ms) */
int16 rssi_thresh; /* RSSI threshold (in dBm) */
int16 tx_power; /* tx power of Proximity Detection frames (in dBm) */
uint16 tx_rate; /* tx rate of Proximity Detection frames
* (in 500kbps units)
*/
uint16 timeout; /* state machine wait timeout of the frames (in ms) */
uint16 maxconvergtmo; /* max wait converge timeout (in ms) */
} wl_proxd_params_rssi_method_t;
typedef struct wl_proxd_params_iovar {
uint16 method; /* Proxmity Detection method */
union {
wl_proxd_params_rssi_method_t rssi_params;
} u; /* Method specific optional parameters */
} wl_proxd_params_iovar_t;
enum {
RSSI_REASON_UNKNOW,
RSSI_REASON_LOWRSSI,
RSSI_REASON_NSYC,
RSSI_REASON_TIMEOUT
};
enum {
RSSI_STATE_POLL,
RSSI_STATE_TPAIRING,
RSSI_STATE_IPAIRING,
RSSI_STATE_THANDSHAKE,
RSSI_STATE_IHANDSHAKE,
RSSI_STATE_CONFIRMED,
RSSI_STATE_PIPELINE,
RSSI_STATE_NEGMODE,
RSSI_STATE_MONITOR,
RSSI_STATE_LAST
};
typedef struct wl_proxd_status_iovar {
uint8 mode;
uint8 peermode;
uint8 state;
uint8 reason;
uint32 txcnt;
uint32 rxcnt;
struct ether_addr peer;
int16 hi_rssi;
int16 low_rssi;
} wl_proxd_status_iovar_t;
#ifdef NET_DETECT
typedef struct net_detect_adapter_features {
bool wowl_enabled;
bool net_detect_enabled;
bool nlo_enabled;
} net_detect_adapter_features_t;
typedef enum net_detect_bss_type {
nd_bss_any = 0,
nd_ibss,
nd_ess
} net_detect_bss_type_t;
typedef struct net_detect_profile {
wlc_ssid_t ssid;
net_detect_bss_type_t bss_type; /* Ignore for now since Phase 1 is only for ESS */
uint32 cipher_type; /* DOT11_CIPHER_ALGORITHM enumeration values */
uint32 auth_type; /* DOT11_AUTH_ALGORITHM enumeration values */
} net_detect_profile_t;
typedef struct net_detect_profile_list {
uint32 num_nd_profiles;
net_detect_profile_t nd_profile[0];
} net_detect_profile_list_t;
typedef struct net_detect_config {
bool nd_enabled;
uint32 scan_interval;
uint32 wait_period;
bool wake_if_connected;
bool wake_if_disconnected;
net_detect_profile_list_t nd_profile_list;
} net_detect_config_t;
typedef enum net_detect_wake_reason {
nd_reason_unknown,
nd_net_detected,
nd_wowl_event,
nd_ucode_error
} net_detect_wake_reason_t;
typedef struct net_detect_wake_data {
net_detect_wake_reason_t nd_wake_reason;
uint32 nd_wake_date_length;
uint8 nd_wake_data[0]; /* Wake data (currently unused) */
} net_detect_wake_data_t;
#endif /* NET_DETECT */
typedef struct bcnreq {
uint8 bcn_mode;
int dur;
int channel;
struct ether_addr da;
uint16 random_int;
wlc_ssid_t ssid;
uint16 reps;
} bcnreq_t;
typedef struct rrmreq {
struct ether_addr da;
uint8 reg;
uint8 chan;
uint16 random_int;
uint16 dur;
uint16 reps;
} rrmreq_t;
typedef struct framereq {
struct ether_addr da;
uint8 reg;
uint8 chan;
uint16 random_int;
uint16 dur;
struct ether_addr ta;
uint16 reps;
} framereq_t;
typedef struct statreq {
struct ether_addr da;
struct ether_addr peer;
uint16 random_int;
uint16 dur;
uint8 group_id;
uint16 reps;
} statreq_t;
typedef struct wlc_l2keepalive_ol_params {
uint8 flags;
uint8 prio;
uint16 period_ms;
} wlc_l2keepalive_ol_params_t;
typedef struct wlc_dwds_config {
uint32 enable;
uint32 mode; /* STA/AP interface */
struct ether_addr ea;
} wlc_dwds_config_t;
typedef struct wl_el_set_params_s {
uint8 set; /* Set number */
uint32 size; /* Size to make/expand */
} wl_el_set_params_t;
typedef struct wl_el_tag_params_s {
uint16 tag;
uint8 set;
uint8 flags;
} wl_el_tag_params_t;
/* Video Traffic Interference Monitor config */
#define INTFER_VERSION 1
typedef struct wl_intfer_params {
uint16 version; /* version */
uint8 period; /* sample period */
uint8 cnt; /* sample cnt */
uint8 txfail_thresh; /* non-TCP txfail threshold */
uint8 tcptxfail_thresh; /* tcptxfail threshold */
} wl_intfer_params_t;
typedef struct wl_staprio_cfg {
struct ether_addr ea; /* mac addr */
uint8 prio; /* scb priority */
} wl_staprio_cfg_t;
typedef enum wl_stamon_cfg_cmd_type {
STAMON_CFG_CMD_DEL = 0,
STAMON_CFG_CMD_ADD = 1
} wl_stamon_cfg_cmd_type_t;
typedef struct wlc_stamon_sta_config {
wl_stamon_cfg_cmd_type_t cmd; /* 0 - delete, 1 - add */
struct ether_addr ea;
} wlc_stamon_sta_config_t;
/* Received Beacons lengths information */
#define WL_LAST_BCNS_INFO_FIXED_LEN OFFSETOF(wlc_bcn_len_hist_t, bcnlen_ring)
typedef struct wlc_bcn_len_hist {
uint16 ver; /* version field */
uint16 cur_index; /* current pointed index in ring buffer */
uint32 max_bcnlen; /* Max beacon length received */
uint32 min_bcnlen; /* Min beacon length received */
uint32 ringbuff_len; /* Length of the ring buffer 'bcnlen_ring' */
uint32 bcnlen_ring[1]; /* ring buffer storing received beacon lengths */
} wlc_bcn_len_hist_t;
/* WDS net interface types */
#define WL_WDSIFTYPE_NONE 0x0 /* The interface type is neither WDS nor DWDS. */
#define WL_WDSIFTYPE_WDS 0x1 /* The interface is WDS type. */
#define WL_WDSIFTYPE_DWDS 0x2 /* The interface is DWDS type. */
typedef struct wl_bssload_static {
bool is_static;
uint16 sta_count;
uint8 chan_util;
uint16 aac;
} wl_bssload_static_t;
#endif /* _wlioctl_h_ */