/* * Custom OID/ioctl definitions for * * * Broadcom 802.11abg Networking Device Driver * * Definitions subject to change without notice. * * Copyright (C) 1999-2017, 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 677952 2017-01-05 23:25:28Z $ */ #ifndef _wlioctl_h_ #define _wlioctl_h_ #include #include #include #include #include #include #include #include <802.11.h> #include <802.11s.h> #include <802.1d.h> #include #include #include #include #include #include typedef struct { uint32 num; chanspec_t list[1]; } chanspec_list_t; #define RSN_KCK_LENGTH 16 #define RSN_KEK_LENGTH 16 #define TPK_FTM_LEN 16 #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) #define BCM_IOV_XTLV_VERSION 0 #define MAX_NUM_D11CORES 2 /**DFS Forced param */ typedef struct wl_dfs_forced_params { chanspec_t chspec; uint16 version; chanspec_list_t chspec_list; } wl_dfs_forced_t; #define DFS_PREFCHANLIST_VER 0x01 #define WL_CHSPEC_LIST_FIXED_SIZE OFFSETOF(chanspec_list_t, list) /* size of dfs forced param size given n channels are in the list */ #define WL_DFS_FORCED_PARAMS_SIZE(n) \ (sizeof(wl_dfs_forced_t) + (((n) < 1) ? (0) : (((n) - 1)* sizeof(chanspec_t)))) #define WL_DFS_FORCED_PARAMS_FIXED_SIZE \ (WL_CHSPEC_LIST_FIXED_SIZE + OFFSETOF(wl_dfs_forced_t, chspec_list)) #define WL_DFS_FORCED_PARAMS_MAX_SIZE \ WL_DFS_FORCED_PARAMS_FIXED_SIZE + (WL_NUMCHANNELS * sizeof(chanspec_t)) /**association decision information */ typedef struct { uint8 assoc_approved; /**< (re)association approved */ uint8 pad; uint16 reject_reason; /**< reason code for rejecting association */ struct ether_addr da; uint8 pad1[6]; int64 sys_time; /**< current system time */ } assoc_decision_t; #define DFS_SCAN_S_IDLE -1 #define DFS_SCAN_S_RADAR_FREE 0 #define DFS_SCAN_S_RADAR_FOUND 1 #define DFS_SCAN_S_INPROGESS 2 #define DFS_SCAN_S_SCAN_ABORTED 3 #define DFS_SCAN_S_SCAN_MODESW_INPROGRESS 4 #define DFS_SCAN_S_MAX 5 #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; uint8 PAD[2]; 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; uint8 PAD; uint16 id; struct ether_addr da; uint16 PAD; } wl_sa_query_t; /* EXT_STA */ /**association information */ typedef struct { uint32 assoc_req; /**< offset to association request frame */ uint32 assoc_req_len; /**< association request frame length */ uint32 assoc_rsp; /**< offset to association response frame */ uint32 assoc_rsp_len; /**< association response frame length */ uint32 bcn; /**< offset to AP beacon */ uint32 bcn_len; /**< AP beacon length */ uint32 wsec; /**< ucast security algo */ uint32 wpaie; /**< offset to WPA ie */ uint8 auth_alg; /**< 802.11 authentication mode */ uint8 WPA_auth; /**< WPA: authenticated key management */ uint8 ewc_cap; /**< EWC (MIMO) capable */ uint8 ofdm; /**< OFDM */ } assoc_info_t; /* defined(EXT_STA) */ /* Flags for OBSS IOVAR Parameters */ #define WL_OBSS_DYN_BWSW_FLAG_ACTIVITY_PERIOD (0x01) #define WL_OBSS_DYN_BWSW_FLAG_NOACTIVITY_PERIOD (0x02) #define WL_OBSS_DYN_BWSW_FLAG_NOACTIVITY_INCR_PERIOD (0x04) #define WL_OBSS_DYN_BWSW_FLAG_PSEUDO_SENSE_PERIOD (0x08) #define WL_OBSS_DYN_BWSW_FLAG_RX_CRS_PERIOD (0x10) #define WL_OBSS_DYN_BWSW_FLAG_DUR_THRESHOLD (0x20) #define WL_OBSS_DYN_BWSW_FLAG_TXOP_PERIOD (0x40) /* OBSS IOVAR Version information */ #define WL_PROT_OBSS_CONFIG_PARAMS_VERSION 1 #include typedef BWL_PRE_PACKED_STRUCT struct { uint8 obss_bwsw_activity_cfm_count_cfg; /**< configurable count in * seconds before we confirm that OBSS is present and * dynamically activate dynamic bwswitch. */ uint8 obss_bwsw_no_activity_cfm_count_cfg; /**< configurable count in * seconds before we confirm that OBSS is GONE and * dynamically start pseudo upgrade. If in pseudo sense time, we * will see OBSS, [means that, we false detected that OBSS-is-gone * in watchdog] this count will be incremented in steps of * obss_bwsw_no_activity_cfm_count_incr_cfg for confirming OBSS * detection again. Note that, at present, max 30seconds is * allowed like this. [OBSS_BWSW_NO_ACTIVITY_MAX_INCR_DEFAULT] */ uint8 obss_bwsw_no_activity_cfm_count_incr_cfg; /* see above */ uint16 obss_bwsw_pseudo_sense_count_cfg; /**< number of msecs/cnt to be in * pseudo state. This is used to sense/measure the stats from lq. */ uint8 obss_bwsw_rx_crs_threshold_cfg; /**< RX CRS default threshold */ uint8 obss_bwsw_dur_thres; /**< OBSS dyn bwsw trigger/RX CRS Sec */ uint8 obss_bwsw_txop_threshold_cfg; /**< TXOP default threshold */ } BWL_POST_PACKED_STRUCT wlc_obss_dynbwsw_config_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct { uint32 version; /**< version field */ uint32 config_mask; uint32 reset_mask; wlc_obss_dynbwsw_config_t config_params; } BWL_POST_PACKED_STRUCT obss_config_params_t; #include /**bsscfg type */ typedef enum bsscfg_type { BSSCFG_TYPE_GENERIC = 0, /**< Generic AP/STA/IBSS BSS */ BSSCFG_TYPE_P2P = 1, /**< P2P BSS */ /* index 2 earlier used for BTAMP */ BSSCFG_TYPE_PSTA = 3, BSSCFG_TYPE_TDLS = 4, BSSCFG_TYPE_SLOTTED_BSS = 5, BSSCFG_TYPE_PROXD = 6, BSSCFG_TYPE_NAN = 7, BSSCFG_TYPE_MESH = 8, BSSCFG_TYPE_AIBSS = 9 } bsscfg_type_t; /* bsscfg subtype */ typedef enum bsscfg_subtype { BSSCFG_SUBTYPE_NONE = 0, BSSCFG_GENERIC_STA = 1, /* GENERIC */ BSSCFG_GENERIC_AP = 2, BSSCFG_GENERIC_IBSS = 6, BSSCFG_P2P_GC = 3, /* P2P */ BSSCFG_P2P_GO = 4, BSSCFG_P2P_DISC = 5, /* Index 7 & 8 earlier used for BTAMP */ BSSCFG_SUBTYPE_AWDL = 9, /* SLOTTED_BSS_TYPE */ BSSCFG_SUBTYPE_NAN_MGMT = 10, BSSCFG_SUBTYPE_NAN_DATA = 11, BSSCFG_SUBTYPE_NAN_MGMT_DATA = 12 } bsscfg_subtype_t; typedef struct wlc_bsscfg_info { uint32 type; uint32 subtype; } wlc_bsscfg_info_t; /* ULP SHM Offsets info */ typedef struct ulp_shm_info { uint32 m_ulp_ctrl_sdio; uint32 m_ulp_wakeevt_ind; uint32 m_ulp_wakeind; } ulp_shm_info_t; /* 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]; uint8 PAD; struct { uint32 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. */ uint8 PAD; uint16 atim_window; /**< units are Kusec */ uint8 dtim_period; /**< DTIM period */ uint8 PAD; int16 RSSI; /**< receive signal strength (in dBm) */ int8 phy_noise; /**< noise (in dBm) */ uint8 PAD[3]; 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]; uint8 PAD[1]; struct { uint32 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 */ uint8 PAD; int16 RSSI; /**< receive signal strength (in dBm) */ int8 phy_noise; /**< noise (in dBm) */ uint8 n_cap; /**< BSS is 802.11N Capable */ uint8 PAD[2]; uint32 nbss_cap; /**< 802.11N BSS Capabilities (based on HT_CAP_*) */ uint8 ctl_ch; /**< 802.11N BSS control channel number */ uint8 PAD[3]; 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 */ uint8 PAD[2]; 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]; uint8 bcnflags; /* additional flags w.r.t. beacon */ struct { uint32 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 */ uint8 accessnet; /* from beacon interwork IE (if bcnflags) */ int16 RSSI; /**< receive signal strength (in dBm) */ int8 phy_noise; /**< noise (in dBm) */ uint8 n_cap; /**< BSS is 802.11N Capable */ uint16 freespace1; /* make implicit padding explicit */ 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 */ uint16 freespace2; /* making implicit padding explicit */ uint32 ie_length; /**< byte length of Information Elements */ int16 SNR; /**< average SNR of during frame reception */ uint16 vht_mcsmap; /**< STA's Associated vhtmcsmap */ uint16 vht_mcsmap_prop; /**< STA's Associated prop vhtmcsmap */ uint16 vht_txmcsmap_prop; /**< prop VHT tx mcs prop */ /* Add new fields here */ /* variable length Information Elements */ } wl_bss_info_t; #define WL_GSCAN_FULL_RESULT_VERSION 2 /* current version of wl_gscan_result_t struct */ #define WL_GSCAN_INFO_FIXED_FIELD_SIZE (sizeof(wl_gscan_bss_info_t) - sizeof(wl_bss_info_t)) typedef struct wl_gscan_bss_info { uint32 timestamp[2]; wl_bss_info_t info; /* Do not add any more members below, fixed */ /* and variable length Information Elements to follow */ } wl_gscan_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; uint16 PAD; uint32 wlc_index; } 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 #define DL_BEGIN 0x0002 #define DL_END 0x0004 /* Flags for Major/Minor/Date number shift and mask */ #define EPI_VER_SHIFT 16 #define EPI_VER_MASK 0xFFFF /** 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; uint8 SSID[DOT11_MAX_SSID_LEN]; } wlc_ssid_t; typedef struct wlc_ssid_ext { uint8 hidden; uint8 PAD; uint16 flags; uint8 SSID_len; int8 rssi_thresh; uint8 SSID[DOT11_MAX_SSID_LEN]; } wlc_ssid_ext_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 struct wnm_url { uint8 len; uint8 data[1]; } 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 WL_MAX_ROAMSCAN_DATSZ (WL_SCAN_PARAMS_FIXED_SIZE + (WL_NUMCHANNELS * sizeof(uint16))) #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)) #define ESCAN_REQ_VERSION 1 /** event scan reduces amount of SOC memory needed to store scan results */ 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)) /** event scan reduces amount of SOC memory needed to store scan results */ 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)) typedef struct wl_gscan_result { uint32 buflen; uint32 version; uint32 scan_ch_bucket; wl_gscan_bss_info_t bss_info[1]; } wl_gscan_result_t; #define WL_GSCAN_RESULTS_FIXED_SIZE (sizeof(wl_gscan_result_t) - sizeof(wl_gscan_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)) 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 NUM_BFGAIN_ARRAY_1RX 2 #define NUM_BFGAIN_ARRAY_2RX 3 #define NUM_BFGAIN_ARRAY_3RX 4 #define NUM_BFGAIN_ARRAY_4RX 5 typedef struct wl_txbf_expgainset { /* bitmap for each element: B[4:0]=>c0, B[9:5]=>c1, B[14:10]=>c2, B[19:15]=>c[3-7] * B[24:20]=>c[8-9], B[29:25]=>c[10-11] */ uint32 bfgain_2x1[NUM_BFGAIN_ARRAY_1RX]; /* exp 1ss, imp 1ss */ uint32 bfgain_2x2[NUM_BFGAIN_ARRAY_2RX]; /* exp [1-2]ss, imp 1ss */ uint32 bfgain_3x1[NUM_BFGAIN_ARRAY_1RX]; uint32 bfgain_3x2[NUM_BFGAIN_ARRAY_2RX]; uint32 bfgain_3x3[NUM_BFGAIN_ARRAY_3RX]; /* exp [1-3]ss, imp 1ss */ uint32 bfgain_4x1[NUM_BFGAIN_ARRAY_1RX]; uint32 bfgain_4x2[NUM_BFGAIN_ARRAY_2RX]; uint32 bfgain_4x3[NUM_BFGAIN_ARRAY_3RX]; uint32 bfgain_4x4[NUM_BFGAIN_ARRAY_4RX]; /* exp [1-4]ss, imp 1ss */ } wl_txbf_expgainset_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; uint8 PAD[3]; } 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; /* WLC_SET_ALLOW_MODE values */ #define ALLOW_MODE_ANY_BSSID 0 #define ALLOW_MODE_ONLY_DESIRED_BSSID 1 #define ALLOW_MODE_NO_BSSID 2 /** 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) typedef struct wlc_roam_exp_params { int8 a_band_boost_threshold; int8 a_band_penalty_threshold; int8 a_band_boost_factor; int8 a_band_penalty_factor; int8 cur_bssid_boost; int8 alert_roam_trigger_threshold; int16 a_band_max_boost; } wlc_roam_exp_params_t; #define ROAM_EXP_CFG_VERSION 1 #define ROAM_EXP_ENABLE_FLAG (1 << 0) #define ROAM_EXP_CFG_PRESENT (1 << 1) typedef struct wl_roam_exp_cfg { uint16 version; uint16 flags; wlc_roam_exp_params_t params; } wl_roam_exp_cfg_t; typedef struct wl_bssid_pref_list { struct ether_addr bssid; /* Add this to modify rssi */ int8 rssi_factor; int8 flags; } wl_bssid_pref_list_t; #define BSSID_PREF_LIST_VERSION 1 #define ROAM_EXP_CLEAR_BSSID_PREF (1 << 0) typedef struct wl_bssid_pref_cfg { uint16 version; uint16 flags; uint16 count; uint16 reserved; wl_bssid_pref_list_t bssids[]; } wl_bssid_pref_cfg_t; #define SSID_WHITELIST_VERSION 1 #define ROAM_EXP_CLEAR_SSID_WHITELIST (1 << 0) /* Roam SSID whitelist, ssids in this list are ok to */ /* be considered as targets to join when considering a roam */ typedef struct wl_ssid_whitelist { uint16 version; uint16 flags; uint8 ssid_count; uint8 reserved[3]; wlc_ssid_t ssids[]; } wl_ssid_whitelist_t; #define ROAM_EXP_EVENT_VERSION 1 typedef struct wl_roam_exp_event { uint16 version; uint16 flags; wlc_ssid_t cur_ssid; } wl_roam_exp_event_t; /** scan params for extended join */ typedef struct wl_join_scan_params { uint8 scan_type; /**< 0 use default, active or passive scan */ uint8 PAD[3]; 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? */ uint16 num_secs; /**< How many secs worth of data */ cca_congest_t secs[1]; /**< Data */ } cca_congest_channel_req_t; typedef struct { uint32 duration; /**< millisecs spent sampling this channel */ uint32 congest; /**< millisecs detecting busy CCA */ uint32 timestamp; /**< second timestamp */ } cca_congest_simple_t; typedef struct { uint16 status; uint16 id; chanspec_t chanspec; /**< Which channel? */ uint16 len; union { cca_congest_simple_t cca_busy; /**< CCA busy */ int32 noise; /**< noise floor */ }; } cca_chan_qual_event_t; typedef struct { uint32 msrmnt_time; /**< Time for Measurement (msec) */ uint32 msrmnt_done; /**< flag set when measurement complete */ char buf[]; } cca_stats_n_flags; typedef struct { uint32 msrmnt_query; /* host to driver query for measurement done */ uint32 time_req; /* time required for measurement */ uint8 report_opt; /* option to print different stats in report */ uint8 PAD[3]; } cca_msrmnt_query; /* 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; #define CCODE_INFO_VERSION 1 typedef enum wl_ccode_role { WLC_CCODE_ROLE_ACTIVE = 0, WLC_CCODE_ROLE_HOST, WLC_CCODE_ROLE_80211D_ASSOC, WLC_CCODE_ROLE_80211D_SCAN, WLC_CCODE_ROLE_DEFAULT, WLC_CCODE_LAST } wl_ccode_role_t; #define WLC_NUM_CCODE_INFO WLC_CCODE_LAST typedef struct wl_ccode_entry { uint16 reserved; uint8 band; uint8 role; char ccode[WLC_CNTRY_BUF_SZ]; } wl_ccode_entry_t; typedef struct wl_ccode_info { uint16 version; uint16 count; /**< Number of ccodes entries in the set */ wl_ccode_entry_t ccodelist[1]; } wl_ccode_info_t; #define WL_CCODE_INFO_FIXED_LEN OFFSETOF(wl_ccode_info_t, ccodelist) 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 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]; int32 pad_3; int32 iv_initialized; /**< has IV been initialized already? */ int32 pad_4; /* Rx IV */ struct { uint32 hi; /**< upper 32 bits of IV */ uint16 lo; /**< lower 16 bits of IV */ uint16 PAD; } rxiv; uint32 pad_5[2]; struct ether_addr ea; /**< per station */ uint16 PAD; } 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 wsec_pmk { 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; uint8 PAD[3]; } wl_led_info_t; /** srom read/write struct passed through ioctl */ typedef struct { uint32 byteoff; /**< byte offset */ uint32 nbytes; /**< number of bytes */ uint16 buf[]; } srom_rw_t; #define CISH_FLAG_PCIECIS (1 << 15) /**< write CIS format bit for PCIe CIS */ /** similar cis (srom or otp) struct [iovar: may not be aligned] */ typedef struct { uint16 source; /**< cis source */ uint16 flags; /**< flags */ 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 */ uint32 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) /**Used to get specific link/ac parameters */ typedef struct { int32 ac; uint8 val; struct ether_addr ea; uint8 PAD; } link_val_t; #define WL_PM_MUTE_TX_VER 1 typedef struct wl_pm_mute_tx { uint16 version; /**< version */ uint16 len; /**< length */ uint16 deadline; /**< deadline timer (in milliseconds) */ uint8 enable; /**< set to 1 to enable mode; set to 0 to disable it */ uint8 PAD; } wl_pm_mute_tx_t; /* sta_info_t version 4 */ typedef struct { uint16 ver; /**< version of this struct */ uint16 len; /**< length in bytes of this structure */ uint16 cap; /**< sta's advertised capabilities */ uint16 PAD; uint32 flags; /**< flags defined below */ uint32 idle; /**< time since data pkt rx'd from sta */ struct ether_addr ea; /**< Station address */ uint16 PAD; 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 user packets transmitted (unicast) */ uint32 tx_failures; /**< # of user packets failed */ uint32 rx_ucast_pkts; /**< # of unicast packets received */ uint32 rx_mcast_pkts; /**< # of multicast packets received */ uint32 tx_rate; /**< Rate used by last 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 user 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 */ uint16 PAD; uint32 tx_pkts_retried; /**< # of frames where a retry was * necessary */ uint32 tx_pkts_retry_exhausted; /**< # of user frames where a retry * was exhausted */ int8 rx_lastpkt_rssi[WL_STA_ANT_MAX]; /**< Per antenna RSSI of last * received data frame. */ /* TX WLAN retry/failure statistics: * Separated for host requested frames and WLAN locally generated frames. * Include unicast frame only where the retries/failures can be counted. */ uint32 tx_pkts_total; /**< # user frames sent successfully */ uint32 tx_pkts_retries; /**< # user frames retries */ uint32 tx_pkts_fw_total; /**< # FW generated sent successfully */ uint32 tx_pkts_fw_retries; /**< # retries for FW generated frames */ uint32 tx_pkts_fw_retry_exhausted; /**< # FW generated where a retry * was exhausted */ uint32 rx_pkts_retried; /**< # rx with retry bit set */ uint32 tx_rate_fallback; /**< lowest fallback TX rate */ /* Fields above this line are common to sta_info_t versions 4 and 5 */ uint32 rx_dur_total; /* total user RX duration (estimated) */ chanspec_t chanspec; /** chanspec this sta is on */ uint16 PAD; wl_rateset_args_t rateset_adv; /* rateset along with mcs index bitmap */ uint32 PAD; } sta_info_v4_t; /* Note: Version 4 is the latest version of sta_info_t. Version 5 is abandoned. * Please add new fields to version 4, not version 5. */ /* sta_info_t version 5 */ typedef struct { uint16 ver; /**< version of this struct */ uint16 len; /**< length in bytes of this structure */ uint16 cap; /**< sta's advertised capabilities */ uint16 PAD; uint32 flags; /**< flags defined below */ uint32 idle; /**< time since data pkt rx'd from sta */ struct ether_addr ea; /**< Station address */ uint16 PAD; 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 user packets transmitted (unicast) */ uint32 tx_failures; /**< # of user packets failed */ uint32 rx_ucast_pkts; /**< # of unicast packets received */ uint32 rx_mcast_pkts; /**< # of multicast packets received */ uint32 tx_rate; /**< Rate used by last 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 user 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 */ uint16 PAD; uint32 tx_pkts_retried; /**< # of frames where a retry was * necessary */ uint32 tx_pkts_retry_exhausted; /**< # of user frames where a retry * was exhausted */ int8 rx_lastpkt_rssi[WL_STA_ANT_MAX]; /**< Per antenna RSSI of last * received data frame. */ /* TX WLAN retry/failure statistics: * Separated for host requested frames and WLAN locally generated frames. * Include unicast frame only where the retries/failures can be counted. */ uint32 tx_pkts_total; /**< # user frames sent successfully */ uint32 tx_pkts_retries; /**< # user frames retries */ uint32 tx_pkts_fw_total; /**< # FW generated sent successfully */ uint32 tx_pkts_fw_retries; /**< # retries for FW generated frames */ uint32 tx_pkts_fw_retry_exhausted; /**< # FW generated where a retry * was exhausted */ uint32 rx_pkts_retried; /**< # rx with retry bit set */ uint32 tx_rate_fallback; /**< lowest fallback TX rate */ /* Fields above this line are common to sta_info_t versions 4 and 5 */ chanspec_t chanspec; /** chanspec this sta is on */ uint16 PAD; wl_rateset_args_t rateset_adv; /* rateset along with mcs index bitmap */ } sta_info_v5_t; #define WL_OLD_STAINFO_SIZE OFFSETOF(sta_info_t, tx_tot_pkts) #define WL_STA_VER_4 4 #define WL_STA_VER_5 5 #define WL_STA_VER WL_STA_VER_4 #define SWDIV_STATS_VERSION_2 2 #define SWDIV_STATS_CURRENT_VERSION SWDIV_STATS_VERSION_2 struct wlc_swdiv_stats_v1 { uint32 auto_en; uint32 active_ant; uint32 rxcount; int32 avg_snr_per_ant0; int32 avg_snr_per_ant1; int32 avg_snr_per_ant2; uint32 swap_ge_rxcount0; uint32 swap_ge_rxcount1; uint32 swap_ge_snrthresh0; uint32 swap_ge_snrthresh1; uint32 swap_txfail0; uint32 swap_txfail1; uint32 swap_timer0; uint32 swap_timer1; uint32 swap_alivecheck0; uint32 swap_alivecheck1; uint32 rxcount_per_ant0; uint32 rxcount_per_ant1; uint32 acc_rxcount; uint32 acc_rxcount_per_ant0; uint32 acc_rxcount_per_ant1; uint32 tx_auto_en; uint32 tx_active_ant; uint32 rx_policy; uint32 tx_policy; uint32 cell_policy; uint32 swap_snrdrop0; uint32 swap_snrdrop1; uint32 mws_antsel_ovr_tx; uint32 mws_antsel_ovr_rx; uint8 swap_trig_event_id; }; struct wlc_swdiv_stats_v2 { uint16 version; /* version of the structure * as defined by SWDIV_STATS_CURRENT_VERSION */ uint16 length; /* length of the entire structure */ uint32 auto_en; uint32 active_ant; uint32 rxcount; int32 avg_snr_per_ant0; int32 avg_snr_per_ant1; int32 avg_snr_per_ant2; uint32 swap_ge_rxcount0; uint32 swap_ge_rxcount1; uint32 swap_ge_snrthresh0; uint32 swap_ge_snrthresh1; uint32 swap_txfail0; uint32 swap_txfail1; uint32 swap_timer0; uint32 swap_timer1; uint32 swap_alivecheck0; uint32 swap_alivecheck1; uint32 rxcount_per_ant0; uint32 rxcount_per_ant1; uint32 acc_rxcount; uint32 acc_rxcount_per_ant0; uint32 acc_rxcount_per_ant1; uint32 tx_auto_en; uint32 tx_active_ant; uint32 rx_policy; uint32 tx_policy; uint32 cell_policy; uint32 swap_snrdrop0; uint32 swap_snrdrop1; uint32 mws_antsel_ovr_tx; uint32 mws_antsel_ovr_rx; uint32 swap_trig_event_id; }; #define WLC_NUMRATES 16 /**< max # of rates in a rateset */ /**Used to get specific STA parameters */ typedef struct { uint32 val; struct ether_addr ea; uint16 PAD; } 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 { int32 hw_channel; int32 target_channel; int32 scan_channel; } channel_info_t; /** For ioctls that take a list of MAC addresses */ typedef struct maclist { uint32 count; /**< number of MAC addresses */ struct ether_addr ea[1]; /**< variable length array of MAC addresses */ } maclist_t; /**get pkt count struct passed through ioctl */ typedef struct get_pktcnt { uint32 rx_good_pkt; uint32 rx_bad_pkt; uint32 tx_good_pkt; uint32 tx_bad_pkt; uint32 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 */ /* Link Quality */ typedef struct { int32 rssi[LQ_IDX_LAST]; /**< Array to keep min, max, avg rssi */ int32 snr[LQ_IDX_LAST]; /**< Array to keep min, max, avg snr */ int32 isvalid; /**< Flag indicating whether above data is valid */ } wl_lq_t; 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; uint8 PAD[3]; } 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; /** Get MAC rate histogram response */ typedef struct { uint32 rate[DOT11_RATE_MAX + 1]; /**< Rates */ uint32 mcs[WL_RATESET_SZ_HT_IOCTL * 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 */ uint32 prop11n_mcs[WLC_11N_LAST_PROP_MCS - WLC_11N_FIRST_PROP_MCS + 1]; /** MCS counts */ } wl_mac_ratehisto_res_t; /* sta_info ecounters */ typedef struct { struct ether_addr ea; /* Station MAC addr */ struct ether_addr BSSID; /* BSSID of the BSS */ uint32 tx_pkts_fw_total; /* # FW generated sent successfully */ uint32 tx_pkts_fw_retries; /* # retries for FW generated frames */ uint32 tx_pkts_fw_retry_exhausted; /* # FW generated which * failed after retry */ } sta_info_ecounters_t; #define STAMON_MODULE_VER 1 /**Linux network driver ioctl encoding */ typedef struct wl_ioctl { uint32 cmd; /**< common ioctl definition */ void *buf; /**< pointer to user buffer */ uint32 len; /**< length of user buffer */ uint8 set; /**< 1=set IOCTL; 0=query IOCTL */ uint32 used; /**< bytes read or written (optional) */ uint32 needed; /**< bytes needed (optional) */ } wl_ioctl_t; #ifdef CONFIG_COMPAT typedef struct compat_wl_ioctl { uint32 cmd; /**< common ioctl definition */ uint32 buf; /**< pointer to user buffer */ uint32 len; /**< length of user buffer */ uint8 set; /**< 1=set IOCTL; 0=query IOCTL */ uint32 used; /**< bytes read or written (optional) */ uint32 needed; /**< bytes needed (optional) */ } compat_wl_ioctl_t; #endif /* CONFIG_COMPAT */ #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 /* * Structure for passing hardware and software * revision info up from the driver. */ typedef struct wlc_rev_info { uint32 vendorid; /**< PCI vendor id */ uint32 deviceid; /**< device id of chip */ uint32 radiorev; /**< radio revision */ uint32 chiprev; /**< chip revision */ uint32 corerev; /**< core revision */ uint32 boardid; /**< board identifier (usu. PCI sub-device id) */ uint32 boardvendor; /**< board vendor (usu. PCI sub-vendor id) */ uint32 boardrev; /**< board revision */ uint32 driverrev; /**< driver version */ uint32 ucoderev; /**< microcode version */ uint32 bus; /**< bus type */ uint32 chipnum; /**< chip number */ uint32 phytype; /**< phy type */ uint32 phyrev; /**< phy revision */ uint32 anarev; /**< anacore rev */ uint32 chippkg; /**< chip package info */ uint32 nvramrev; /**< nvram revision number */ uint32 phyminorrev; /**< phy minor rev */ uint32 coreminorrev; /**< core minor rev */ uint32 drvrev_major; /**< driver version: major */ uint32 drvrev_minor; /**< driver version: minor */ uint32 drvrev_rc; /**< driver version: rc */ uint32 drvrev_rc_inc; /**< driver version: rc incremental */ } wlc_rev_info_t; #define WL_REV_INFO_LEGACY_LENGTH 48 #define WL_BRAND_MAX 10 typedef struct wl_instance_info { uint32 instance; int8 brand[WL_BRAND_MAX]; int8 PAD[4-(WL_BRAND_MAX%4)]; } 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 (32 + 1) 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 EXT_STA */ typedef struct _wl_assoc_result { ulong associated; ulong NDIS_auth; ulong NDIS_infra; } wl_assoc_result_t; /* EXT_STA */ #define WL_PHY_PAVARS_LEN 32 /**< Phytype, Bandrange, chain, a[0], b[0], c[0], d[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; uint16 PAD; 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; #define WL_NUM_RPCALPHASEVARS 5 /* number of rpcal phase vars */ typedef struct wl_rpcal_phase { uint16 value; uint16 update; } wl_rpcal_phase_t; typedef struct wl_aci_args { int32 enter_aci_thresh; /* Trigger level to start detecting ACI */ int32 exit_aci_thresh; /* Trigger level to exit ACI mode */ int32 usec_spin; /* microsecs to delay between rssi samples */ int32 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; uint8 PAD[3]; int32 cores; /* add'l version 1 fields */ uint16 version; /**< see definition of WL_SAMPLECOLLECT_T_VERSION */ uint16 length; /**< length of entire structure */ int8 trigger; uint8 PAD; uint16 timeout; uint16 mode; uint16 PAD; 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; uint16 PAD; int32 bitStart; uint32 gpioCapMask; uint8 gpio_collection; uint8 PAD[3]; } 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 */ WL_OTA_TEST_BW_80MHZ = 3 /* full 80Mhz operation */ }; #define HT_MCS_INUSE 0x00000080 /* HT MCS in use,indicates b0-6 holds an mcs */ #define VHT_MCS_INUSE 0x00000100 /* VHT MCS in use,indicates b0-6 holds an mcs */ #define OTA_RATE_MASK 0x0000007f /* rate/mcs value */ #define OTA_STF_SISO 0 #define OTA_STF_CDD 1 #define OTA_STF_STBC 2 #define OTA_STF_SDM 3 typedef struct ota_rate_info { uint8 rate_cnt; /**< Total number of rates */ uint8 PAD; uint16 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; /* * OTA txant/rxant parameter * bit7-4: 4 bits swdiv_tx/rx_policy bitmask, specify antenna-policy for SW diversity * bit3-0: 4 bits TxCore bitmask, specify cores used for transmit frames * (maximum spatial expansion) */ #define WL_OTA_TEST_ANT_MASK 0xF0 #define WL_OTA_TEST_CORE_MASK 0x0F /* OTA txant/rxant 'ant_mask' field; map to Tx/Rx antenna policy for SW diversity */ enum { WL_OTA_TEST_FORCE_ANT0 = 0x10, /* force antenna to Ant 0 */ WL_OTA_TEST_FORCE_ANT1 = 0x20, /* force antenna to Ant 1 */ }; /* antenna/core fields access */ #define WL_OTA_TEST_GET_ANT(_txant) ((_txant) & WL_OTA_TEST_ANT_MASK) #define WL_OTA_TEST_GET_CORE(_txant) ((_txant) & WL_OTA_TEST_CORE_MASK) /** 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 */ uint8 PAD; 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 */ uint8 ldpc; uint8 sgi; uint8 PAD; /* Update WL_OTA_TESTVEC_T_VERSION for adding new members to this structure */ } wl_ota_test_args_t; #define WL_OTA_TESTVEC_T_VERSION 1 /* version of wl_ota_test_vector_t struct */ typedef struct wl_ota_test_vector { uint16 version; 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 */ uint16 test_rxcnt; /* Update WL_OTA_TESTVEC_T_VERSION for adding new members to this structure */ } 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 */ uint8 PAD; 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; /* FOR ioctl that take the sta monitor information */ typedef struct stamon_data { struct ether_addr ea; uint8 PAD[2]; int32 rssi; } stamon_data_t; typedef struct stamon_info { int32 version; uint32 count; stamon_data_t sta_data[1]; } stamon_info_t; typedef struct wl_ota_rx_rssi { uint16 pktcnt; /* Pkt count used for this rx test */ chanspec_t chanspec; /* Channel info on which the packets are received */ int16 rssi; /* Average RSSI of the first 50% packets received */ } wl_ota_rx_rssi_t; #define WL_OTARSSI_T_VERSION 1 /* version of wl_ota_test_rssi_t struct */ #define WL_OTA_TEST_RSSI_FIXED_SIZE OFFSETOF(wl_ota_test_rssi_t, rx_rssi) typedef struct wl_ota_test_rssi { uint8 version; uint8 testcnt; /* total measured RSSI values, valid on output only */ wl_ota_rx_rssi_t rx_rssi[1]; /* Variable length array of wl_ota_rx_rssi_t */ } wl_ota_test_rssi_t; /* WL_OTA END */ /**wl_radar_args_t */ typedef struct { int32 npulses; /**< required number of pulses at n * t_int */ int32 ncontig; /**< required number of pulses at t_int */ int32 min_pw; /**< minimum pulse width (20 MHz clocks) */ int32 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 */ int32 npulses_lp; /**< Radar detection, minimum long pulses */ int32 min_pw_lp; /**< Minimum pulsewidth for long pulses */ int32 max_pw_lp; /**< Maximum pulsewidth for long pulses */ int32 min_fm_lp; /**< Minimum fm for long pulses */ int32 max_span_lp; /**< Maximum deltat for long pulses */ int32 min_deltat; /**< Minimum spacing between pulses */ int32 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 */ uint8 PAD[2]; uint32 version; /**< version */ uint32 fra_pulse_err; /**< sample error margin for detecting French radar pulsed */ int32 npulses_fra; /**< Radar detection, minimum French pulses set */ int32 npulses_stg2; /**< Radar detection, minimum staggered-2 pulses set */ int32 npulses_stg3; /**< Radar detection, minimum staggered-3 pulses set */ uint16 percal_mask; /**< defines which period cal is masked from radar detection */ uint8 PAD[2]; int32 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 */ int32 nskip_rst_lp; /**< number of skipped pulses before resetting lp buffer */ int32 max_pw_tol; /* maximum tolerance allowd in detected pulse width for radar detection */ uint16 feature_mask; /**< 16-bit mask to specify enabled features */ uint16 thresh0_sc; /**< Radar detection, thresh 0 */ uint16 thresh1_sc; /**< Radar detection, thresh 1 */ uint8 PAD[2]; } 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 */ 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 */ } wl_radar_thr_t; typedef struct { uint32 version; /* version */ uint16 thresh0_sc_20_lo; uint16 thresh1_sc_20_lo; uint16 thresh0_sc_40_lo; uint16 thresh1_sc_40_lo; uint16 thresh0_sc_80_lo; uint16 thresh1_sc_80_lo; uint16 thresh0_sc_20_hi; uint16 thresh1_sc_20_hi; uint16 thresh0_sc_40_hi; uint16 thresh1_sc_40_hi; uint16 thresh0_sc_80_hi; uint16 thresh1_sc_80_hi; uint16 fc_varth_sb; uint16 fc_varth_bin5_sb; uint16 notradar_enb; uint16 max_notradar_lp; uint16 max_notradar; uint16 max_notradar_lp_sc; uint16 max_notradar_sc; uint16 highpow_war_enb; uint16 highpow_sp_ratio; //unit is 0.5 } wl_radar_thr2_t; #define WL_RADAR_THR_VERSION 2 typedef struct { uint32 ver; uint32 len; int32 rssi_th[3]; uint8 rssi_gain_80[4]; uint8 rssi_gain_160[4]; } wl_dyn_switch_th_t; #define WL_PHY_DYN_SWITCH_TH_VERSION 1 /** 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; /* SNR per antenna */ typedef struct { uint32 version; /* version field */ uint32 count; /* number of valid antenna snr */ int8 snr_ant[WL_RSSI_ANT_MAX]; /* snr per antenna */ } wl_snr_ant_t; /** data structure used in 'dfs_status' wl interface, which is used to query dfs status */ typedef struct { uint32 state; /**< noted by WL_DFS_CACSTATE_XX. */ uint32 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 uint32, add another to uint16 to maintain size */ uint16 pad; } wl_dfs_status_t; typedef struct { uint32 state; /* noted by WL_DFS_CACSTATE_XX */ uint32 duration; /* time spent in ms in state */ chanspec_t chanspec; /* chanspec of this core */ chanspec_t chanspec_last_cleared; /* chanspec last cleared for operation by scanning */ uint16 sub_type; /* currently just the index of the core or the respective PLL */ uint16 pad; } wl_dfs_sub_status_t; #define WL_DFS_STATUS_ALL_VERSION (1) typedef struct { uint16 version; /* version field; current max version 1 */ uint16 num_sub_status; wl_dfs_sub_status_t dfs_sub_status[1]; /* struct array of length num_sub_status */ } wl_dfs_status_all_t; #define WL_DFS_AP_MOVE_VERSION (1) struct wl_dfs_ap_move_status_v1 { int16 dfs_status; /* DFS scan status */ chanspec_t chanspec; /* New AP Chanspec */ wl_dfs_status_t cac_status; /* CAC status */ }; typedef struct wl_dfs_ap_move_status_v2 { int8 version; /* version field; current max version 1 */ int8 move_status; /* DFS move status */ chanspec_t chanspec; /* New AP Chanspec */ wl_dfs_status_all_t scan_status; /* status; see dfs_status_all for wl_dfs_status_all_t */ } wl_dfs_ap_move_status_v2_t; #define WL_DFS_AP_MOVE_ABORT -1 /* Abort any dfs_ap_move in progress immediately */ #define WL_DFS_AP_MOVE_STUNT -2 /* Stunt move but continue background CSA if in progress */ /** data structure used in 'radar_status' wl interface, which is use to query radar det status */ typedef struct { uint8 detected; uint8 PAD[3]; int32 count; uint8 pretended; uint8 PAD[3]; uint32 radartype; uint32 timenow; uint32 timefromL; int32 lp_csect_single; int32 detected_pulse_index; int32 nconsecq_pulses; chanspec_t ch; uint8 PAD[2]; int32 pw[10]; int32 intv[10]; int32 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 */ uint8 PAD[2]; } tx_power_legacy2_t; #define WL_NUM_2x2_ELEMENTS 4 #define WL_NUM_3x3_ELEMENTS 6 #define WL_NUM_4x4_ELEMENTS 10 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 45 /** number of ppr serialization buffers, it should be reg, board and target */ #define WL_TXPPR_SER_BUF_NUM (3) typedef struct chanspec_txpwr_max { chanspec_t chanspec; /**< chanspec */ uint8 txpwr_max; /**< max txpwr in all the rates */ uint8 padding; } chanspec_txpwr_max_t; typedef struct wl_chanspec_txpwr_max { uint16 ver; /**< version of this struct */ uint16 len; /**< length in bytes of this structure */ uint32 count; /**< number of elements of (chanspec, txpwr_max) pair */ chanspec_txpwr_max_t txpwr[1]; /**< array of (chanspec, max_txpwr) pair */ } wl_chanspec_txpwr_max_t; #define WL_CHANSPEC_TXPWR_MAX_VER 1 #define WL_CHANSPEC_TXPWR_MAX_LEN (sizeof(wl_chanspec_txpwr_max_t)) 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 #define WL_NUMCHANNELS_MANY_CHAN 10 #define WL_ITER_LIMIT_MANY_CHAN 5 #define WL_MIMO_PS_CFG_VERSION_1 1 typedef struct wl_mimops_cfg { uint8 version; /* active_chains: 0 for all, 1 for 1 chain. */ uint8 active_chains; /* static (0) or dynamic (1).or disabled (3) Mode applies only when active_chains = 0. */ uint8 mode; /* bandwidth = Full (0), 20M (1), 40M (2), 80M (3). */ uint8 bandwidth; uint8 applychangesafterlearning; uint8 pad[3]; } wl_mimops_cfg_t; /* This event is for tracing MIMO PS metrics snapshot calls. * It is helpful to debug out-of-sync issue between * ucode SHM values and FW snapshot calculation. * It is part of the EVENT_LOG_TAG_MIMO_PS_TRACE. */ #define WL_MIMO_PS_METRICS_SNAPSHOT_TRACE_TYPE 0 typedef struct wl_mimo_ps_metrics_snapshot_trace { /* type field for this TLV: */ uint16 type; /* length field for this TLV */ uint16 len; uint32 idle_slotcnt_mimo; /* MIMO idle slotcnt raw SHM value */ uint32 last_idle_slotcnt_mimo; /* stored value snapshot */ uint32 idle_slotcnt_siso; /* SISO idle slotcnt raw SHM value */ uint32 last_idle_slotcnt_siso; /* stored value snapshot */ uint32 rx_time_mimo; /* Rx MIMO raw SHM value */ uint32 last_rx_time_mimo; /* stored value snapshot */ uint32 rx_time_siso; /* RX SISO raw SHM value */ uint32 last_rx_time_siso; /* stored value snapshot */ uint32 tx_time_1chain; /* Tx 1-chain raw SHM value */ uint32 last_tx_time_1chain; /* stored value snapshot */ uint32 tx_time_2chain; /* Tx 2-chain raw SHM value */ uint32 last_tx_time_2chain; /* stored value snapshot */ uint32 tx_time_3chain; /* Tx 3-chain raw SHM value */ uint32 last_tx_time_3chain; /* stored value snapshot */ uint16 reason; /* reason for snapshot call, see below */ /* Does the call reset last values after delta calculation */ uint16 reset_last; } wl_mimo_ps_metrics_snapshot_trace_t; /* reason codes for mimo ps metrics snapshot function calls */ #define WL_MIMOPS_METRICS_SNAPSHOT_REPORT 1 #define WL_MIMOPS_METRICS_SNAPSHOT_RXCHAIN_SET 2 #define WL_MIMOPS_METRICS_SNAPSHOT_ARBI 3 #define WL_MIMOPS_METRICS_SNAPSHOT_SLOTUPD 4 #define WL_MIMOPS_METRICS_SNAPSHOT_PMBCNRX 5 #define WL_MIMOPS_METRICS_SNAPSHOT_BMACINIT 6 #define WL_MIMOPS_METRICS_SNAPSHOT_HT_COMPLETE 7 #define WL_MIMOPS_METRICS_SNAPSHOT_OCL 8 #define WL_MIMO_PS_STATUS_VERSION_2 2 typedef struct wl_mimo_ps_status { uint8 version; uint8 ap_cap; /* The associated AP's capability (BW, MIMO/SISO). */ uint8 association_status; /* How we are associated to the AP (MIMO/SISO). */ uint8 mimo_ps_state; /* mimo_ps_cfg states: [0-5]. See below for values */ uint8 mrc_state; /* MRC state: NONE (0), ACTIVE(1) */ uint8 bss_rxchain; /* bss rxchain bitmask */ uint8 bss_txchain; /* bss txchain bitmask */ uint8 bss_bw; /* bandwidth: Full (0), 20M (1), 40M (2), 80M (3), etc */ uint16 hw_state; /* bitmask of hw state. See below for values */ uint8 hw_rxchain; /* actual HW rxchain bitmask */ uint8 hw_txchain; /* actual HW txchain bitmask */ uint8 hw_bw; /* bandwidth: Full (0), 20M (1), 40M (2), 80M (3), etc */ uint8 pm_bcnrx_state; /* actual state of ucode flag */ uint8 basic_rates_present; /* internal flag to trigger siso bcmc rx */ uint8 siso_bcmc_rx_state; /* actual state of ucode flag */ } wl_mimo_ps_status_t; #define WL_MIMO_PS_STATUS_VERSION_1 1 typedef struct wl_mimo_ps_status_v1 { uint8 version; uint8 ap_cap; /* The associated AP's capability (BW, MIMO/SISO). */ uint8 association_status; /* How we are associated to the AP (MIMO/SISO). */ uint8 mimo_ps_state; /* mimo_ps_cfg states: [0-5]. See below for values */ uint8 mrc_state; /* MRC state: NONE (0), ACTIVE(1) */ uint8 bss_rxchain; /* bss rxchain bitmask */ uint8 bss_txchain; /* bss txchain bitmask */ uint8 bss_bw; /* bandwidth: Full (0), 20M (1), 40M (2), 80M (3), etc */ uint16 hw_state; /* bitmask of hw state. See below for values */ uint8 hw_rxchain; /* actual HW rxchain bitmask */ uint8 hw_txchain; /* actual HW txchain bitmask */ uint8 hw_bw; /* bandwidth: Full (0), 20M (1), 40M (2), 80M (3), etc */ uint8 pad[3]; } wl_mimo_ps_status_v1_t; #define WL_MIMO_PS_STATUS_AP_CAP(ap_cap) (ap_cap & 0x0F) #define WL_MIMO_PS_STATUS_AP_CAP_BW(ap_cap) (ap_cap >> 4) #define WL_MIMO_PS_STATUS_ASSOC_BW_SHIFT 4 /* version 3: assoc status: low nibble is status enum, high other flags */ #define WL_MIMO_PS_STATUS_VERSION_3 3 #define WL_MIMO_PS_STATUS_ASSOC_STATUS_MASK 0x0F #define WL_MIMO_PS_STATUS_ASSOC_STATUS_VHT_WITHOUT_OMN 0x80 /* mimo_ps_status: ap_cap/association status */ enum { WL_MIMO_PS_STATUS_ASSOC_NONE = 0, WL_MIMO_PS_STATUS_ASSOC_SISO = 1, WL_MIMO_PS_STATUS_ASSOC_MIMO = 2, WL_MIMO_PS_STATUS_ASSOC_LEGACY = 3 }; /* mimo_ps_status: mimo_ps_cfg states */ enum { WL_MIMO_PS_CFG_STATE_NONE = 0, WL_MIMO_PS_CFG_STATE_INFORM_AP_INPROGRESS = 1, WL_MIMO_PS_CFG_STATE_INFORM_AP_DONE = 2, WL_MIMO_PS_CFG_STATE_LEARNING = 3, WL_MIMO_PS_CFG_STATE_HW_CONFIGURE = 4, WL_MIMO_PS_CFG_STATE_INFORM_AP_PENDING = 5 }; /* mimo_ps_status: hw_state values */ #define WL_MIMO_PS_STATUS_HW_STATE_NONE 0 #define WL_MIMO_PS_STATUS_HW_STATE_LTECOEX (0x1 << 0) #define WL_MIMO_PS_STATUS_HW_STATE_MIMOPS_BSS (0x1 << 1) #define WL_MIMO_PS_STATUS_HW_STATE_AWDL_BSS (0x1 << 2) #define WL_MIMO_PS_STATUS_HW_STATE_SCAN (0x1 << 3) #define WL_MIMO_PS_STATUS_HW_STATE_TXPPR (0x1 << 4) #define WL_MIMO_PS_STATUS_HW_STATE_PWRTHOTTLE (0x1 << 5) #define WL_MIMO_PS_STATUS_HW_STATE_TMPSENSE (0x1 << 6) #define WL_MIMO_PS_STATUS_HW_STATE_IOVAR (0x1 << 7) #define WL_MIMO_PS_STATUS_HW_STATE_AP_BSS (0x1 << 8) /* mimo_ps_status: mrc states */ #define WL_MIMO_PS_STATUS_MRC_NONE 0 #define WL_MIMO_PS_STATUS_MRC_ACTIVE 1 /* mimo_ps_status: core flag states for single-core beacon and siso-bcmc rx */ #define WL_MIMO_PS_STATUS_MHF_FLAG_NONE 0 #define WL_MIMO_PS_STATUS_MHF_FLAG_ACTIVE 1 #define WL_MIMO_PS_STATUS_MHF_FLAG_COREDOWN 2 #define WL_MIMO_PS_STATUS_MHF_FLAG_INVALID 3 /* Type values for the REASON */ #define WL_MIMO_PS_PS_LEARNING_ABORTED (1 << 0) #define WL_MIMO_PS_PS_LEARNING_COMPLETED (1 << 1) #define WL_MIMO_PS_PS_LEARNING_ONGOING (1 << 2) typedef struct wl_mimo_ps_learning_event_data { uint32 startTimeStamp; uint32 endTimeStamp; uint16 reason; struct ether_addr BSSID; uint32 totalSISO_below_rssi_threshold; uint32 totalMIMO_below_rssi_threshold; uint32 totalSISO_above_rssi_threshold; uint32 totalMIMO_above_rssi_threshold; } wl_mimo_ps_learning_event_data_t; #define WL_MIMO_PS_PS_LEARNING_CFG_ABORT (1 << 0) #define WL_MIMO_PS_PS_LEARNING_CFG_STATUS (1 << 1) #define WL_MIMO_PS_PS_LEARNING_CFG_CONFIG (1 << 2) #define WL_MIMO_PS_PS_LEARNING_CFG_V1 1 typedef struct wl_mimops_learning_cfg { /* flag: bit 0 for abort */ /* flag: bit 1 for status */ /* flag: bit 2 for configuring no of packets and rssi */ uint8 flag; /* mimo ps learning version, compatible version is 0 */ uint8 version; /* if version is 0 or rssi is 0, ignored */ int8 learning_rssi_threshold; uint8 reserved; uint32 no_of_packets_for_learning; wl_mimo_ps_learning_event_data_t mimops_learning_data; } wl_mimops_learning_cfg_t; #define WL_OCL_STATUS_VERSION 1 typedef struct ocl_status_info { uint8 version; uint8 len; uint16 fw_status; /* Bits representing FW disable reasons */ uint8 hw_status; /* Bits for actual HW config and SISO/MIMO coremask */ uint8 coremask; /* The ocl core mask (indicating listening core) */ } ocl_status_info_t; /* MWS OCL map */ #define WL_MWS_OCL_OVERRIDE_VERSION 1 typedef struct wl_mws_ocl_override { uint16 version; /* Structure version */ uint16 bitmap_2g; /* bitmap for 2.4G channels bits 1-13 */ uint16 bitmap_5g_lo; /* bitmap for 5G low channels by 2: *34-48, 52-56, 60-64, 100-102 */ uint16 bitmap_5g_mid; /* bitmap for 5G mid channels by 2: * 104, 108-112, 116-120, 124-128, * 132-136, 140, 149-151 */ uint16 bitmap_5g_high; /* bitmap for 5G high channels by 2 * 153, 157-161, 165 */ } wl_mws_ocl_override_t; /* Bits for fw_status */ #define OCL_DISABLED_HOST 0x01 /* Host has disabled through ocl_enable */ #define OCL_DISABLED_RSSI 0x02 /* Disabled because of ocl_rssi_threshold */ #define OCL_DISABLED_LTEC 0x04 /* Disabled due to LTE Coex activity */ #define OCL_DISABLED_SISO 0x08 /* Disabled while in SISO mode */ #define OCL_DISABLED_CAL 0x10 /* Disabled during active calibration */ #define OCL_DISABLED_CHANSWITCH 0x20 /* Disabled during active channel switch */ #define OCL_DISABLED_ASPEND 0x40 /* Disabled due to assoc pending */ /* Bits for hw_status */ #define OCL_HWCFG 0x01 /* State of OCL config bit in phy HW */ #define OCL_HWMIMO 0x02 /* Set if current coremask is > 1 bit */ #define OCL_COREDOWN 0x80 /* Set if core is currently down */ /* * 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 RATE_CCK_1MBPS 0 #define RATE_CCK_2MBPS 1 #define RATE_CCK_5_5MBPS 2 #define RATE_CCK_11MBPS 3 #define RATE_LEGACY_OFDM_6MBPS 0 #define RATE_LEGACY_OFDM_9MBPS 1 #define RATE_LEGACY_OFDM_12MBPS 2 #define RATE_LEGACY_OFDM_18MBPS 3 #define RATE_LEGACY_OFDM_24MBPS 4 #define RATE_LEGACY_OFDM_36MBPS 5 #define RATE_LEGACY_OFDM_48MBPS 6 #define RATE_LEGACY_OFDM_54MBPS 7 #define WL_BSSTRANS_RSSI_RATE_MAP_VERSION 1 typedef struct wl_bsstrans_rssi { int8 rssi_2g; /**< RSSI in dbm for 2.4 G */ int8 rssi_5g; /**< RSSI in dbm for 5G, unused for cck */ } wl_bsstrans_rssi_t; #define RSSI_RATE_MAP_MAX_STREAMS 4 /**< max streams supported */ /** RSSI to rate mapping, all 20Mhz, no SGI */ typedef struct wl_bsstrans_rssi_rate_map { uint16 ver; uint16 len; /**< length of entire structure */ wl_bsstrans_rssi_t cck[WL_NUM_RATES_CCK]; /**< 2.4G only */ wl_bsstrans_rssi_t ofdm[WL_NUM_RATES_OFDM]; /**< 6 to 54mbps */ wl_bsstrans_rssi_t phy_n[RSSI_RATE_MAP_MAX_STREAMS][WL_NUM_RATES_MCS_1STREAM]; /* MCS0-7 */ wl_bsstrans_rssi_t phy_ac[RSSI_RATE_MAP_MAX_STREAMS][WL_NUM_RATES_VHT]; /**< MCS0-9 */ } wl_bsstrans_rssi_rate_map_t; #define WL_BSSTRANS_ROAMTHROTTLE_VERSION 1 /** Configure number of scans allowed per throttle period */ typedef struct wl_bsstrans_roamthrottle { uint16 ver; uint16 period; uint16 scans_allowed; } wl_bsstrans_roamthrottle_t; #define NFIFO 6 /**< # tx/rx fifopairs */ #if defined(BCM_DMA_CT) && !defined(BCM_DMA_CT_DISABLED) #define NFIFO_EXT 32 /* 6 traditional FIFOs + 2 rsvd + 24 MU FIFOs */ #elif defined(WL11AX) && defined(WL11AX_TRIGGERQ_ENABLED) #define NFIFO_EXT 10 #else #define NFIFO_EXT NFIFO #endif /* Reinit reason codes */ enum { WL_REINIT_RC_NONE = 0, WL_REINIT_RC_PS_SYNC = 1, WL_REINIT_RC_PSM_WD = 2, WL_REINIT_RC_MAC_WAKE = 3, WL_REINIT_RC_MAC_SUSPEND = 4, WL_REINIT_RC_MAC_SPIN_WAIT = 5, WL_REINIT_RC_AXI_BUS_ERROR = 6, WL_REINIT_RC_DEVICE_REMOVED = 7, WL_REINIT_RC_PCIE_FATAL_ERROR = 8, WL_REINIT_RC_OL_FW_TRAP = 9, WL_REINIT_RC_FIFO_ERR = 10, WL_REINIT_RC_INV_TX_STATUS = 11, WL_REINIT_RC_MQ_ERROR = 12, WL_REINIT_RC_PHYTXERR_THRESH = 13, WL_REINIT_RC_USER_FORCED = 14, WL_REINIT_RC_FULL_RESET = 15, WL_REINIT_RC_AP_BEACON = 16, WL_REINIT_RC_PM_EXCESSED = 17, WL_REINIT_RC_NO_CLK = 18, WL_REINIT_RC_SW_ASSERT = 19, WL_REINIT_RC_PSM_JMP0 = 20, WL_REINIT_RC_PSM_RUN = 21, WL_REINIT_RC_ENABLE_MAC = 22, WL_REINIT_RC_SCAN_TIMEOUT = 23, WL_REINIT_RC_JOIN_TIMEOUT = 24, /* Below error codes are generated during D3 exit validation */ WL_REINIT_RC_LINK_NOT_ACTIVE = 25, WL_REINIT_RC_PCI_CFG_RD_FAIL = 26, WL_REINIT_RC_INV_VEN_ID = 27, WL_REINIT_RC_INV_DEV_ID = 28, WL_REINIT_RC_INV_BAR0 = 29, WL_REINIT_RC_INV_BAR2 = 30, WL_REINIT_RC_AER_UC_FATAL = 31, WL_REINIT_RC_AER_UC_NON_FATAL = 32, WL_REINIT_RC_AER_CORR = 33, WL_REINIT_RC_AER_DEV_STS = 34, WL_REINIT_RC_PCIe_STS = 35, WL_REINIT_RC_MMIO_RD_FAIL = 36, WL_REINIT_RC_MMIO_RD_INVAL = 37, WL_REINIT_RC_MMIO_ARM_MEM_RD_FAIL = 38, WL_REINIT_RC_MMIO_ARM_MEM_INVAL = 39, WL_REINIT_RC_SROM_LOAD_FAILED = 40, WL_REINIT_RC_PHY_CRASH = 41, WL_REINIT_TX_STALL = 42, WL_REINIT_RC_TX_FLOW_CONTROL_BLOCKED = 43, WL_REINIT_RC_RX_HC_FAIL = 44, WL_REINIT_RC_RX_DMA_STALL = 45, WL_REINIT_UTRACE_BUF_OVERLAP_SR = 46, WL_REINIT_UTRACE_TPL_OUT_BOUNDS = 47, WL_REINIT_UTRACE_TPL_OSET_STRT0 = 48, WL_REINIT_RC_PHYTXERR = 49, WL_REINIT_RC_PSM_FATAL_SUSP = 50, WL_REINIT_RC_TX_FIFO_SUSP = 51, WL_REINIT_RC_MAC_ENABLE = 52, WL_REINIT_RC_SCAN_STALLED = 53, WL_REINIT_RC_LAST /* This must be the last entry */ }; #define NREINITREASONCOUNT 8 #define REINITRSNIDX(_x) (((_x) < WL_REINIT_RC_LAST) ? (_x) : 0) #define WL_CNT_T_VERSION 30 /**< current version of wl_cnt_t struct */ #define WL_CNT_VERSION_6 6 #define WL_CNT_VERSION_11 11 #define WL_CNT_VERSION_XTLV 30 #define WL_COUNTERS_IOV_VERSION_1 1 #define WL_SUBCNTR_IOV_VER WL_COUNTERS_IOV_VERSION_1 /* First two uint16 are version and lenght fields. So offset of the first counter will be 4 */ #define FIRST_COUNTER_OFFSET 0x04 #define WLC_WITH_XTLV_CNT /** * tlv IDs uniquely identifies counter component * packed into wl_cmd_t container */ enum wl_cnt_xtlv_id { WL_CNT_XTLV_SLICE_IDX = 0x1, /**< Slice index */ WL_CNT_XTLV_WLC = 0x100, /**< WLC layer counters */ WL_CNT_XTLV_WLC_RINIT_RSN = 0x101, /**< WLC layer reinitreason extension */ WL_CNT_XTLV_CNTV_LE10_UCODE = 0x200, /**< wl counter ver < 11 UCODE MACSTAT */ WL_CNT_XTLV_LT40_UCODE_V1 = 0x300, /**< corerev < 40 UCODE MACSTAT */ WL_CNT_XTLV_GE40_UCODE_V1 = 0x400, /**< corerev >= 40 UCODE MACSTAT */ WL_CNT_XTLV_GE64_UCODEX_V1 = 0x800 /* corerev >= 64 UCODEX MACSTAT */ }; /** * The number of variables in wl macstat cnt struct. * (wl_cnt_ge40mcst_v1_t, wl_cnt_lt40mcst_v1_t, wl_cnt_v_le10_mcst_t) */ #define WL_CNT_MCST_VAR_NUM 64 /* sizeof(wl_cnt_ge40mcst_v1_t), sizeof(wl_cnt_lt40mcst_v1_t), and sizeof(wl_cnt_v_le10_mcst_t) */ #define WL_CNT_MCST_STRUCT_SZ ((uint32)sizeof(uint32) * WL_CNT_MCST_VAR_NUM) #define WL_CNT_MCXST_STRUCT_SZ ((uint32)sizeof(wl_cnt_ge64mcxst_v1_t)) #define INVALID_CNT_VAL (uint32)(-1) #define WL_XTLV_CNTBUF_MAX_SIZE ((uint32)(OFFSETOF(wl_cnt_info_t, data)) + \ (uint32)BCM_XTLV_HDR_SIZE + (uint32)sizeof(wl_cnt_wlc_t) + \ (uint32)BCM_XTLV_HDR_SIZE + WL_CNT_MCST_STRUCT_SZ + \ (uint32)BCM_XTLV_HDR_SIZE + WL_CNT_MCXST_STRUCT_SZ) #define WL_CNTBUF_MAX_SIZE MAX(WL_XTLV_CNTBUF_MAX_SIZE, (uint32)sizeof(wl_cnt_ver_11_t)) /** Top structure of counters IOVar buffer */ typedef struct { uint16 version; /**< see definition of WL_CNT_T_VERSION */ uint16 datalen; /**< length of data including all paddings. */ uint8 data []; /**< variable length payload: * 1 or more bcm_xtlv_t type of tuples. * each tuple is padded to multiple of 4 bytes. * 'datalen' field of this structure includes all paddings. */ } wl_cnt_info_t; /* Top structure of subcounters IOVar buffer * Whenever we make any change in this structure * WL_SUBCNTR_IOV_VER should be updated accordingly * The structure definition should remain consistant b/w * FW and wl/WLM app. */ typedef struct { uint16 version; /* Version of IOVAR structure. Used for backward * compatibility in future. Whenever we make any * changes to this structure then value of WL_SUBCNTR_IOV_VER * needs to be updated properly. */ uint16 length; /* length in bytes of this structure */ uint16 counters_version; /* see definition of WL_CNT_T_VERSION * wl app will send the version of counters * which is used to calculate the offset of counters. * It must match the version of counters FW is using * else FW will return error with his version of counters * set in this field. */ uint16 num_subcounters; /* Number of counter offset passed by wl app to FW. */ uint32 data[1]; /* variable length payload: * Offsets to the counters will be passed to FW * throught this data field. FW will return the value of counters * at the offsets passed by wl app in this fiels itself. */ } wl_subcnt_info_t; /** wlc layer counters */ typedef struct { /* 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 */ /* 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 */ uint32 rfdisable; /**< count of radio disables */ 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 pciereset; /**< Secondary Bus Reset issued by driver */ uint32 cfgrestore; /**< configspace restore by driver */ uint32 reinitreason[NREINITREASONCOUNT]; /**< reinitreason counters; 0: Unknown reason */ uint32 rxrtry; uint32 rxmpdu_mu; /**< Number of MU MPDUs received */ /* detailed control/management frames */ uint32 txbar; /**< Number of TX BAR */ uint32 rxbar; /**< Number of RX BAR */ uint32 txpspoll; /**< Number of TX PS-poll */ uint32 rxpspoll; /**< Number of RX PS-poll */ uint32 txnull; /**< Number of TX NULL_DATA */ uint32 rxnull; /**< Number of RX NULL_DATA */ uint32 txqosnull; /**< Number of TX NULL_QoSDATA */ uint32 rxqosnull; /**< Number of RX NULL_QoSDATA */ uint32 txassocreq; /**< Number of TX ASSOC request */ uint32 rxassocreq; /**< Number of RX ASSOC request */ uint32 txreassocreq; /**< Number of TX REASSOC request */ uint32 rxreassocreq; /**< Number of RX REASSOC request */ uint32 txdisassoc; /**< Number of TX DISASSOC */ uint32 rxdisassoc; /**< Number of RX DISASSOC */ uint32 txassocrsp; /**< Number of TX ASSOC response */ uint32 rxassocrsp; /**< Number of RX ASSOC response */ uint32 txreassocrsp; /**< Number of TX REASSOC response */ uint32 rxreassocrsp; /**< Number of RX REASSOC response */ uint32 txauth; /**< Number of TX AUTH */ uint32 rxauth; /**< Number of RX AUTH */ uint32 txdeauth; /**< Number of TX DEAUTH */ uint32 rxdeauth; /**< Number of RX DEAUTH */ uint32 txprobereq; /**< Number of TX probe request */ uint32 rxprobereq; /**< Number of RX probe request */ uint32 txprobersp; /**< Number of TX probe response */ uint32 rxprobersp; /**< Number of RX probe response */ uint32 txaction; /**< Number of TX action frame */ uint32 rxaction; /**< Number of RX action frame */ uint32 ampdu_wds; /**< Number of AMPDU watchdogs */ uint32 txlost; /**< Number of lost packets reported in txs */ uint32 txdatamcast; /**< Number of TX multicast data packets */ uint32 txdatabcast; /**< Number of TX broadcast data packets */ uint32 psmxwds; /**< Number of PSMx watchdogs */ uint32 rxback; uint32 txback; uint32 p2p_tbtt; /**< Number of P2P TBTT Events */ uint32 p2p_tbtt_miss; /**< Number of P2P TBTT Events Miss */ uint32 txqueue_start; uint32 txqueue_end; uint32 txbcast; /* Broadcast TransmittedFrameCount */ uint32 txdropped; /* tx dropped pkts */ uint32 rxbcast; /* BroadcastReceivedFrameCount */ uint32 rxdropped; /* rx dropped pkts (derived: sum of others) */ } wl_cnt_wlc_t; /* Reinit reasons - do not put anything else other than reinit reasons here */ typedef struct { uint32 rsn[WL_REINIT_RC_LAST]; } reinit_rsns_t; /* MACXSTAT counters for ucodex (corerev >= 64) */ typedef struct { uint32 macxsusp; uint32 m2vmsg; uint32 v2mmsg; uint32 mboxout; uint32 musnd; uint32 sfb2v; } wl_cnt_ge64mcxst_v1_t; /** MACSTAT counters for ucode (corerev >= 40) */ typedef struct { /* 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; /**< number of Null-Data transmission generated from template */ uint32 txbcnfrm; /**< beacons transmitted */ uint32 txfunfl[6]; /**< per-fifo tx underflows */ uint32 txampdu; /**< number of AMPDUs transmitted */ uint32 txmpdu; /**< number of MPDUs transmitted */ 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 pktengrxducast; /**< unicast frames rxed by the pkteng code */ uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */ uint32 rxfrmtoolong; /**< Received frame longer than legal limit (2346 bytes) */ uint32 rxfrmtooshrt; /**< Received frame did not contain enough bytes for its frame type */ uint32 rxanyerr; /**< Any RX error that is not counted by other counters. */ 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 rxdtucastmbss; /**< number of received DATA frames with good FCS and matching RA */ uint32 rxmgucastmbss; /**< number of received mgmt frames with good FCS and matching RA */ uint32 rxctlucast; /**< 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 rxdtocast; /**< number of received DATA frames (good FCS and not matching RA) */ uint32 rxmgocast; /**< number of received MGMT frames (good FCS and not matching RA) */ uint32 rxctlocast; /**< 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 rxdtmcast; /**< number of RX Data multicast frames received by the MAC */ uint32 rxmgmcast; /**< number of RX Management multicast frames received by the MAC */ uint32 rxctlmcast; /**< number of RX Control multicast frames received by the MAC * (unlikely to see these) */ uint32 rxbeaconmbss; /**< beacons received from member of BSS */ uint32 rxdtucastobss; /**< 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 rxnodelim; /**< number of no valid delimiter detected by ampdu parser */ uint32 rxf0ovfl; /**< number of receive fifo 0 overflows */ uint32 rxf1ovfl; /**< number of receive fifo 1 overflows */ uint32 rxhlovfl; /**< number of length / header fifo overflows */ uint32 missbcn_dbg; /**< number of beacon missed to receive */ 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 txrtsfail; /**< number of rts transmission failure that reach retry limit */ uint32 txucast; /**< number of unicast tx expecting response other than cts/cwcts */ uint32 txinrtstxop; /**< number of data frame transmissions during rts txop */ uint32 rxback; /**< blockack rxcnt */ uint32 txback; /**< blockack txcnt */ uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */ uint32 rxdrop20s; /**< drop secondary cnt */ uint32 rxtoolate; /**< receive too late */ uint32 bphy_badplcp; /**< number of bad PLCP reception on BPHY rate */ } wl_cnt_ge40mcst_v1_t; /** MACSTAT counters for ucode (corerev < 40) */ typedef struct { /* 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; /**< number of Null-Data transmission generated from template */ uint32 txbcnfrm; /**< beacons transmitted */ uint32 txfunfl[6]; /**< per-fifo tx underflows */ uint32 txampdu; /**< number of AMPDUs transmitted */ uint32 txmpdu; /**< number of MPDUs transmitted */ 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 pktengrxducast; /**< unicast frames rxed by the pkteng code */ uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */ uint32 rxfrmtoolong; /**< Received frame longer than legal limit (2346 bytes) */ uint32 rxfrmtooshrt; /**< Received frame did not contain enough bytes for its frame type */ uint32 rxanyerr; /**< Any RX error that is not counted by other counters. */ 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 rxdtucastmbss; /**< number of received DATA frames with good FCS and matching RA */ uint32 rxmgucastmbss; /**< number of received mgmt frames with good FCS and matching RA */ uint32 rxctlucast; /**< 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 rxdtocast; /**< number of received DATA frames (good FCS and not matching RA) */ uint32 rxmgocast; /**< number of received MGMT frames (good FCS and not matching RA) */ uint32 rxctlocast; /**< 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 rxdtmcast; /**< number of RX Data multicast frames received by the MAC */ uint32 rxmgmcast; /**< number of RX Management multicast frames received by the MAC */ uint32 rxctlmcast; /**< number of RX Control multicast frames received by the MAC * (unlikely to see these) */ uint32 rxbeaconmbss; /**< beacons received from member of BSS */ uint32 rxdtucastobss; /**< 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 rxnodelim; /**< number of no valid delimiter detected by ampdu parser */ uint32 rxf0ovfl; /**< number of receive fifo 0 overflows */ uint32 dbgoff46; uint32 dbgoff47; uint32 dbgoff48; /**< Used for counting txstatus queue overflow (corerev <= 4) */ 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 txrtsfail; /**< number of rts transmission failure that reach retry limit */ uint32 txucast; /**< number of unicast tx expecting response other than cts/cwcts */ uint32 txinrtstxop; /**< number of data frame transmissions during rts txop */ uint32 rxback; /**< blockack rxcnt */ uint32 txback; /**< blockack txcnt */ uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */ uint32 phywatch; uint32 rxtoolate; /**< receive too late */ uint32 bphy_badplcp; /**< number of bad PLCP reception on BPHY rate */ } wl_cnt_lt40mcst_v1_t; /** MACSTAT counters for "wl counter" version <= 10 */ typedef struct { /* 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; /**< number of Null-Data transmission generated from template */ uint32 txbcnfrm; /**< beacons transmitted */ uint32 txfunfl[6]; /**< per-fifo tx underflows */ uint32 txfbw; /**< transmit at fallback bw (dynamic bw) */ uint32 PAD0; /**< number of MPDUs transmitted */ 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 pktengrxducast; /**< unicast frames rxed by the pkteng code */ uint32 pktengrxdmcast; /**< multicast frames rxed by the pkteng code */ 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 PAD1; 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 */ uint32 bphy_rxcrsglitch; /**< PHY count of bphy glitches */ uint32 rxdrop20s; /**< drop secondary cnt */ uint32 rxtoolate; /**< receive too late */ uint32 bphy_badplcp; /**< number of bad PLCP reception on BPHY rate */ } wl_cnt_v_le10_mcst_t; #define MAX_RX_FIFO 3 #define WL_RXFIFO_CNT_VERSION 1 /* current version of wl_rxfifo_cnt_t */ typedef struct { /* Counters for frames received from rx fifos */ uint16 version; uint16 length; /* length of entire structure */ uint32 rxf_data[MAX_RX_FIFO]; /* data frames from rx fifo */ uint32 rxf_mgmtctl[MAX_RX_FIFO]; /* mgmt/ctl frames from rx fifo */ } wl_rxfifo_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; /**< 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 */ uint32 rxrtry; /**< num of received packets with retry bit on */ uint32 txmpdu; /**< macstat cnt only valid in ver 11. number of MPDUs txed. */ uint32 rxnodelim; /**< macstat cnt only valid in ver 11. * number of occasions that no valid delimiter is detected * by ampdu parser. */ uint32 rxmpdu_mu; /**< Number of MU MPDUs received */ /* detailed control/management frames */ uint32 txbar; /**< Number of TX BAR */ uint32 rxbar; /**< Number of RX BAR */ uint32 txpspoll; /**< Number of TX PS-poll */ uint32 rxpspoll; /**< Number of RX PS-poll */ uint32 txnull; /**< Number of TX NULL_DATA */ uint32 rxnull; /**< Number of RX NULL_DATA */ uint32 txqosnull; /**< Number of TX NULL_QoSDATA */ uint32 rxqosnull; /**< Number of RX NULL_QoSDATA */ uint32 txassocreq; /**< Number of TX ASSOC request */ uint32 rxassocreq; /**< Number of RX ASSOC request */ uint32 txreassocreq; /**< Number of TX REASSOC request */ uint32 rxreassocreq; /**< Number of RX REASSOC request */ uint32 txdisassoc; /**< Number of TX DISASSOC */ uint32 rxdisassoc; /**< Number of RX DISASSOC */ uint32 txassocrsp; /**< Number of TX ASSOC response */ uint32 rxassocrsp; /**< Number of RX ASSOC response */ uint32 txreassocrsp; /**< Number of TX REASSOC response */ uint32 rxreassocrsp; /**< Number of RX REASSOC response */ uint32 txauth; /**< Number of TX AUTH */ uint32 rxauth; /**< Number of RX AUTH */ uint32 txdeauth; /**< Number of TX DEAUTH */ uint32 rxdeauth; /**< Number of RX DEAUTH */ uint32 txprobereq; /**< Number of TX probe request */ uint32 rxprobereq; /**< Number of RX probe request */ uint32 txprobersp; /**< Number of TX probe response */ uint32 rxprobersp; /**< Number of RX probe response */ uint32 txaction; /**< Number of TX action frame */ uint32 rxaction; /**< Number of RX action frame */ uint32 ampdu_wds; /**< Number of AMPDU watchdogs */ uint32 txlost; /**< Number of lost packets reported in txs */ uint32 txdatamcast; /**< Number of TX multicast data packets */ uint32 txdatabcast; /**< Number of TX broadcast data packets */ uint32 txbcast; /* Broadcast TransmittedFrameCount */ uint32 txdropped; /* tx dropped pkts */ uint32 rxbcast; /* BroadcastReceivedFrameCount */ uint32 rxdropped; /* rx dropped pkts (derived: sum of others) */ } wl_cnt_ver_11_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; /**< # of received DATA frames with good FCS and matching RA */ uint32 rxmfrmucastmbss; /**< # of received mgmt frames with good FCS and matching RA */ uint32 rxcfrmucast; /**< # 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; /**< # of received DATA frames (good FCS and not matching RA) */ uint32 rxmfrmocast; /**< # of received MGMT frames (good FCS and not matching RA) */ uint32 rxcfrmocast; /**< # 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_6_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; /* Partial statistics counter report */ #define WL_CNT_CTL_MGT_FRAMES 0 typedef struct { uint16 type; uint16 len; /* detailed control/management frames */ uint32 txnull; uint32 rxnull; uint32 txqosnull; uint32 rxqosnull; uint32 txassocreq; uint32 rxassocreq; uint32 txreassocreq; uint32 rxreassocreq; uint32 txdisassoc; uint32 rxdisassoc; uint32 txassocrsp; uint32 rxassocrsp; uint32 txreassocrsp; uint32 rxreassocrsp; uint32 txauth; uint32 rxauth; uint32 txdeauth; uint32 rxdeauth; uint32 txprobereq; uint32 rxprobereq; uint32 txprobersp; uint32 rxprobersp; uint32 txaction; uint32 rxaction; uint32 txrts; uint32 rxrts; uint32 txcts; uint32 rxcts; uint32 txack; uint32 rxack; uint32 txbar; uint32 rxbar; uint32 txback; uint32 rxback; uint32 txpspoll; uint32 rxpspoll; } wl_ctl_mgt_cnt_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; }; #define WL_ICMP_IPV6_CFG_VERSION 1 #define WL_ICMP_IPV6_CLEAR_ALL (1 << 0) typedef struct wl_icmp_ipv6_cfg { uint16 version; uint16 length; uint16 fixed_length; uint16 flags; uint32 num_ipv6; /* num_ipv6 to follow */ struct ipv6_addr host_ipv6[]; } wl_icmp_ipv6_cfg_t; #define WL_ICMP_CFG_IPV6_FIXED_LEN OFFSETOF(wl_icmp_ipv6_cfg_t, host_ipv6) #define WL_ICMP_CFG_IPV6_LEN(count) (WL_ICMP_CFG_IPV6_FIXED_LEN + \ ((count) * sizeof(struct ipv6_addr))) typedef struct wl_mkeep_alive_pkt { uint16 version; /* Version for mkeep_alive */ uint16 length; /* length of fixed parameters in the structure */ uint32 period_msec; /* high bit on means immediate send */ 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 #define WL_MKEEP_ALIVE_PERIOD_MASK 0x7FFFFFFF #define WL_MKEEP_ALIVE_IMMEDIATE 0x80000000 /** 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 */ uint16 PAD; } 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 */ uint8 packet[]; } wake_info_t; typedef struct wake_pkt { uint32 wake_pkt_len; /**< size of packet */ uint8 packet[]; } 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 ampdu tx/rx aggregation control */ struct ampdu_aggr { int8 aggr_override; /**< aggr overrided by dongle. Not to be set by host. */ uint16 conf_TID_bmap; /**< bitmap of TIDs to configure */ uint16 enab_TID_bmap; /**< enable/disable per TID */ }; /** structure for identifying ea/tid for sending addba/delba */ struct ampdu_ea_tid { struct ether_addr ea; /**< Station address */ uint8 tid; /**< tid */ uint8 initiator; /**< 0 is recipient, 1 is originator */ }; /** structure for identifying retry/tid for retry_limit_tid/rr_retry_limit_tid */ struct ampdu_retry_tid { uint8 tid; /**< tid */ uint8 retry; /**< retry value */ }; #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 { int32 count; /**< number of tspecs */ struct tsinfo_arg tsinfo[]; /**< variable length array of tsinfo */ }; /* WLTDLS */ /**structure for tdls iovars */ typedef struct tdls_iovar { struct ether_addr ea; /**< Station address */ uint8 mode; /**< mode: depends on iovar */ uint8 PAD; chanspec_t chanspec; uint16 PAD; 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; uint8 PAD; 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 */ uint32 flag; /**< bit field */ /* TSPEC Arguments */ struct tsinfo_arg tsinfo; /**< TS Info bit field */ uint8 PAD; uint16 nom_msdu_size; /**< (Nominal or fixed) MSDU Size (bytes) */ uint16 max_msdu_size; /**< Maximum MSDU Size (bytes) */ uint32 min_srv_interval; /**< Minimum Service Interval (us) */ uint32 max_srv_interval; /**< Maximum Service Interval (us) */ uint32 inactivity_interval; /**< Inactivity Interval (us) */ uint32 suspension_interval; /**< Suspension Interval (us) */ uint32 srv_start_time; /**< Service Start Time (us) */ uint32 min_data_rate; /**< Minimum Data Rate (bps) */ uint32 mean_data_rate; /**< Mean Data Rate (bps) */ uint32 peak_data_rate; /**< Peak Data Rate (bps) */ uint32 max_burst_size; /**< Maximum Burst Size (bytes) */ uint32 delay_bound; /**< Delay Bound (us) */ uint32 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 */ uint8 PAD[3]; } tspec_arg_t; /** tspec arg for desired station */ typedef struct tspec_per_sta_arg { struct ether_addr ea; uint8 PAD[2]; 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; /** Management time configuration */ typedef struct wl_lifetime_mg { uint32 mgmt_bitmap; /**< Mgmt subtype */ uint32 lifetime; /**< Packet lifetime value in us */ } wl_lifetime_mg_t; /* MAC Sample Capture related */ #define WL_MACCAPTR_DEFSTART_PTR 0xA00 #define WL_MACCAPTR_DEFSTOP_PTR 0xA3F #define WL_MACCAPTR_DEFSZ 0x3F #define WL_MACCAPTR_DEF_MASK 0xFFFFFFFF typedef enum { WL_MACCAPT_TRIG = 0, WL_MACCAPT_STORE = 1, WL_MACCAPT_TRANS = 2, WL_MACCAPT_MATCH = 3 } maccaptr_optn; typedef enum { WL_MACCAPT_STRT = 1, WL_MACCAPT_STOP = 2, WL_MACCAPT_RST = 3 } maccaptr_cmd_t; /* MAC Sample Capture Set-up Paramters */ typedef struct wl_maccapture_params { uint8 gpio_sel; uint8 la_mode; /* TRUE: GPIO Out Enabled */ uint8 PAD[2]; uint32 start_ptr; /* Start address to store */ uint32 stop_ptr; /* Stop address to store */ uint8 optn_bmp; /* Options */ uint8 PAD[3]; uint32 tr_mask; /* Trigger Mask */ uint32 tr_val; /* Trigger Value */ uint32 s_mask; /* Store Mode Mask */ uint32 x_mask; /* Trans. Mode Mask */ uint32 m_mask; /* Match Mode Mask */ uint32 m_val; /* Match Value */ maccaptr_cmd_t cmd; /* Start / Stop */ } wl_maccapture_params_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_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 #define PFN_SWC_RSSI_WINDOW_MAX 8 #define PFN_SWC_MAX_NUM_APS 16 #define PFN_HOTLIST_MAX_NUM_APS 64 #define MAX_EPNO_HIDDEN_SSID 8 #define MAX_WHITELIST_SSID 2 /* Version 1 and 2 for various scan results structures defined below */ #define PFN_SCANRESULTS_VERSION_V1 1 #define PFN_SCANRESULTS_VERSION_V2 2 /** PFN network info structure */ typedef struct wl_pfn_subnet_info_v1 { struct ether_addr BSSID; uint8 channel; /**< channel number only */ uint8 SSID_len; uint8 SSID[32]; } wl_pfn_subnet_info_v1_t; typedef struct wl_pfn_subnet_info_v2 { struct ether_addr BSSID; uint8 channel; /**< channel number only */ uint8 SSID_len; union { uint8 SSID[32]; uint16 index; } u; } wl_pfn_subnet_info_v2_t; typedef struct wl_pfn_net_info_v1 { wl_pfn_subnet_info_v1_t pfnsubnet; int16 RSSI; /**< receive signal strength (in dBm) */ uint16 timestamp; /**< age in seconds */ } wl_pfn_net_info_v1_t; typedef struct wl_pfn_net_info_v2 { wl_pfn_subnet_info_v2_t pfnsubnet; int16 RSSI; /**< receive signal strength (in dBm) */ uint16 timestamp; /**< age in seconds */ } wl_pfn_net_info_v2_t; /* Version 1 and 2 for various lbest scan results structures below */ #define PFN_LBEST_SCAN_RESULT_VERSION_V1 1 #define PFN_LBEST_SCAN_RESULT_VERSION_V2 2 #define MAX_CHBKT_PER_RESULT 4 typedef struct wl_pfn_lnet_info_v1 { wl_pfn_subnet_info_v1_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_v1_t; typedef struct wl_pfn_lnet_info_v2 { wl_pfn_subnet_info_v2_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_v2_t; typedef struct wl_pfn_lscanresults_v1 { uint32 version; uint32 status; uint32 count; wl_pfn_lnet_info_v1_t netinfo[1]; } wl_pfn_lscanresults_v1_t; typedef struct wl_pfn_lscanresults_v2 { uint32 version; uint16 status; uint16 count; uint32 scan_ch_buckets[MAX_CHBKT_PER_RESULT]; wl_pfn_lnet_info_v2_t netinfo[1]; } wl_pfn_lscanresults_v2_t; /**this is used to report on 1-* pfn scan results */ typedef struct wl_pfn_scanresults_v1 { uint32 version; uint32 status; uint32 count; wl_pfn_net_info_v1_t netinfo[1]; } wl_pfn_scanresults_v1_t; typedef struct wl_pfn_scanresults_v2 { uint32 version; uint32 status; uint32 count; uint32 scan_ch_bucket; wl_pfn_net_info_v2_t netinfo[1]; } wl_pfn_scanresults_v2_t; typedef struct wl_pfn_significant_net { uint16 flags; uint16 channel; struct ether_addr BSSID; int8 rssi[PFN_SWC_RSSI_WINDOW_MAX]; } wl_pfn_significant_net_t; #define PFN_SWC_SCANRESULT_VERSION 1 typedef struct wl_pfn_swc_results { uint32 version; uint32 pkt_count; /**< No. of results in current frame */ uint32 total_count; /**< Total expected results */ wl_pfn_significant_net_t list[]; } wl_pfn_swc_results_t; typedef struct wl_pfn_net_info_bssid { struct ether_addr BSSID; uint8 channel; /**< channel number only */ int8 RSSI; /**< receive signal strength (in dBm) */ uint16 flags; /**< (e.g. partial scan, off channel) */ uint16 timestamp; /**< age in seconds */ } wl_pfn_net_info_bssid_t; typedef struct wl_pfn_scanhist_bssid { uint32 version; uint32 status; uint32 count; wl_pfn_net_info_bssid_t netinfo[1]; } wl_pfn_scanhist_bssid_t; /* Version 1 and 2 for various single scan result */ #define PFN_SCANRESULT_VERSION_V1 1 #define PFN_SCANRESULT_VERSION_V2 2 /* used to report exactly one scan result */ /* plus reports detailed scan info in bss_info */ typedef struct wl_pfn_scanresult_v1 { uint32 version; uint32 status; uint32 count; wl_pfn_net_info_v1_t netinfo; wl_bss_info_t bss_info; } wl_pfn_scanresult_v1_t; typedef struct wl_pfn_scanresult_v2 { uint32 version; uint32 status; uint32 count; wl_pfn_net_info_v2_t netinfo; wl_bss_info_t bss_info; } wl_pfn_scanresult_v2_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; typedef struct wl_pfn_significant_bssid { struct ether_addr macaddr; int8 rssi_low_threshold; int8 rssi_high_threshold; } wl_pfn_significant_bssid_t; #define WL_PFN_SUPPRESSFOUND_MASK 0x08 #define WL_PFN_SUPPRESSLOST_MASK 0x10 #define WL_PFN_SSID_IMPRECISE_MATCH 0x80 #define WL_PFN_SSID_SAME_NETWORK 0x10000 #define WL_PFN_SUPPRESS_AGING_MASK 0x20000 #define WL_PFN_FLUSH_ALL_SSIDS 0x40000 #define WL_PFN_IOVAR_FLAG_MASK 0xFFFF00FF #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_SSID_CFG_VERSION 1 #define WL_PFN_SSID_CFG_CLEAR 0x1 typedef struct wl_pfn_ssid_params { int8 min5G_rssi; /* minimum 5GHz RSSI for a BSSID to be considered */ int8 min2G_rssi; /* minimum 2.4GHz RSSI for a BSSID to be considered */ int16 init_score_max; /* The maximum score that a network can have before bonuses */ int16 cur_bssid_bonus; /* Add to current bssid */ int16 same_ssid_bonus; /* score bonus for all networks with the same network flag */ int16 secure_bonus; /* score bonus for networks that are not open */ int16 band_5g_bonus; } wl_pfn_ssid_params_t; typedef struct wl_ssid_ext_params { int8 min5G_rssi; /* minimum 5GHz RSSI for a BSSID to be considered */ int8 min2G_rssi; /* minimum 2.4GHz RSSI for a BSSID to be considered */ int16 init_score_max; /* The maximum score that a network can have before bonuses */ int16 cur_bssid_bonus; /* Add to current bssid */ int16 same_ssid_bonus; /* score bonus for all networks with the same network flag */ int16 secure_bonus; /* score bonus for networks that are not open */ int16 band_5g_bonus; } wl_ssid_ext_params_t; typedef struct wl_pfn_ssid_cfg { uint16 version; uint16 flags; wl_ssid_ext_params_t params; } wl_pfn_ssid_cfg_t; #define CH_BUCKET_REPORT_NONE 0 #define CH_BUCKET_REPORT_SCAN_COMPLETE_ONLY 1 #define CH_BUCKET_REPORT_FULL_RESULT 2 #define CH_BUCKET_REPORT_SCAN_COMPLETE (CH_BUCKET_REPORT_SCAN_COMPLETE_ONLY | \ CH_BUCKET_REPORT_FULL_RESULT) #define CH_BUCKET_REPORT_REGULAR 0 #define CH_BUCKET_GSCAN 4 typedef struct wl_pfn_gscan_ch_bucket_cfg { uint8 bucket_end_index; uint8 bucket_freq_multiple; uint8 flag; uint8 reserved; uint16 repeat; uint16 max_freq_multiple; } wl_pfn_gscan_ch_bucket_cfg_t; typedef struct wl_pfn_capabilities { uint16 max_mscan; uint16 max_bestn; uint16 max_swc_bssid; uint16 max_hotlist_bssid; } wl_pfn_capabilities_t; #define GSCAN_SEND_ALL_RESULTS_MASK (1 << 0) #define GSCAN_ALL_BUCKETS_IN_FIRST_SCAN_MASK (1 << 3) #define GSCAN_CFG_FLAGS_ONLY_MASK (1 << 7) #define WL_GSCAN_CFG_VERSION 1 typedef struct wl_pfn_gscan_cfg { uint16 version; /** * BIT0 1 = send probes/beacons to HOST * BIT1 Reserved * BIT2 Reserved * Add any future flags here * BIT7 1 = no other useful cfg sent */ uint8 flags; /** Buffer filled threshold in % to generate an event */ uint8 buffer_threshold; /** * No. of BSSIDs with "change" to generate an evt * change - crosses rssi threshold/lost */ uint8 swc_nbssid_threshold; /* Max=8 (for now) Size of rssi cache buffer */ uint8 swc_rssi_window_size; uint8 count_of_channel_buckets; uint8 retry_threshold; uint16 lost_ap_window; wl_pfn_gscan_ch_bucket_cfg_t channel_bucket[1]; } wl_pfn_gscan_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; #define PFN_SSID_EXT_VERSION 1 typedef struct wl_pfn_ext { uint8 flags; int8 rssi_thresh; /* RSSI threshold, track only if RSSI > threshold */ uint16 wpa_auth; /* Match the wpa auth type defined in wlioctl_defs.h */ uint8 ssid[DOT11_MAX_SSID_LEN]; uint8 ssid_len; uint8 pad; } wl_pfn_ext_t; typedef struct wl_pfn_ext_list { uint16 version; uint16 count; wl_pfn_ext_t pfn_ext[1]; } wl_pfn_ext_list_t; #define WL_PFN_SSID_EXT_FOUND 0x1 #define WL_PFN_SSID_EXT_LOST 0x2 typedef struct wl_pfn_result_ssid { uint8 flags; int8 rssi; /* channel number */ uint16 channel; /* Assume idx in order of cfg */ uint32 index; } wl_pfn_result_ssid_crc32_t; typedef struct wl_pfn_ssid_ext_result { uint16 version; uint16 count; wl_pfn_result_ssid_crc32_t net[1]; } wl_pfn_ssid_ext_result_t; #define PFN_EXT_AUTH_CODE_OPEN 1 /* open */ #define PFN_EXT_AUTH_CODE_PSK 2 /* WPA_PSK or WPA2PSK */ #define PFN_EXT_AUTH_CODE_EAPOL 4 /* any EAPOL */ #define WL_PFN_HIDDEN_BIT 2 #define WL_PFN_HIDDEN_MASK 0x4 #ifndef BESTN_MAX #define BESTN_MAX 10 #endif #ifndef MSCAN_MAX #define MSCAN_MAX 90 #endif /* Dynamic scan configuration for motion profiles */ #define WL_PFN_MPF_VERSION 1 /* Valid group IDs, may be expanded in the future */ #define WL_PFN_MPF_GROUP_SSID 0 #define WL_PFN_MPF_GROUP_BSSID 1 #define WL_PFN_MPF_MAX_GROUPS 2 /* Max number of MPF states supported in this time */ #define WL_PFN_MPF_STATES_MAX 4 /* Flags for the mpf-specific stuff */ #define WL_PFN_MPF_ADAPT_ON_BIT 0 #define WL_PFN_MPF_ADAPTSCAN_BIT 1 #define WL_PFN_MPF_ADAPT_ON_MASK 0x0001 #define WL_PFN_MPF_ADAPTSCAN_MASK 0x0006 /* Per-state timing values */ typedef struct wl_pfn_mpf_state_params { int32 scan_freq; /* Scan frequency (secs) */ int32 lost_network_timeout; /* Timeout to declare net lost (secs) */ int16 flags; /* Space for flags: ADAPT etc */ uint8 exp; /* Exponent of 2 for max interval for SMART/STRICT_ADAPT */ uint8 repeat; /* Number of scans before changing adaptation level */ int32 slow_freq; /* Slow scan period for SLOW_ADAPT */ } wl_pfn_mpf_state_params_t; typedef struct wl_pfn_mpf_param { uint16 version; /* Structure version */ uint16 groupid; /* Group ID: 0 (SSID), 1 (BSSID), other: reserved */ wl_pfn_mpf_state_params_t state[WL_PFN_MPF_STATES_MAX]; } wl_pfn_mpf_param_t; /* Structure for setting pfn_override iovar */ typedef struct wl_pfn_override_param { uint16 version; /* Structure version */ uint16 start_offset; /* Seconds from now to apply new params */ uint16 duration; /* Seconds to keep new params applied */ uint16 reserved; wl_pfn_mpf_state_params_t override; } wl_pfn_override_param_t; #define WL_PFN_OVERRIDE_VERSION 1 /* * Definitions for base MPF configuration */ #define WL_MPF_VERSION 1 #define WL_MPF_MAX_BITS 3 #define WL_MPF_MAX_STATES (1 << WL_MPF_MAX_BITS) #define WL_MPF_STATE_NAME_MAX 12 typedef struct wl_mpf_val { uint16 val; /* Value of GPIO bits */ uint16 state; /* State identifier */ char name[WL_MPF_STATE_NAME_MAX]; /* Optional name */ } wl_mpf_val_t; typedef struct wl_mpf_map { uint16 version; uint16 type; uint16 mask; /* Which GPIO bits to use */ uint8 count; /* Count of state/value mappings */ uint8 PAD; wl_mpf_val_t vals[WL_MPF_MAX_STATES]; } wl_mpf_map_t; #define WL_MPF_STATE_AUTO (0xFFFF) /* (uint16)-1) */ typedef struct wl_mpf_state { uint16 version; uint16 type; uint16 state; /* Get/Set */ uint8 force; /* 0 - auto (HW) state, 1 - forced state */ char name[WL_MPF_STATE_NAME_MAX]; /* Get/Set: Optional/actual name */ uint8 PAD; } wl_mpf_state_t; /* * WLFCTS definition */ typedef struct wl_txstatus_additional_info { uint32 rspec; uint32 enq_ts; uint32 last_ts; uint32 entry_ts; uint16 seq; uint8 rts_cnt; uint8 tx_cnt; } wl_txstatus_additional_info_t; /** 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[]; } wl_p2po_qr_t; typedef struct { uint16 period; /**< extended listen period */ uint16 interval; /**< extended listen interval */ uint16 count; /* count to repeat */ uint16 pad; /* pad for 32bit align */ } wl_p2po_listen_t; /** GAS state machine tunable parameters. Structure field values of 0 means use the default. */ typedef struct wl_gas_config { uint16 max_retransmit; /**< Max # of firmware/driver retransmits on no Ack * from peer (on top of the ucode retries). */ uint16 response_timeout; /**< Max time to wait for a GAS-level response * after sending a packet. */ uint16 max_comeback_delay; /**< Max GAS response comeback delay. * Exceeding this fails the GAS exchange. */ uint16 max_retries; /**< Max # of GAS state machine retries on failure * of a GAS frame exchange. */ } wl_gas_config_t; /** P2P Find Offload parameters */ typedef struct wl_p2po_find_config { uint16 version; /**< Version of this struct */ uint16 length; /**< sizeof(wl_p2po_find_config_t) */ int32 search_home_time; /**< P2P search state home time when concurrent * connection exists. -1 for default. */ uint8 num_social_channels; /**< Number of social channels up to WL_P2P_SOCIAL_CHANNELS_MAX. * 0 means use default social channels. */ uint8 flags; uint16 social_channels[1]; /**< Variable length array of social channels */ } wl_p2po_find_config_t; #define WL_P2PO_FIND_CONFIG_VERSION 2 /**< value for version field */ /** wl_p2po_find_config_t flags */ #define P2PO_FIND_FLAG_SCAN_ALL_APS 0x01 /**< Whether to scan for all APs in the p2po_find * periodic scans of all channels. * 0 means scan for only P2P devices. * 1 means scan for P2P devices plus non-P2P APs. */ /** For adding a WFDS service to seek */ typedef struct { uint32 seek_hdl; /**< unique id chosen by host */ uint8 addr[6]; /**< Seek service from a specific device with this * MAC address, all 1's for any device. */ uint8 service_hash[P2P_WFDS_HASH_LEN]; uint8 service_name_len; uint8 service_name[MAX_WFDS_SEEK_SVC_NAME_LEN]; /**< Service name to seek, not null terminated */ uint8 service_info_req_len; uint8 service_info_req[1]; /**< Service info request, not null terminated. * Variable length specified by service_info_req_len. * Maximum length is MAX_WFDS_SEEK_SVC_INFO_LEN. */ } wl_p2po_wfds_seek_add_t; /** For deleting a WFDS service to seek */ typedef struct { uint32 seek_hdl; /**< delete service specified by id */ } wl_p2po_wfds_seek_del_t; /** For adding a WFDS service to advertise */ #include typedef BWL_PRE_PACKED_STRUCT struct { uint32 advertise_hdl; /**< unique id chosen by host */ uint8 service_hash[P2P_WFDS_HASH_LEN]; uint32 advertisement_id; uint16 service_config_method; uint8 service_name_len; uint8 service_name[MAX_WFDS_SVC_NAME_LEN]; /**< Service name , not null terminated */ uint8 service_status; uint16 service_info_len; uint8 service_info[1]; /**< Service info, not null terminated. * Variable length specified by service_info_len. * Maximum length is MAX_WFDS_ADV_SVC_INFO_LEN. */ } BWL_POST_PACKED_STRUCT wl_p2po_wfds_advertise_add_t; #include /** For deleting a WFDS service to advertise */ typedef struct { uint32 advertise_hdl; /**< delete service specified by hdl */ } wl_p2po_wfds_advertise_del_t; /** P2P Offload discovery mode for the p2po_state iovar */ typedef enum { WL_P2PO_DISC_STOP, WL_P2PO_DISC_LISTEN, WL_P2PO_DISC_DISCOVERY } disc_mode_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 { uint8 is_clear; /**< set to clear list (not used on GET) */ uint8 PAD; 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 { uint8 is_clear; /**< set to clear list (not used on GET) */ uint8 PAD; uint16 count; /**< number of addr in list */ struct ether_addr bssid[]; /**< 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 */ }; /* * Neighbor Discovery Offloading */ enum { WL_ND_IPV6_ADDR_TYPE_UNICAST = 0, WL_ND_IPV6_ADDR_TYPE_ANYCAST }; typedef struct wl_nd_host_ip_addr { struct ipv6_addr ip_addr; /* host ip address */ uint8 type; /* type of address */ uint8 pad[3]; } wl_nd_host_ip_addr_t; typedef struct wl_nd_host_ip_list { uint32 count; wl_nd_host_ip_addr_t host_ip[1]; } wl_nd_host_ip_list_t; #define WL_ND_HOSTIP_IOV_VER 1 enum { WL_ND_HOSTIP_OP_VER = 0, /* get version */ WL_ND_HOSTIP_OP_ADD, /* add address */ WL_ND_HOSTIP_OP_DEL, /* delete specified address */ WL_ND_HOSTIP_OP_DEL_UC, /* delete all unicast address */ WL_ND_HOSTIP_OP_DEL_AC, /* delete all anycast address */ WL_ND_HOSTIP_OP_DEL_ALL, /* delete all addresses */ WL_ND_HOSTIP_OP_LIST, /* get list of host ip address */ WL_ND_HOSTIP_OP_MAX }; typedef struct wl_nd_hostip { uint16 version; /* version of iovar buf */ uint16 op_type; /* operation type */ uint32 length; /* length of entire structure */ union { wl_nd_host_ip_addr_t host_ip; /* set param for add */ uint16 version; /* get return for ver */ } u; } wl_nd_hostip_t; #define WL_ND_HOSTIP_FIXED_LEN OFFSETOF(wl_nd_hostip_t, u) #define WL_ND_HOSTIP_WITH_ADDR_LEN (WL_ND_HOSTIP_FIXED_LEN + sizeof(wl_nd_host_ip_addr_t)) /* * 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) #define MAX_RSSI_COUNT 8 typedef struct rssi_struct { int8 val[MAX_RSSI_COUNT]; /**< rssi values in AFs */ int16 sum; /**< total rssi sum */ uint8 cnt; /**< number rssi samples */ uint8 idx; /**< next rssi location */ } rssi_struct_t; /* * ptk_start: iovar to start 4-way handshake for secured ranging */ /* ptk negotiation security type - determines negotiation parameters */ typedef enum { WL_PTK_START_SEC_TYPE_PMK = 1 } wl_ptk_start_sec_type_t; /* ptk negotiation role */ typedef enum { ROLE_NONE = 0x0, ROLE_AUTH = 0x1, ROLE_SUP = 0x2, ROLE_STATIC = 0x3, ROLE_INVALID = 0xff, WL_PTK_START_ROLE_NONE = ROLE_NONE, WL_PTK_START_ROLE_AUTH = ROLE_AUTH, WL_PTK_START_ROLE_SUP = ROLE_SUP, WL_PTK_START_ROLE_STATIC = ROLE_STATIC, WL_PTK_START_ROLE_INVALID = ROLE_INVALID } wl_ptk_start_role_t; typedef struct wl_ptk_start_tlv { uint16 id; uint16 len; uint8 data[1]; } wl_ptk_start_tlv_t; typedef enum { WL_PTK_START_TLV_PMK = 1 /* uint8[] */ } wl_ptk_start_tlv_type; typedef enum { WL_PTK_START_FLAG_NO_DATA_PROT = 1, /* data frame protection disabled */ WL_PTK_START_FLAG_GEN_FTM_TPK = 2 /* Generate FTM Toast/Seq Protection Key */ } wl_ptk_start_flags_t; typedef struct wl_ptk_start_iov { uint16 version; uint16 len; /* length of entire iov from version */ wl_ptk_start_flags_t flags; wl_ptk_start_sec_type_t sec_type; wl_ptk_start_role_t role; struct ether_addr peer_addr; uint16 pad; /* reserved/32 bit alignment */ wl_ptk_start_tlv_t tlvs[1]; } wl_ptk_start_iov_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; uint8 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_ENCRYPTED_PATTERN_MATCH=3, /**< SECURE WOWL magic / net pattern match */ WL_PKT_FILTER_TYPE_APF_MATCH=4, /* Android packet filter match */ WL_PKT_FILTER_TYPE_PATTERN_MATCH_TIMEOUT=5, /* Pattern matching filter with timeout event */ WL_PKT_FILTER_TYPE_IMMEDIATE_PATTERN_MATCH=6, /* Immediately pattern matching filter */ WL_PKT_FILTYER_TYPE_MAX = 7, /* Pkt filter type MAX */ } 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 }, \ { "SECURE WOWL", WL_PKT_FILTER_TYPE_ENCRYPTED_PATTERN_MATCH }, \ { "APF", WL_PKT_FILTER_TYPE_APF_MATCH }, \ { "PATTERN TIMEOUT", WL_PKT_FILTER_TYPE_PATTERN_MATCH_TIMEOUT }, \ { "IMMEDIATE", WL_PKT_FILTER_TYPE_IMMEDIATE_PATTERN_MATCH } /** Secured WOWL packet was encrypted, need decrypted before check filter match */ typedef struct wl_pkt_decrypter { uint8* (*dec_cb)(void* dec_ctx, const void *sdu, int sending); void* dec_ctx; } wl_pkt_decrypter_t; /** * 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[]; /**< Variable length mask and pattern data. mask starts * at offset 0. Pattern immediately follows mask. for * secured pattern, put the descrypter pointer to the * beginning, mask and pattern postponed correspondingly */ } 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[]; /**< Variable number of list elements */ } wl_pkt_filter_pattern_list_t; typedef struct wl_apf_program { uint16 version; uint16 instr_len; /* number of instruction blocks */ uint32 inst_ts; /* program installation timestamp */ uint8 instrs[]; /* variable length instructions */ } wl_apf_program_t; typedef struct wl_pkt_filter_pattern_timeout { 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. */ uint32 timeout; /* Timeout(seconds) */ uint8 mask_and_pattern[1]; /* Variable length mask and pattern data. * mask starts at offset 0. Pattern * immediately follows mask. */ } wl_pkt_filter_pattern_timeout_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 */ wl_apf_program_t apf_program; /* apf program */ wl_pkt_filter_pattern_timeout_t pattern_timeout; /* Pattern timeout event filter */ } 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) #define WL_PKT_FILTER_PATTERN_TIMEOUT_FIXED_LEN \ OFFSETOF(wl_pkt_filter_pattern_timeout_t, mask_and_pattern) #define WL_APF_INTERNAL_VERSION 1 #define WL_APF_PROGRAM_MAX_SIZE (2 * 1024) #define WL_APF_PROGRAM_FIXED_LEN OFFSETOF(wl_apf_program_t, instrs) #define WL_APF_PROGRAM_LEN(apf_program) \ ((apf_program)->instr_len * sizeof((apf_program)->instrs[0])) #define WL_APF_PROGRAM_TOTAL_LEN(apf_program) \ (WL_APF_PROGRAM_FIXED_LEN + WL_APF_PROGRAM_LEN(apf_program)) /** 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[] */ } 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_REPLAY_LEN 8 typedef struct _gtkrefresh { uint8 KCK[RSN_KCK_LENGTH]; uint8 KEK[RSN_KEK_LENGTH]; uint8 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 */ uint8 PAD[3]; } wl_pkteng_t; #define WL_PKTENG_RU_FILL_VER_1 1 // struct for ru packet engine typedef struct wl_pkteng_ru { uint16 version; /* ver is 1 */ uint16 length; /* size of complete structure */ uint8 bw; /* bandwidth info */ uint8 ru_alloc_val; /* ru allocation index number */ uint8 mcs_val; /* mcs allocated value */ uint8 nss_val; /* num of spatial streams */ uint32 num_bytes; /* approx num of bytes to calculate other required params */ uint8 cp_ltf_val ; /* GI and LTF symbol size */ uint8 he_ltf_symb ; /* num of HE-LTF symbols */ uint8 stbc; /* STBC support */ uint8 coding_val; /* BCC/LDPC coding support */ uint8 pe_category; /* PE duration 0/8/16usecs */ uint8 dcm; /* dual carrier modulation */ uint8 mumimo_ltfmode; /* ltf mode */ uint8 PAD[1]; /* pad bytes to make structure occupy 4 byte aligned */ } wl_pkteng_ru_fill_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 */ uint8 PAD; } wl_pkteng_stats_t; typedef struct wl_txcal_params { wl_pkteng_t pkteng; uint8 gidx_start; int8 gidx_step; uint8 gidx_stop; uint8 PAD; } wl_txcal_params_t; typedef struct wl_sslpnphy_papd_debug_data { uint8 psat_pwr; uint8 psat_indx; uint8 final_idx; uint8 start_idx; int32 min_phase; int32 voltage; int8 temperature; uint8 PAD[3]; } wl_sslpnphy_papd_debug_data_t; typedef struct wl_sslpnphy_debug_data { int16 papdcompRe [64]; int16 papdcompIm [64]; } wl_sslpnphy_debug_data_t; typedef struct wl_sslpnphy_spbdump_data { uint16 tbl_length; int16 spbreal[256]; int16 spbimg[256]; } wl_sslpnphy_spbdump_data_t; typedef struct wl_sslpnphy_percal_debug_data { uint32 cur_idx; uint32 tx_drift; uint8 prev_cal_idx; uint8 PAD[3]; uint32 percal_ctr; int32 nxt_cal_idx; uint32 force_1idxcal; uint32 onedxacl_req; int32 last_cal_volt; int8 last_cal_temp; uint8 PAD[3]; uint32 vbat_ripple; uint32 exit_route; int32 volt_winner; } wl_sslpnphy_percal_debug_data_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 { uint32 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; /** 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. */ int8 pad[3]; } wl_rssi_event_t; #define RSSI_MONITOR_VERSION 1 #define RSSI_MONITOR_STOP (1 << 0) typedef struct wl_rssi_monitor_cfg { uint8 version; uint8 flags; int8 max_rssi; int8 min_rssi; } wl_rssi_monitor_cfg_t; typedef struct wl_rssi_monitor_evt { uint8 version; int8 cur_rssi; uint16 pad; } wl_rssi_monitor_evt_t; /* CCA based channel quality event configuration */ #define WL_CHAN_QUAL_CCA 0 #define WL_CHAN_QUAL_NF 1 #define WL_CHAN_QUAL_NF_LTE 2 #define WL_CHAN_QUAL_TOTAL 3 #define MAX_CHAN_QUAL_LEVELS 8 typedef struct wl_chan_qual_metric { uint8 id; /**< metric ID */ uint8 num_levels; /**< Number of entries in rssi_levels[] below */ uint16 flags; int16 htol[MAX_CHAN_QUAL_LEVELS]; /**< threshold level array: hi-to-lo */ int16 ltoh[MAX_CHAN_QUAL_LEVELS]; /**< threshold level array: lo-to-hi */ } wl_chan_qual_metric_t; typedef struct wl_chan_qual_event { uint32 rate_limit_msec; /**< # of events posted to application will be limited to * one per specified period (0 to disable rate limit). */ uint16 flags; uint16 num_metrics; wl_chan_qual_metric_t metric[WL_CHAN_QUAL_TOTAL]; /**< metric array */ } wl_chan_qual_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 #include typedef BWL_PRE_PACKED_STRUCT struct { uint32 num_addrs; uint8 addr_type[WL_IOV_MAC_PARAM_LEN]; struct ether_addr ea[WL_IOV_MAC_PARAM_LEN]; } BWL_POST_PACKED_STRUCT wl_iov_mac_params_t; #include /** 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[]; } 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[]; } 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) typedef struct wl_pfn_macaddr_cfg_0 { uint8 version; uint8 reserved; struct ether_addr macaddr; } wl_pfn_macaddr_cfg_0_t; #define LEGACY1_WL_PFN_MACADDR_CFG_VER 0 #define WL_PFN_MAC_OUI_ONLY_MASK 1 #define WL_PFN_SET_MAC_UNASSOC_MASK 2 #define WL_PFN_RESTRICT_LA_MAC_MASK 4 #define WL_PFN_MACADDR_FLAG_MASK 0x7 /** To configure pfn_macaddr */ typedef struct wl_pfn_macaddr_cfg { uint8 version; uint8 flags; struct ether_addr macaddr; } wl_pfn_macaddr_cfg_t; #define WL_PFN_MACADDR_CFG_VER 1 /* * SCB_BS_DATA iovar definitions start. */ #define SCB_BS_DATA_STRUCT_VERSION 1 /** The actual counters maintained for each station */ typedef 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 */ } iov_bs_data_counters_t; /** The structure for individual station information. */ #include 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; #include #include 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; #include /* 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 { int32 max_number; uint16 module; /**< bitmap */ uint8 level; uint8 flag; uint16 version; uint16 PAD; } wlc_extlog_cfg_t; typedef struct log_record { uint32 time; uint16 module; uint16 id; uint8 level; uint8 sub_unit; uint8 seq_num; uint8 pad; int32 arg; char str[MAX_ARGSTR_LEN]; char PAD[4-MAX_ARGSTR_LEN%4]; } 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; /** 11k Neighbor Report element (unversioned, deprecated) */ 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; #define WL_RRM_NBR_RPT_VER 1 /** 11k Neighbor Report element */ typedef struct nbr_rpt_elem { uint8 version; uint8 id; uint8 len; uint8 pad; struct ether_addr bssid; uint8 pad_1[2]; uint32 bssid_info; uint8 reg; uint8 channel; uint8 phytype; uint8 pad_2; wlc_ssid_t ssid; chanspec_t chanspec; uint8 bss_trans_preference; uint8 flags; } nbr_rpt_elem_t; typedef enum event_msgs_ext_command { EVENTMSGS_NONE = 0, EVENTMSGS_SET_BIT = 1, EVENTMSGS_RESET_BIT = 2, EVENTMSGS_SET_MASK = 3 } event_msgs_ext_command_t; #define EVENTMSGS_VER 1 #define EVENTMSGS_EXT_STRUCT_SIZE OFFSETOF(eventmsgs_ext_t, mask[0]) /* len- for SET it would be mask size from the application to the firmware */ /* for GET it would be actual firmware mask size */ /* maxgetsize - is only used for GET. indicate max mask size that the */ /* application can read from the firmware */ typedef struct eventmsgs_ext { uint8 ver; uint8 command; uint8 len; uint8 maxgetsize; uint8 mask[1]; } eventmsgs_ext_t; #include typedef BWL_PRE_PACKED_STRUCT struct pcie_bus_tput_params { /** no of host dma descriptors programmed by the firmware before a commit */ uint16 max_dma_descriptors; uint16 host_buf_len; /**< length of host buffer */ dmaaddr_t host_buf_addr; /**< physical address for bus_throughput_buf */ } BWL_POST_PACKED_STRUCT pcie_bus_tput_params_t; #include typedef struct pcie_bus_tput_stats { uint16 time_taken; /**< no of secs the test is run */ uint16 nbytes_per_descriptor; /**< no of bytes of data dma ed per descriptor */ /** no of desciptors for which dma is sucessfully completed within the test time */ uint32 count; } pcie_bus_tput_stats_t; 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) /* ##### Power Stats section ##### */ #define WL_PWRSTATS_VERSION 2 /** Input structure for pwrstats IOVAR */ typedef struct wl_pwrstats_query { uint16 length; /**< Number of entries in type array. */ uint16 type[1]; /**< Types (tags) to retrieve. * Length 0 (no types) means get all. */ } wl_pwrstats_query_t; /** This structure is for version 2; version 1 will be deprecated in by FW */ #include typedef BWL_PRE_PACKED_STRUCT struct wl_pwrstats { uint16 version; /**< Version = 2 is TLV format */ uint16 length; /**< Length of entire structure */ uint8 data[1]; /**< TLV data, a series of structures, * each starting with type and length. * * Padded as necessary so each section * starts on a 4-byte boundary. * * Both type and len are uint16, but the * upper nibble of length is reserved so * valid len values are 0-4095. */ } BWL_POST_PACKED_STRUCT wl_pwrstats_t; #include #define WL_PWR_STATS_HDRLEN OFFSETOF(wl_pwrstats_t, data) /* Bits for wake reasons */ #define WLC_PMD_WAKE_SET 0x1 #define WLC_PMD_PM_AWAKE_BCN 0x2 /* BIT:3 is no longer being used */ #define WLC_PMD_SCAN_IN_PROGRESS 0x8 #define WLC_PMD_RM_IN_PROGRESS 0x10 #define WLC_PMD_AS_IN_PROGRESS 0x20 #define WLC_PMD_PM_PEND 0x40 #define WLC_PMD_PS_POLL 0x80 #define WLC_PMD_CHK_UNALIGN_TBTT 0x100 #define WLC_PMD_APSD_STA_UP 0x200 #define WLC_PMD_TX_PEND_WAR 0x400 /* obsolete, can be reused */ #define WLC_PMD_GPTIMER_STAY_AWAKE 0x800 #define WLC_PMD_PM2_RADIO_SOFF_PEND 0x2000 #define WLC_PMD_NON_PRIM_STA_UP 0x4000 #define WLC_PMD_AP_UP 0x8000 typedef struct wlc_pm_debug { uint32 timestamp; /**< timestamp in millisecond */ uint32 reason; /**< reason(s) for staying awake */ } wlc_pm_debug_t; /** WL_PWRSTATS_TYPE_PM_AWAKE1 structures (for 6.25 firmware) */ #define WLC_STA_AWAKE_STATES_MAX_V1 30 #define WLC_PMD_EVENT_MAX_V1 32 /** Data sent as part of pwrstats IOVAR (and EXCESS_PM_WAKE event) */ #include typedef BWL_PRE_PACKED_STRUCT struct pm_awake_data_v1 { uint32 curr_time; /**< ms */ uint32 hw_macc; /**< HW maccontrol */ uint32 sw_macc; /**< SW maccontrol */ uint32 pm_dur; /**< Total sleep time in PM, msecs */ uint32 mpc_dur; /**< Total sleep time in MPC, msecs */ /* int32 drifts = remote - local; +ve drift => local-clk slow */ int32 last_drift; /**< Most recent TSF drift from beacon */ int32 min_drift; /**< Min TSF drift from beacon in magnitude */ int32 max_drift; /**< Max TSF drift from beacon in magnitude */ uint32 avg_drift; /**< Avg TSF drift from beacon */ /* Wake history tracking */ uint8 pmwake_idx; /**< for stepping through pm_state */ wlc_pm_debug_t pm_state[WLC_STA_AWAKE_STATES_MAX_V1]; /**< timestamped wake bits */ uint32 pmd_event_wake_dur[WLC_PMD_EVENT_MAX_V1]; /**< cumulative usecs per wake reason */ uint32 drift_cnt; /**< Count of drift readings over which avg_drift was computed */ } BWL_POST_PACKED_STRUCT pm_awake_data_v1_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct wl_pwr_pm_awake_stats_v1 { uint16 type; /**< WL_PWRSTATS_TYPE_PM_AWAKE */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ pm_awake_data_v1_t awake_data; uint32 frts_time; /**< Cumulative ms spent in frts since driver load */ uint32 frts_end_cnt; /**< No of times frts ended since driver load */ } BWL_POST_PACKED_STRUCT wl_pwr_pm_awake_stats_v1_t; #include /** WL_PWRSTATS_TYPE_PM_AWAKE2 structures. Data sent as part of pwrstats IOVAR */ typedef struct pm_awake_data_v2 { uint32 curr_time; /**< ms */ uint32 hw_macc; /**< HW maccontrol */ uint32 sw_macc; /**< SW maccontrol */ uint32 pm_dur; /**< Total sleep time in PM, msecs */ uint32 mpc_dur; /**< Total sleep time in MPC, msecs */ /* int32 drifts = remote - local; +ve drift => local-clk slow */ int32 last_drift; /**< Most recent TSF drift from beacon */ int32 min_drift; /**< Min TSF drift from beacon in magnitude */ int32 max_drift; /**< Max TSF drift from beacon in magnitude */ uint32 avg_drift; /**< Avg TSF drift from beacon */ /* Wake history tracking */ /* pmstate array (type wlc_pm_debug_t) start offset */ uint16 pm_state_offset; /** pmstate number of array entries */ uint16 pm_state_len; /** array (type uint32) start offset */ uint16 pmd_event_wake_dur_offset; /** pmd_event_wake_dur number of array entries */ uint16 pmd_event_wake_dur_len; uint32 drift_cnt; /**< Count of drift readings over which avg_drift was computed */ uint8 pmwake_idx; /**< for stepping through pm_state */ uint8 flags; /**< bit0: 1-sleep, 0- wake. bit1: 0-bit0 invlid, 1-bit0 valid */ uint8 pad[2]; uint32 frts_time; /**< Cumulative ms spent in frts since driver load */ uint32 frts_end_cnt; /**< No of times frts ended since driver load */ } pm_awake_data_v2_t; typedef struct wl_pwr_pm_awake_stats_v2 { uint16 type; /**< WL_PWRSTATS_TYPE_PM_AWAKE */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ pm_awake_data_v2_t awake_data; } wl_pwr_pm_awake_stats_v2_t; /* bit0: 1-sleep, 0- wake. bit1: 0-bit0 invlid, 1-bit0 valid */ #define WL_PWR_PM_AWAKE_STATS_WAKE 0x02 #define WL_PWR_PM_AWAKE_STATS_ASLEEP 0x03 #define WL_PWR_PM_AWAKE_STATS_WAKE_MASK 0x03 /* WL_PWRSTATS_TYPE_PM_AWAKE Version 2 structures taken from 4324/43342 */ /* These structures are only to be used with 4324/43342 devices */ #define WL_STA_AWAKE_STATES_MAX_V2 30 #define WL_PMD_EVENT_MAX_V2 32 #define MAX_P2P_BSS_DTIM_PRD 4 #include typedef BWL_PRE_PACKED_STRUCT struct ucode_dbg_v2 { uint32 macctrl; uint16 m_p2p_hps; uint16 m_p2p_bss_dtim_prd[MAX_P2P_BSS_DTIM_PRD]; uint32 psmdebug[20]; uint32 phydebug[20]; uint32 psm_brc; uint32 ifsstat; } BWL_POST_PACKED_STRUCT ucode_dbg_v2_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct pmalert_awake_data_v2 { uint32 curr_time; /* ms */ uint32 hw_macc; /* HW maccontrol */ uint32 sw_macc; /* SW maccontrol */ uint32 pm_dur; /* Total sleep time in PM, msecs */ uint32 mpc_dur; /* Total sleep time in MPC, msecs */ /* int32 drifts = remote - local; +ve drift => local-clk slow */ int32 last_drift; /* Most recent TSF drift from beacon */ int32 min_drift; /* Min TSF drift from beacon in magnitude */ int32 max_drift; /* Max TSF drift from beacon in magnitude */ uint32 avg_drift; /* Avg TSF drift from beacon */ /* Wake history tracking */ uint8 pmwake_idx; /* for stepping through pm_state */ wlc_pm_debug_t pm_state[WL_STA_AWAKE_STATES_MAX_V2]; /* timestamped wake bits */ uint32 pmd_event_wake_dur[WL_PMD_EVENT_MAX_V2]; /* cumulative usecs per wake reason */ uint32 drift_cnt; /* Count of drift readings over which avg_drift was computed */ uint32 start_event_dur[WL_PMD_EVENT_MAX_V2]; /* start event-duration */ ucode_dbg_v2_t ud; uint32 frts_time; /* Cumulative ms spent in frts since driver load */ uint32 frts_end_cnt; /* No of times frts ended since driver load */ } BWL_POST_PACKED_STRUCT pmalert_awake_data_v2_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct pm_alert_data_v2 { uint32 version; uint32 length; /* Length of entire structure */ uint32 reasons; /* reason(s) for pm_alert */ /* Following fields are present only for reasons * PM_DUR_EXCEEDED, MPC_DUR_EXCEEDED & CONST_AWAKE_DUR_EXCEEDED */ uint32 prev_stats_time; /* msecs */ uint32 prev_pm_dur; /* msecs */ uint32 prev_mpc_dur; /* msecs */ pmalert_awake_data_v2_t awake_data; } BWL_POST_PACKED_STRUCT pm_alert_data_v2_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct wl_pwr_pm_awake_status_v2 { uint16 type; /* WL_PWRSTATS_TYPE_PM_AWAKE */ uint16 len; /* Up to 4K-1, top 4 bits are reserved */ pmalert_awake_data_v2_t awake_data; uint32 frts_time; /* Cumulative ms spent in frts since driver load */ uint32 frts_end_cnt; /* No of times frts ended since driver load */ } BWL_POST_PACKED_STRUCT wl_pwr_pm_awake_status_v2_t; #include /* Below are latest definitions from PHO25178RC100_BRANCH_6_50 */ /* wl_pwr_pm_awake_stats_v1_t is used for WL_PWRSTATS_TYPE_PM_AWAKE */ /* (at least) the chip independent registers */ typedef struct ucode_dbg_ext { uint32 x120; uint32 x124; uint32 x154; uint32 x158; uint32 x15c; uint32 x180; uint32 x184; uint32 x188; uint32 x18c; uint32 x1a0; uint32 x1a8; uint32 x1e0; uint32 scr_x14; uint32 scr_x2b; uint32 scr_x2c; uint32 scr_x2d; uint32 scr_x2e; uint16 x40a; uint16 x480; uint16 x490; uint16 x492; uint16 x4d8; uint16 x4b8; uint16 x4ba; uint16 x4bc; uint16 x4be; uint16 x500; uint16 x50e; uint16 x522; uint16 x546; uint16 x578; uint16 x602; uint16 x646; uint16 x648; uint16 x666; uint16 x670; uint16 x690; uint16 x692; uint16 x6a0; uint16 x6a2; uint16 x6a4; uint16 x6b2; uint16 x7c0; uint16 shm_x20; uint16 shm_x4a; uint16 shm_x5e; uint16 shm_x5f; uint16 shm_xaab; uint16 shm_x74a; uint16 shm_x74b; uint16 shm_x74c; uint16 shm_x74e; uint16 shm_x756; uint16 shm_x75b; uint16 shm_x7b9; uint16 shm_x7d4; uint16 shm_P2P_HPS; uint16 shm_P2P_intr[16]; uint16 shm_P2P_perbss[48]; } ucode_dbg_ext_t; #include typedef BWL_PRE_PACKED_STRUCT struct pm_alert_data_v1 { uint32 version; uint32 length; /**< Length of entire structure */ uint32 reasons; /**< reason(s) for pm_alert */ /* Following fields are present only for reasons * PM_DUR_EXCEEDED, MPC_DUR_EXCEEDED & CONST_AWAKE_DUR_EXCEEDED */ uint32 prev_stats_time; /**< msecs */ uint32 prev_pm_dur; /**< msecs */ uint32 prev_mpc_dur; /**< msecs */ pm_awake_data_v1_t awake_data; uint32 start_event_dur[WLC_PMD_EVENT_MAX_V1]; /**< start event-duration */ ucode_dbg_v2_t ud; uint32 frts_time; /**< Cumulative ms spent in frts since driver load */ uint32 frts_end_cnt; /**< No of times frts ended since driver load */ ucode_dbg_ext_t ud_ext; uint32 prev_frts_dur; /**< ms */ } BWL_POST_PACKED_STRUCT pm_alert_data_v1_t; #include /* End of 43342/4324 v2 structure definitions */ /* Original bus structure is for HSIC */ typedef struct bus_metrics { uint32 suspend_ct; /**< suspend count */ uint32 resume_ct; /**< resume count */ uint32 disconnect_ct; /**< disconnect count */ uint32 reconnect_ct; /**< reconnect count */ uint32 active_dur; /**< msecs in bus, usecs for user */ uint32 suspend_dur; /**< msecs in bus, usecs for user */ uint32 disconnect_dur; /**< msecs in bus, usecs for user */ } bus_metrics_t; /** Bus interface info for USB/HSIC */ #include typedef BWL_PRE_PACKED_STRUCT struct wl_pwr_usb_hsic_stats { uint16 type; /**< WL_PWRSTATS_TYPE_USB_HSIC */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ bus_metrics_t hsic; /**< stats from hsic bus driver */ } BWL_POST_PACKED_STRUCT wl_pwr_usb_hsic_stats_t; #include typedef struct pcie_bus_metrics { uint32 d3_suspend_ct; /**< suspend count */ uint32 d0_resume_ct; /**< resume count */ uint32 perst_assrt_ct; /**< PERST# assert count */ uint32 perst_deassrt_ct; /**< PERST# de-assert count */ uint32 active_dur; /**< msecs */ uint32 d3_suspend_dur; /**< msecs */ uint32 perst_dur; /**< msecs */ uint32 l0_cnt; /**< L0 entry count */ uint32 l0_usecs; /**< L0 duration in usecs */ uint32 l1_cnt; /**< L1 entry count */ uint32 l1_usecs; /**< L1 duration in usecs */ uint32 l1_1_cnt; /**< L1_1ss entry count */ uint32 l1_1_usecs; /**< L1_1ss duration in usecs */ uint32 l1_2_cnt; /**< L1_2ss entry count */ uint32 l1_2_usecs; /**< L1_2ss duration in usecs */ uint32 l2_cnt; /**< L2 entry count */ uint32 l2_usecs; /**< L2 duration in usecs */ uint32 timestamp; /**< Timestamp on when stats are collected */ uint32 num_h2d_doorbell; /**< # of doorbell interrupts - h2d */ uint32 num_d2h_doorbell; /**< # of doorbell interrupts - d2h */ uint32 num_submissions; /**< # of submissions */ uint32 num_completions; /**< # of completions */ uint32 num_rxcmplt; /**< # of rx completions */ uint32 num_rxcmplt_drbl; /**< of drbl interrupts for rx complt. */ uint32 num_txstatus; /**< # of tx completions */ uint32 num_txstatus_drbl; /**< of drbl interrupts for tx complt. */ uint32 deepsleep_count; /**< # of times chip went to deepsleep */ uint32 deepsleep_dur; /**< # of msecs chip was in deepsleep */ uint32 ltr_active_ct; /**< # of times chip went to LTR ACTIVE */ uint32 ltr_active_dur; /**< # of msecs chip was in LTR ACTIVE */ uint32 ltr_sleep_ct; /**< # of times chip went to LTR SLEEP */ uint32 ltr_sleep_dur; /**< # of msecs chip was in LTR SLEEP */ } pcie_bus_metrics_t; /** Bus interface info for PCIE */ typedef struct wl_pwr_pcie_stats { uint16 type; /**< WL_PWRSTATS_TYPE_PCIE */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ pcie_bus_metrics_t pcie; /**< stats from pcie bus driver */ } wl_pwr_pcie_stats_t; /** Scan information history per category */ typedef struct scan_data { uint32 count; /**< Number of scans performed */ uint32 dur; /**< Total time (in us) used */ } scan_data_t; typedef struct wl_pwr_scan_stats { uint16 type; /**< WL_PWRSTATS_TYPE_SCAN */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ /* Scan history */ scan_data_t user_scans; /**< User-requested scans: (i/e/p)scan */ scan_data_t assoc_scans; /**< Scans initiated by association requests */ scan_data_t roam_scans; /**< Scans initiated by the roam engine */ scan_data_t pno_scans[8]; /**< For future PNO bucketing (BSSID, SSID, etc) */ scan_data_t other_scans; /**< Scan engine usage not assigned to the above */ } wl_pwr_scan_stats_t; typedef struct wl_pwr_connect_stats { uint16 type; /**< WL_PWRSTATS_TYPE_SCAN */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ /* Connection (Association + Key exchange) data */ uint32 count; /**< Number of connections performed */ uint32 dur; /**< Total time (in ms) used */ } wl_pwr_connect_stats_t; typedef struct wl_pwr_phy_stats { uint16 type; /**< WL_PWRSTATS_TYPE_PHY */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ uint32 tx_dur; /**< TX Active duration in us */ uint32 rx_dur; /**< RX Active duration in us */ } wl_pwr_phy_stats_t; typedef struct wl_mimo_meas_metrics_v1 { uint16 type; uint16 len; /* Total time(us) idle in MIMO RX chain configuration */ uint32 total_idle_time_mimo; /* Total time(us) idle in SISO RX chain configuration */ uint32 total_idle_time_siso; /* Total receive time (us) in SISO RX chain configuration */ uint32 total_rx_time_siso; /* Total receive time (us) in MIMO RX chain configuration */ uint32 total_rx_time_mimo; /* Total 1-chain transmit time(us) */ uint32 total_tx_time_1chain; /* Total 2-chain transmit time(us) */ uint32 total_tx_time_2chain; /* Total 3-chain transmit time(us) */ uint32 total_tx_time_3chain; } wl_mimo_meas_metrics_v1_t; typedef struct wl_mimo_meas_metrics { uint16 type; uint16 len; /* Total time(us) idle in MIMO RX chain configuration */ uint32 total_idle_time_mimo; /* Total time(us) idle in SISO RX chain configuration */ uint32 total_idle_time_siso; /* Total receive time (us) in SISO RX chain configuration */ uint32 total_rx_time_siso; /* Total receive time (us) in MIMO RX chain configuration */ uint32 total_rx_time_mimo; /* Total 1-chain transmit time(us) */ uint32 total_tx_time_1chain; /* Total 2-chain transmit time(us) */ uint32 total_tx_time_2chain; /* Total 3-chain transmit time(us) */ uint32 total_tx_time_3chain; /* End of original, OCL fields start here */ /* Total time(us) idle in ocl mode */ uint32 total_idle_time_ocl; /* Total receive time (us) in ocl mode */ uint32 total_rx_time_ocl; /* End of OCL fields, internal adjustment fields here */ /* Total SIFS idle time in MIMO mode */ uint32 total_sifs_time_mimo; /* Total SIFS idle time in SISO mode */ uint32 total_sifs_time_siso; } wl_mimo_meas_metrics_t; /* ##### End of Power Stats section ##### */ /** IPV4 Arp offloads for ndis context */ #include BWL_PRE_PACKED_STRUCT struct hostip_id { struct ipv4_addr ipa; uint8 id; } BWL_POST_PACKED_STRUCT; #include /* Return values */ #define ND_REPLY_PEER 0x1 /**< Reply was sent to service NS request from peer */ #define ND_REQ_SINK 0x2 /**< Input packet should be discarded */ #define ND_FORCE_FORWARD 0X3 /**< For the dongle to forward req to HOST */ /** Neighbor Solicitation Response Offload IOVAR param */ #include typedef BWL_PRE_PACKED_STRUCT struct nd_param { struct ipv6_addr host_ip[2]; struct ipv6_addr solicit_ip; struct ipv6_addr remote_ip; uint8 host_mac[ETHER_ADDR_LEN]; uint32 offload_id; } BWL_POST_PACKED_STRUCT nd_param_t; #include typedef struct wl_pfn_roam_thresh { uint32 pfn_alert_thresh; /**< time in ms */ uint32 roam_alert_thresh; /**< time in ms */ } wl_pfn_roam_thresh_t; /* Reasons for wl_pmalert_t */ #define PM_DUR_EXCEEDED (1<<0) #define MPC_DUR_EXCEEDED (1<<1) #define ROAM_ALERT_THRESH_EXCEEDED (1<<2) #define PFN_ALERT_THRESH_EXCEEDED (1<<3) #define CONST_AWAKE_DUR_ALERT (1<<4) #define CONST_AWAKE_DUR_RECOVERY (1<<5) #define MIN_PM_ALERT_LEN 9 /** Data sent in EXCESS_PM_WAKE event */ #define WL_PM_ALERT_VERSION 3 /** This structure is for version 3; version 2 will be deprecated in by FW */ #include typedef BWL_PRE_PACKED_STRUCT struct wl_pmalert { uint16 version; /**< Version = 3 is TLV format */ uint16 length; /**< Length of entire structure */ uint32 reasons; /**< reason(s) for pm_alert */ uint8 data[1]; /**< TLV data, a series of structures, * each starting with type and length. * * Padded as necessary so each section * starts on a 4-byte boundary. * * Both type and len are uint16, but the * upper nibble of length is reserved so * valid len values are 0-4095. */ } BWL_POST_PACKED_STRUCT wl_pmalert_t; #include /* Type values for the data section */ #define WL_PMALERT_FIXED 0 /**< struct wl_pmalert_fixed_t, fixed fields */ #define WL_PMALERT_PMSTATE 1 /**< struct wl_pmalert_pmstate_t, variable */ #define WL_PMALERT_EVENT_DUR 2 /**< struct wl_pmalert_event_dur_t, variable */ #define WL_PMALERT_UCODE_DBG 3 /**< struct wl_pmalert_ucode_dbg_v1, variable */ #define WL_PMALERT_PS_ALLOWED_HIST 4 /**< struct wl_pmalert_ps_allowed_history, variable */ #define WL_PMALERT_EXT_UCODE_DBG 5 /**< struct wl_pmalert_ext_ucode_dbg_t, variable */ #define WL_PMALERT_EPM_START_EVENT_DUR 6 /**< struct wl_pmalert_event_dur_t, variable */ #define WL_PMALERT_UCODE_DBG_V2 7 /**< struct wl_pmalert_ucode_dbg_v2, variable */ typedef struct wl_pmalert_fixed { uint16 type; /**< WL_PMALERT_FIXED */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ uint32 prev_stats_time; /**< msecs */ uint32 curr_time; /**< ms */ uint32 prev_pm_dur; /**< msecs */ uint32 pm_dur; /**< Total sleep time in PM, msecs */ uint32 prev_mpc_dur; /**< msecs */ uint32 mpc_dur; /**< Total sleep time in MPC, msecs */ uint32 hw_macc; /**< HW maccontrol */ uint32 sw_macc; /**< SW maccontrol */ /* int32 drifts = remote - local; +ve drift -> local-clk slow */ int32 last_drift; /**< Most recent TSF drift from beacon */ int32 min_drift; /**< Min TSF drift from beacon in magnitude */ int32 max_drift; /**< Max TSF drift from beacon in magnitude */ uint32 avg_drift; /**< Avg TSF drift from beacon */ uint32 drift_cnt; /**< Count of drift readings over which avg_drift was computed */ uint32 frts_time; /**< Cumulative ms spent in data frts since driver load */ uint32 frts_end_cnt; /**< No of times frts ended since driver load */ uint32 prev_frts_dur; /**< Data frts duration at start of pm-period */ uint32 cal_dur; /**< Cumulative ms spent in calibration */ uint32 prev_cal_dur; /**< cal duration at start of pm-period */ } wl_pmalert_fixed_t; typedef struct wl_pmalert_pmstate { uint16 type; /**< WL_PMALERT_PMSTATE */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ uint8 pmwake_idx; /**< for stepping through pm_state */ uint8 pad[3]; /* Array of pmstate; len of array is based on tlv len */ wlc_pm_debug_t pmstate[1]; } wl_pmalert_pmstate_t; typedef struct wl_pmalert_event_dur { uint16 type; /**< WL_PMALERT_EVENT_DUR */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ /* Array of event_dur, len of array is based on tlv len */ uint32 event_dur[1]; } wl_pmalert_event_dur_t; #include BWL_PRE_PACKED_STRUCT struct wl_pmalert_ucode_dbg_v1 { uint16 type; /* WL_PMALERT_UCODE_DBG */ uint16 len; /* Up to 4K-1, top 4 bits are reserved */ uint32 macctrl; uint16 m_p2p_hps; uint32 psm_brc; uint32 ifsstat; uint16 m_p2p_bss_dtim_prd[MAX_P2P_BSS_DTIM_PRD]; uint32 psmdebug[20]; uint32 phydebug[20]; uint16 M_P2P_BSS[3][12]; uint16 M_P2P_PRE_TBTT[3]; /* Following is valid only for corerevs<40 */ uint16 xmtfifordy; /* Following 3 are valid only for 11ac corerevs (>=40) */ uint16 psm_maccommand; uint16 txe_status1; uint16 AQMFifoReady; } BWL_POST_PACKED_STRUCT; #include #include BWL_PRE_PACKED_STRUCT struct wl_pmalert_ucode_dbg_v2 { uint16 type; /**< WL_PMALERT_UCODE_DBG_V2 */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ uint32 macctrl; uint16 m_p2p_hps; uint32 psm_brc; uint32 ifsstat; uint16 m_p2p_bss_dtim_prd[MAX_P2P_BSS_DTIM_PRD]; uint32 psmdebug[20]; uint32 phydebug[20]; uint16 M_P2P_BSS[3][12]; uint16 M_P2P_PRE_TBTT[3]; /* Following is valid only for corerevs<40 */ uint16 xmtfifordy; /* Following 3 are valid only for 11ac corerevs (>=40) */ uint16 psm_maccommand; uint16 txe_status1; uint32 AQMFifoReady; } BWL_POST_PACKED_STRUCT; #include typedef struct wlc_ps_debug { uint32 timestamp; /**< timestamp in millisecond */ uint32 ps_mask; /**< reason(s) for disallowing ps */ } wlc_ps_debug_t; typedef struct wl_pmalert_ps_allowed_hist { uint16 type; /**< WL_PMALERT_PS_ALLOWED_HIST */ uint16 len; /**< Up to 4K-1, top 4 bits are reserved */ uint32 ps_allowed_start_idx; /* Array of ps_debug, len of array is based on tlv len */ wlc_ps_debug_t ps_debug[1]; } wl_pmalert_ps_allowed_hist_t; /* 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)) #include 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; #include #include typedef BWL_PRE_PACKED_STRUCT struct { int32 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; #include #include 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; #include /** tag_ID/length/value_buffer tuple */ #include typedef BWL_PRE_PACKED_STRUCT struct { uint8 id; uint8 len; uint8 data[1]; } BWL_POST_PACKED_STRUCT tlv_t; #include #include 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; #include #include typedef BWL_PRE_PACKED_STRUCT struct { int32 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; #include #include 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; #include #include 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; #include /* structures used to define format of wps ie data from probe requests */ /* passed up to applications via iovar "prbreq_wpsie" */ typedef struct sta_prbreq_wps_ie_hdr { struct ether_addr staAddr; uint16 ieLen; } sta_prbreq_wps_ie_hdr_t; #include 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; #include #include 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; #include #include 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 */ uint32 tx_power_max_rate_ind[4]; /**< Index of the rate with the max target power */ 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 */ uint32 user_target; /**< user limit */ uint32 ppr_len; /**< length of each ppr serialization buffer */ int8 SARLIMIT[MAX_STREAMS_SUPPORTED]; uint8 pprdata[1]; /**< ppr serialization buffer */ } BWL_POST_PACKED_STRUCT tx_pwr_rpt_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct { struct ipv4_addr ipv4_addr; struct ether_addr nexthop; } BWL_POST_PACKED_STRUCT ibss_route_entry_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct { uint32 num_entry; ibss_route_entry_t route_entry[1]; } BWL_POST_PACKED_STRUCT ibss_route_tbl_t; #include #define MAX_IBSS_ROUTE_TBL_ENTRY 64 #define TXPWR_TARGET_VERSION 0 #include 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; #include #define BSS_PEER_INFO_PARAM_CUR_VER 0 /** Input structure for IOV_BSS_PEER_INFO */ #include typedef BWL_PRE_PACKED_STRUCT struct { uint16 version; struct ether_addr ea; /**< peer MAC address */ } BWL_POST_PACKED_STRUCT bss_peer_info_param_t; #include #define BSS_PEER_INFO_CUR_VER 0 #include 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; #include #define BSS_PEER_LIST_INFO_CUR_VER 0 #include 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; #include #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 */ #include 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; #include #define AIBSS_TXFAIL_CONFIG_VER_0 0 #define AIBSS_TXFAIL_CONFIG_VER_1 1 #define AIBSS_TXFAIL_CONFIG_CUR_VER AIBSS_TXFAIL_CONFIG_VER_1 /** structure used to configure aibss tx fail event */ #include 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 */ uint32 max_atim_failure; /**< no of consecutive atim failure */ } BWL_POST_PACKED_STRUCT aibss_txfail_config_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct wl_aibss_if { uint16 version; uint16 len; uint32 flags; struct ether_addr addr; chanspec_t chspec; } BWL_POST_PACKED_STRUCT wl_aibss_if_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct wlc_ipfo_route_entry { struct ipv4_addr ip_addr; struct ether_addr nexthop; } BWL_POST_PACKED_STRUCT wlc_ipfo_route_entry_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct wlc_ipfo_route_tbl { uint32 num_entry; wlc_ipfo_route_entry_t route_entry[1]; } BWL_POST_PACKED_STRUCT wlc_ipfo_route_tbl_t; #include /* Version of wlc_btc_stats_t structure. * Increment whenever a change is made to wlc_btc_stats_t */ #define BTCX_STATS_VER 2 typedef struct wlc_btc_stats { uint16 version; /* version number of struct */ uint16 valid; /* Size of this struct */ uint32 stats_update_timestamp; /* tStamp when data is updated. */ uint32 btc_status; /* Hybrid/TDM indicator: Bit2:Hybrid, Bit1:TDM,Bit0:CoexEnabled */ uint32 bt_req_type_map; /* BT Antenna Req types since last stats sample */ uint32 bt_req_cnt; /* #BT antenna requests since last stats sampl */ uint32 bt_gnt_cnt; /* #BT antenna grants since last stats sample */ uint32 bt_gnt_dur; /* usec BT owns antenna since last stats sample */ uint16 bt_abort_cnt; /* #Times WL was preempted due to BT since WL up */ uint16 bt_rxf1ovfl_cnt; /* #Time PSNULL retry count exceeded since WL up */ uint16 bt_latency_cnt; /* #Time ucode high latency detected since WL up */ uint16 rsvd; /* pad to align struct to 32bit bndry */ } wlc_btc_stats_t; #define WL_IPFO_ROUTE_TBL_FIXED_LEN 4 #define WL_MAX_IPFO_ROUTE_TBL_ENTRY 64 /* Global ASSERT Logging */ #define ASSERTLOG_CUR_VER 0x0100 #define MAX_ASSRTSTR_LEN 64 typedef struct assert_record { uint32 time; uint8 seq_num; int8 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)) /* 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 { uint8 valid; uint8 trigger; chanspec_t selected_chspc; int8 bgnoise; uint32 glitch_cnt; uint8 ccastats; uint8 chan_idle; uint32 timestamp; } chanim_acs_record_t; typedef struct { chanim_acs_record_t acs_record[CHANIM_ACS_RECORD]; uint8 count; uint32 timestamp; } wl_acs_record_t; #define WL_CHANIM_STATS_V2 2 #define CCASTATS_V2_MAX 9 typedef struct chanim_stats_v2 { uint32 glitchcnt; /**< normalized as per second count */ uint32 badplcp; /**< normalized as per second count */ uint8 ccastats[CCASTATS_V2_MAX]; /**< normalized as 0-255 */ int8 bgnoise; /**< background noise level (in dBm) */ chanspec_t chanspec; /**< ctrl chanspec of the interface */ uint32 timestamp; /**< time stamp at which the stats are collected */ uint32 bphy_glitchcnt; /**< normalized as per second count */ uint32 bphy_badplcp; /**< normalized as per second count */ uint8 chan_idle; /**< normalized as 0~255 */ uint8 PAD[3]; } chanim_stats_v2_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) */ uint8 pad_1[11 - CCASTATS_MAX]; chanspec_t chanspec; /**< ctrl chanspec of the interface */ uint8 pad_2[2]; uint32 timestamp; /**< time stamp at which the stats are collected */ uint32 bphy_glitchcnt; /**< normalized as per second count */ uint32 bphy_badplcp; /**< normalized as per second count */ uint8 chan_idle; /**< normalized as 0~255 */ uint8 PAD[3]; } chanim_stats_t; #define WL_CHANIM_STATS_VERSION 3 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 */ uint8 PAD[2]; } 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 */ uint8 PAD[3]; 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 { int32 version; int8 num_phy_cores; /**< number of cores */ int8 curr_temperature; /**< on-chip temperature sensor reading */ chanspec_t chspec; /**< channspec for this state */ uint8 aci_state; /**< ACI state: ON/OFF */ uint8 PAD; 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 */ uint8 PAD; 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 */ uint8 PAD; chanspec_t chspec; /**< for p2p_ifadd GO */ } wl_p2p_if_t; /** i/f query */ typedef struct wl_p2p_ifq { uint32 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 */ uint8 PAD; wl_p2p_sched_desc_t desc[1]; } wl_p2p_sched_t; typedef struct wl_p2p_wfds_hash { uint32 advt_id; uint16 nw_cfg_method; uint8 wfds_hash[6]; uint8 name_len; uint8 service_name[MAX_WFDS_SVC_NAME_LEN]; uint8 PAD[3]; } wl_p2p_wfds_hash_t; typedef struct wl_bcmdcs_data { uint32 reason; chanspec_t chspec; uint8 PAD[2]; } wl_bcmdcs_data_t; /* ifdef EXT_STA */ /** * Format of IHV data passed to OID_DOT11_NIC_SPECIFIC_EXTENSION. */ typedef struct _IHV_NIC_SPECIFIC_EXTENSION { uint8 oui[4]; /**< vendor specific OUI value */ uint32 event; /**< event code */ uint8 ihvData[1]; /**< ihv data */ } IHV_NIC_SPECIFIC_EXTENSION, *PIHV_NIC_SPECIFIC_EXTENSION; #define IHV_NIC_SPECIFIC_EXTENTION_HEADER OFFSETOF(IHV_NIC_SPECIFIC_EXTENSION, ihvData[0]) /* EXT_STA */ /** 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 */ uint8 PAD[2]; 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 { uint32 op; /**< operation code */ uint8 pub_if; /**< set for public if, clear for private if */ uint8 PAD[3]; nat_if_info_t if_info; /**< interface info */ } nat_cfg_t; typedef struct { int32 state; /**< NAT state returned */ } nat_state_t; typedef struct flush_txfifo { uint32 txfifobmp; uint32 hwtxfifoflush; struct ether_addr ea; uint8 PAD[2]; } 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_TXCORE_MAX_OLD 2 /**< backward compatibilty for TXCAL */ #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; #define MAX_NUM_TXCAL_MEAS 128 #define MAX_NUM_PWR_STEP 40 #define TXCAL_IOVAR_VERSION 0x1 typedef struct wl_txcal_meas_percore { uint16 tssi[MAX_NUM_TXCAL_MEAS]; int16 pwr[MAX_NUM_TXCAL_MEAS]; } wl_txcal_meas_percore_t; typedef struct wl_txcal_meas_ncore { uint16 version; uint8 valid_cnt; uint8 num_core; wl_txcal_meas_percore_t txcal_percore[1]; } wl_txcal_meas_ncore_t; typedef struct wl_txcal_power_tssi_percore { int16 tempsense; int16 pwr_start; uint8 pwr_start_idx; uint8 num_entries; uint16 pad; uint8 tssi[MAX_NUM_PWR_STEP]; } wl_txcal_power_tssi_percore_t; typedef struct wl_txcal_power_tssi_ncore { uint16 version; uint8 set_core; uint8 channel; uint8 num_core; uint8 gen_tbl; uint16 pad; wl_txcal_power_tssi_percore_t tssi_percore[1]; } wl_txcal_power_tssi_ncore_t; typedef struct wl_txcal_meas { uint16 tssi[WLC_TXCORE_MAX][MAX_NUM_TXCAL_MEAS]; int16 pwr[WLC_TXCORE_MAX][MAX_NUM_TXCAL_MEAS]; uint8 valid_cnt; uint8 PAD; } wl_txcal_meas_t; typedef struct wl_txcal_meas_old { uint16 tssi[WLC_TXCORE_MAX_OLD][MAX_NUM_TXCAL_MEAS]; int16 pwr[WLC_TXCORE_MAX_OLD][MAX_NUM_TXCAL_MEAS]; uint8 valid_cnt; uint8 PAD; } wl_txcal_meas_old_t; typedef struct wl_txcal_power_tssi { uint8 set_core; uint8 channel; int16 tempsense[WLC_TXCORE_MAX]; int16 pwr_start[WLC_TXCORE_MAX]; uint8 pwr_start_idx[WLC_TXCORE_MAX]; uint8 num_entries[WLC_TXCORE_MAX]; uint8 tssi[WLC_TXCORE_MAX][MAX_NUM_PWR_STEP]; uint8 gen_tbl; uint8 PAD; } wl_txcal_power_tssi_t; typedef struct wl_txcal_power_tssi_old { uint8 set_core; uint8 channel; int16 tempsense[WLC_TXCORE_MAX_OLD]; int16 pwr_start[WLC_TXCORE_MAX_OLD]; uint8 pwr_start_idx[WLC_TXCORE_MAX_OLD]; uint8 num_entries[WLC_TXCORE_MAX_OLD]; uint8 tssi[WLC_TXCORE_MAX_OLD][MAX_NUM_PWR_STEP]; uint8 gen_tbl; uint8 PAD; } wl_txcal_power_tssi_old_t; typedef struct wl_olpc_pwr { uint16 version; uint8 core; uint8 channel; int16 tempsense; uint8 olpc_idx; uint8 pad; } wl_olpc_pwr_t; /** IOVAR "mempool" parameter. Used to retrieve a list of memory pool statistics. */ typedef struct wl_mempool_stats { int32 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 */ uint8 PAD[2]; 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 statistics 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; /* Both powersel_params and lpc_params are used by IOVAR lpc_params. * The powersel_params is replaced by lpc_params in later WLC versions. */ 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 */ uint8 PAD; } powersel_params_t; #define WL_LPC_PARAMS_VER_2 2 #define WL_LPC_PARAMS_CURRENT_VERSION WL_LPC_PARAMS_VER_2 typedef struct lpc_params { uint16 version; uint16 length; /* 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 */ uint32 delay_count; /**< minimum number of time period units before consequent packet delay events can be generated */ uint32 prev_txmpdu_cnt; /**< Previous value of txmpdu_cnt[] during last iteration */ uint32 prev_delay_sum; /**< Previous value of delay_sum[] during last iteration */ } scb_delay_stats_t; /** structure for txdelay event */ typedef struct txdelay_event { uint8 status; uint8 PAD[3]; int32 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 */ uint8 PAD; } txdelay_params_t; #define MAX_TXDELAY_STATS_SCBS 6 #define TXDELAY_STATS_VERSION 1 enum { TXDELAY_STATS_PARTIAL_RESULT = 0, TXDELAY_STATS_FULL_RESULT = 1 }; typedef struct scb_total_delay_stats { struct ether_addr ea; uint8 pad[2]; scb_delay_stats_t dlystats[AC_COUNT]; } scb_total_delay_stats_t; typedef struct txdelay_stats { uint32 version; uint32 full_result; /* 0:Partial, 1:full */ uint32 scb_cnt; /* in:requested, out:returned */ scb_total_delay_stats_t scb_delay_stats[1]; } txdelay_stats_t; #define WL_TXDELAY_STATS_FIXED_SIZE \ (sizeof(txdelay_stats_t)+(MAX_TXDELAY_STATS_SCBS-1)*sizeof(scb_total_delay_stats_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[]; } 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_policy" argument programs behavior after BSSTRANS Req reception. * BSS-Transition feature is used by multiple programs such as NPS-PF, VE-PF, * Band-steering, Hotspot 2.0 and customer requirements. Each PF and its test plan * mandates different behavior on receiving BSS-transition request. To accomodate * such divergent behaviors these policies have been created. */ typedef enum { WL_BSSTRANS_POLICY_ROAM_ALWAYS = 0, /**< Roam (or disassociate) in all cases */ WL_BSSTRANS_POLICY_ROAM_IF_MODE = 1, /**< Roam only if requested by Request Mode field */ WL_BSSTRANS_POLICY_ROAM_IF_PREF = 2, /**< Roam only if Preferred BSS provided */ WL_BSSTRANS_POLICY_WAIT = 3, /**< Wait for deauth and send Accepted status */ WL_BSSTRANS_POLICY_PRODUCT = 4, /**< Policy for real product use cases (Olympic) */ WL_BSSTRANS_POLICY_PRODUCT_WBTEXT = 5, /**< Policy for real product use cases (SS) */ WL_BSSTRANS_POLICY_MAX = 6 } wnm_bsstrans_policy_type_t; /** 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 */ uint8 PAD; } 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 */ uint8 PAD; 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_TR_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_MAX_NUM_TRS 32 /**< maximun transmitters allowed */ #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 */ uint8 PAD; 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 */ /* Unused. Keep for rom compatibility */ 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 */ /* Unused. Keep for rom compatibility */ 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 */ uint16 mc_no_wl_clk; /**< no wl clk detected when trying to access amt */ uint16 mc_tr_cnt_exceeded; /**< No of transmitters in the network exceeded */ } 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; typedef struct wl_rmc_trans_elem { struct ether_addr tr_mac; /**< transmitter mac */ struct ether_addr ar_mac; /**< ar mac */ uint16 artmo; /**< AR timeout */ uint8 amt_idx; /**< amt table entry */ uint8 PAD; uint16 flag; /**< entry will be acked, not acked, programmed, full etc */ } wl_rmc_trans_elem_t; /** RMC transmitters */ typedef struct wl_rmc_trans_in_network { uint8 ver; /**< version of RMC */ uint8 num_tr; /**< number of transmitters in the network */ wl_rmc_trans_elem_t trs[WL_RMC_MAX_NUM_TRS]; } wl_rmc_trans_in_network_t; /** To update vendor specific ie for RMC */ typedef struct wl_rmc_vsie { uint8 oui[DOT11_OUI_LEN]; uint8 PAD; uint16 payload; /**< IE Data Payload */ } wl_rmc_vsie_t; /* structures & defines for proximity detection */ enum proxd_method { PROXD_UNDEFINED_METHOD = 0, PROXD_RSSI_METHOD = 1, PROXD_TOF_METHOD = 2 }; /* structures for proximity detection device role */ #define WL_PROXD_MODE_DISABLE 0 #define WL_PROXD_MODE_NEUTRAL 1 #define WL_PROXD_MODE_INITIATOR 2 #define WL_PROXD_MODE_TARGET 3 #define WL_PROXD_ACTION_STOP 0 #define WL_PROXD_ACTION_START 1 #define WL_PROXD_FLAG_TARGET_REPORT 0x1 #define WL_PROXD_FLAG_REPORT_FAILURE 0x2 #define WL_PROXD_FLAG_INITIATOR_REPORT 0x4 #define WL_PROXD_FLAG_NOCHANSWT 0x8 #define WL_PROXD_FLAG_NETRUAL 0x10 #define WL_PROXD_FLAG_INITIATOR_RPTRTT 0x20 #define WL_PROXD_FLAG_ONEWAY 0x40 #define WL_PROXD_FLAG_SEQ_EN 0x80 #define WL_PROXD_SETFLAG_K 0x1 #define WL_PROXD_SETFLAG_N 0x2 #define WL_PROXD_SETFLAG_S 0x4 #define WL_PROXD_SETFLAG_K 0x1 #define WL_PROXD_SETFLAG_N 0x2 #define WL_PROXD_SETFLAG_S 0x4 #define WL_PROXD_RANDOM_WAKEUP 0x8000 #define WL_PROXD_MAXREPORT 8 typedef struct wl_proxd_iovar { uint16 method; /**< Proximity Detection method */ uint16 mode; /**< Mode (neutral, initiator, target) */ } wl_proxd_iovar_t; /* * structures for proximity detection parameters * consists of two parts, common and method specific params * common params should be placed at the beginning */ typedef struct wl_proxd_params_common { chanspec_t chanspec; /**< channel spec */ int16 tx_power; /**< tx power of Proximity Detection(PD) frames (in dBm) */ uint16 tx_rate; /**< tx rate of PD rames (in 500kbps units) */ uint16 timeout; /**< timeout value */ uint16 interval; /**< interval between neighbor finding attempts (in TU) */ uint16 duration; /**< duration of neighbor finding attempts (in ms) */ } wl_proxd_params_common_t; typedef struct wl_proxd_params_rssi_method { chanspec_t chanspec; /**< chanspec for home channel */ int16 tx_power; /**< tx power of Proximity Detection frames (in dBm) */ uint16 tx_rate; /**< tx rate of PD frames, 500kbps units */ uint16 timeout; /**< state machine wait timeout of the frames (in ms) */ uint16 interval; /**< interval between neighbor finding attempts (in TU) */ uint16 duration; /**< duration of neighbor finding attempts (in ms) */ /* method specific ones go after this line */ int16 rssi_thresh; /**< RSSI threshold (in dBm) */ uint16 maxconvergtmo; /**< max wait converge timeout (in ms) */ } wl_proxd_params_rssi_method_t; #define Q1_NS 25 /**< Q1 time units */ #define TOF_BW_NUM 3 /**< number of bandwidth that the TOF can support */ #define TOF_BW_SEQ_NUM (TOF_BW_NUM+2) /* number of total index */ enum tof_bw_index { TOF_BW_20MHZ_INDEX = 0, TOF_BW_40MHZ_INDEX = 1, TOF_BW_80MHZ_INDEX = 2, TOF_BW_SEQTX_INDEX = 3, TOF_BW_SEQRX_INDEX = 4 }; #define BANDWIDTH_BASE 20 /**< base value of bandwidth */ #define TOF_BW_20MHZ (BANDWIDTH_BASE << TOF_BW_20MHZ_INDEX) #define TOF_BW_40MHZ (BANDWIDTH_BASE << TOF_BW_40MHZ_INDEX) #define TOF_BW_80MHZ (BANDWIDTH_BASE << TOF_BW_80MHZ_INDEX) #define TOF_BW_10MHZ 10 #define NFFT_BASE 64 /**< base size of fft */ #define TOF_NFFT_20MHZ (NFFT_BASE << TOF_BW_20MHZ_INDEX) #define TOF_NFFT_40MHZ (NFFT_BASE << TOF_BW_40MHZ_INDEX) #define TOF_NFFT_80MHZ (NFFT_BASE << TOF_BW_80MHZ_INDEX) typedef struct wl_proxd_params_tof_method { chanspec_t chanspec; /**< chanspec for home channel */ int16 tx_power; /**< tx power of Proximity Detection(PD) frames (in dBm) */ uint16 tx_rate; /**< tx rate of PD rames (in 500kbps units) */ uint16 timeout; /**< state machine wait timeout of the frames (in ms) */ uint16 interval; /**< interval between neighbor finding attempts (in TU) */ uint16 duration; /**< duration of neighbor finding attempts (in ms) */ /* specific for the method go after this line */ struct ether_addr tgt_mac; /**< target mac addr for TOF method */ uint16 ftm_cnt; /**< number of the frames txed by initiator */ uint16 retry_cnt; /**< number of retransmit attampts for ftm frames */ int16 vht_rate; /**< ht or vht rate */ /* add more params required for other methods can be added here */ } wl_proxd_params_tof_method_t; typedef struct wl_proxd_seq_config { int16 N_tx_log2; int16 N_rx_log2; int16 N_tx_scale; int16 N_rx_scale; int16 w_len; int16 w_offset; } wl_proxd_seq_config_t; #define WL_PROXD_TUNE_VERSION_1 1 #include typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_params_tof_tune { uint32 version; uint32 Ki; /**< h/w delay K factor for initiator */ uint32 Kt; /**< h/w delay K factor for target */ int16 vhtack; /**< enable/disable VHT ACK */ int16 N_log2[TOF_BW_SEQ_NUM]; /**< simple threshold crossing */ int16 w_offset[TOF_BW_NUM]; /**< offset of threshold crossing window(per BW) */ int16 w_len[TOF_BW_NUM]; /**< length of threshold crossing window(per BW) */ int32 maxDT; /**< max time difference of T4/T1 or T3/T2 */ int32 minDT; /**< min time difference of T4/T1 or T3/T2 */ uint8 totalfrmcnt; /**< total count of transfered measurement frames */ uint16 rsv_media; /**< reserve media value for TOF */ uint32 flags; /**< flags */ uint8 core; /**< core to use for tx */ uint8 setflags; /* set flags of K, N. S values */ int16 N_scale[TOF_BW_SEQ_NUM]; /**< simple threshold crossing */ uint8 sw_adj; /**< enable sw assisted timestamp adjustment */ uint8 hw_adj; /**< enable hw assisted timestamp adjustment */ uint8 seq_en; /**< enable ranging sequence */ uint8 ftm_cnt[TOF_BW_SEQ_NUM]; /**< number of ftm frames based on bandwidth */ int16 N_log2_2g; /**< simple threshold crossing for 2g channel */ int16 N_scale_2g; /**< simple threshold crossing for 2g channel */ wl_proxd_seq_config_t seq_5g20; wl_proxd_seq_config_t seq_2g20; /* Thresh crossing params for 2G Sequence */ uint16 bitflip_thresh; /* bitflip threshold */ uint16 snr_thresh; /* SNR threshold */ int8 recv_2g_thresh; /* 2g recieve sensitivity threshold */ uint32 acs_gdv_thresh; int8 acs_rssi_thresh; uint8 smooth_win_en; int32 acs_gdmm_thresh; int8 acs_delta_rssi_thresh; int32 emu_delay; } BWL_POST_PACKED_STRUCT wl_proxd_params_tof_tune_t; #include typedef struct wl_proxd_params_iovar { uint16 method; /**< Proximity Detection method */ union { /* common params for pdsvc */ wl_proxd_params_common_t cmn_params; /**< common parameters */ /* method specific */ wl_proxd_params_rssi_method_t rssi_params; /**< RSSI method parameters */ wl_proxd_params_tof_method_t tof_params; /**< TOF method parameters */ /* tune parameters */ wl_proxd_params_tof_tune_t tof_tune; /**< TOF tune parameters */ uint8 PAD[sizeof(wl_proxd_params_tof_tune_t)+1]; } u; /**< Method specific optional parameters */ } wl_proxd_params_iovar_t; #define PROXD_COLLECT_GET_STATUS 0 #define PROXD_COLLECT_SET_STATUS 1 #define PROXD_COLLECT_QUERY_HEADER 2 #define PROXD_COLLECT_QUERY_DATA 3 #define PROXD_COLLECT_QUERY_DEBUG 4 #define PROXD_COLLECT_REMOTE_REQUEST 5 #define PROXD_COLLECT_DONE 6 typedef enum { WL_PROXD_COLLECT_METHOD_TYPE_DISABLE = 0x0, WL_PROXD_COLLECT_METHOD_TYPE_IOVAR = 0x1, WL_PROXD_COLLECT_METHOD_TYPE_EVENT = 0x2, WL_PROXD_COLLECT_METHOD_TYPE_EVENT_LOG = 0x4 } wl_proxd_collect_method_type_t; typedef uint16 wl_proxd_collect_method_t; /* query status: method to send proxd collect */ #include typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_query { uint32 method; /**< method */ uint8 request; /**< Query request. */ uint8 status; /**< bitmask 0 -- disable, 0x1 -- enable collection, */ /* 0x2 -- Use generic event, 0x4 -- use event log */ uint16 index; /**< The current frame index [0 to total_frames - 1]. */ uint16 mode; /**< Initiator or Target */ uint8 busy; /**< tof sm is busy */ uint8 remote; /**< Remote collect data */ } BWL_POST_PACKED_STRUCT wl_proxd_collect_query_t; #include #include typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_header { uint16 total_frames; /**< The total frames for this collect. */ uint16 nfft; /**< nfft value */ uint16 bandwidth; /**< bandwidth */ uint16 channel; /**< channel number */ uint32 chanspec; /**< channel spec */ uint32 fpfactor; /**< avb timer value factor */ uint16 fpfactor_shift; /**< avb timer value shift bits */ int32 distance; /**< distance calculated by fw */ uint32 meanrtt; /**< mean of RTTs */ uint32 modertt; /**< mode of RTTs */ uint32 medianrtt; /**< median of RTTs */ uint32 sdrtt; /**< standard deviation of RTTs */ uint32 clkdivisor; /**< clock divisor */ uint16 chipnum; /**< chip type */ uint8 chiprev; /**< chip revision */ uint8 phyver; /**< phy version */ struct ether_addr localMacAddr; /**< local mac address */ struct ether_addr remoteMacAddr; /**< remote mac address */ wl_proxd_params_tof_tune_t params; } BWL_POST_PACKED_STRUCT wl_proxd_collect_header_t; #include /* ifdef WL_NAN */ /* ********************** NAN wl interface struct types and defs ******************** */ /* * Uses new common IOVAR batch processing mechanism */ /* * NAN config control * Bits 0 - 23 can be set by host * Bits 24 - 31 - Internal use for firmware, host cannot set it */ /* * Bit 0 : If set to 1, means event uses nan bsscfg, * otherwise uses infra bsscfg. Default is using infra bsscfg */ #define WL_NAN_CTRL_ROUTE_EVENT_VIA_NAN_BSSCFG 0x1 /* If set, discovery beacons are transmitted on 2G band */ #define WL_NAN_CTRL_DISC_BEACON_TX_2G 0x2 /* If set, sync beacons are transmitted on 2G band */ #define WL_NAN_CTRL_SYNC_BEACON_TX_2G 0x4 /* If set, discovery beacons are transmitted on 5G band */ #define WL_NAN_CTRL_DISC_BEACON_TX_5G 0x8 /* If set, sync beacons are transmitted on 5G band */ #define WL_NAN_CTRL_SYNC_BEACON_TX_5G 0x10 /* If set, auto datapath responses will be sent by FW */ #define WL_NAN_CTRL_AUTO_DPRESP 0x20 /* If set, auto datapath confirms will be sent by FW */ #define WL_NAN_CTRL_AUTO_DPCONF 0x40 /* Value when all host-configurable bits set */ #define WL_NAN_CTRL_MAX_MASK 0xFFFFFF #define WL_NAN_CFG_CTRL_FW_BITS 8 /* Bit 31: * If set - indicates that NAN initialization is successful * NOTE: This is a ready-only bit. All sets to this are masked off */ #define WL_NAN_PROTO_INIT_DONE 0x80000000 #define WL_NAN_GET_PROTO_INIT_STATUS(x) \ (((x) >> 31) & 1) #define WL_NAN_CLEAR_PROTO_INIT_STATUS(x) \ ((x) &= ~WL_NAN_PROTO_INIT_DONE) #define WL_NAN_SET_PROTO_INIT_STATUS(x) \ ((x) |= (1 << 31)) #define WL_NAN_IOCTL_VERSION 0x2 /* < some sufficient ioc buff size for our module */ #define WL_NAN_IOC_BUFSZ 256 /* some sufficient ioc buff size for dump commands */ #define WL_NAN_IOC_BUFSZ_EXT 1024 #define WL_NAN_MAX_SIDS_IN_BEACONS 127 /* Max allowed SIDs */ #define WL_NAN_MASTER_RANK_LEN 8 #define WL_NAN_RANGE_LIMITED 0x0040 /* Publish/Subscribe flags */ /** The service hash (service id) is exactly this many bytes. */ #define WL_NAN_SVC_HASH_LEN 6 #define WL_NAN_HASHES_PER_BLOOM 4 /** Number of hash functions per bloom filter */ /* no. of max last disc results */ #define WL_NAN_MAX_DISC_RESULTS 3 /* Max len of Rx and Tx filters */ #define WL_NAN_MAX_SVC_MATCH_FILTER_LEN 255 /* Max service name len */ #define WL_NAN_MAX_SVC_NAME_LEN 32 /* Type of Data path connection */ #define WL_NAN_DP_TYPE_UNICAST 0 #define WL_NAN_DP_TYPE_MULTICAST 1 /* MAX security params length PMK field */ #define WL_NAN_NCS_SK_PMK_LEN 32 /* Post disc attr ID type */ typedef uint8 wl_nan_post_disc_attr_id_t; /* * Component IDs */ typedef enum { WL_NAN_COMPID_CONFIG = 1, WL_NAN_COMPID_ELECTION = 2, WL_NAN_COMPID_SD = 3, WL_NAN_COMPID_TIMESYNC = 4, WL_NAN_COMPID_DATA_PATH = 5, WL_NAN_COMPID_DEBUG = 15 /* Keep this at the end */ } wl_nan_comp_id_t; #define WL_NAN_COMP_SHIFT 8 #define WL_NAN_COMP_MASK(_c) (0x0F & ((uint8)(_c))) #define WL_NAN_COMP_ID(_c) (WL_NAN_COMP_MASK(_c) << WL_NAN_COMP_SHIFT) /* NAN Events */ /** Instance ID type (unique identifier) */ typedef uint8 wl_nan_instance_id_t; /* Publish sent for a subscribe */ /* WL_NAN_EVENT_REPLIED */ typedef struct wl_nan_ev_replied { struct ether_addr sub_mac; /* Subscriber MAC */ wl_nan_instance_id_t pub_id; /* Publisher Instance ID */ uint8 sub_id; /* Subscriber ID */ int8 sub_rssi; /* Subscriber RSSI */ uint8 pad[3]; } wl_nan_ev_replied_t; typedef struct wl_nan_event_replied { struct ether_addr sub_mac; /* Subscriber MAC */ wl_nan_instance_id_t pub_id; /* Publisher Instance ID */ uint8 sub_id; /* Subscriber ID */ int8 sub_rssi; /* Subscriber RSSI */ uint8 attr_num; uint16 attr_list_len; /* sizeof attributes attached to payload */ uint8 attr_list[0]; /* attributes payload */ } wl_nan_event_replied_t; /* Subscribe or Publish instance Terminated */ /* WL_NAN_EVENT_TERMINATED */ #define NAN_SD_TERM_REASON_TIMEOUT 1 #define NAN_SD_TERM_REASON_HOSTREQ 2 #define NAN_SD_TERM_REASON_FWTERM 3 #define NAN_SD_TERM_REASON_FAIL 4 typedef struct wl_nan_ev_terminated { uint8 instance_id; /* publish / subscribe instance id */ uint8 reason; /* 1=timeout, 2=Host/IOVAR, 3=FW Terminated 4=Failure */ uint8 svctype; /* 0 - Publish, 0x1 - Subscribe */ uint8 pad; /* Align */ } wl_nan_ev_terminated_t; /* Follow up received against a pub / subscr */ /* WL_NAN_EVENT_RECEIVE */ typedef struct wl_nan_ev_receive { struct ether_addr remote_addr; /* Peer NAN device MAC */ uint8 local_id; /* Local subscribe or publish ID */ uint8 remote_id; /* Remote subscribe or publish ID */ int8 fup_rssi; uint8 attr_num; uint16 attr_list_len; /* sizeof attributes attached to payload */ uint8 attr_list[0]; /* attributes payload */ } wl_nan_ev_receive_t; /* * TLVs - Below XTLV definitions will be deprecated * in due course (soon as all other branches update * to the comp ID based XTLVs listed below). */ enum wl_nan_cmd_xtlv_id { WL_NAN_XTLV_MAC_ADDR = 0x120, WL_NAN_XTLV_MATCH_RX = 0x121, WL_NAN_XTLV_MATCH_TX = 0x122, WL_NAN_XTLV_SVC_INFO = 0x123, WL_NAN_XTLV_SVC_NAME = 0x124, WL_NAN_XTLV_SR_FILTER = 0x125, WL_NAN_XTLV_FOLLOWUP = 0x126, WL_NAN_XTLV_SVC_LIFE_COUNT = 0x127, WL_NAN_XTLV_AVAIL = 0x128, WL_NAN_XTLV_SDF_RX = 0x129, WL_NAN_XTLV_SDE_CONTROL = 0x12a, WL_NAN_XTLV_SDE_RANGE_LIMIT = 0x12b, WL_NAN_XTLV_NAN_AF = 0x12c, WL_NAN_XTLV_SD_TERMINATE = 0x12d, WL_NAN_XTLV_CLUSTER_ID = 0x12e, WL_NAN_XTLV_PEER_RSSI = 0x12f, WL_NAN_XTLV_BCN_RX = 0x130, WL_NAN_XTLV_REPLIED = 0x131, /* Publish sent for a subscribe */ WL_NAN_XTLV_RECEIVED = 0x132, /* FUP Received */ WL_NAN_XTLV_DISC_RESULTS = 0x133 /* Discovery results */ }; #define WL_NAN_CMD_GLOBAL 0x00 #define WL_NAN_CMD_CFG_COMP_ID 0x01 #define WL_NAN_CMD_ELECTION_COMP_ID 0x02 #define WL_NAN_CMD_SD_COMP_ID 0x03 #define WL_NAN_CMD_SYNC_COMP_ID 0x04 #define WL_NAN_CMD_DATA_COMP_ID 0x05 #define WL_NAN_CMD_DAM_COMP_ID 0x06 #define WL_NAN_CMD_RANGE_COMP_ID 0x07 #define WL_NAN_CMD_DBG_COMP_ID 0x0f #define WL_NAN_CMD_COMP_SHIFT 8 #define NAN_CMD(x, y) (((x) << WL_NAN_CMD_COMP_SHIFT) | (y)) /* * Module based NAN TLV IDs */ typedef enum wl_nan_tlv { WL_NAN_XTLV_CFG_MATCH_RX = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x01), WL_NAN_XTLV_CFG_MATCH_TX = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x02), WL_NAN_XTLV_CFG_SR_FILTER = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x03), WL_NAN_XTLV_CFG_SVC_NAME = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x04), WL_NAN_XTLV_CFG_NAN_STATUS = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x05), WL_NAN_XTLV_CFG_SVC_LIFE_COUNT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x06), WL_NAN_XTLV_CFG_SVC_HASH = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x07), WL_NAN_XTLV_CFG_SEC_CSID = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x08), /* Security CSID */ WL_NAN_XTLV_CFG_SEC_PMK = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x09), /* Security PMK */ WL_NAN_XTLV_CFG_SEC_PMKID = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0A), WL_NAN_XTLV_SD_SVC_INFO = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x01), WL_NAN_XTLV_SD_FOLLOWUP = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x02), WL_NAN_XTLV_SD_SDF_RX = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x03), WL_NAN_XTLV_SD_SDE_CONTROL = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x04), WL_NAN_XTLV_SD_SDE_RANGE_LIMIT = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x05), WL_NAN_XTLV_SD_NAN_AF = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x06), WL_NAN_XTLV_SD_TERM = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x07), WL_NAN_XTLV_SD_REPLIED = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x08), /* Pub sent */ WL_NAN_XTLV_SD_FUP_RECEIVED = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x09), /* FUP Received */ WL_NAN_XTLV_SD_DISC_RESULTS = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0A), /* Pub RX */ WL_NAN_XTLV_SYNC_BCN_RX = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x01), WL_NAN_XTLV_DATA_DP_END = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x01), WL_NAN_XTLV_DATA_DP_INFO = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x02), WL_NAN_XTLV_DATA_DP_SEC_INST = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x03), WL_NAN_XTLV_RANGE_INFO = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x01) } wl_nan_tlv_t; enum wl_nan_sub_cmd_xtlv_id { /* Special command - Tag zero */ WL_NAN_CMD_GLB_NAN_VER = NAN_CMD(WL_NAN_CMD_GLOBAL, 0x00), /* nan cfg sub-commands */ WL_NAN_CMD_CFG_NAN_INIT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x01), WL_NAN_CMD_CFG_ROLE = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x02), WL_NAN_CMD_CFG_HOP_CNT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x03), WL_NAN_CMD_CFG_HOP_LIMIT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x04), WL_NAN_CMD_CFG_WARMUP_TIME = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x05), WL_NAN_CMD_CFG_STATUS = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x06), WL_NAN_CMD_CFG_OUI = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x07), WL_NAN_CMD_CFG_COUNT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x08), WL_NAN_CMD_CFG_CLEARCOUNT = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x09), WL_NAN_CMD_CFG_CHANNEL = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0A), WL_NAN_CMD_CFG_BAND = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0B), WL_NAN_CMD_CFG_CID = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0C), WL_NAN_CMD_CFG_IF_ADDR = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0D), WL_NAN_CMD_CFG_BCN_INTERVAL = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0E), WL_NAN_CMD_CFG_SDF_TXTIME = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x0F), WL_NAN_CMD_CFG_SID_BEACON = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x10), WL_NAN_CMD_CFG_DW_LEN = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x11), WL_NAN_CMD_CFG_AVAIL = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x12), WL_NAN_CMD_CFG_WFA_TM = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x13), WL_NAN_CMD_CFG_EVENT_MASK = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x14), WL_NAN_CMD_CFG_NAN_CONFIG = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x15), WL_NAN_CMD_CFG_NAN_ENAB = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x16), WL_NAN_CMD_CFG_ULW = NAN_CMD(WL_NAN_CMD_CFG_COMP_ID, 0x17), WL_NAN_CMD_CFG_MAX = WL_NAN_CMD_CFG_NAN_ENAB, /* Add new commands before and update */ /* nan election sub-commands */ WL_NAN_CMD_ELECTION_JOIN = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x04), /* Deprecated */ WL_NAN_CMD_ELECTION_STOP = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x07), /* Deprecate */ WL_NAN_CMD_ELECTION_HOST_ENABLE = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x01), WL_NAN_CMD_ELECTION_METRICS_CONFIG = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x02), WL_NAN_CMD_ELECTION_METRICS_STATE = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x03), WL_NAN_CMD_ELECTION_LEAVE = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x03), WL_NAN_CMD_ELECTION_MERGE = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x04), WL_NAN_CMD_ELECTION_ADVERTISERS = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x05), WL_NAN_CMD_ELECTION_RSSI_THRESHOLD = NAN_CMD(WL_NAN_CMD_ELECTION_COMP_ID, 0x06), WL_NAN_CMD_ELECTION_MAX = WL_NAN_CMD_ELECTION_RSSI_THRESHOLD, /* New commands go before and update */ /* nan SD sub-commands */ WL_NAN_CMD_SD_PARAMS = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x01), WL_NAN_CMD_SD_PUBLISH = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x02), WL_NAN_CMD_SD_PUBLISH_LIST = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x03), WL_NAN_CMD_SD_CANCEL_PUBLISH = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x04), WL_NAN_CMD_SD_SUBSCRIBE = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x05), WL_NAN_CMD_SD_SUBSCRIBE_LIST = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x06), WL_NAN_CMD_SD_CANCEL_SUBSCRIBE = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x07), WL_NAN_CMD_SD_VND_INFO = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x08), WL_NAN_CMD_SD_STATS = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x09), WL_NAN_CMD_SD_TRANSMIT = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0A), WL_NAN_CMD_SD_FUP_TRANSMIT = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0B), WL_NAN_CMD_SD_CONNECTION = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0C), WL_NAN_CMD_SD_SHOW = NAN_CMD(WL_NAN_CMD_SD_COMP_ID, 0x0D), WL_NAN_CMD_SD_MAX = WL_NAN_CMD_SD_SHOW, /* nan time sync sub-commands */ WL_NAN_CMD_SYNC_SOCIAL_CHAN = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x01), WL_NAN_CMD_SYNC_AWAKE_DWS = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x02), WL_NAN_CMD_SYNC_BCN_RSSI_NOTIF_THRESHOLD = NAN_CMD(WL_NAN_CMD_SYNC_COMP_ID, 0x03), WL_NAN_CMD_SYNC_MAX = WL_NAN_CMD_SYNC_BCN_RSSI_NOTIF_THRESHOLD, /* nan2 commands */ WL_NAN_CMD_DATA_CONFIG = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x01), WL_NAN_CMD_DATA_RSVD02 = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x02), WL_NAN_CMD_DATA_RSVD03 = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x03), WL_NAN_CMD_DATA_DATAREQ = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x04), WL_NAN_CMD_DATA_DATARESP = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x05), WL_NAN_CMD_DATA_DATAEND = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x06), WL_NAN_CMD_DATA_SCHEDUPD = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x07), WL_NAN_CMD_DATA_RSVD08 = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x08), WL_NAN_CMD_DATA_CAP = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x9), WL_NAN_CMD_DATA_STATUS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0A), WL_NAN_CMD_DATA_STATS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0B), WL_NAN_CMD_DATA_RSVD0C = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0C), WL_NAN_CMD_DATA_NDP_SHOW = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0D), WL_NAN_CMD_DATA_DATACONF = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0E), WL_NAN_CMD_DATA_MIN_TX_RATE = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x0F), WL_NAN_CMD_DATA_MAX_PEERS = NAN_CMD(WL_NAN_CMD_DATA_COMP_ID, 0x10), WL_NAN_CMD_DATA_PATH_MAX = WL_NAN_CMD_DATA_MAX_PEERS, /* New ones before and update */ /* nan dam sub-commands */ WL_NAN_CMD_DAM_CFG = NAN_CMD(WL_NAN_CMD_DAM_COMP_ID, 0x01), WL_NAN_CMD_DAM_MAX = WL_NAN_CMD_DAM_CFG, /* New ones before and update */ /* nan2.0 ranging commands */ WL_NAN_CMD_RANGE_REQUEST = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x01), WL_NAN_CMD_RANGE_AUTO = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x02), WL_NAN_CMD_RANGE_RESPONSE = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x03), WL_NAN_CMD_RANGE_CANCEL = NAN_CMD(WL_NAN_CMD_RANGE_COMP_ID, 0x04), /* nan debug sub-commands */ WL_NAN_CMD_DBG_SCAN_PARAMS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x01), WL_NAN_CMD_DBG_SCAN = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x02), WL_NAN_CMD_DBG_SCAN_RESULTS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x03), /* This is now moved under CFG */ WL_NAN_CMD_DBG_EVENT_MASK = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x04), WL_NAN_CMD_DBG_EVENT_CHECK = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x05), WL_NAN_CMD_DBG_DUMP = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x06), WL_NAN_CMD_DBG_CLEAR = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x07), WL_NAN_CMD_DBG_RSSI = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x08), WL_NAN_CMD_DBG_DEBUG = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x09), WL_NAN_CMD_DBG_TEST1 = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0A), WL_NAN_CMD_DBG_TEST2 = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0B), WL_NAN_CMD_DBG_TEST3 = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0C), WL_NAN_CMD_DBG_DISC_RESULTS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0D), WL_NAN_CMD_DBG_STATS = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0E), WL_NAN_CMD_DBG_LEVEL = NAN_CMD(WL_NAN_CMD_DBG_COMP_ID, 0x0F), WL_NAN_CMD_DBG_MAX = WL_NAN_CMD_DBG_LEVEL /* New ones before and update */ }; /** status - TBD BCME_ vs NAN status - range reserved for BCME_ */ enum { /* add new status here... */ WL_NAN_E_SEC_SA_NOTFOUND = -2076, WL_NAN_E_BSSCFG_NOTFOUND = -2075, WL_NAN_E_SCB_NOTFOUND = -2074, WL_NAN_E_NCS_SK_KDESC_TYPE = -2073, WL_NAN_E_NCS_SK_KEY_DESC_VER = -2072, /* key descr ver */ WL_NAN_E_NCS_SK_KEY_TYPE = -2071, /* key descr type */ WL_NAN_E_NCS_SK_KEYINFO_FAIL = -2070, /* key info (generic) */ WL_NAN_E_NCS_SK_KEY_LEN = -2069, /* key len */ WL_NAN_E_NCS_SK_KDESC_NOT_FOUND = -2068, /* key desc not found */ WL_NAN_E_NCS_SK_INVALID_PARAMS = -2067, /* invalid args */ WL_NAN_E_NCS_SK_KDESC_INVALID = -2066, /* key descr is not valid */ WL_NAN_E_NCS_SK_NONCE_MISMATCH = -2065, WL_NAN_E_NCS_SK_KDATA_SAVE_FAIL = -2064, /* not able to save key data */ WL_NAN_E_NCS_SK_AUTH_TOKEN_CALC_FAIL = -2063, WL_NAN_E_NCS_SK_PTK_CALC_FAIL = -2062, WL_NAN_E_INVALID_STARTOFFSET = -2061, WL_NAN_E_BAD_NA_ENTRY_TYPE = -2060, WL_NAN_E_INVALID_CHANBMP = -2059, WL_NAN_E_INVALID_OP_CLASS = -2058, WL_NAN_E_NO_IES = -2057, WL_NAN_E_NO_PEER_ENTRY_AVAIL = -2056, WL_NAN_E_INVALID_PEER = -2055, WL_NAN_E_PEER_EXISTS = -2054, WL_NAN_E_PEER_NOTFOUND = -2053, WL_NAN_E_NO_MEM = -2052, WL_NAN_E_INVALID_OPTION = -2051, WL_NAN_E_INVALID_BAND = -2050, WL_NAN_E_INVALID_MAC = -2049, WL_NAN_E_BAD_INSTANCE = -2048, WL_NAN_E_NDC_EXISTS = -2047, WL_NAN_E_NO_NDC_ENTRY_AVAIL = -2046, WL_NAN_E_INVALID_NDC_ENTRY = -2045, WL_NAN_E_ERROR = -1, WL_NAN_E_OK = 0 }; typedef int32 wl_nan_status_t; /** nan cmd list entry */ enum wl_nan_sub_cmd_input_flags { WL_NAN_SUB_CMD_FLAG_NONE = 0, WL_NAN_SUB_CMD_FLAG_SKIP = 1, /* Skip to next sub-command on error */ WL_NAN_SUB_CMD_FLAG_TERMINATE = 2, /* Terminate processing and return */ WL_NAN_SUB_CMD_FLAG_LAST /* Keep this at the end */ }; /** container for nan events */ typedef struct wl_nan_ioc { uint16 version; /**< interface command or event version */ uint16 id; /**< nan ioctl cmd ID */ uint16 len; /**< total length of all tlv records in data[] */ uint16 pad; /**< pad to be 32 bit aligment */ uint8 data []; /**< var len payload of bcm_xtlv_t type */ } wl_nan_ioc_t; /* * NAN sub-command data structures */ /* * Config component WL_NAN_CMD_CFG_XXXX sub-commands * WL_NAN_CMD_CFG_ENABLE */ enum wl_nan_config_state { WL_NAN_CONFIG_STATE_DISABLE = 0, WL_NAN_CONFIG_STATE_ENABLE = 1 }; typedef int8 wl_nan_config_state_t; /* WL_NAN_CMD_CFG_NAN_INIT */ typedef uint8 wl_nan_init_t; /* WL_NAN_CMD_CFG_NAN_VERSION */ typedef uint16 wl_nan_ver_t; /* WL_NAN_CMD_CFG_NAN_CONFIG */ typedef uint32 wl_nan_cfg_ctrl_t; /* * WL_NAN_CMD_CFG_BAND, WL_NAN_CMD_CFG_RSSI_THRESHOLD(Get only) */ typedef uint8 wl_nan_band_t; /* * WL_NAN_CMD_CFG_ROLE */ enum wl_nan_role { WL_NAN_ROLE_AUTO = 0, WL_NAN_ROLE_NON_MASTER_NON_SYNC = 1, WL_NAN_ROLE_NON_MASTER_SYNC = 2, WL_NAN_ROLE_MASTER = 3, WL_NAN_ROLE_ANCHOR_MASTER = 4 }; typedef uint8 wl_nan_role_t; typedef struct wl_nan_device_state { wl_nan_role_t role; /* Sync Master, Non-Sync Master */ uint8 state; /* TBD */ uint8 hopcount; /* Hops to the Anchor Master */ struct ether_addr immediate_master; /* Master MAC */ struct ether_addr anchor_master; /* Anchor Master MAC */ struct ether_addr cluster_id; /* Cluster ID to which this device belongs to */ uint8 PAD[3]; uint32 tsf_high; /* NAN Cluster TSFs */ uint32 tsf_low; } wl_nan_device_state_t; /* * WL_NAN_CMD_CFG_HOP_CNT, WL_NAN_CMD_CFG_HOP_LIMIT */ typedef uint8 wl_nan_hop_count_t; /* * WL_NAN_CMD_CFG_WARMUP_TIME */ typedef uint32 wl_nan_warmup_time_ticks_t; /* * WL_NAN_CMD_CFG_RSSI_THRESHOLD * rssi_close and rssi_mid are used to transition master to non-master * role by NAN state machine. rssi thresholds corresponding to the band * will be updated. */ /* To be deprecated */ typedef struct wl_nan_rssi_threshold { wl_nan_band_t band; int8 rssi_close; int8 rssi_mid; uint8 pad; } wl_nan_rssi_threshold_t; /* WL_NAN_CMD_ELECTION_RSSI_THRESHOLD */ typedef struct wl_nan_rssi_thld { int8 rssi_close_2g; int8 rssi_mid_2g; int8 rssi_close_5g; int8 rssi_mid_5g; } wl_nan_rssi_thld_t; /* WL_NAN_CMD_DATA_MAX_PEERS */ typedef uint8 wl_nan_max_peers_t; #define NAN_MAX_BANDS 2 /* * WL_NAN_CMD_CFG_STATUS */ /* Deprecated - Begin */ typedef struct wl_nan_cfg_status { uint8 enabled; uint8 inited; uint8 joined; uint8 merged; uint8 role; uint8 PAD[3]; uint32 chspec[2]; uint8 mr[8]; /**< Master Rank */ uint8 amr[8]; /**< Anchor Master Rank */ uint32 cnt_pend_txfrm; /**< pending TX frames */ uint32 cnt_bcn_tx; /**< TX disc/sync beacon count */ uint32 cnt_bcn_rx; /**< RX disc/sync beacon count */ uint32 cnt_svc_disc_tx; /**< TX svc disc frame count */ uint32 cnt_svc_disc_rx; /**< RX svc disc frame count */ uint32 ambtt; /**< Anchor master beacon target time */ struct ether_addr cid; /**< Cluster id */ uint8 hop_count; /**< Hop count */ uint8 PAD; } wl_nan_cfg_status_t; typedef struct wl_nan_config_status { struct ether_addr def_cid; /* Default Cluster id */ uint8 inited; /* NAN Initialized successfully */ uint8 enabled; /* NAN Enabled */ struct ether_addr cur_cid; /* Default Cluster id */ uint8 joined; /* Joined or started own cluster */ uint8 role; /* Master, Non Master, NM Sync & Non-Sync */ chanspec_t chspec[NAN_MAX_BANDS]; /* Channel Spec 2.4G followed by 5G */ uint8 mr[WL_NAN_MASTER_RANK_LEN]; /* Master Rank */ uint8 amr[WL_NAN_MASTER_RANK_LEN]; /* Anchor Master Rank */ uint32 cnt_pend_txfrm; /* Pending Tx Frames */ uint32 cnt_bcn_tx; /* TX disc/sync beacon count */ uint32 cnt_bcn_rx; /* RX disc/sync beacon count */ uint32 cnt_svc_disc_tx; /* TX svc disc frame count */ uint32 cnt_svc_disc_rx; /* RX svc disc frame count */ uint32 ambtt; /* Anchor master beacon target time */ uint8 hop_count; /* Hop count */ uint8 pad[3]; /* Align */ } wl_nan_config_status_t; /* Deprecated - End */ typedef enum wl_nan_election_mode { WL_NAN_ELECTION_RUN_BY_HOST = 1, WL_NAN_ELECTION_RUN_BY_FW = 2 } wl_nan_election_mode_t; typedef struct wl_nan_conf_status { struct ether_addr nmi; /* NAN mgmt interface address */ uint8 enabled; /* NAN is enabled */ uint8 role; /* Current nan sync role */ struct ether_addr cid; /* Current Cluster id */ uint8 social_chans[2]; /* Social channels */ uint8 mr[8]; /* Master Rank */ uint8 amr[8]; /* Anchor Master Rank */ uint32 ambtt; /* Anchor master beacon target time */ uint32 cluster_tsf_h; /* Current Cluster TSF High */ uint32 cluster_tsf_l; /* Current Cluster TSF Low */ uint8 election_mode; /* Election mode, host or firmware */ uint8 hop_count; /* Current Hop count */ uint8 pad[2]; } wl_nan_conf_status_t; /* * WL_NAN_CMD_CFG_OUI */ typedef struct wl_nan_oui_type { uint8 nan_oui[DOT11_OUI_LEN]; uint8 type; } wl_nan_oui_type_t; /* * WL_NAN_CMD_CFG_COUNT */ typedef struct wl_nan_count { uint32 cnt_bcn_tx; /**< TX disc/sync beacon count */ uint32 cnt_bcn_rx; /**< RX disc/sync beacon count */ uint32 cnt_svc_disc_tx; /**< TX svc disc frame count */ uint32 cnt_svc_disc_rx; /**< RX svc disc frame count */ } wl_nan_count_t; /* * Election component WL_NAN_CMD_ELECTION_XXXX sub-commands * WL_NAN_CMD_ELECTION_HOST_ENABLE */ enum wl_nan_enable_flags { WL_NAN_DISABLE_FLAG_HOST_ELECTION = 0, WL_NAN_ENABLE_FLAG_HOST_ELECTION = 1 }; /* * 0 - disable host based election * 1 - enable host based election */ typedef uint8 wl_nan_host_enable_t; /* * WL_NAN_CMD_ELECTION_METRICS_CONFIG */ /* Set only */ typedef struct wl_nan_election_metric_config { uint8 random_factor; /* Configured random factor */ uint8 master_pref; /* configured master preference */ uint8 pad[2]; } wl_nan_election_metric_config_t; /* * WL_NAN_CMD_ELECTION_METRICS_STATE */ /* Get only */ typedef struct wl_nan_election_metric_state { uint8 random_factor; /* random factor used in MIs */ uint8 master_pref; /* Master advertised in MIs */ uint8 pad[2]; } wl_nan_election_metric_state_t; /* * WL_NAN_CMD_ELECTION_LEAVE * WL_NAN_CMD_ELECTION_STOP */ typedef struct ether_addr wl_nan_cluster_id_t; /* * WL_NAN_CMD_ELECTION_JOIN */ typedef struct wl_nan_join { uint8 start_cluster; /* Start a cluster */ uint8 pad[3]; wl_nan_cluster_id_t cluster_id; /* Cluster ID to join */ } wl_nan_join_t; /* * WL_NAN_CMD_ELECTION_MERGE * 0 - disable cluster merge * 1 - enable cluster merge */ typedef uint8 wl_nan_merge_enable_t; /* * WL_NAN_CMD_CFG_ROLE * role = 0 means configuration by firmware; otherwise by host * when host configures role, also need target master address to sync to */ #define NAN_SYNC_MASTER_SELF 0 #define NAN_SYNC_MASTER_AM 1 #define NAN_SYNC_MASTER_INTERMEDIATE 2 /* ltsf_h, ltsf_l: The local TSF timestamp filled in by FW in the WL_NAN_EVENT_BCN_RX event; rtsf_h, rtsf_l: The timestamp in the Rx beacon frame, filled in by host uint32 ambtt: the amtt in the cluster ID attribute in the Rx beacon frame */ typedef struct nan_sync_master { uint8 flag; /* 0: self, 1: anchor-master, 2: intermediate master */ uint8 hop_count; struct ether_addr addr; struct ether_addr cluster_id; chanspec_t channel; /* bcn reception channel */ uint32 ltsf_h; uint32 ltsf_l; uint32 rtsf_h; uint32 rtsf_l; uint8 amr[WL_NAN_MASTER_RANK_LEN]; uint32 ambtt; } nan_sync_master_t; /* NAN advertiser structure */ /* TODO RSDB: add chspec to indicates core corresponds correct core */ typedef struct nan_adv_entry { uint8 age; /* used to remove stale entries */ uint8 hop_count; struct ether_addr addr; struct ether_addr cluster_id; chanspec_t channel; /* bcn reception channel */ uint32 ltsf_h; uint32 ltsf_l; uint32 rtsf_h; uint32 rtsf_l; uint8 amr[WL_NAN_MASTER_RANK_LEN]; uint32 ambtt; int8 rssi[NAN_MAX_BANDS]; /* rssi last af was received at */ int8 last_rssi[NAN_MAX_BANDS]; /* rssi in the last AF */ } nan_adv_entry_t; typedef struct nan_adv_table { uint8 num_adv; uint8 adv_size; uint8 pad[2]; nan_adv_entry_t adv_nodes[0]; } nan_adv_table_t; typedef struct wl_nan_role_cfg { wl_nan_role_t cfg_role; wl_nan_role_t cur_role; uint8 pad[2]; nan_sync_master_t target_master; } wl_nan_role_cfg_t; typedef struct wl_nan_role_config { wl_nan_role_t role; struct ether_addr target_master; uint8 pad; } wl_nan_role_config_t; typedef int8 wl_nan_sd_optional_field_types_t; /* Flag bits for Publish and Subscribe (wl_nan_sd_params_t flags) */ #define WL_NAN_RANGE_LIMITED 0x0040 /* Event generation indicator (default is continuous) */ #define WL_NAN_MATCH_ONCE 0x100000 #define WL_NAN_MATCH_NEVER 0x200000 /* Bits specific to Publish */ #define WL_NAN_PUB_UNSOLICIT 0x1000 /* Unsolicited Tx */ #define WL_NAN_PUB_SOLICIT 0x2000 /* Solicited Tx */ #define WL_NAN_PUB_BOTH 0x3000 /* Both the above */ #define WL_NAN_PUB_BCAST 0x4000 /* bcast solicited Tx only */ #define WL_NAN_PUB_EVENT 0x8000 /* Event on each solicited Tx */ #define WL_NAN_PUB_SOLICIT_PENDING 0x10000 /* Used for one-time solicited Publish */ #define WL_NAN_FOLLOWUP 0x20000 /* Follow-up frames */ /* Bits specific to Subscribe */ #define WL_NAN_SUB_ACTIVE 0x1000 /* Active subscribe mode */ #define WL_NAN_SUB_MATCH_IF_SVC_INFO 0x2000 /* Service info in publish */ #define WL_NAN_TTL_UNTIL_CANCEL 0xFFFFFFFF /* Special values for time to live (ttl) parameter */ /* * Publish - runs until first transmission * Subscribe - runs until first DiscoveryResult event */ #define WL_NAN_TTL_FIRST 0 /* * WL_NAN_CMD_SD_PARAMS */ typedef struct wl_nan_sd_params { uint16 length; /* length including options */ uint8 period; /* period of the unsolicited SDF xmission in DWs */ uint8 pad; uint8 svc_hash[WL_NAN_SVC_HASH_LEN]; /* Hash for the service name */ uint8 instance_id; /* Instance of the current service */ int8 proximity_rssi; /* RSSI limit to Rx subscribe or pub SDF 0 no effect */ uint32 flags; /* bitmap representing aforesaid optional flags */ int32 ttl; /* TTL for this instance id, -1 will run till cancelled */ tlv_t optional[1]; /* optional fields in the SDF as appropriate */ } wl_nan_sd_params_t; /* * WL_NAN_CMD_SD_PUBLISH_LIST * WL_NAN_CMD_SD_SUBSCRIBE_LIST */ typedef struct wl_nan_service_info { uint8 instance_id; /* Publish instance ID */ uint8 service_hash[WL_NAN_SVC_HASH_LEN]; /* Hash for service name */ } wl_nan_service_info_t; typedef struct wl_nan_service_list { uint16 id_count; /* Number of registered publish/subscribe services */ wl_nan_service_info_t list[1]; /* service info defined by nan_service instance */ } wl_nan_service_list_t; /* * WL_NAN_CMD_CFG_BCN_INTERVAL */ typedef uint16 wl_nan_disc_bcn_interval_t; /* * WL_NAN_CMD_CFG_SDF_TXTIME */ typedef uint16 wl_nan_svc_disc_txtime_t; /* * WL_NAN_CMD_CFG_STOP_BCN_TX */ typedef uint16 wl_nan_stop_bcn_tx_t; /* * WL_NAN_CMD_CFG_SID_BEACON */ typedef struct wl_nan_sid_beacon_control { uint8 sid_enable; /* Flag to indicate the inclusion of Service IDs in Beacons */ uint8 sid_count; /* Limit for number of SIDs to be included in Beacons */ uint8 pad[2]; } wl_nan_sid_beacon_control_t; /* * WL_NAN_CMD_CFG_DW_LEN */ typedef uint16 wl_nan_dw_len_t; /* * WL_NAN_CMD_CFG_AWAKE_DW Will be deprecated. */ typedef struct wl_nan_awake_dw { wl_nan_band_t band; /* 0 - b mode 1- a mode */ uint8 interval; /* 1 or 2 or 4 or 8 or 16 */ uint16 pad; } wl_nan_awake_dw_t; /* * WL_NAN_CMD_CFG_AWAKE_DWS */ typedef struct wl_nan_awake_dws { uint8 dw_interval_2g; /* 2G DW interval */ uint8 dw_interval_5g; /* 5G DW interval */ uint16 pad; } wl_nan_awake_dws_t; /* WL_NAN_CMD_SYNC_BCN_RSSI_NOTIF_THRESHOLD */ typedef struct wl_nan_rssi_notif_thld { int8 bcn_rssi_2g; int8 bcn_rssi_5g; int16 pad; } wl_nan_rssi_notif_thld_t; /* * WL_NAN_CMD_CFG_SOCIAL_CHAN */ typedef struct wl_nan_social_channels { uint8 soc_chan_2g; /* 2G social channel */ uint8 soc_chan_5g; /* 5G social channel */ uint16 pad; } wl_nan_social_channels_t; /* * WL_NAN_CMD_SD_CANCEL_PUBLISH * WL_NAN_CMD_SD_CANCEL_SUBSCRIBE */ typedef uint8 wl_nan_instance_id; /* Instance ID of an active publish instance */ /* * WL_NAN_CMD_SD_VND_INFO */ typedef struct wl_nan_sd_vendor_info { uint16 length; /* Size in bytes of the payload following this field */ uint8 data[]; /* Vendor Information */ } wl_nan_sd_vendor_info_t; /* * WL_NAN_CMD_SD_STATS */ typedef struct wl_nan_sd_stats { uint32 sdftx; uint32 sdfrx; uint32 sdsrffail; uint32 sdrejrssi; uint32 sdfollowuprx; uint32 sdsubmatch; uint32 sdpubreplied; uint32 sdmftfail1; uint32 sdmftfail2; uint32 sdmftfail3; uint32 sdmftfail4; } wl_nan_sd_stats_t; /* * WL_NAN_CMD_SD_TRANSMIT * WL_NAN_CMD_SD_FUP_TRANSMIT */ typedef struct wl_nan_sd_transmit { uint8 local_service_id; /* Sender Service ID */ uint8 requestor_service_id; /* Destination Service ID */ struct ether_addr destination_addr; /* Destination MAC */ uint16 token; /* follow_up_token when a follow-up msg is queued successfully */ uint8 priority; /* requested relative prio */ uint8 service_info_len; /* size in bytes of the service info payload */ uint8 service_info[]; /* Service Info payload */ } wl_nan_sd_transmit_t; /* * WL_NAN_CMD_SYNC_TSRESERVE */ /** time slot */ #define NAN_MAX_TIMESLOT 32 typedef struct wl_nan_timeslot { uint32 abitmap; /**< available bitmap */ uint32 chanlist[NAN_MAX_TIMESLOT]; } wl_nan_timeslot_t; /* * Deprecated * * WL_NAN_CMD_SYNC_TSRELEASE */ typedef uint32 wl_nan_ts_bitmap_t; /* nan passive scan params */ #define NAN_SCAN_MAX_CHCNT 8 typedef struct wl_nan_scan_params { uint16 scan_time; uint16 home_time; uint16 ms_intvl; /**< interval between merge scan */ uint16 ms_dur; /**< duration of merge scan */ uint16 chspec_num; uint8 pad[2]; chanspec_t chspec_list[NAN_SCAN_MAX_CHCNT]; /**< act. used 3, 5 rfu */ } wl_nan_scan_params_t; /* * WL_NAN_CMD_DBG_SCAN */ typedef struct wl_nan_dbg_scan { struct ether_addr cid; uint8 pad[2]; } wl_nan_dbg_scan_t; /* NAN_DBG_LEVEL */ typedef struct wl_nan_dbg_level { uint32 nan_err_level; /* for Error levels */ uint32 nan_dbg_level; /* for bebug logs and trace */ uint32 nan_info_level; /* for dumps like prhex */ } wl_nan_dbg_level_t; /* * WL_NAN_CMD_DBG_EVENT_MASK */ typedef uint32 wl_nan_event_mask_t; /* * WL_NAN_CMD_DBG_EVENT_CHECK */ typedef uint8 wl_nan_dbg_ifname[BCM_MSG_IFNAME_MAX]; /* * WL_NAN_CMD_DBG_DUMP * WL_NAN_CMD_DBG_CLEAR */ enum wl_nan_dbg_dump_type { WL_NAN_DBG_DT_RSSI_DATA = 1, WL_NAN_DBG_DT_STATS_DATA = 2, /* * Additional enums before this line */ WL_NAN_DBG_DT_INVALID }; typedef int8 wl_nan_dbg_dump_type_t; /** various params and ctl swithce for nan_debug instance */ /* * WL_NAN_CMD_DBG_DEBUG */ typedef struct wl_nan_debug_params { uint16 cmd; /**< debug cmd to perform a debug action */ uint16 status; uint32 msglevel; /**< msg level if enabled */ uint8 enabled; /**< runtime debuging enabled */ uint8 collect; uint8 PAD[2]; } wl_nan_debug_params_t; typedef struct wl_nan_sched_svc_timeslot_s { uint32 abitmap; /* availability bitmap */ uint32 chanlist[NAN_MAX_TIMESLOT]; uint8 res; /* resolution: 0 = 16ms, 1 = 32ms, 2 = 64ms 3 = reserved. REfer NAN spec */ uint8 mapid; /* mapid from NAN spec. Used to differentiate 2G Vs 5G band */ uint8 PAD[2]; } wl_nan_sched_svc_timeslot_t; /* nan passive scan params */ #define NAN_SCAN_MAX_CHCNT 8 typedef struct nan_scan_params { uint16 scan_time; uint16 home_time; uint16 ms_intvl; /**< interval between merge scan */ uint16 ms_dur; /**< duration of merge scan */ uint16 chspec_num; uint8 pad[2]; chanspec_t chspec_list[NAN_SCAN_MAX_CHCNT]; /**< act. used 3, 5 rfu */ } nan_scan_params_t; /* nan cmd IDs */ enum wl_nan_cmds { /* nan cfg /disc & dbg ioctls */ WL_NAN_CMD_ENABLE = 1, WL_NAN_CMD_ATTR = 2, WL_NAN_CMD_NAN_JOIN = 3, WL_NAN_CMD_LEAVE = 4, WL_NAN_CMD_MERGE = 5, WL_NAN_CMD_STATUS = 6, WL_NAN_CMD_TSRESERVE = 7, WL_NAN_CMD_TSSCHEDULE = 8, WL_NAN_CMD_TSRELEASE = 9, WL_NAN_CMD_OUI = 10, WL_NAN_CMD_OOB_AF = 11, WL_NAN_CMD_COUNT = 15, WL_NAN_CMD_CLEARCOUNT = 16, /* discovery engine commands */ WL_NAN_CMD_PUBLISH = 20, WL_NAN_CMD_SUBSCRIBE = 21, WL_NAN_CMD_CANCEL_PUBLISH = 22, WL_NAN_CMD_CANCEL_SUBSCRIBE = 23, WL_NAN_CMD_TRANSMIT = 24, WL_NAN_CMD_CONNECTION = 25, WL_NAN_CMD_SHOW = 26, WL_NAN_CMD_STOP = 27, /* stop nan for a given cluster ID */ /* nan debug iovars & cmds */ WL_NAN_CMD_SCAN_PARAMS = 46, WL_NAN_CMD_SCAN = 47, WL_NAN_CMD_SCAN_RESULTS = 48, WL_NAN_CMD_EVENT_MASK = 49, WL_NAN_CMD_EVENT_CHECK = 50, WL_NAN_CMD_DUMP = 51, WL_NAN_CMD_CLEAR = 52, WL_NAN_CMD_RSSI = 53, WL_NAN_CMD_DEBUG = 60, WL_NAN_CMD_TEST1 = 61, WL_NAN_CMD_TEST2 = 62, WL_NAN_CMD_TEST3 = 63, WL_NAN_CMD_DISC_RESULTS = 64, /* nan 2.0 data path commands */ WL_NAN_CMD_DATAPATH = 65 }; /* NAN DP interface commands */ enum wl_nan_dp_cmds { /* nan 2.0 ioctls */ WL_NAN_CMD_DP_CAP = 1000, WL_NAN_CMD_DP_CONFIG = 1001, WL_NAN_CMD_DP_CREATE = 1002, WL_NAN_CMD_DP_AUTO_CONNECT = 1003, WL_NAN_CMD_DP_DATA_REQ = 1004, WL_NAN_CMD_DP_DATA_RESP = 1005, WL_NAN_CMD_DP_SCHED_UPD = 1006, WL_NAN_CMD_DP_END = 1007, WL_NAN_CMD_DP_CONNECT = 1008, WL_NAN_CMD_DP_STATUS = 1009 }; /* TODO Should remove this fixed length */ #define WL_NAN_DATA_SVC_SPEC_INFO_LEN 32 /* arbitrary */ #define WL_NAN_DP_MAX_SVC_INFO 0xFF #define WL_NAN_DATA_NDP_INST_SUPPORT 16 /* Nan flags */ #define WL_NAN_DP_FLAG_SVC_INFO (1 << 0) #define WL_NAN_DP_FLAG_CONFIRM (1 << 1) #define WL_NAN_DP_FLAG_EXPLICIT_CFM (1 << 2) #define WL_NAN_DP_FLAG_SECURITY (1 << 3) /* NAN Datapath host status */ #define WL_NAN_DP_STATUS_ACCEPTED 1 #define WL_NAN_DP_STATUS_REJECTED 0 /* to be done */ typedef struct wl_nan_dp_cap { uint8 tbd; } wl_nan_dp_cap_t; /** The service hash (service id) is exactly this many bytes. */ #define WL_NAN_SVC_HASH_LEN 6 /** Number of hash functions per bloom filter */ #define WL_NAN_HASHES_PER_BLOOM 4 /* no. of max last disc results */ #define WL_NAN_MAX_DISC_RESULTS 3 /* NAN security related defines */ /* NCS-SK related */ #define WL_NAN_NCS_SK_PMK_LEN 32 #define WL_NAN_NCS_SK_PMKID_LEN 16 /* recent discovery results */ typedef struct wl_nan_disc_result_s { wl_nan_instance_id_t instance_id; /* instance id of pub/sub req */ wl_nan_instance_id_t peer_instance_id; /* peer instance id of pub/sub req/resp */ uint8 svc_hash[WL_NAN_SVC_HASH_LEN]; /* service descp string */ struct ether_addr peer_mac; /* peer mac address */ } wl_nan_disc_result_t; /* list of recent discovery results */ typedef struct wl_nan_disc_results_s { wl_nan_disc_result_t disc_result[WL_NAN_MAX_DISC_RESULTS]; } wl_nan_disc_results_list_t; /* nan 1.0 events */ /* To be deprecated - will be replaced by event_disc_result */ typedef struct wl_nan_ev_disc_result { wl_nan_instance_id_t pub_id; wl_nan_instance_id_t sub_id; struct ether_addr pub_mac; uint8 opt_tlvs[0]; } wl_nan_ev_disc_result_t; typedef struct wl_nan_event_disc_result { wl_nan_instance_id_t pub_id; wl_nan_instance_id_t sub_id; struct ether_addr pub_mac; int8 publish_rssi; /* publisher RSSI */ uint8 attr_num; uint16 attr_list_len; /* length of the all the attributes in the SDF */ uint8 attr_list[0]; /* list of NAN attributes */ } wl_nan_event_disc_result_t; typedef struct wl_nan_ev_p2p_avail { struct ether_addr sender; struct ether_addr p2p_dev_addr; uint8 dev_role; uint8 resolution; uint8 repeat; uint8 pad[3]; chanspec_t chanspec; uint32 avail_bmap; } wl_nan_ev_p2p_avail_t; /* * discovery interface event structures * */ /* mandatory parameters for OOB action frame */ /* single-shot when bitmap and offset are set to 0; periodic otherwise */ typedef struct wl_nan_oob_af_params_s { /* bitmap for the 32 timeslots in 512TU dw interval */ uint32 ts_map; /* offset from start of dw, in us */ uint32 tx_offset; struct ether_addr bssid; struct ether_addr dest; uint32 pkt_lifetime; uint16 payload_len; uint8 payload[1]; } wl_nan_oob_af_params_t; /* NAN Ranging */ /* Bit defines for global flags */ #define WL_NAN_RANGING_ENABLE 1 /**< enable RTT */ #define WL_NAN_RANGING_RANGED 2 /**< Report to host if ranged as target */ typedef struct nan_ranging_config { uint32 chanspec; /**< Ranging chanspec */ uint16 timeslot; /**< NAN RTT start time slot 1-511 */ uint16 duration; /**< NAN RTT duration in ms */ struct ether_addr allow_mac; /**< peer initiated ranging: the allowed peer mac * address, a unicast (for one peer) or * a broadcast for all. Setting it to all zeros * means responding to none,same as not setting * the flag bit NAN_RANGING_RESPOND */ uint16 flags; } wl_nan_ranging_config_t; /** list of peers for self initiated ranging */ /** Bit defines for per peer flags */ #define WL_NAN_RANGING_REPORT (1<<0) /**< Enable reporting range to target */ typedef struct nan_ranging_peer { uint32 chanspec; /**< desired chanspec for this peer */ uint32 abitmap; /**< available bitmap */ struct ether_addr ea; /**< peer MAC address */ uint8 frmcnt; /**< frame count */ uint8 retrycnt; /**< retry count */ uint16 flags; /**< per peer flags, report or not */ uint16 PAD; } wl_nan_ranging_peer_t; typedef struct nan_ranging_list { uint8 count; /**< number of MAC addresses */ uint8 num_peers_done; /**< host set to 0, when read, shows number of peers * completed, success or fail */ uint8 num_dws; /**< time period to do the ranging, specified in dws */ uint8 reserve; /**< reserved field */ wl_nan_ranging_peer_t rp[1]; /**< variable length array of peers */ } wl_nan_ranging_list_t; /* ranging results, a list for self initiated ranging and one for peer initiated ranging */ /* There will be one structure for each peer */ #define WL_NAN_RANGING_STATUS_SUCCESS 1 #define WL_NAN_RANGING_STATUS_FAIL 2 #define WL_NAN_RANGING_STATUS_TIMEOUT 3 #define WL_NAN_RANGING_STATUS_ABORT 4 /**< with partial results if sounding count > 0 */ typedef struct nan_ranging_result { uint8 status; /**< 1: Success, 2: Fail 3: Timeout 4: Aborted */ uint8 sounding_count; /**< number of measurements completed (0 = failure) */ struct ether_addr ea; /**< initiator MAC address */ uint32 chanspec; /**< Chanspec where the ranging was done */ uint32 timestamp; /**< 32bits of the TSF timestamp ranging was completed at */ uint32 distance; /**< mean distance in meters expressed as Q4 number. * Only valid when sounding_count > 0. Examples: * 0x08 = 0.5m * 0x10 = 1m * 0x18 = 1.5m * set to 0xffffffff to indicate invalid number */ int32 rtt_var; /**< standard deviation in 10th of ns of RTTs measured. * Only valid when sounding_count > 0 */ struct ether_addr tgtea; /**< target MAC address */ uint8 PAD[2]; } wl_nan_ranging_result_t; typedef struct nan_ranging_event_data { uint8 mode; /**< 1: Result of host initiated ranging */ /* 2: Result of peer initiated ranging */ uint8 reserved; uint8 success_count; /**< number of peers completed successfully */ uint8 count; /**< number of peers in the list */ wl_nan_ranging_result_t rr[1]; /**< variable array of ranging peers */ } wl_nan_ranging_event_data_t; enum { WL_NAN_STATS_RSSI = 1, WL_NAN_STATS_DATA = 2, WL_NAN_STATS_DP = 3, /* * ***** ADD before this line **** */ WL_NAN_STATS_INVALID }; typedef struct wl_nan_dp_stats { uint32 tbd; /* TBD */ } wl_nan_dp_stats_t; typedef struct wl_nan_stats { /* general */ uint32 cnt_dw; /* DW slots */ uint32 cnt_disc_bcn_sch; /* disc beacon slots */ uint32 cnt_amr_exp; /* count of ambtt expiries resetting roles */ uint32 cnt_bcn_upd; /* count of beacon template updates */ uint32 cnt_bcn_tx; /* count of sync & disc bcn tx */ uint32 cnt_bcn_rx; /* count of sync & disc bcn rx */ uint32 cnt_sync_bcn_tx; /* count of sync bcn tx within DW */ uint32 cnt_disc_bcn_tx; /* count of disc bcn tx */ uint32 cnt_sdftx_bcmc; /* count of bcast/mcast sdf tx */ uint32 cnt_sdftx_uc; /* count of unicast sdf tx */ uint32 cnt_sdftx_fail; /* count of unicast sdf tx fails */ uint32 cnt_sdf_rx; /* count of sdf rx */ /* NAN roles */ uint32 cnt_am; /* anchor master */ uint32 cnt_master; /* master */ uint32 cnt_nms; /* non master sync */ uint32 cnt_nmns; /* non master non sync */ /* TX */ uint32 cnt_err_txtime; /* txtime in sync bcn frame not a multiple of dw intv */ uint32 cnt_err_unsch_tx; /* tx while not in DW/ disc bcn slot */ uint32 cnt_err_bcn_tx; /* beacon tx error */ uint32 cnt_sync_bcn_tx_miss; /* no. of times time delta between 2 cosequetive * sync beacons is more than expected */ /* MSCH */ uint32 cnt_err_msch_reg; /* error is Dw/disc reg with msch */ uint32 cnt_err_wrong_ch_cb; /* count of msch calbacks in wrong channel */ uint32 cnt_dw_skip; /* count of DW rejected */ uint32 cnt_disc_skip; /* count of disc bcn rejected */ uint32 cnt_dw_start_early; /* msch cb not at registered time */ uint32 cnt_dw_start_late; /* no. of delays in slot start */ /* SCANS */ uint32 cnt_mrg_scan; /* count of merge scans completed */ uint32 cnt_err_ms_rej; /* number of merge scan failed */ uint32 cnt_scan_results; /* no. of nan beacons scanned */ uint32 cnt_join_scan_rej; /* no. of join scans rejected */ uint32 cnt_nan_scan_abort; /* no. of join scans rejected */ /* enable/disable */ uint32 cnt_nan_enab; /* no. of times nan feature got enabled */ uint32 cnt_nan_disab; /* no. of times nan feature got disabled */ uint32 cnt_sync_bcn_rx; /* count of sync bcn rx within DW */ } wl_nan_stats_t; #define WL_NAN_MAC_MAX_NAN_PEERS 6 #define WL_NAN_MAC_MAX_RSSI_DATA_PER_PEER 10 typedef struct wl_nan_nbr_rssi { uint8 rx_chan; /* channel number on which bcn rcvd */ uint8 PAD[3]; int32 rssi_raw; /* received rssi value */ int32 rssi_avg; /* normalized rssi value */ } wl_nan_peer_rssi_t; typedef struct wl_nan_peer_rssi_entry { struct ether_addr mac; /* peer mac address */ uint8 flags; /* TODO:rssi data order: latest first, oldest first etc */ uint8 rssi_cnt; /* rssi data sample present */ wl_nan_peer_rssi_t rssi[WL_NAN_MAC_MAX_RSSI_DATA_PER_PEER]; /* RSSI data frm peer */ } wl_nan_peer_rssi_entry_t; #define WL_NAN_PEER_RSSI 0x1 #define WL_NAN_PEER_RSSI_LIST 0x2 typedef struct wl_nan_nbr_rssi_data { uint8 flags; /* this is a list or single rssi data */ uint8 peer_cnt; /* number of peers */ uint16 pad; /* padding */ wl_nan_peer_rssi_entry_t peers[1]; /* peers data list */ } wl_nan_peer_rssi_data_t; /* WL_NAN_CMD_DBG_DUMP, GET Resp */ typedef struct wl_nan_dbg_dump_rsp { wl_nan_dbg_dump_type_t dump_type; /* dump data type */ uint8 pad[3]; union { wl_nan_peer_rssi_data_t peer_rssi; wl_nan_stats_t nan_stats; } u; } wl_nan_dbg_dump_rsp_t; enum nan_termination_status { NAN_TERM_REASON_INVALID = 1, NAN_TERM_REASON_TIMEOUT = 2, NAN_TERM_REASON_USER_REQ = 3, NAN_TERM_REASON_FAILURE = 4, NAN_TERM_REASON_COUNT_REACHED = 5, NAN_TERM_REASON_DE_SHUTDOWN = 6, NAN_TERM_REASON_DISABLE_IN_PROGRESS = 7 }; /* nan2 data iovar */ /* nan2 qos */ typedef struct wl_nan_dp_qos { uint8 tid; uint8 pad; uint16 pkt_size; uint16 mean_rate; uint16 svc_interval; } wl_nan_dp_qos_t; /* ndp config */ typedef struct wl_nan_ndp_config { uint8 ndp_id; uint8 pub_id; struct ether_addr pub_addr; struct ether_addr data_addr; /* configure local data addr */ struct ether_addr init_data_addr; /* initiator data addr */ uint8 svc_spec_info[WL_NAN_DATA_SVC_SPEC_INFO_LEN]; wl_nan_dp_qos_t qos; uint16 avail_len; uint8 pad[3]; uint8 data[1]; } wl_nan_ndp_config_t; /* nan2 device capabilities */ typedef struct wl_nan_ndp_oper_cfg { uint8 awake_dw_2g; uint8 awake_dw_5g; uint8 bands_supported; uint8 op_mode; } wl_nan_ndp_oper_cfg_t; typedef uint8 wl_nan_ndp_ndpid_t; typedef uint8 wl_nan_ndp_conn_t; typedef struct wl_nan_dp_req { uint8 type; /* 0- unicast 1 - multicast */ uint8 pub_id; /* Publisher ID */ uint16 flags; struct ether_addr peer_mac; /* Peer's NMI addr */ struct ether_addr mcast_mac; /* Multicast addr */ wl_nan_dp_qos_t qos; uint8 tlv_params[]; /* xtlv parameters for command */ } wl_nan_dp_req_t; /* TODO Need to replace ndp_id with lndp_id */ /* Return structure to data req IOVAR */ typedef struct wl_nan_dp_req_ret { struct ether_addr indi; /* Initiators data mac addr */ uint8 ndp_id; /* Initiators ndpid */ uint8 pad; } wl_nan_dp_req_ret_t; typedef struct wl_nan_dp_resp { uint8 type; /* 0- unicast 1 - multicast */ uint8 status; /* Accepted or Rejected */ uint8 reason_code; /* Local NDP ID for unicast, mc_id for multicast, 0 for implicit NMSG */ uint8 ndp_id; wl_nan_dp_qos_t qos; /* Initiator data address for unicast or multicast address for multicast */ struct ether_addr mac_addr; uint16 flags; uint8 tlv_params[]; /* xtlv parameters for command */ } wl_nan_dp_resp_t; /* Return structure to data resp IOVAR */ typedef struct wl_nan_dp_resp_ret { uint8 nmsgid; /* NMSG ID or for multicast else 0 */ uint8 pad[3]; } wl_nan_dp_resp_ret_t; typedef struct wl_nan_dp_conf { uint8 lndp_id; uint8 status; /* Accepted or Rejected */ uint8 pad[2]; } wl_nan_dp_conf_t; typedef struct wl_nan_dp_end { uint8 lndp_id; uint8 status; uint8 pad[2]; } wl_nan_dp_end_t; typedef struct wl_nan_dp_schedupd { uint8 type; /* 0: unicast, 1: multicast */ uint8 flags; struct ether_addr addr; /* peer NMI or multicast addr */ wl_nan_dp_qos_t qos; uint8 map_id; uint8 pad[3]; } wl_nan_dp_schedupd_t; /* set: update with notification, unset: NDL setup handshake */ #define WL_NAN_DP_SCHEDUPD_NOTIF (1 << 0) /* list ndp ids */ typedef struct wl_nan_ndp_id_list { uint16 ndp_count; uint8 lndp_id[]; } wl_nan_ndp_id_list_t; /* nan2 status */ typedef struct ndp_session { uint8 lndp_id; uint8 state; uint8 pub_id; uint8 pad; } ndp_session_t; typedef struct wl_nan_ndp_status { struct ether_addr peer_nmi; struct ether_addr peer_ndi; ndp_session_t session; uint8 pad; } wl_nan_ndp_status_t; /* events */ #define NAN_DP_SESSION_UNICAST 0 #define NAN_DP_SESSION_MULTICAST 1 #define NAN_DP_SECURITY_NONE 0 #define NAN_DP_SECURITY_CSID 1 #define NAN_DP_SECURITY_MK 2 #define WL_NAN_DATA_NMSGID_LEN 8 /* 8 bytes as per nan spec */ /* Common event structure for Nan Datapath * Used for sending NDP Indication, Response, Confirmation, Securty Install and Establish events */ typedef struct wl_nan_ev_datapath_cmn { uint8 type; /* ndp_id is valid only if type is unicast */ uint8 ndp_id; uint8 pub_id; uint8 security; /* Following two fields are valid only if type is unicast */ struct ether_addr initiator_ndi; struct ether_addr responder_ndi; struct ether_addr peer_nmi; uint8 status; uint8 role; /* Following two fields are valid only if type is multicast */ uint8 nmsg_id[WL_NAN_DATA_NMSGID_LEN]; uint8 mc_id; uint8 pad[1]; uint16 opt_tlv_len; uint8 opt_tlvs[]; } wl_nan_ev_datapath_cmn_t; typedef struct wl_nan_ev_datapath_end { uint8 ndp_id; uint8 status; uint8 pad[2]; struct ether_addr peer_nmi; struct ether_addr peer_ndi; } wl_nan_ev_datapath_end_t; /* NAN2.0 Ranging definitions */ /* result indication bit map */ #define NAN_RANGE_INDICATION_CONT (1<<0) #define NAN_RANGE_INDICATION_INGRESS (1<<1) #define NAN_RANGE_INIDICATION_EGRESS (1<<2) /* responder flags */ #define NAN_RANGE_FLAG_AUTO_ACCEPT (1 << 0) #define NAN_RANGE_FLAG_RESULT_REQUIRED (1 << 1) typedef struct wl_nan_range_req { struct ether_addr peer; uint8 publisher_id; uint8 indication; /* bit map for result event */ uint32 resolution; /* default millimeters */ uint32 ingress; /* ingress limit in mm */ uint32 egress; /* egress limit in mm */ uint32 interval; /* max interval(in TU) b/w two ranging measurements */ } wl_nan_range_req_t; #define NAN_RNG_REQ_IOV_LEN 24 typedef uint8 wl_nan_range_id; typedef struct wl_nan_range_resp { wl_nan_range_id range_id; uint8 flags; /* auto response, range result required */ uint8 status; /* accept, reject */ uint8 indication; /* bit map for result event */ uint32 resolution; /* default millimeters */ uint32 ingress; /* ingress limit in mm */ uint32 egress; /* egress limit in mm */ uint32 interval; /* max interval(in TU) b/w two ranging measurements */ } wl_nan_range_resp_t; #define NAN_RNG_RESP_IOV_LEN 20 #define NAN_RNG_MAX_IOV_LEN 255 typedef struct wl_nan_ev_rng_req_ind { struct ether_addr peer_m_addr; uint8 rng_id; /* ftm parameters */ uint8 max_burst_dur; uint8 min_ftm_delta; uint8 max_num_ftm; uint8 ftm_format_bw; /* location info availability bit map */ uint8 lc_info_avail; /* Last movement indication */ uint16 last_movement; uint8 pad[2]; } wl_nan_ev_rng_req_ind_t; #define NAN_RNG_REQ_IND_SIZE 14 typedef struct wl_nan_ev_rng_rpt_ind { uint32 dist_mm; /* in millimeter */ struct ether_addr peer_m_addr; uint8 indication; /* indication definitions mentioned above */ uint8 pad; } wl_nan_ev_rng_rpt_ind_t; #define NAN_RNG_RPT_IND_SIZE 11 typedef struct wl_nan_ev_rng_term_ind { struct ether_addr peer_m_addr; uint8 reason_code; uint8 pad; } wl_nan_ev_rng_term_ind_t; #define NAN_RNG_TERM_IND_SIZE 7 /* ********************* end of NAN section ******************************** */ /* endif WL_NAN */ #define P2P_NAN_IOC_BUFSZ 512 /* some sufficient ioc buff size */ #define WL_P2P_NAN_IOCTL_VERSION 0x1 /* container for p2p nan iovtls & events */ typedef struct wl_p2p_nan_ioc { uint16 version; /* interface command or event version */ uint16 id; /* p2p nan ioctl cmd ID */ uint16 len; /* total length of data[] */ uint16 pad; /* padding */ uint8 data []; /* var len payload of bcm_xtlv_t type */ } wl_p2p_nan_ioc_t; /* p2p nan cmd IDs */ enum wl_p2p_nan_cmds { /* p2p nan cfg ioctls */ WL_P2P_NAN_CMD_ENABLE = 1, WL_P2P_NAN_CMD_CONFIG = 2, WL_P2P_NAN_CMD_DEL_CONFIG = 3, WL_P2P_NAN_CMD_GET_INSTS = 4 }; #define WL_P2P_NAN_CONFIG_VERSION 1 #define WL_P2P_NAN_DEVICE_P2P 0x0 #define WL_P2P_NAN_DEVICE_GO 0x1 #define WL_P2P_NAN_DEVICE_GC 0x2 #define WL_P2P_NAN_DEVICE_INVAL 0xFF /* NAN P2P operation */ typedef struct p2p_nan_config { uint16 version; /* wl_p2p_nan_config_t structure version */ uint16 len; /* total length including version and variable IE */ uint32 flags; /* 0x1 to NEW, 0x2 to ADD, 0x4 to DEL */ uint8 inst_id; /* publisher/subscriber id */ uint8 inst_type; /* publisher/subscriber */ uint8 dev_role; /* P2P device role: 'P2P','GO' or 'GC' */ uint8 pad1; /* padding */ uint8 resolution; /* Availability bitmap resolution */ uint8 repeat; /* Whether Availabilty repeat across DW */ uint16 ie_len; /* variable ie len */ struct ether_addr dev_mac; /* P2P device addres */ uint16 pad2; /* Padding */ uint32 avail_bmap; /* availability interval bitmap */ uint32 chanspec; /* Chanspec */ uint8 ie[]; /* hex ie data */ } wl_p2p_nan_config_t; #define WL_P2P_NAN_SERVICE_LIST_VERSION 1 typedef enum wl_nan_service_type { WL_NAN_SVC_INST_PUBLISHER = 1, WL_NAN_SVC_INST_SUBSCRIBER = 2 } wl_nan_service_type_t; #define WL_P2P_NAN_CONFIG_NEW 0x1 #define WL_P2P_NAN_CONFIG_ADD 0x2 #define WL_P2P_NAN_CONFIG_DEL 0x4 typedef struct wl_nan_svc_inst { uint8 inst_id; /* publisher/subscriber id */ uint8 inst_type; /* publisher/subscriber */ } wl_nan_svc_inst_t; typedef struct wl_nan_svc_inst_list { uint16 version; /* this structure version */ uint16 len; /* total length including version and variable svc list */ uint16 count; /* service instance count */ uint16 pad; /* padding */ wl_nan_svc_inst_t svc[1]; /* service instance list */ } wl_nan_svc_inst_list_t; #define NAN_POST_DISC_P2P_DATA_VER 1 /* This structure will be used send peer p2p data with * NAN discovery result */ typedef struct nan_post_disc_p2p_data { uint8 ver; /* this structure version */ uint8 dev_role; /* P2P Device role */ uint8 resolution; /* Availability bitmap resolution */ uint8 repeat; /* Whether Availabilty repeat across DW */ struct ether_addr dev_mac; /* P2P device addres */ uint16 pad1; /* Padding */ uint32 chanspec; /* Chanspec */ uint32 avl_bmp; /* availability interval bitmap */ } nan_post_disc_p2p_data_t; /* timeslot etc for NAN */ enum { WL_TMU_TU = 0, WL_TMU_SEC = 1, WL_TMU_MILLI_SEC = 2, WL_TMU_MICRO_SEC = 3, WL_TMU_NANO_SEC = 4, WL_TMU_PICO_SEC = 5 }; typedef int16 wl_tmu_t; typedef struct { uint32 intvl; /* time interval */ wl_tmu_t tmu; /* time unit */ uint8 pad[2]; /* padding */ } wl_time_interval_t; /* availabiloty slot flags */ enum { WL_AVAIL_SLOT_NONE = 0x0000, WL_AVAIL_SLOT_COM = 0x0001, /* committed */ WL_AVAIL_SLOT_POT = 0x0002, /* potential */ WL_AVAIL_SLOT_PROP = 0x0004, /* proposed - note: not configurable */ WL_AVAIL_SLOT_PAGED = 0x0008 /* P-NDL */ /* 0x0030 - resrved for NDC index */ /* 0x00c0 - resrved for usage preference */ }; typedef int16 wl_avail_slot_flags_t; #define WL_AVAIL_SLOT_NDC_MASK 0x0030 /* up to 4 NDCs */ #define WL_AVAIL_SLOT_NDC_SHIFT 4 #define WL_AVAIL_SLOT_NDC(_flags) (((_flags) & WL_AVAIL_SLOT_NDC_MASK) \ >> WL_AVAIL_SLOT_NDC_SHIFT) #define WL_AVAIL_SLOT_SET_NDC(_flags, _ndc_idx) (((_flags) & ~WL_AVAIL_SLOT_NDC_MASK) |\ ((_ndc_idx) << WL_AVAIL_SLOT_NDC_SHIFT)) #define WL_AVAIL_SLOT_UPREF_MASK 0x00c0 /* up to 4 usage preferences */ #define WL_AVAIL_SLOT_UPREF_SHIFT 6 #define WL_AVAIL_SLOT_UPREF(_flags) (((_flags) & WL_AVAIL_SLOT_UPREF_MASK) \ >> WL_AVAIL_SLOT_UPREF_SHIFT) #define WL_AVAIL_SLOT_SET_UPREF(_flags, _pref) (((_flags) & ~WL_AVAIL_SLOT_UPREF_MASK) |\ ((_pref) << WL_AVAIL_SLOT_UPREF_SHIFT)) typedef struct wl_avail_slot { wl_avail_slot_flags_t flags; uint16 PAD; wl_time_interval_t start; /* from time ref */ wl_time_interval_t duration; /* from start */ uint32 chanspec; /* channel spec */ } wl_avail_slot_t; /* time reference */ enum { WL_TIME_REF_NONE = 0, WL_TIME_REF_DEV_TSF = 1, WL_TIME_REF_NAN_DW = 2, WL_TIME_REF_TBTT = 3, WL_TIME_REF_NAN_DW0 = 4 }; typedef int16 wl_time_ref_t; enum { WL_AVAIL_NONE = 0x0000, WL_AVAIL_LOCAL = 0x0001, WL_AVAIL_PEER = 0x0002, WL_AVAIL_NDC = 0x0003, WL_AVAIL_IMMUTABLE = 0x0004, WL_AVAIL_RESPONSE = 0x0005, WL_AVAIL_COUNTER = 0x0006, WL_AVAIL_RANGING = 0x0007, WL_AVAIL_TYPE_MAX = WL_AVAIL_RANGING /* New ones before and update */ }; #define WL_AVAIL_TYPE_MASK 0x000F #define WL_AVAIL_FLAG_RAW_MODE 0x8000 typedef int16 wl_avail_flags_t; /* availability entry flags */ enum { WL_AVAIL_ENTRY_NONE = 0x0000, WL_AVAIL_ENTRY_COM = 0x0001, /* committed */ WL_AVAIL_ENTRY_POT = 0x0002, /* potential */ WL_AVAIL_ENTRY_COND = 0x0004, /* conditional */ WL_AVAIL_ENTRY_PAGED = 0x0008, /* P-NDL */ WL_AVAIL_ENTRY_USAGE = 0x0030, /* usage preference */ WL_AVAIL_ENTRY_BIT_DUR = 0x00c0, /* bit duration */ WL_AVAIL_ENTRY_BAND_PRESENT = 0x0100, /* band present */ WL_AVAIL_ENTRY_CHAN_PRESENT = 0x0200, /* channel information present */ WL_AVAIL_ENTRY_CHAN_ENTRY_PRESENT = 0x0400, /* channel entry (opclass+bitmap) */ }; /* bit duration */ enum { WL_AVAIL_BIT_DUR_16 = 0, /* 16TU */ WL_AVAIL_BIT_DUR_32 = 1, /* 32TU */ WL_AVAIL_BIT_DUR_64 = 2, /* 64TU */ WL_AVAIL_BIT_DUR_128 = 3, /* 128TU */ }; /* period */ enum { WL_AVAIL_PERIOD_0 = 0, /* 0TU */ WL_AVAIL_PERIOD_128 = 1, /* 128TU */ WL_AVAIL_PERIOD_256 = 2, /* 256TU */ WL_AVAIL_PERIOD_512 = 3, /* 512TU */ WL_AVAIL_PERIOD_1024 = 4, /* 1024TU */ WL_AVAIL_PERIOD_2048 = 5, /* 2048TU */ WL_AVAIL_PERIOD_4096 = 6, /* 4096TU */ WL_AVAIL_PERIOD_8192 = 7, /* 8192TU */ }; /* band */ enum { WL_AVAIL_BAND_NONE = 0, /* reserved */ WL_AVAIL_BAND_SUB1G = 1, /* sub-1 GHz */ WL_AVAIL_BAND_2G = 2, /* 2.4 GHz */ WL_AVAIL_BAND_3G = 3, /* reserved (for 3.6 GHz) */ WL_AVAIL_BAND_5G = 4, /* 4.9 and 5 GHz */ WL_AVAIL_BAND_60G = 5, /* reserved (for 60 GHz) */ }; #define WL_AVAIL_ENTRY_TYPE_MASK 0x0F #define WL_AVAIL_ENTRY_USAGE_MASK 0x0030 /* up to 4 usage preferences */ #define WL_AVAIL_ENTRY_USAGE_SHIFT 4 #define WL_AVAIL_ENTRY_USAGE_VAL(_flags) (((_flags) & WL_AVAIL_ENTRY_USAGE_MASK) \ >> WL_AVAIL_ENTRY_USAGE_SHIFT) #define WL_AVAIL_ENTRY_BIT_DUR_MASK 0x00c0 /* 0:16TU, 1:32TU, 2:64TU, 3:128TU */ #define WL_AVAIL_ENTRY_BIT_DUR_SHIFT 6 #define WL_AVAIL_ENTRY_BIT_DUR_VAL(_flags) (((_flags) & WL_AVAIL_ENTRY_BIT_DUR_MASK) \ >> WL_AVAIL_ENTRY_BIT_DUR_SHIFT) #define WL_AVAIL_ENTRY_BAND_MASK 0x0100 /* 0=band not present, 1=present */ #define WL_AVAIL_ENTRY_BAND_SHIFT 8 #define WL_AVAIL_ENTRY_CHAN_MASK 0x0200 /* 0=channel info not present, 1=present */ #define WL_AVAIL_ENTRY_CHAN_SHIFT 9 #define WL_AVAIL_ENTRY_CHAN_ENTRY_MASK 0x0400 /* 0=chanspec, 1=hex channel entry */ #define WL_AVAIL_ENTRY_CHAN_ENTRY_SHIFT 10 #define WL_AVAIL_ENTRY_OPCLASS_MASK 0xFF #define WL_AVAIL_ENTRY_CHAN_BITMAP_MASK 0xFF00 #define WL_AVAIL_ENTRY_CHAN_BITMAP_SHIFT 8 #define WL_AVAIL_ENTRY_CHAN_BITMAP_VAL(_info) (((_info) & WL_AVAIL_ENTRY_CHAN_BITMAP_MASK) \ >> WL_AVAIL_ENTRY_CHAN_BITMAP_SHIFT) /* Used for raw channel entry field input */ #define MAX_CHAN_ENTRY_LEN 6 typedef struct wl_avail_entry { uint16 length; /* total length */ uint16 start_offset; /* in TUs, multiply by 16 for total offset */ union { uint32 channel_info; /* either chanspec or hex channel entry (opclass + * bitmap per NAN spec), as indicated by setting * WL_AVAIL_ENTRY_HEX_CHAN_ENTRY flag */ uint32 band; /* defined by WL_BAND enum, 2=2.4GHz, 4=5GHz */ uint8 channel_entry[MAX_CHAN_ENTRY_LEN]; } u; /* band or channel value, 0=all band/channels */ uint8 pad[2]; uint8 period; /* in TUs, defined by WL_AVAIL_PERIOD enum * 1:128, 2:256, 3:512, 4:1024, 5:2048, 6:4096, * 7:8192 */ uint8 bitmap_len; uint16 flags; /* defined by avail entry flags enum: * type, usage pref, bit duration, band, channel */ uint8 bitmap[]; /* time bitmap */ } wl_avail_entry_t; typedef struct wl_avail { uint16 length; /* total length */ uint16 flags; /* defined by WL_AVAIL enum * 1=local, 2=peer, 3=ndc, 4=immutable, * 5=response, 6=counter */ uint8 id; /* id used for multiple maps/avail */ uint8 pad[3]; struct ether_addr addr; /* peer mac address or ndc id */ uint8 num_entries; uint8 entry_offset; /* add additional fields above this line */ uint8 entry[]; } wl_avail_t; #define WL_AVAIL_MIN_LEN(n) ((n) ? OFFSETOF(wl_avail_t, entry) + \ ((n) * OFFSETOF(wl_avail_entry_t, bitmap)) : 0) /* unaligned schedule (window) */ typedef struct wl_avail_ulw { uint8 id; /* schedule ID */ uint8 overwrite; /* bit 0: overwrite all * 1-4: map ID if overwrite all is 0 */ uint16 flags; uint32 start; /* start time of first ULW, in us */ uint32 dur; /* duration of ULW, in us */ uint32 period; /* time between consecutive ULWs, in us */ union { uint32 chanspec; uint32 band; uint8 chan_entry[MAX_CHAN_ENTRY_LEN]; uint8 pad[8]; } u; uint8 cntdwn; /* remaining ULWs before schedule ends */ uint8 pad[3]; } wl_avail_ulw_t; /* unset: NAN is not available during ULW, set: NAN is avail depending on ctrl flags */ #define WL_NAN_ULW_CTRL_PRESENT (1 << 0) /* unset: band, set: channel */ #define WL_NAN_ULW_CTRL_TYPE (1 << 1) /* set: NAN is availabile on specified band/channel */ #define WL_NAN_ULW_CTRL_AVAIL (1 << 2) /* channel is provided in raw attribute format */ #define WL_NAN_ULW_CTRL_RAW_CHAN (1 << 3) /* nan wfa testmode operations */ enum { WL_NAN_WFA_TM_IGNORE_TERMINATE_NAF = 0x00000001, WL_NAN_WFA_TM_IGNORE_RX_DATA_OUTSIDE_CRB = 0x00000002, WL_NAN_WFA_TM_ALLOW_TX_DATA_OUTSIDE_CRB = 0x00000004, WL_NAN_WFA_TM_ENFORCE_NDL_COUNTER = 0x00000008, WL_NAN_WFA_TM_BYPASS_NDL_PROPOSAL_VALIDATION = 0x00000010, /* allow data(pings) tx while ndp sec negotiation */ WL_NAN_WFA_TM_SEC_SEND_PINGS_BYPASS_NDP_SM = 0x00000020, /* generate and insert incorrect mic */ WL_NAN_WFA_TM_SEC_INCORRECT_MIC = 0x00000040, /* send m4 reject deliberately */ WL_NAN_WFA_TM_SEC_REJECT_STATUS4M4 = 0x00000080, /* send mgmt frame (for eg. ndp terminate) in clear txt (bypass security) */ WL_NAN_WFA_TM_SEC_SEND_MGMT_CLEAR = 0x00000100, WL_NAN_WFA_TM_FLAG_MASK = 0x000001ff /* add above & update mask */ }; typedef uint32 wl_nan_wfa_testmode_t; #define RSSI_THRESHOLD_SIZE 16 #define MAX_IMP_RESP_SIZE 256 typedef struct wl_proxd_rssi_bias { int32 version; /**< version */ int32 threshold[RSSI_THRESHOLD_SIZE]; /**< threshold */ int32 peak_offset; /**< peak offset */ int32 bias; /**< rssi bias */ int32 gd_delta; /**< GD - GD_ADJ */ int32 imp_resp[MAX_IMP_RESP_SIZE]; /**< (Hi*Hi)+(Hr*Hr) */ } wl_proxd_rssi_bias_t; typedef struct wl_proxd_rssi_bias_avg { int32 avg_threshold[RSSI_THRESHOLD_SIZE]; /**< avg threshold */ int32 avg_peak_offset; /**< avg peak offset */ int32 avg_rssi; /**< avg rssi */ int32 avg_bias; /**< avg bias */ } wl_proxd_rssi_bias_avg_t; #include typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_info { uint16 type; /**< type: 0 channel table, 1 channel smoothing table, 2 and 3 seq */ uint16 index; /**< The current frame index, from 1 to total_frames. */ uint16 tof_cmd; /**< M_TOF_CMD */ uint16 tof_rsp; /**< M_TOF_RSP */ uint16 tof_avb_rxl; /**< M_TOF_AVB_RX_L */ uint16 tof_avb_rxh; /**< M_TOF_AVB_RX_H */ uint16 tof_avb_txl; /**< M_TOF_AVB_TX_L */ uint16 tof_avb_txh; /**< M_TOF_AVB_TX_H */ uint16 tof_id; /**< M_TOF_ID */ uint8 tof_frame_type; uint8 tof_frame_bw; int8 tof_rssi; int32 tof_cfo; int32 gd_adj_ns; /**< gound delay */ int32 gd_h_adj_ns; /**< group delay + threshold crossing */ int16 nfft; /**< number of samples stored in H */ uint8 num_max_cores; } BWL_POST_PACKED_STRUCT wl_proxd_collect_info_t; #include #define K_TOF_COLLECT_H_PAD 1 #define K_TOF_COLLECT_SC_20MHZ (64) /* Maximum possible size of sample capture */ #define K_TOF_COLLECT_SC_80MHZ (2*K_TOF_COLLECT_SC_20MHZ) /* Maximum possible size of channel dump */ #define K_TOF_COLLECT_CHAN_SIZE (2*K_TOF_COLLECT_SC_80MHZ) /* A few extra samples are required to estimate frequency offset Right now 16 samples are being used. Can be changed in future. */ #define K_TOF_COLLECT_SAMP_SIZE_20MHZ (2*(K_TOF_COLLECT_SC_20MHZ)+16+K_TOF_COLLECT_H_PAD) #define K_TOF_COLLECT_RAW_SAMP_SIZE_20MHZ (2*K_TOF_COLLECT_SAMP_SIZE_20MHZ) #define K_TOF_COLLECT_H_SIZE_20MHZ (K_TOF_COLLECT_SAMP_SIZE_20MHZ) #define K_TOF_COLLECT_HRAW_SIZE_20MHZ (K_TOF_COLLECT_RAW_SAMP_SIZE_20MHZ) #define K_TOF_COLLECT_SAMP_SIZE_80MHZ (2*(K_TOF_COLLECT_SC_80MHZ)+16+K_TOF_COLLECT_H_PAD) #define K_TOF_COLLECT_RAW_SAMP_SIZE_80MHZ (2*K_TOF_COLLECT_SAMP_SIZE_80MHZ) #define K_TOF_COLLECT_H_SIZE_80MHZ (K_TOF_COLLECT_SAMP_SIZE_80MHZ) #define K_TOF_COLLECT_HRAW_SIZE_80MHZ (K_TOF_COLLECT_RAW_SAMP_SIZE_80MHZ) #define WL_PROXD_COLLECT_DATA_VERSION_1 1 #include typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_data_v1 { wl_proxd_collect_info_t info; uint8 ri_rr[FTM_TPK_RI_RR_LEN]; /**< raw data read from phy used to adjust timestamps */ uint32 H[K_TOF_COLLECT_H_SIZE_20MHZ]; } BWL_POST_PACKED_STRUCT wl_proxd_collect_data_t_v1; #include #define WL_PROXD_COLLECT_DATA_VERSION_2 2 typedef struct wl_proxd_collect_data_v2 { uint16 version; uint16 len; wl_proxd_collect_info_t info; uint8 ri_rr[FTM_TPK_RI_RR_LEN]; uint8 pad[3]; /* should be based on FTM_TPK_RI_RR_LEN */ /**< raw data read from phy used to adjust timestamps */ uint32 H[K_TOF_COLLECT_H_SIZE_20MHZ]; uint32 chan[4 * K_TOF_COLLECT_CHAN_SIZE]; } wl_proxd_collect_data_t_v2; #define WL_PROXD_COLLECT_DATA_VERSION_MAX WL_PROXD_COLLECT_DATA_VERSION_2 typedef struct wl_proxd_debug_data { uint8 count; /**< number of packets */ uint8 stage; /**< state machone stage */ uint8 received; /**< received or txed */ uint8 paket_type; /**< packet type */ uint8 category; /**< category field */ uint8 action; /**< action field */ uint8 token; /**< token number */ uint8 follow_token; /**< following token number */ uint16 index; /**< index of the packet */ uint16 tof_cmd; /**< M_TOF_CMD */ uint16 tof_rsp; /**< M_TOF_RSP */ uint16 tof_avb_rxl; /**< M_TOF_AVB_RX_L */ uint16 tof_avb_rxh; /**< M_TOF_AVB_RX_H */ uint16 tof_avb_txl; /**< M_TOF_AVB_TX_L */ uint16 tof_avb_txh; /**< M_TOF_AVB_TX_H */ uint16 tof_id; /**< M_TOF_ID */ uint16 tof_status0; /**< M_TOF_STATUS_0 */ uint16 tof_status2; /**< M_TOF_STATUS_2 */ uint16 tof_chsm0; /**< M_TOF_CHNSM_0 */ uint16 tof_phyctl0; /**< M_TOF_PHYCTL0 */ uint16 tof_phyctl1; /**< M_TOF_PHYCTL1 */ uint16 tof_phyctl2; /**< M_TOF_PHYCTL2 */ uint16 tof_lsig; /**< M_TOF_LSIG */ uint16 tof_vhta0; /**< M_TOF_VHTA0 */ uint16 tof_vhta1; /**< M_TOF_VHTA1 */ uint16 tof_vhta2; /**< M_TOF_VHTA2 */ uint16 tof_vhtb0; /**< M_TOF_VHTB0 */ uint16 tof_vhtb1; /**< M_TOF_VHTB1 */ uint16 tof_apmductl; /**< M_TOF_AMPDU_CTL */ uint16 tof_apmdudlim; /**< M_TOF_AMPDU_DLIM */ uint16 tof_apmdulen; /**< M_TOF_AMPDU_LEN */ } wl_proxd_debug_data_t; /** version of the wl_wsec_info structure */ #define WL_WSEC_INFO_VERSION 0x01 /** start enum value for BSS properties */ #define WL_WSEC_INFO_BSS_BASE 0x0100 /** size of len and type fields of wl_wsec_info_tlv_t struct */ #define WL_WSEC_INFO_TLV_HDR_LEN OFFSETOF(wl_wsec_info_tlv_t, data) /** Allowed wl_wsec_info properties; not all of them may be supported. */ typedef enum { WL_WSEC_INFO_NONE = 0, WL_WSEC_INFO_MAX_KEYS = 1, WL_WSEC_INFO_NUM_KEYS = 2, WL_WSEC_INFO_NUM_HW_KEYS = 3, WL_WSEC_INFO_MAX_KEY_IDX = 4, WL_WSEC_INFO_NUM_REPLAY_CNTRS = 5, WL_WSEC_INFO_SUPPORTED_ALGOS = 6, WL_WSEC_INFO_MAX_KEY_LEN = 7, WL_WSEC_INFO_FLAGS = 8, /* add global/per-wlc properties above */ WL_WSEC_INFO_BSS_FLAGS = (WL_WSEC_INFO_BSS_BASE + 1), WL_WSEC_INFO_BSS_WSEC = (WL_WSEC_INFO_BSS_BASE + 2), WL_WSEC_INFO_BSS_TX_KEY_ID = (WL_WSEC_INFO_BSS_BASE + 3), WL_WSEC_INFO_BSS_ALGO = (WL_WSEC_INFO_BSS_BASE + 4), WL_WSEC_INFO_BSS_KEY_LEN = (WL_WSEC_INFO_BSS_BASE + 5), WL_WSEC_INFO_BSS_ALGOS = (WL_WSEC_INFO_BSS_BASE + 6), /* add per-BSS properties above */ WL_WSEC_INFO_MAX = 0xffff } wl_wsec_info_type_t; typedef struct { uint32 algos; /* set algos to be enabled/disabled */ uint32 mask; /* algos outside mask unaltered */ } wl_wsec_info_algos_t; /** tlv used to return wl_wsec_info properties */ typedef struct { uint16 type; uint16 len; /**< data length */ uint8 data[1]; /**< data follows */ } wl_wsec_info_tlv_t; /** input/output data type for wsec_info iovar */ typedef struct wl_wsec_info { uint8 version; /**< structure version */ uint8 pad[2]; uint8 num_tlvs; wl_wsec_info_tlv_t tlvs[1]; /**< tlv data follows */ } wl_wsec_info_t; /* * randmac definitions */ #define WL_RANDMAC_MODULE "randmac" #define WL_RANDMAC_API_VERSION 0x0100 /**< version 1.0 */ #define WL_RANDMAC_API_MIN_VERSION 0x0100 /**< version 1.0 */ /** subcommands that can apply to randmac */ enum { WL_RANDMAC_SUBCMD_NONE = 0, WL_RANDMAC_SUBCMD_GET_VERSION = 1, WL_RANDMAC_SUBCMD_ENABLE = 2, WL_RANDMAC_SUBCMD_DISABLE = 3, WL_RANDMAC_SUBCMD_CONFIG = 4, WL_RANDMAC_SUBCMD_STATS = 5, WL_RANDMAC_SUBCMD_CLEAR_STATS = 6, WL_RANDMAC_SUBCMD_MAX }; typedef int16 wl_randmac_subcmd_t; /* Common IOVAR struct */ typedef struct wl_randmac { uint16 version; uint16 len; /* total length */ wl_randmac_subcmd_t subcmd_id; /* subcommand id */ uint8 data[0]; /* subcommand data */ } wl_randmac_t; #define WL_RANDMAC_IOV_HDR_SIZE OFFSETOF(wl_randmac_t, data) /* randmac version subcommand */ typedef struct wl_randmac_version { uint16 version; /* Randmac method version info */ uint8 pad[2]; /* Align on 4 byte boundary */ } wl_randmac_version_t; /* * Bitmask for methods supporting MAC randomization feature */ #define WL_RANDMAC_USER_NONE 0x0000 #define WL_RANDMAC_USER_FTM 0x0001 #define WL_RANDMAC_USER_NAN 0x0002 #define WL_RANDMAC_USER_SCAN 0x0004 #define WL_RANDMAC_USER_ALL 0xFFFF typedef uint16 wl_randmac_method_t; enum { WL_RANDMAC_FLAGS_NONE = 0x00, WL_RANDMAC_FLAGS_ADDR = 0x01, WL_RANDMAC_FLAGS_MASK = 0x02, WL_RANDMAC_FLAGS_METHOD = 0x04, WL_RANDMAC_FLAGS_ALL = 0xFF }; typedef uint8 wl_randmac_flags_t; /* randmac statistics subcommand */ typedef struct wl_randmac_stats { uint32 set_ok; /* Set random addr success count */ uint32 set_fail; /* Set random addr failed count */ uint32 set_reqs; /* Set random addr count */ uint32 reset_reqs; /* Restore random addr count */ uint32 restore_ok; /* Restore random addr succes count */ uint32 restore_fail; /* Restore random addr failed count */ uint32 events_sent; /* randmac module events count */ uint32 events_rcvd; /* randmac events received count */ } wl_randmac_stats_t; /* randmac config subcommand */ typedef struct wl_randmac_config { struct ether_addr addr; /* Randomized MAC address */ struct ether_addr addr_mask; /* bitmask for randomization */ wl_randmac_method_t method; /* Enabled methods */ wl_randmac_flags_t flags; /* What config info changed */ uint8 PAD; } wl_randmac_config_t; enum { WL_RANDMAC_EVENT_NONE = 0, /**< not an event, reserved */ WL_RANDMAC_EVENT_BSSCFG_ADDR_SET = 1, /* bsscfg addr randomized */ WL_RANDMAC_EVENT_BSSCFG_ADDR_RESTORE = 2, /* bsscfg addr restored */ WL_RANDMAC_EVENT_ENABLED = 3, /* randmac module enabled */ WL_RANDMAC_EVENT_DISABLE = 4, /* randmac module disabled */ WL_RANDMAC_EVENT_BSSCFG_STATUS = 5, /* bsscfg enable/disable */ WL_RANDMAC_EVENT_MAX }; typedef int16 wl_randmac_event_type_t; typedef int32 wl_randmac_status_t; typedef uint32 wl_randmac_event_mask_t; #define WL_RANDMAC_EVENT_MASK_ALL 0xfffffffe #define WL_RANDMAC_EVENT_MASK_EVENT(_event_type) (1 << (_event_type)) #define WL_RANDMAC_EVENT_ENABLED(_mask, _event_type) (\ ((_mask) & WL_RANDMAC_EVENT_MASK_EVENT(_event_type)) != 0) /** tlv IDs - data length 4 bytes unless overridden by type, alignment 32 bits */ enum { WL_RANDMAC_TLV_NONE = 0, WL_RANDMAC_TLV_METHOD = 1, WL_RANDMAC_TLV_ADDR = 2, WL_RANDMAC_TLV_MASK = 3 }; typedef uint16 wl_randmac_tlv_id_t; typedef struct wl_randmac_tlv { wl_randmac_tlv_id_t id; uint16 len; /* Length of variable */ uint8 data[1]; } wl_randmac_tlv_t; /** randmac event */ typedef struct wl_randmac_event { uint16 version; uint16 len; /* Length of all variables */ wl_randmac_event_type_t type; wl_randmac_method_t method; uint8 pad[2]; wl_randmac_tlv_t tlvs[1]; /**< variable */ } wl_randmac_event_t; /* * scan MAC definitions */ /** common iovar struct */ typedef struct wl_scanmac { uint16 subcmd_id; /**< subcommand id */ uint16 len; /**< total length of data[] */ uint8 data[]; /**< subcommand data */ } wl_scanmac_t; /* subcommand ids */ #define WL_SCANMAC_SUBCMD_ENABLE 0 #define WL_SCANMAC_SUBCMD_BSSCFG 1 /**< only GET supported */ #define WL_SCANMAC_SUBCMD_CONFIG 2 /** scanmac enable data struct */ typedef struct wl_scanmac_enable { uint8 enable; /**< 1 - enable, 0 - disable */ uint8 pad[3]; /**< 4-byte struct alignment */ } wl_scanmac_enable_t; /** scanmac bsscfg data struct */ typedef struct wl_scanmac_bsscfg { uint32 bsscfg; /**< bsscfg index */ } wl_scanmac_bsscfg_t; /** scanmac config data struct */ typedef struct wl_scanmac_config { struct ether_addr mac; /**< 6 bytes of MAC address or MAC prefix (i.e. OUI) */ struct ether_addr random_mask; /**< randomized bits on each scan */ uint16 scan_bitmap; /**< scans to use this MAC address */ uint8 pad[2]; /**< 4-byte struct alignment */ } wl_scanmac_config_t; /* scan bitmap */ #define WL_SCANMAC_SCAN_UNASSOC (0x01 << 0) /**< unassociated scans */ #define WL_SCANMAC_SCAN_ASSOC_ROAM (0x01 << 1) /**< associated roam scans */ #define WL_SCANMAC_SCAN_ASSOC_PNO (0x01 << 2) /**< associated PNO scans */ #define WL_SCANMAC_SCAN_ASSOC_HOST (0x01 << 3) /**< associated host scans */ /* * bonjour dongle offload definitions */ /* common iovar struct */ typedef struct wl_bdo { uint16 subcmd_id; /* subcommand id */ uint16 len; /* total length of data[] */ uint8 data[]; /* subcommand data */ } wl_bdo_t; /* subcommand ids */ #define WL_BDO_SUBCMD_DOWNLOAD 0 /* Download flattened database */ #define WL_BDO_SUBCMD_ENABLE 1 /* Start bonjour after download */ #define WL_BDO_SUBCMD_MAX_DOWNLOAD 2 /* Get the max download size */ /* maximum fragment size */ #define BDO_MAX_FRAGMENT_SIZE 1024 /* download flattened database * * BDO must be disabled before database download else fail. * * If database size is within BDO_MAX_FRAGMENT_SIZE then only a single fragment * is required (i.e. frag_num = 0, total_size = frag_size). * If database size exceeds BDO_MAX_FRAGMENT_SIZE then multiple fragments are required. */ typedef struct wl_bdo_download { uint16 total_size; /* total database size */ uint16 frag_num; /* fragment number, 0 for first fragment, N-1 for last fragment */ uint16 frag_size; /* size of fragment (max BDO_MAX_FRAGMENT_SIZE) */ uint8 pad[2]; /* 4-byte struct alignment */ uint8 fragment[BDO_MAX_FRAGMENT_SIZE]; /* fragment data */ } wl_bdo_download_t; /* enable * * Enable requires a downloaded database else fail. */ typedef struct wl_bdo_enable { uint8 enable; /* 1 - enable, 0 - disable */ uint8 pad[3]; /* 4-byte struct alignment */ } wl_bdo_enable_t; /* * Get the max download size for Bonjour Offload. */ typedef struct wl_bdo_max_download { uint16 size; /* Max download size in bytes */ uint8 pad[2]; /* 4-byte struct alignment */ } wl_bdo_max_download_t; /* * TCP keepalive offload definitions */ /* common iovar struct */ typedef struct wl_tko { uint16 subcmd_id; /* subcommand id */ uint16 len; /* total length of data[] */ uint8 data[]; /* subcommand data */ } wl_tko_t; /* subcommand ids */ #define WL_TKO_SUBCMD_MAX_TCP 0 /* max TCP connections supported */ #define WL_TKO_SUBCMD_PARAM 1 /* configure offload common parameters */ #define WL_TKO_SUBCMD_CONNECT 2 /* TCP connection info */ #define WL_TKO_SUBCMD_ENABLE 3 /* enable/disable */ #define WL_TKO_SUBCMD_STATUS 4 /* TCP connection status */ /* WL_TKO_SUBCMD_MAX_CONNECT subcommand data */ typedef struct wl_tko_max_tcp { uint8 max; /* max TCP connections supported */ uint8 pad[3]; /* 4-byte struct alignment */ } wl_tko_max_tcp_t; /* WL_TKO_SUBCMD_PARAM subcommand data */ typedef struct wl_tko_param { uint16 interval; /* keepalive tx interval (secs) */ uint16 retry_interval; /* keepalive retry interval (secs) */ uint16 retry_count; /* retry_count */ uint8 pad[2]; /* 4-byte struct alignment */ } wl_tko_param_t; /* WL_TKO_SUBCMD_CONNECT subcommand data * invoke with unique 'index' for each TCP connection */ typedef struct wl_tko_connect { uint8 index; /* TCP connection index, 0 to max-1 */ uint8 ip_addr_type; /* 0 - IPv4, 1 - IPv6 */ uint16 local_port; /* local port */ uint16 remote_port; /* remote port */ uint16 PAD; uint32 local_seq; /* local sequence number */ uint32 remote_seq; /* remote sequence number */ uint16 request_len; /* TCP keepalive request packet length */ uint16 response_len; /* TCP keepalive response packet length */ uint8 data[]; /* variable length field containing local/remote IPv4/IPv6, * TCP keepalive request packet, TCP keepalive response packet * For IPv4, length is 4 * 2 + request_length + response_length * offset 0 - local IPv4 * offset 4 - remote IPv4 * offset 8 - TCP keepalive request packet * offset 8+request_length - TCP keepalive response packet * For IPv6, length is 16 * 2 + request_length + response_length * offset 0 - local IPv6 * offset 16 - remote IPv6 * offset 32 - TCP keepalive request packet * offset 32+request_length - TCP keepalive response packet */ } wl_tko_connect_t; /* WL_TKO_SUBCMD_CONNECT subcommand data to GET configured info for specific index */ typedef struct wl_tko_get_connect { uint8 index; /* TCP connection index, 0 to max-1 */ uint8 pad[3]; /* 4-byte struct alignment */ } wl_tko_get_connect_t; typedef struct wl_tko_enable { uint8 enable; /* 1 - enable, 0 - disable */ uint8 pad[3]; /* 4-byte struct alignment */ } wl_tko_enable_t; /* WL_TKO_SUBCMD_STATUS subcommand data */ /* must be invoked before tko is disabled else status is unavailable */ typedef struct wl_tko_status { uint8 count; /* number of status entries (i.e. equals * max TCP connections supported) */ uint8 status[1]; /* variable length field contain status for * each TCP connection index */ } wl_tko_status_t; typedef enum { TKO_STATUS_NORMAL = 0, /* TCP connection normal, no error */ TKO_STATUS_NO_RESPONSE = 1, /* no response to TCP keepalive */ TKO_STATUS_NO_TCP_ACK_FLAG = 2, /* TCP ACK flag not set */ TKO_STATUS_UNEXPECT_TCP_FLAG = 3, /* unexpect TCP flags set other than ACK */ TKO_STATUS_SEQ_NUM_INVALID = 4, /* ACK != sequence number */ TKO_STATUS_REMOTE_SEQ_NUM_INVALID = 5, /* SEQ > remote sequence number */ TKO_STATUS_TCP_DATA = 6, /* TCP data available */ TKO_STATUS_UNAVAILABLE = 255, /* not used/configured */ } tko_status_t; enum rssi_reason { RSSI_REASON_UNKNOW = 0, RSSI_REASON_LOWRSSI = 1, RSSI_REASON_NSYC = 2, RSSI_REASON_TIMEOUT = 3 }; enum tof_reason { TOF_REASON_OK = 0, TOF_REASON_REQEND = 1, TOF_REASON_TIMEOUT = 2, TOF_REASON_NOACK = 3, TOF_REASON_INVALIDAVB = 4, TOF_REASON_INITIAL = 5, TOF_REASON_ABORT = 6 }; enum rssi_state { RSSI_STATE_POLL = 0, RSSI_STATE_TPAIRING = 1, RSSI_STATE_IPAIRING = 2, RSSI_STATE_THANDSHAKE = 3, RSSI_STATE_IHANDSHAKE = 4, RSSI_STATE_CONFIRMED = 5, RSSI_STATE_PIPELINE = 6, RSSI_STATE_NEGMODE = 7, RSSI_STATE_MONITOR = 8, RSSI_STATE_LAST = 9 }; enum tof_state { TOF_STATE_IDLE = 0, TOF_STATE_IWAITM = 1, TOF_STATE_TWAITM = 2, TOF_STATE_ILEGACY = 3, TOF_STATE_IWAITCL = 4, TOF_STATE_TWAITCL = 5, TOF_STATE_ICONFIRM = 6, TOF_STATE_IREPORT = 7 }; enum tof_mode_type { TOF_LEGACY_UNKNOWN = 0, TOF_LEGACY_AP = 1, TOF_NONLEGACY_AP = 2 }; enum tof_way_type { TOF_TYPE_ONE_WAY = 0, TOF_TYPE_TWO_WAY = 1, TOF_TYPE_REPORT = 2 }; enum tof_rate_type { TOF_FRAME_RATE_VHT = 0, TOF_FRAME_RATE_LEGACY = 1 }; #define TOF_ADJ_TYPE_NUM 4 /**< number of assisted timestamp adjustment */ enum tof_adj_mode { TOF_ADJ_SOFTWARE = 0, TOF_ADJ_HARDWARE = 1, TOF_ADJ_SEQ = 2, TOF_ADJ_NONE = 3 }; #define FRAME_TYPE_NUM 4 /**< number of frame type */ enum frame_type { FRAME_TYPE_CCK = 0, FRAME_TYPE_OFDM = 1, FRAME_TYPE_11N = 2, FRAME_TYPE_11AC = 3 }; typedef struct wl_proxd_status_iovar { uint16 method; /**< method */ uint8 mode; /**< mode */ uint8 peermode; /**< peer mode */ uint8 state; /**< state */ uint8 reason; /**< reason code */ uint8 PAD[2]; uint32 distance; /**< distance */ uint32 txcnt; /**< tx pkt counter */ uint32 rxcnt; /**< rx pkt counter */ struct ether_addr peer; /**< peer mac address */ int8 avg_rssi; /**< average rssi */ int8 hi_rssi; /**< highest rssi */ int8 low_rssi; /**< lowest rssi */ uint8 PAD[3]; uint32 dbgstatus; /**< debug status */ uint16 frame_type_cnt[FRAME_TYPE_NUM]; /**< frame types */ uint8 adj_type_cnt[TOF_ADJ_TYPE_NUM]; /**< adj types HW/SW */ } wl_proxd_status_iovar_t; /* ifdef NET_DETECT */ typedef struct net_detect_adapter_features { uint8 wowl_enabled; uint8 net_detect_enabled; uint8 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[]; } net_detect_profile_list_t; typedef struct net_detect_config { uint8 nd_enabled; uint8 PAD[3]; uint32 scan_interval; uint32 wait_period; uint8 wake_if_connected; uint8 wake_if_disconnected; uint8 PAD[2]; 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 */ /* (unversioned, deprecated) */ typedef struct bcnreq { uint8 bcn_mode; uint8 PAD[3]; int32 dur; int32 channel; struct ether_addr da; uint16 random_int; wlc_ssid_t ssid; uint16 reps; uint8 PAD[2]; } bcnreq_t; #define WL_RRM_BCN_REQ_VER 1 typedef struct bcn_req { uint8 version; uint8 bcn_mode; uint8 pad_1[2]; int32 dur; int32 channel; struct ether_addr da; uint16 random_int; wlc_ssid_t ssid; uint16 reps; uint8 req_elements; uint8 pad_2; chanspec_list_t chspec_list; } bcn_req_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; uint8 PAD; uint16 reps; } statreq_t; typedef struct wl_rrm_config_ioc { uint16 version; /* command version */ uint16 id; /* subiovar cmd ID */ uint16 len; /* total length of all bytes in data[] */ uint16 pad; /* 4-byte boundary padding */ uint8 data[1]; /* payload */ } wl_rrm_config_ioc_t; enum { WL_RRM_CONFIG_NONE = 0, /* reserved */ WL_RRM_CONFIG_GET_LCI = 1, /* get LCI */ WL_RRM_CONFIG_SET_LCI = 2, /* set LCI */ WL_RRM_CONFIG_GET_CIVIC = 3, /* get civic location */ WL_RRM_CONFIG_SET_CIVIC = 4, /* set civic location */ WL_RRM_CONFIG_MAX = 5 }; #define WL_RRM_CONFIG_NAME "rrm_config" #define WL_RRM_CONFIG_MIN_LENGTH OFFSETOF(wl_rrm_config_ioc_t, data) enum { WL_RRM_EVENT_NONE = 0, /* not an event, reserved */ WL_RRM_EVENT_FRNG_REQ = 1, /* Receipt of FRNG request frame */ WL_RRM_EVENT_FRNG_REP = 2, /* Receipt of FRNG report frame */ WL_RRM_EVENT_MAX }; typedef int16 wl_rrm_event_type_t; typedef struct frngreq_target { uint32 bssid_info; uint8 channel; uint8 phytype; uint8 reg; uint8 pad; struct ether_addr bssid; chanspec_t chanspec; uint32 sid; } frngreq_target_t; typedef struct frngreq { wl_rrm_event_type_t event; /* RRM event type */ struct ether_addr da; uint16 max_init_delay; /* Upper bound of random delay, in TUs */ uint8 min_ap_count; /* Min FTM ranges requested (1-15) */ uint8 num_aps; /* Number of APs to range, at least min_ap_count */ uint16 max_age; /* Max elapsed time before FTM request, 0xFFFF = any */ uint16 reps; /* Number of repetitions of this measurement type */ frngreq_target_t targets[1]; /* Target BSSIDs to range */ } frngreq_t; typedef struct frngrep_range { uint32 start_tsf; /* 4 lsb of tsf */ struct ether_addr bssid; uint8 pad[2]; uint32 range; uint32 max_err; uint8 rsvd; uint8 pad2[3]; } frngrep_range_t; typedef struct frngrep_error { uint32 start_tsf; /* 4 lsb of tsf */ struct ether_addr bssid; uint8 code; uint8 pad[1]; } frngrep_error_t; typedef struct frngrep { wl_rrm_event_type_t event; /* RRM event type */ struct ether_addr da; uint8 range_entry_count; uint8 error_entry_count; uint16 dialog_token; /* dialog token */ frngrep_range_t range_entries[DOT11_FTM_RANGE_ENTRY_MAX_COUNT]; frngrep_error_t error_entries[DOT11_FTM_RANGE_ERROR_ENTRY_MAX_COUNT]; } frngrep_t; typedef struct wl_rrm_frng_ioc { uint16 version; /* command version */ uint16 id; /* subiovar cmd ID */ uint16 len; /* total length of all bytes in data[] */ uint16 pad; /* 4-byte boundary padding */ uint8 data[]; /* payload */ } wl_rrm_frng_ioc_t; enum { WL_RRM_FRNG_NONE = 0, /* reserved */ WL_RRM_FRNG_SET_REQ = 1, /* send ftm ranging request */ WL_RRM_FRNG_MAX = 2 }; #define WL_RRM_FRNG_NAME "rrm_frng" #define WL_RRM_FRNG_MIN_LENGTH OFFSETOF(wl_rrm_frng_ioc_t, data) #define WL_RRM_RPT_VER 0 #define WL_RRM_RPT_MAX_PAYLOAD 256 #define WL_RRM_RPT_MIN_PAYLOAD 7 #define WL_RRM_RPT_FALG_ERR 0 #define WL_RRM_RPT_FALG_GRP_ID_PROPR (1 << 0) #define WL_RRM_RPT_FALG_GRP_ID_0 (1 << 1) typedef struct { uint16 ver; /**< version */ struct ether_addr addr; /**< STA MAC addr */ uint32 timestamp; /**< timestamp of the report */ uint16 flag; /**< flag */ uint16 len; /**< length of payload data */ uint8 data[WL_RRM_RPT_MAX_PAYLOAD]; } statrpt_t; typedef struct wlc_dwds_config { uint32 enable; uint32 mode; /**< STA/AP interface */ struct ether_addr ea; uint8 PAD[2]; } wlc_dwds_config_t; typedef struct wl_el_set_params_s { uint8 set; /**< Set number */ uint8 PAD[3]; 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, STAMON_CFG_CMD_ENB = 2, STAMON_CFG_CMD_DSB = 3, STAMON_CFG_CMD_CNT = 4, STAMON_CFG_CMD_RSTCNT = 5, STAMON_CFG_CMD_GET_STATS = 6 } 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; uint8 PAD[2]; } wlc_stamon_sta_config_t; /* ifdef SR_DEBUG */ typedef struct /* pmu_reg */{ uint32 pmu_control; uint32 pmu_capabilities; uint32 pmu_status; uint32 res_state; uint32 res_pending; uint32 pmu_timer1; uint32 min_res_mask; uint32 max_res_mask; uint32 pmu_chipcontrol1[4]; uint32 pmu_regcontrol[5]; uint32 pmu_pllcontrol[5]; uint32 pmu_rsrc_up_down_timer[31]; uint32 rsrc_dep_mask[31]; } pmu_reg_t; /* endif SR_DEBUG */ typedef struct wl_taf_define { struct ether_addr ea; /**< STA MAC or 0xFF... */ uint16 version; /**< version */ uint32 sch; /**< method index */ uint32 prio; /**< priority */ uint32 misc; /**< used for return value */ uint8 text[]; /**< used to pass and return ascii text */ } wl_taf_define_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 { uint8 is_static; uint8 PAD; uint16 sta_count; uint8 chan_util; uint8 PAD; uint16 aac; } wl_bssload_static_t; /* Buffer of size WLC_SAMPLECOLLECT_MAXLEN (=10240 for 4345a0 ACPHY) * gets copied to this, multiple times */ typedef enum wl_gpaio_option { GPAIO_PMU_AFELDO, GPAIO_PMU_TXLDO, GPAIO_PMU_VCOLDO, GPAIO_PMU_LNALDO, GPAIO_PMU_ADCLDO, GPAIO_ICTAT_CAL, GPAIO_PMU_CLEAR, GPAIO_OFF, GPAIO_PMU_LOGENLDO, GPAIO_PMU_RXLDO2G, GPAIO_PMU_RXLDO5G } wl_gpaio_option_t; /** IO Var Operations - the Value of iov_op In wlc_ap_doiovar */ typedef enum wlc_ap_iov_bss_operation { WLC_AP_IOV_OP_DELETE = -1, WLC_AP_IOV_OP_DISABLE = 0, WLC_AP_IOV_OP_ENABLE = 1, WLC_AP_IOV_OP_MANUAL_AP_BSSCFG_CREATE = 2, WLC_AP_IOV_OP_MANUAL_STA_BSSCFG_CREATE = 3, WLC_AP_IOV_OP_MOVE = 4 } wlc_ap_iov_bss_oper_t; /* LTE coex info */ /* Analogue of HCI Set MWS Signaling cmd */ typedef struct { int16 mws_rx_assert_offset; int16 mws_rx_assert_jitter; int16 mws_rx_deassert_offset; int16 mws_rx_deassert_jitter; int16 mws_tx_assert_offset; int16 mws_tx_assert_jitter; int16 mws_tx_deassert_offset; int16 mws_tx_deassert_jitter; int16 mws_pattern_assert_offset; int16 mws_pattern_assert_jitter; int16 mws_inact_dur_assert_offset; int16 mws_inact_dur_assert_jitter; int16 mws_scan_freq_assert_offset; int16 mws_scan_freq_assert_jitter; int16 mws_prio_assert_offset_req; } wci2_config_t; /** Analogue of HCI MWS Channel Params */ typedef struct { uint16 mws_rx_center_freq; /**< MHz */ uint16 mws_tx_center_freq; uint16 mws_rx_channel_bw; /**< KHz */ uint16 mws_tx_channel_bw; uint8 mws_channel_en; uint8 mws_channel_type; /**< Don't care for WLAN? */ } mws_params_t; #define LTECX_MAX_NUM_PERIOD_TYPES 7 /* LTE Frame params */ typedef struct { uint16 mws_frame_dur; int16 mws_framesync_assert_offset; uint16 mws_framesync_assert_jitter; uint16 mws_period_dur[LTECX_MAX_NUM_PERIOD_TYPES]; uint8 mws_period_type[LTECX_MAX_NUM_PERIOD_TYPES]; uint8 mws_num_periods; } mws_frame_config_t; /** MWS wci2 message */ typedef struct { uint8 mws_wci2_data; /**< BT-SIG msg */ uint8 PAD; uint16 mws_wci2_interval; /**< Interval in us */ uint16 mws_wci2_repeat; /**< No of msgs to send */ } mws_wci2_msg_t; /* MWS ANT map */ typedef struct { uint16 combo1; /* mws ant selection 1 */ uint16 combo2; /* mws ant selection 2 */ uint16 combo3; /* mws ant selection 3 */ uint16 combo4; /* mws ant selection 4 */ } mws_ant_map_t; /* MWS SCAN_REQ Bitmap */ typedef struct mws_scanreq_params { uint16 idx; uint16 bm_2g; uint16 bm_5g_lo; uint16 bm_5g_mid; uint16 bm_5g_hi; } mws_scanreq_params_t; typedef struct { uint32 config; /**< MODE: AUTO (-1), Disable (0), Enable (1) */ uint32 status; /**< Current state: Disabled (0), Enabled (1) */ } wl_config_t; #define WLC_RSDB_MODE_AUTO_MASK 0x80 #define WLC_RSDB_EXTRACT_MODE(val) ((int8)((val) & (~(WLC_RSDB_MODE_AUTO_MASK)))) typedef struct { uint16 request; /* type of sensor hub request */ uint16 enable; /* enable/disable response for specified request */ uint16 interval; /* interval between responses to the request */ } shub_req_t; #define WL_IF_STATS_T_VERSION 1 /**< current version of wl_if_stats structure */ /** per interface counters */ typedef struct wl_if_stats { uint16 version; /**< version of the structure */ uint16 length; /**< length of the entire structure */ uint32 PAD; /**< padding */ /* transmit stat counters */ uint64 txframe; /**< tx data frames */ uint64 txbyte; /**< tx data bytes */ uint64 txerror; /**< tx data errors (derived: sum of others) */ uint64 txnobuf; /**< tx out of buffer errors */ uint64 txrunt; /**< tx runt frames */ uint64 txfail; /**< tx failed frames */ uint64 txretry; /**< tx retry frames */ uint64 txretrie; /**< tx multiple retry frames */ uint64 txfrmsnt; /**< tx sent frames */ uint64 txmulti; /**< tx mulitcast sent frames */ uint64 txfrag; /**< tx fragments sent */ /* receive stat counters */ uint64 rxframe; /**< rx data frames */ uint64 rxbyte; /**< rx data bytes */ uint64 rxerror; /**< rx data errors (derived: sum of others) */ uint64 rxnobuf; /**< rx out of buffer errors */ uint64 rxrunt; /**< rx runt frames */ uint64 rxfragerr; /**< rx fragment errors */ uint64 rxmulti; /**< rx multicast frames */ uint64 txexptime; /* DATA Tx frames suppressed due to timer expiration */ uint64 txrts; /* RTS/CTS succeeeded count */ uint64 txnocts; /* RTS/CTS faled count */ uint64 txretrans; /* Number of frame retransmissions */ } wl_if_stats_t; typedef struct wl_band { uint16 bandtype; /**< WL_BAND_2G, WL_BAND_5G */ uint16 bandunit; /**< bandstate[] index */ uint16 phytype; /**< phytype */ uint16 phyrev; } wl_band_t; #define WL_WLC_VERSION_T_VERSION 1 /**< current version of wlc_version structure */ /** wlc interface version */ typedef struct wl_wlc_version { uint16 version; /**< version of the structure */ uint16 length; /**< length of the entire structure */ /* epi version numbers */ uint16 epi_ver_major; /**< epi major version number */ uint16 epi_ver_minor; /**< epi minor version number */ uint16 epi_rc_num; /**< epi RC number */ uint16 epi_incr_num; /**< epi increment number */ /* wlc interface version numbers */ uint16 wlc_ver_major; /**< wlc interface major version number */ uint16 wlc_ver_minor; /**< wlc interface minor version number */ } wl_wlc_version_t; /* Highest version of WLC_API_VERSION supported */ #define WLC_API_VERSION_MAJOR_MAX 8 #define WLC_API_VERSION_MINOR_MAX 0 /* begin proxd definitions */ #include #define WL_PROXD_API_VERSION 0x0300 /**< version 3.0 */ /** Minimum supported API version */ #define WL_PROXD_API_MIN_VERSION 0x0300 /** proximity detection methods */ enum { WL_PROXD_METHOD_NONE = 0, WL_PROXD_METHOD_RSVD1 = 1, /**< backward compatibility - RSSI, not supported */ WL_PROXD_METHOD_TOF = 2, WL_PROXD_METHOD_RSVD2 = 3, /**< 11v only - if needed */ WL_PROXD_METHOD_FTM = 4, /**< IEEE rev mc/2014 */ WL_PROXD_METHOD_MAX }; typedef int16 wl_proxd_method_t; /** global and method configuration flags */ enum { WL_PROXD_FLAG_NONE = 0x00000000, WL_PROXD_FLAG_RX_ENABLED = 0x00000001, /**< respond to requests, per bss */ WL_PROXD_FLAG_RX_RANGE_REQ = 0x00000002, /**< 11mc range requests enabled */ WL_PROXD_FLAG_TX_LCI = 0x00000004, /**< tx lci, if known */ WL_PROXD_FLAG_TX_CIVIC = 0x00000008, /**< tx civic, if known */ WL_PROXD_FLAG_RX_AUTO_BURST = 0x00000010, /**< auto respond w/o host action */ WL_PROXD_FLAG_TX_AUTO_BURST = 0x00000020, /**< continue tx w/o host action */ WL_PROXD_FLAG_AVAIL_PUBLISH = 0x00000040, /**< publish availability */ WL_PROXD_FLAG_AVAIL_SCHEDULE = 0x00000080, /**< schedule using availability */ WL_PROXD_FLAG_ASAP_CAPABLE = 0x00000100, /* ASAP capable */ WL_PROXD_FLAG_MBURST_FOLLOWUP = 0x00000200, /* new multi-burst algorithm */ WL_PROXD_FLAG_SECURE = 0x00000400, /* per bsscfg option */ WL_PROXD_FLAG_NO_TSF_SYNC = 0x00000800, /* disable tsf sync */ WL_PROXD_FLAG_ALL = 0xffffffff }; typedef uint32 wl_proxd_flags_t; #define WL_PROXD_FLAGS_AVAIL (WL_PROXD_FLAG_AVAIL_PUBLISH | \ WL_PROXD_FLAG_AVAIL_SCHEDULE) /** session flags */ enum { WL_PROXD_SESSION_FLAG_NONE = 0x00000000, /**< no flags */ WL_PROXD_SESSION_FLAG_INITIATOR = 0x00000001, /**< local device is initiator */ WL_PROXD_SESSION_FLAG_TARGET = 0x00000002, /**< local device is target */ WL_PROXD_SESSION_FLAG_ONE_WAY = 0x00000004, /**< (initiated) 1-way rtt */ WL_PROXD_SESSION_FLAG_AUTO_BURST = 0x00000008, /**< created w/ rx_auto_burst */ WL_PROXD_SESSION_FLAG_PERSIST = 0x00000010, /**< good until cancelled */ WL_PROXD_SESSION_FLAG_RTT_DETAIL = 0x00000020, /**< rtt detail in results */ WL_PROXD_SESSION_FLAG_SECURE = 0x00000040, /**< sessionis secure */ WL_PROXD_SESSION_FLAG_AOA = 0x00000080, /**< AOA along w/ RTT */ WL_PROXD_SESSION_FLAG_RX_AUTO_BURST = 0x00000100, /**< Same as proxd flags above */ WL_PROXD_SESSION_FLAG_TX_AUTO_BURST = 0x00000200, /**< Same as proxd flags above */ WL_PROXD_SESSION_FLAG_NAN_BSS = 0x00000400, /**< Use NAN BSS, if applicable */ WL_PROXD_SESSION_FLAG_TS1 = 0x00000800, /**< e.g. FTM1 - ASAP-capable */ WL_PROXD_SESSION_FLAG_REPORT_FAILURE = 0x00002000, /**< report failure to target */ WL_PROXD_SESSION_FLAG_INITIATOR_RPT = 0x00004000, /**< report distance to target */ WL_PROXD_SESSION_FLAG_NOCHANSWT = 0x00008000, WL_PROXD_SESSION_FLAG_NETRUAL = 0x00010000, /**< netrual mode */ WL_PROXD_SESSION_FLAG_SEQ_EN = 0x00020000, /**< Toast */ WL_PROXD_SESSION_FLAG_NO_PARAM_OVRD = 0x00040000, /**< no param override from target */ WL_PROXD_SESSION_FLAG_ASAP = 0x00080000, /**< ASAP session */ WL_PROXD_SESSION_FLAG_REQ_LCI = 0x00100000, /**< transmit LCI req */ WL_PROXD_SESSION_FLAG_REQ_CIV = 0x00200000, /**< transmit civic loc req */ WL_PROXD_SESSION_FLAG_PRE_SCAN = 0x00400000, /* enable pre-scan for asap=1 */ WL_PROXD_SESSION_FLAG_AUTO_VHTACK = 0x00800000, /* use vhtack based on brcm ie */ WL_PROXD_SESSION_FLAG_VHTACK = 0x01000000, /* vht ack is in use - output only */ WL_PROXD_SESSION_FLAG_BDUR_NOPREF = 0x02000000, /* burst-duration: no preference */ WL_PROXD_SESSION_FLAG_NUM_FTM_NOPREF = 0x04000000, /* num of FTM frames: no preference */ WL_PROXD_SESSION_FLAG_FTM_SEP_NOPREF = 0x08000000, /* time btw FTM frams: no pref */ WL_PROXD_SESSION_FLAG_NUM_BURST_NOPREF = 0x10000000, /* num of bursts: no pref */ WL_PROXD_SESSION_FLAG_BURST_PERIOD_NOPREF = 0x20000000, /* burst period: no pref */ WL_PROXD_SESSION_FLAG_MBURST_FOLLOWUP = 0x40000000, /* new mburst algo - reserved */ WL_PROXD_SESSION_FLAG_MBURST_NODELAY = 0x80000000, /**< good until cancelled */ WL_PROXD_SESSION_FLAG_ALL = 0xffffffff }; typedef uint32 wl_proxd_session_flags_t; /** time units - mc supports up to 0.1ns resolution */ enum { WL_PROXD_TMU_TU = 0, /**< 1024us */ WL_PROXD_TMU_SEC = 1, WL_PROXD_TMU_MILLI_SEC = 2, WL_PROXD_TMU_MICRO_SEC = 3, WL_PROXD_TMU_NANO_SEC = 4, WL_PROXD_TMU_PICO_SEC = 5 }; typedef int16 wl_proxd_tmu_t; /** time interval e.g. 10ns */ typedef struct wl_proxd_intvl { uint32 intvl; wl_proxd_tmu_t tmu; uint8 pad[2]; } wl_proxd_intvl_t; /** commands that can apply to proxd, method or a session */ enum { WL_PROXD_CMD_NONE = 0, WL_PROXD_CMD_GET_VERSION = 1, WL_PROXD_CMD_ENABLE = 2, WL_PROXD_CMD_DISABLE = 3, WL_PROXD_CMD_CONFIG = 4, WL_PROXD_CMD_START_SESSION = 5, WL_PROXD_CMD_BURST_REQUEST = 6, WL_PROXD_CMD_STOP_SESSION = 7, WL_PROXD_CMD_DELETE_SESSION = 8, WL_PROXD_CMD_GET_RESULT = 9, WL_PROXD_CMD_GET_INFO = 10, WL_PROXD_CMD_GET_STATUS = 11, WL_PROXD_CMD_GET_SESSIONS = 12, WL_PROXD_CMD_GET_COUNTERS = 13, WL_PROXD_CMD_CLEAR_COUNTERS = 14, WL_PROXD_CMD_COLLECT = 15, /* not supported, see 'wl proxd_collect' */ WL_PROXD_CMD_TUNE = 16, /* not supported, see 'wl proxd_tune' */ WL_PROXD_CMD_DUMP = 17, WL_PROXD_CMD_START_RANGING = 18, WL_PROXD_CMD_STOP_RANGING = 19, WL_PROXD_CMD_GET_RANGING_INFO = 20, WL_PROXD_CMD_IS_TLV_SUPPORTED = 21, WL_PROXD_CMD_MAX }; typedef int16 wl_proxd_cmd_t; /* session ids: * id 0 is reserved * ids 1..0x7fff - allocated by host/app * 0x8000-0xffff - allocated by firmware, used for auto/rx */ enum { WL_PROXD_SESSION_ID_GLOBAL = 0 }; /* Externally allocated sids */ #define WL_PROXD_SID_EXT_MAX 0x7fff #define WL_PROXD_SID_EXT_ALLOC(_sid) ((_sid) > 0 && (_sid) <= WL_PROXD_SID_EXT_MAX) /* block size for reserved sid blocks */ #define WL_PROXD_SID_EXT_BLKSZ 256 #define WL_PROXD_SID_EXT_BLK_START(_i) (WL_PROXD_SID_EXT_MAX - (_i) * WL_PROXD_SID_EXT_BLKSZ + 1) #define WL_PROXD_SID_EXT_BLK_END(_start) ((_start) + WL_PROXD_SID_EXT_BLKSZ - 1) /* rrm block */ #define WL_PROXD_SID_RRM_START WL_PROXD_SID_EXT_BLK_START(1) #define WL_PROXD_SID_RRM_END WL_PROXD_SID_EXT_BLK_END(WL_PROXD_SID_RRM_START) /* nan block */ #define WL_PROXD_SID_NAN_START WL_PROXD_SID_EXT_BLK_START(2) #define WL_PROXD_SID_NAN_END WL_PROXD_SID_EXT_BLK_END(WL_PROXD_SID_NAN_START) /** maximum number sessions that can be allocated, may be less if tunable */ #define WL_PROXD_MAX_SESSIONS 16 typedef uint16 wl_proxd_session_id_t; /** status - TBD BCME_ vs proxd status - range reserved for BCME_ */ enum { WL_PROXD_E_NOAVAIL = -1056, WL_PROXD_E_EXT_SCHED = -1055, WL_PROXD_E_NOT_BCM = -1054, WL_PROXD_E_FRAME_TYPE = -1053, WL_PROXD_E_VERNOSUPPORT = -1052, WL_PROXD_E_SEC_NOKEY = -1051, WL_PROXD_E_SEC_POLICY = -1050, WL_PROXD_E_SCAN_INPROCESS = -1049, WL_PROXD_E_BAD_PARTIAL_TSF = -1048, WL_PROXD_E_SCANFAIL = -1047, WL_PROXD_E_NOTSF = -1046, WL_PROXD_E_POLICY = -1045, WL_PROXD_E_INCOMPLETE = -1044, WL_PROXD_E_OVERRIDDEN = -1043, WL_PROXD_E_ASAP_FAILED = -1042, WL_PROXD_E_NOTSTARTED = -1041, WL_PROXD_E_INVALIDMEAS = -1040, WL_PROXD_E_INCAPABLE = -1039, WL_PROXD_E_MISMATCH = -1038, WL_PROXD_E_DUP_SESSION = -1037, WL_PROXD_E_REMOTE_FAIL = -1036, WL_PROXD_E_REMOTE_INCAPABLE = -1035, WL_PROXD_E_SCHED_FAIL = -1034, WL_PROXD_E_PROTO = -1033, WL_PROXD_E_EXPIRED = -1032, WL_PROXD_E_TIMEOUT = -1031, WL_PROXD_E_NOACK = -1030, WL_PROXD_E_DEFERRED = -1029, WL_PROXD_E_INVALID_SID = -1028, WL_PROXD_E_REMOTE_CANCEL = -1027, WL_PROXD_E_CANCELED = -1026, /**< local */ WL_PROXD_E_INVALID_SESSION = -1025, WL_PROXD_E_BAD_STATE = -1024, WL_PROXD_E_ERROR = -1, WL_PROXD_E_OK = 0 }; typedef int32 wl_proxd_status_t; /* proxd errors from phy */ #define PROXD_TOF_INIT_ERR_BITS 16 enum { WL_PROXD_PHY_ERR_LB_CORR_THRESH = (1 << 0), /* Loopback Correlation threshold */ WL_PROXD_PHY_ERR_RX_CORR_THRESH = (1 << 1), /* Received Correlation threshold */ WL_PROXD_PHY_ERR_LB_PEAK_POWER = (1 << 2), /* Loopback Peak power */ WL_PROXD_PHY_ERR_RX_PEAK_POWER = (1 << 3), /* Received Peak power */ WL_PROXD_PHY_ERR_BITFLIP = (1 << 4), /* Bitflips */ WL_PROXD_PHY_ERR_SNR = (1 << 5), /* SNR */ WL_PROXD_PHY_RX_STRT_WIN_OFF = (1 << 6), /* Receive start window is off */ WL_PROXD_PHY_RX_END_WIN_OFF = (1 << 7), /* Receive End window is off */ WL_PROXD_PHY_ERR_LOW_CONFIDENCE = (1 << 15), /* Low confidence on meas distance */ }; typedef uint32 wl_proxd_phy_error_t; /** session states */ enum { WL_PROXD_SESSION_STATE_NONE = 0, WL_PROXD_SESSION_STATE_CREATED = 1, WL_PROXD_SESSION_STATE_CONFIGURED = 2, WL_PROXD_SESSION_STATE_STARTED = 3, WL_PROXD_SESSION_STATE_DELAY = 4, WL_PROXD_SESSION_STATE_USER_WAIT = 5, WL_PROXD_SESSION_STATE_SCHED_WAIT = 6, WL_PROXD_SESSION_STATE_BURST = 7, WL_PROXD_SESSION_STATE_STOPPING = 8, WL_PROXD_SESSION_STATE_ENDED = 9, WL_PROXD_SESSION_STATE_START_WAIT = 10, WL_PROXD_SESSION_STATE_DESTROYING = -1 }; typedef int16 wl_proxd_session_state_t; /** RTT sample flags */ enum { WL_PROXD_RTT_SAMPLE_NONE = 0x00, WL_PROXD_RTT_SAMPLE_DISCARD = 0x01 }; typedef uint8 wl_proxd_rtt_sample_flags_t; typedef int16 wl_proxd_rssi_t; typedef uint16 wl_proxd_snr_t; typedef uint16 wl_proxd_bitflips_t; typedef struct wl_proxd_rtt_sample { uint8 id; /**< id for the sample - non-zero */ wl_proxd_rtt_sample_flags_t flags; wl_proxd_rssi_t rssi; wl_proxd_intvl_t rtt; /**< round trip time */ uint32 ratespec; wl_proxd_snr_t snr; wl_proxd_bitflips_t bitflips; wl_proxd_status_t status; int32 distance; wl_proxd_phy_error_t tof_phy_error; wl_proxd_phy_error_t tof_tgt_phy_error; /* target phy error bit map */ wl_proxd_snr_t tof_tgt_snr; wl_proxd_bitflips_t tof_tgt_bitflips; uint8 coreid; uint8 pad[3]; } wl_proxd_rtt_sample_t; /** result flags */ enum { WL_PRXOD_RESULT_FLAG_NONE = 0x0000, WL_PROXD_RESULT_FLAG_NLOS = 0x0001, /**< LOS - if available */ WL_PROXD_RESULT_FLAG_LOS = 0x0002, /**< NLOS - if available */ WL_PROXD_RESULT_FLAG_FATAL = 0x0004, /**< Fatal error during burst */ WL_PROXD_RESULT_FLAG_VHTACK = 0x0008, /* VHTACK or Legacy ACK used */ WL_PROXD_REQUEST_SENT = 0x0010, /* FTM request was sent */ WL_PROXD_REQUEST_ACKED = 0x0020, /* FTM request was acked */ WL_PROXD_LTFSEQ_STARTED = 0x0040, /* LTF sequence started */ WL_PROXD_RESULT_FLAG_ALL = 0xffff }; typedef int16 wl_proxd_result_flags_t; /** rtt measurement result */ typedef struct wl_proxd_rtt_result { wl_proxd_session_id_t sid; wl_proxd_result_flags_t flags; wl_proxd_status_t status; struct ether_addr peer; wl_proxd_session_state_t state; /**< current state */ union { wl_proxd_intvl_t retry_after; /* hint for errors */ wl_proxd_intvl_t burst_duration; /* burst duration */ } u; wl_proxd_rtt_sample_t avg_rtt; uint32 avg_dist; /* 1/256m units */ uint16 sd_rtt; /* RTT standard deviation */ uint8 num_valid_rtt; /* valid rtt cnt */ uint8 num_ftm; /* actual num of ftm cnt (Configured) */ uint16 burst_num; /* in a session */ uint16 num_rtt; /* 0 if no detail */ uint16 num_meas; /* number of ftm frames seen OTA */ uint8 pad[2]; wl_proxd_rtt_sample_t rtt[1]; /* variable */ } wl_proxd_rtt_result_t; /** aoa measurement result */ typedef struct wl_proxd_aoa_result { wl_proxd_session_id_t sid; wl_proxd_result_flags_t flags; wl_proxd_status_t status; struct ether_addr peer; wl_proxd_session_state_t state; uint16 burst_num; uint8 pad[2]; /* wl_proxd_aoa_sample_t sample_avg; TBD */ } BWL_POST_PACKED_STRUCT wl_proxd_aoa_result_t; #include /** global stats */ typedef struct wl_proxd_counters { uint32 tx; /**< tx frame count */ uint32 rx; /**< rx frame count */ uint32 burst; /**< total number of burst */ uint32 sessions; /**< total number of sessions */ uint32 max_sessions; /**< max concurrency */ uint32 sched_fail; /**< scheduling failures */ uint32 timeouts; /**< timeouts */ uint32 protoerr; /**< protocol errors */ uint32 noack; /**< tx w/o ack */ uint32 txfail; /**< any tx falure */ uint32 lci_req_tx; /**< tx LCI requests */ uint32 lci_req_rx; /**< rx LCI requests */ uint32 lci_rep_tx; /**< tx LCI reports */ uint32 lci_rep_rx; /**< rx LCI reports */ uint32 civic_req_tx; /**< tx civic requests */ uint32 civic_req_rx; /**< rx civic requests */ uint32 civic_rep_tx; /**< tx civic reports */ uint32 civic_rep_rx; /**< rx civic reports */ uint32 rctx; /**< ranging contexts created */ uint32 rctx_done; /**< count of ranging done */ uint32 publish_err; /**< availability publishing errors */ uint32 on_chan; /**< count of scheduler onchan */ uint32 off_chan; /**< count of scheduler offchan */ uint32 tsf_lo; /* local tsf or session tsf */ uint32 tsf_hi; uint32 num_meas; } wl_proxd_counters_t; typedef struct wl_proxd_counters wl_proxd_session_counters_t; enum { WL_PROXD_CAP_NONE = 0x0000, WL_PROXD_CAP_ALL = 0xffff }; typedef int16 wl_proxd_caps_t; /** method capabilities */ enum { WL_PROXD_FTM_CAP_NONE = 0x0000, WL_PROXD_FTM_CAP_FTM1 = 0x0001 }; typedef uint16 wl_proxd_ftm_caps_t; typedef struct wl_proxd_tlv_id_list { uint16 num_ids; uint16 ids[1]; } wl_proxd_tlv_id_list_t; typedef struct wl_proxd_session_id_list { uint16 num_ids; wl_proxd_session_id_t ids[1]; } wl_proxd_session_id_list_t; typedef struct wl_proxd_tpk { struct ether_addr peer; uint8 tpk[TPK_FTM_LEN]; } wl_proxd_tpk_t; /* tlvs returned for get_info on ftm method * configuration: * proxd flags * event mask * debug mask * session defaults (session tlvs) * status tlv - not supported for ftm method * info tlv */ typedef struct wl_proxd_ftm_info { wl_proxd_ftm_caps_t caps; uint16 max_sessions; uint16 num_sessions; uint16 rx_max_burst; } wl_proxd_ftm_info_t; enum { WL_PROXD_WAIT_NONE = 0x0000, WL_PROXD_WAIT_KEY = 0x0001, WL_PROXD_WAIT_SCHED = 0x0002, WL_PROXD_WAIT_TSF = 0x0004 }; typedef int16 wl_proxd_wait_reason_t; /* tlvs returned for get_info on session * session config (tlvs) * session info tlv */ typedef struct wl_proxd_ftm_session_info { uint16 sid; uint8 bss_index; uint8 pad; struct ether_addr bssid; wl_proxd_session_state_t state; wl_proxd_status_t status; uint16 burst_num; wl_proxd_wait_reason_t wait_reason; uint32 meas_start_lo; /* sn tsf of 1st meas for cur/prev burst */ uint32 meas_start_hi; } wl_proxd_ftm_session_info_t; typedef struct wl_proxd_ftm_session_status { uint16 sid; wl_proxd_session_state_t state; wl_proxd_status_t status; uint16 burst_num; uint16 pad; } wl_proxd_ftm_session_status_t; /** rrm range request */ typedef struct wl_proxd_range_req { uint16 num_repeat; uint16 init_delay_range; /**< in TUs */ uint8 pad; uint8 num_nbr; /**< number of (possible) neighbors */ nbr_element_t nbr[1]; } wl_proxd_range_req_t; #define WL_PROXD_LCI_LAT_OFF 0 #define WL_PROXD_LCI_LONG_OFF 5 #define WL_PROXD_LCI_ALT_OFF 10 #define WL_PROXD_LCI_GET_LAT(_lci, _lat, _lat_err) { \ unsigned _off = WL_PROXD_LCI_LAT_OFF; \ _lat_err = (_lci)->data[(_off)] & 0x3f; \ _lat = (_lci)->data[(_off)+1]; \ _lat |= (_lci)->data[(_off)+2] << 8; \ _lat |= (_lci)->data[_(_off)+3] << 16; \ _lat |= (_lci)->data[(_off)+4] << 24; \ _lat <<= 2; \ _lat |= (_lci)->data[(_off)] >> 6; \ } #define WL_PROXD_LCI_GET_LONG(_lci, _lcilong, _long_err) { \ unsigned _off = WL_PROXD_LCI_LONG_OFF; \ _long_err = (_lci)->data[(_off)] & 0x3f; \ _lcilong = (_lci)->data[(_off)+1]; \ _lcilong |= (_lci)->data[(_off)+2] << 8; \ _lcilong |= (_lci)->data[_(_off)+3] << 16; \ _lcilong |= (_lci)->data[(_off)+4] << 24; \ __lcilong <<= 2; \ _lcilong |= (_lci)->data[(_off)] >> 6; \ } #define WL_PROXD_LCI_GET_ALT(_lci, _alt_type, _alt, _alt_err) { \ unsigned _off = WL_PROXD_LCI_ALT_OFF; \ _alt_type = (_lci)->data[_off] & 0x0f; \ _alt_err = (_lci)->data[(_off)] >> 4; \ _alt_err |= ((_lci)->data[(_off)+1] & 0x03) << 4; \ _alt = (_lci)->data[(_off)+2]; \ _alt |= (_lci)->data[(_off)+3] << 8; \ _alt |= (_lci)->data[_(_off)+4] << 16; \ _alt <<= 6; \ _alt |= (_lci)->data[(_off) + 1] >> 2; \ } #define WL_PROXD_LCI_VERSION(_lci) ((_lci)->data[15] >> 6) /* availability. advertising mechanism bss specific */ /** availablity flags */ enum { WL_PROXD_AVAIL_NONE = 0, WL_PROXD_AVAIL_NAN_PUBLISHED = 0x0001, WL_PROXD_AVAIL_SCHEDULED = 0x0002 /**< scheduled by proxd */ }; typedef int16 wl_proxd_avail_flags_t; /** time reference */ enum { WL_PROXD_TREF_NONE = 0, WL_PROXD_TREF_DEV_TSF = 1, WL_PROXD_TREF_NAN_DW = 2, WL_PROXD_TREF_TBTT = 3, WL_PROXD_TREF_MAX /* last entry */ }; typedef int16 wl_proxd_time_ref_t; /** proxd channel-time slot */ typedef struct { wl_proxd_intvl_t start; /**< from ref */ wl_proxd_intvl_t duration; /**< from start */ uint32 chanspec; } wl_proxd_time_slot_t; typedef struct wl_proxd_avail24 { wl_proxd_avail_flags_t flags; /**< for query only */ wl_proxd_time_ref_t time_ref; uint16 max_slots; /**< for query only */ uint16 num_slots; wl_proxd_time_slot_t slots[1]; /**< ROM compat - not used */ wl_proxd_intvl_t repeat; wl_proxd_time_slot_t ts0[1]; } wl_proxd_avail24_t; #define WL_PROXD_AVAIL24_TIMESLOT(_avail24, _i) (&(_avail24)->ts0[(_i)]) #define WL_PROXD_AVAIL24_TIMESLOT_OFFSET(_avail24) OFFSETOF(wl_proxd_avail24_t, ts0) #define WL_PROXD_AVAIL24_TIMESLOTS(_avail24) WL_PROXD_AVAIL24_TIMESLOT(_avail24, 0) #define WL_PROXD_AVAIL24_SIZE(_avail24, _num_slots) (\ WL_PROXD_AVAIL24_TIMESLOT_OFFSET(_avail24) + \ (_num_slots) * sizeof(*WL_PROXD_AVAIL24_TIMESLOT(_avail24, 0))) typedef struct wl_proxd_avail { wl_proxd_avail_flags_t flags; /**< for query only */ wl_proxd_time_ref_t time_ref; uint16 max_slots; /**< for query only */ uint16 num_slots; wl_proxd_intvl_t repeat; wl_proxd_time_slot_t slots[1]; } wl_proxd_avail_t; #define WL_PROXD_AVAIL_TIMESLOT(_avail, _i) (&(_avail)->slots[(_i)]) #define WL_PROXD_AVAIL_TIMESLOT_OFFSET(_avail) OFFSETOF(wl_proxd_avail_t, slots) #define WL_PROXD_AVAIL_TIMESLOTS(_avail) WL_PROXD_AVAIL_TIMESLOT(_avail, 0) #define WL_PROXD_AVAIL_SIZE(_avail, _num_slots) (\ WL_PROXD_AVAIL_TIMESLOT_OFFSET(_avail) + \ (_num_slots) * sizeof(*WL_PROXD_AVAIL_TIMESLOT(_avail, 0))) /* collect support TBD */ /** debugging */ enum { WL_PROXD_DEBUG_NONE = 0x00000000, WL_PROXD_DEBUG_LOG = 0x00000001, WL_PROXD_DEBUG_IOV = 0x00000002, WL_PROXD_DEBUG_EVENT = 0x00000004, WL_PROXD_DEBUG_SESSION = 0x00000008, WL_PROXD_DEBUG_PROTO = 0x00000010, WL_PROXD_DEBUG_SCHED = 0x00000020, WL_PROXD_DEBUG_RANGING = 0x00000040, WL_PROXD_DEBUG_NAN = 0x00000080, WL_PROXD_DEBUG_PKT = 0x00000100, WL_PROXD_DEBUG_SEC = 0x00000200, WL_PROXD_DEBUG_EVENTLOG = 0x80000000, /* map/enable EVNET_LOG_TAG_PROXD_INFO */ WL_PROXD_DEBUG_ALL = 0xffffffff }; typedef uint32 wl_proxd_debug_mask_t; /** tlv IDs - data length 4 bytes unless overridden by type, alignment 32 bits */ enum { WL_PROXD_TLV_ID_NONE = 0, WL_PROXD_TLV_ID_METHOD = 1, WL_PROXD_TLV_ID_FLAGS = 2, WL_PROXD_TLV_ID_CHANSPEC = 3, /**< note: uint32 */ WL_PROXD_TLV_ID_TX_POWER = 4, WL_PROXD_TLV_ID_RATESPEC = 5, WL_PROXD_TLV_ID_BURST_DURATION = 6, /**< intvl - length of burst */ WL_PROXD_TLV_ID_BURST_PERIOD = 7, /**< intvl - between bursts */ WL_PROXD_TLV_ID_BURST_FTM_SEP = 8, /**< intvl - between FTMs */ WL_PROXD_TLV_ID_BURST_NUM_FTM = 9, /**< uint16 - per burst */ WL_PROXD_TLV_ID_NUM_BURST = 10, /**< uint16 */ WL_PROXD_TLV_ID_FTM_RETRIES = 11, /**< uint16 at FTM level */ WL_PROXD_TLV_ID_BSS_INDEX = 12, /**< uint8 */ WL_PROXD_TLV_ID_BSSID = 13, WL_PROXD_TLV_ID_INIT_DELAY = 14, /**< intvl - optional,non-standalone only */ WL_PROXD_TLV_ID_BURST_TIMEOUT = 15, /**< expect response within - intvl */ WL_PROXD_TLV_ID_EVENT_MASK = 16, /**< interested events - in/out */ WL_PROXD_TLV_ID_FLAGS_MASK = 17, /**< interested flags - in only */ WL_PROXD_TLV_ID_PEER_MAC = 18, /**< mac address of peer */ WL_PROXD_TLV_ID_FTM_REQ = 19, /**< dot11_ftm_req */ WL_PROXD_TLV_ID_LCI_REQ = 20, WL_PROXD_TLV_ID_LCI = 21, WL_PROXD_TLV_ID_CIVIC_REQ = 22, WL_PROXD_TLV_ID_CIVIC = 23, WL_PROXD_TLV_ID_AVAIL24 = 24, /**< ROM compatibility */ WL_PROXD_TLV_ID_SESSION_FLAGS = 25, WL_PROXD_TLV_ID_SESSION_FLAGS_MASK = 26, /**< in only */ WL_PROXD_TLV_ID_RX_MAX_BURST = 27, /**< uint16 - limit bursts per session */ WL_PROXD_TLV_ID_RANGING_INFO = 28, /**< ranging info */ WL_PROXD_TLV_ID_RANGING_FLAGS = 29, /**< uint16 */ WL_PROXD_TLV_ID_RANGING_FLAGS_MASK = 30, /**< uint16, in only */ WL_PROXD_TLV_ID_NAN_MAP_ID = 31, WL_PROXD_TLV_ID_DEV_ADDR = 32, WL_PROXD_TLV_ID_AVAIL = 33, /**< wl_proxd_avail_t */ WL_PROXD_TLV_ID_TLV_ID = 34, /* uint16 tlv-id */ WL_PROXD_TLV_ID_FTM_REQ_RETRIES = 35, /* uint16 FTM request retries */ WL_PROXD_TLV_ID_TPK = 36, /* 32byte TPK */ WL_PROXD_TLV_ID_RI_RR = 36, /* RI_RR */ WL_PROXD_TLV_ID_TUNE = 37, /* wl_proxd_pararms_tof_tune_t */ /* output - 512 + x */ WL_PROXD_TLV_ID_STATUS = 512, WL_PROXD_TLV_ID_COUNTERS = 513, WL_PROXD_TLV_ID_INFO = 514, WL_PROXD_TLV_ID_RTT_RESULT = 515, WL_PROXD_TLV_ID_AOA_RESULT = 516, WL_PROXD_TLV_ID_SESSION_INFO = 517, WL_PROXD_TLV_ID_SESSION_STATUS = 518, WL_PROXD_TLV_ID_SESSION_ID_LIST = 519, /* debug tlvs can be added starting 1024 */ WL_PROXD_TLV_ID_DEBUG_MASK = 1024, WL_PROXD_TLV_ID_COLLECT = 1025, /**< output only */ WL_PROXD_TLV_ID_STRBUF = 1026, WL_PROXD_TLV_ID_COLLECT_HEADER = 1025, /* wl_proxd_collect_header_t */ WL_PROXD_TLV_ID_COLLECT_INFO = 1028, /* wl_proxd_collect_info_t */ WL_PROXD_TLV_ID_COLLECT_DATA = 1029, /* wl_proxd_collect_data_t */ WL_PROXD_TLV_ID_COLLECT_CHAN_DATA = 1030, /* wl_proxd_collect_data_t */ WL_PROXD_TLV_ID_MAX }; typedef struct wl_proxd_tlv { uint16 id; uint16 len; uint8 data[1]; } wl_proxd_tlv_t; /** proxd iovar - applies to proxd, method or session */ typedef struct wl_proxd_iov { uint16 version; uint16 len; wl_proxd_cmd_t cmd; wl_proxd_method_t method; wl_proxd_session_id_t sid; uint8 PAD[2]; wl_proxd_tlv_t tlvs[1]; /**< variable */ } wl_proxd_iov_t; #define WL_PROXD_IOV_HDR_SIZE OFFSETOF(wl_proxd_iov_t, tlvs) /* The following event definitions may move to bcmevent.h, but sharing proxd types * across needs more invasive changes unrelated to proxd */ enum { WL_PROXD_EVENT_NONE = 0, /**< not an event, reserved */ WL_PROXD_EVENT_SESSION_CREATE = 1, WL_PROXD_EVENT_SESSION_START = 2, WL_PROXD_EVENT_FTM_REQ = 3, WL_PROXD_EVENT_BURST_START = 4, WL_PROXD_EVENT_BURST_END = 5, WL_PROXD_EVENT_SESSION_END = 6, WL_PROXD_EVENT_SESSION_RESTART = 7, WL_PROXD_EVENT_BURST_RESCHED = 8, /**< burst rescheduled-e.g. partial TSF */ WL_PROXD_EVENT_SESSION_DESTROY = 9, WL_PROXD_EVENT_RANGE_REQ = 10, WL_PROXD_EVENT_FTM_FRAME = 11, WL_PROXD_EVENT_DELAY = 12, WL_PROXD_EVENT_VS_INITIATOR_RPT = 13, /**< (target) rx initiator-report */ WL_PROXD_EVENT_RANGING = 14, WL_PROXD_EVENT_LCI_MEAS_REP = 15, /* LCI measurement report */ WL_PROXD_EVENT_CIVIC_MEAS_REP = 16, /* civic measurement report */ WL_PROXD_EVENT_COLLECT = 17, WL_PROXD_EVENT_START_WAIT = 18, /* waiting to start */ WL_PROXD_EVENT_MAX }; typedef int16 wl_proxd_event_type_t; /** proxd event mask - upto 32 events for now */ typedef uint32 wl_proxd_event_mask_t; #define WL_PROXD_EVENT_MASK_ALL 0xfffffffe #define WL_PROXD_EVENT_MASK_EVENT(_event_type) (1 << (_event_type)) #define WL_PROXD_EVENT_ENABLED(_mask, _event_type) (\ ((_mask) & WL_PROXD_EVENT_MASK_EVENT(_event_type)) != 0) /** proxd event - applies to proxd, method or session */ typedef struct wl_proxd_event { uint16 version; uint16 len; wl_proxd_event_type_t type; wl_proxd_method_t method; wl_proxd_session_id_t sid; uint8 pad[2]; wl_proxd_tlv_t tlvs[1]; /**< variable */ } wl_proxd_event_t; enum { WL_PROXD_RANGING_STATE_NONE = 0, WL_PROXD_RANGING_STATE_NOTSTARTED = 1, WL_PROXD_RANGING_STATE_INPROGRESS = 2, WL_PROXD_RANGING_STATE_DONE = 3 }; typedef int16 wl_proxd_ranging_state_t; /** proxd ranging flags */ enum { WL_PROXD_RANGING_FLAG_NONE = 0x0000, /**< no flags */ WL_PROXD_RANGING_FLAG_DEL_SESSIONS_ON_STOP = 0x0001, WL_PROXD_RANGING_FLAG_ALL = 0xffff }; typedef uint16 wl_proxd_ranging_flags_t; struct wl_proxd_ranging_info { wl_proxd_status_t status; wl_proxd_ranging_state_t state; wl_proxd_ranging_flags_t flags; uint16 num_sids; uint16 num_done; }; typedef struct wl_proxd_ranging_info wl_proxd_ranging_info_t; #include typedef BWL_PRE_PACKED_STRUCT struct wl_proxd_collect_event_data { uint32 H_LB[K_TOF_COLLECT_H_SIZE_20MHZ]; uint32 H_RX[K_TOF_COLLECT_H_SIZE_20MHZ]; uint8 ri_rr[FTM_TPK_LEN]; wl_proxd_phy_error_t phy_err_mask; } BWL_POST_PACKED_STRUCT wl_proxd_collect_event_data_t; #include /** Data returned by the bssload_report iovar. This is also the WLC_E_BSS_LOAD event data */ #include typedef BWL_PRE_PACKED_STRUCT struct wl_bssload { uint16 sta_count; /**< station count */ uint16 aac; /**< available admission capacity */ uint8 chan_util; /**< channel utilization */ } BWL_POST_PACKED_STRUCT wl_bssload_t; #include /** * Maximum number of configurable BSS Load levels. The number of BSS Load * ranges is always 1 more than the number of configured levels. eg. if * 3 levels of 10, 20, 30 are configured then this defines 4 load ranges: * 0-10, 11-20, 21-30, 31-255. A WLC_E_BSS_LOAD event is generated each time * the utilization level crosses into another range, subject to the rate limit. */ #define MAX_BSSLOAD_LEVELS 8 #define MAX_BSSLOAD_RANGES (MAX_BSSLOAD_LEVELS + 1) /** BSS Load event notification configuration. */ typedef struct wl_bssload_cfg { uint32 rate_limit_msec; /**< # of events posted to application will be limited to * one per specified period (0 to disable rate limit). */ uint8 num_util_levels; /**< Number of entries in util_levels[] below */ uint8 util_levels[MAX_BSSLOAD_LEVELS]; /**< Variable number of BSS Load utilization levels in * low to high order. An event will be posted each time * a received beacon's BSS Load IE channel utilization * value crosses a level. */ uint8 PAD[3]; } wl_bssload_cfg_t; /** Multiple roaming profile suport */ #define WL_MAX_ROAM_PROF_BRACKETS 4 #define WL_ROAM_PROF_VER_0 0 #define WL_ROAM_PROF_VER_1 1 #define WL_MAX_ROAM_PROF_VER WL_ROAM_PROF_VER_1 #define WL_ROAM_PROF_NONE (0 << 0) #define WL_ROAM_PROF_LAZY (1 << 0) #define WL_ROAM_PROF_NO_CI (1 << 1) #define WL_ROAM_PROF_SUSPEND (1 << 2) #define WL_ROAM_PROF_SYNC_DTIM (1 << 6) #define WL_ROAM_PROF_DEFAULT (1 << 7) /**< backward compatible single default profile */ #define WL_FACTOR_TABLE_MAX_LIMIT 5 #define WL_CU_2G_ROAM_TRIGGER (-60) #define WL_CU_5G_ROAM_TRIGGER (-70) #define WL_CU_SCORE_DELTA_DEFAULT 20 #define WL_MAX_CHANNEL_USAGE 0x0FF #define WL_CU_PERCENTAGE_DISABLE 0 #define WL_CU_PERCENTAGE_DEFAULT 70 #define WL_CU_PERCENTAGE_MAX 100 #define WL_CU_CALC_DURATION_DEFAULT 10 /* seconds */ #define WL_CU_CALC_DURATION_MAX 60 /* seconds */ typedef struct wl_roam_prof_v2 { int8 roam_flags; /**< bit flags */ int8 roam_trigger; /**< RSSI trigger level per profile/RSSI bracket */ int8 rssi_lower; int8 roam_delta; /* if channel_usage if zero, roam_delta is rssi delta required for new AP */ /* if channel_usage if non-zero, roam_delta is score delta(%) required for new AP */ int8 rssi_boost_thresh; /**< Min RSSI to qualify for RSSI boost */ int8 rssi_boost_delta; /**< RSSI boost for AP in the other band */ uint16 nfscan; /**< number of full scan to start with */ uint16 fullscan_period; uint16 init_scan_period; uint16 backoff_multiplier; uint16 max_scan_period; uint8 channel_usage; uint8 cu_avg_calc_dur; uint8 pad[2]; } wl_roam_prof_v2_t; typedef struct wl_roam_prof_v1 { int8 roam_flags; /**< bit flags */ int8 roam_trigger; /**< RSSI trigger level per profile/RSSI bracket */ int8 rssi_lower; int8 roam_delta; /* if channel_usage if zero, roam_delta is rssi delta required for new AP */ /* if channel_usage if non-zero, roam_delta is score delta(%) required for new AP */ int8 rssi_boost_thresh; /**< Min RSSI to qualify for RSSI boost */ int8 rssi_boost_delta; /**< RSSI boost for AP in the other band */ uint16 nfscan; /**< number of full scan to start with */ uint16 fullscan_period; uint16 init_scan_period; uint16 backoff_multiplier; uint16 max_scan_period; } wl_roam_prof_v1_t; typedef struct wl_roam_prof_band_v2 { uint32 band; /**< Must be just one band */ uint16 ver; /**< version of this struct */ uint16 len; /**< length in bytes of this structure */ wl_roam_prof_v2_t roam_prof[WL_MAX_ROAM_PROF_BRACKETS]; } wl_roam_prof_band_v2_t; typedef struct wl_roam_prof_band_v1 { uint32 band; /**< Must be just one band */ uint16 ver; /**< version of this struct */ uint16 len; /**< length in bytes of this structure */ wl_roam_prof_v1_t roam_prof[WL_MAX_ROAM_PROF_BRACKETS]; } wl_roam_prof_band_v1_t; #define BSS_MAXTABLE_SIZE 10 #define WNM_BSS_SELECT_FACTOR_VERSION 1 typedef struct wnm_bss_select_factor_params { uint8 low; uint8 high; uint8 factor; uint8 pad; } wnm_bss_select_factor_params_t; #define WNM_BSS_SELECT_FIXED_SIZE OFFSETOF(wnm_bss_select_factor_cfg_t, params) typedef struct wnm_bss_select_factor_cfg { uint8 version; uint8 band; uint16 type; uint16 pad; uint16 count; wnm_bss_select_factor_params_t params[1]; } wnm_bss_select_factor_cfg_t; #define WNM_BSS_SELECT_WEIGHT_VERSION 1 typedef struct wnm_bss_select_weight_cfg { uint8 version; uint8 band; uint16 type; uint16 weight; /* weightage for each type between 0 to 100 */ } wnm_bss_select_weight_cfg_t; #define WNM_BSS_SELECT_TYPE_RSSI 0 #define WNM_BSS_SELECT_TYPE_CU 1 #define WNM_BSSLOAD_MONITOR_VERSION 1 typedef struct wnm_bssload_monitor_cfg { uint8 version; uint8 band; uint8 duration; /* duration between 1 to 20sec */ } wnm_bssload_monitor_cfg_t; #define WNM_ROAM_TRIGGER_VERSION 1 typedef struct wnm_roam_trigger_cfg { uint8 version; uint8 band; uint16 type; int16 trigger; /* trigger for each type in new roam algorithm */ } wnm_roam_trigger_cfg_t; /* Data structures for Interface Create/Remove */ #define WL_INTERFACE_CREATE_VER (0) #define WL_INTERFACE_CREATE_VER_1 1 #define WL_INTERFACE_CREATE_VER_2 2 #define WL_INTERFACE_CREATE_VER_3 3 /* * The flags filed of the wl_interface_create is designed to be * a Bit Mask. As of now only Bit 0 and Bit 1 are used as mentioned below. * The rest of the bits can be used, incase we have to provide * more information to the dongle */ /* * Bit 0 of flags field is used to inform whether the interface requested to * be created is STA or AP. * 0 - Create a STA interface * 1 - Create an AP interface * NOTE: This Bit 0 is applicable for the WL_INTERFACE_CREATE_VER < 2 */ #define WL_INTERFACE_CREATE_STA (0 << 0) #define WL_INTERFACE_CREATE_AP (1 << 0) /* * From revision >= 2 Bit 0 of flags field will not used be for STA or AP interface creation. * "iftype" field shall be used for identifying the interface type. */ typedef enum wl_interface_type { WL_INTERFACE_TYPE_STA = 0, WL_INTERFACE_TYPE_AP = 1, WL_INTERFACE_TYPE_AWDL = 2, WL_INTERFACE_TYPE_NAN = 3, WL_INTERFACE_TYPE_MAX } wl_interface_type_t; /* * Bit 1 of flags field is used to inform whether MAC is present in the * data structure or not. * 0 - Ignore mac_addr field * 1 - Use the mac_addr field */ #define WL_INTERFACE_MAC_DONT_USE (0 << 1) #define WL_INTERFACE_MAC_USE (1 << 1) /* * Bit 2 of flags field is used to inform whether core or wlc index * is present in the data structure or not. * 0 - Ignore wlc_index field * 1 - Use the wlc_index field */ #define WL_INTERFACE_WLC_INDEX_DONT_USE (0 << 2) #define WL_INTERFACE_WLC_INDEX_USE (1 << 2) /* * Bit 3 of flags field is used to create interface on the host requested interface index * 0 - Ignore if_index field * 1 - Use the if_index field */ #define WL_INTERFACE_IF_INDEX_USE (1 << 3) /* * Bit 4 of flags field is used to assign BSSID * 0 - Ignore bssid field * 1 - Use the bssid field */ #define WL_INTERFACE_BSSID_INDEX_USE (1 << 4) #ifdef WLMESH typedef struct wl_interface_info { uint16 ver; /* version of this struct */ struct ether_addr mac_addr; /* MAC address of the interface */ char ifname[BCM_MSG_IFNAME_MAX]; /* name of interface */ uint8 bsscfgidx; /* source bsscfg index */ } wl_interface_info_t; #endif typedef struct wl_interface_create { uint16 ver; /* version of this struct */ uint32 flags; /* flags that defines the operation */ struct ether_addr mac_addr; /* Optional Mac address */ } wl_interface_create_t; typedef struct wl_interface_create_v1 { uint16 ver; /**< version of this struct */ uint8 pad1[2]; /**< Padding bytes */ uint32 flags; /**< flags that defines the operation */ struct ether_addr mac_addr; /**< Optional Mac address */ uint8 pad2[2]; /**< Padding bytes */ uint32 wlc_index; /**< Optional wlc index */ } wl_interface_create_v1_t; typedef struct wl_interface_create_v2 { uint16 ver; /**< version of this struct */ uint8 pad1[2]; /**< Padding bytes */ uint32 flags; /**< flags that defines the operation */ struct ether_addr mac_addr; /**< Optional Mac address */ uint8 iftype; /**< Type of interface created */ uint8 pad2; /**< Padding bytes */ uint32 wlc_index; /**< Optional wlc index */ } wl_interface_create_v2_t; typedef struct wl_interface_create_v3 { uint16 ver; /**< version of this struct */ uint16 len; /**< length of whole structure including variable length */ uint16 fixed_len; /**< Fixed length of this structure excluding data[] */ uint8 iftype; /**< Type of interface created */ uint8 wlc_index; /**< Optional wlc index */ uint32 flags; /**< flags that defines the operation */ struct ether_addr mac_addr; /**< Optional Mac address */ struct ether_addr bssid; /**< Optional BSSID */ uint8 if_index; /**< interface index requested by Host */ uint8 pad[3]; /**< Padding bytes to ensure data[] is at 32 bit aligned */ uint8 data[]; /**< Optional application/Module specific data */ } wl_interface_create_v3_t; #define WL_INTERFACE_INFO_VER_1 1 #define WL_INTERFACE_INFO_VER_2 2 typedef struct wl_interface_info_v1 { uint16 ver; /**< version of this struct */ struct ether_addr mac_addr; /**< MAC address of the interface */ char ifname[BCM_MSG_IFNAME_MAX]; /**< name of interface */ uint8 bsscfgidx; /**< source bsscfg index */ uint8 PAD; } wl_interface_info_v1_t; typedef struct wl_interface_info_v2 { uint16 ver; /**< version of this struct */ uint16 length; /**< length of the whole structure */ struct ether_addr mac_addr; /**< MAC address of the interface */ uint8 bsscfgidx; /**< source bsscfg index */ uint8 if_index; /**< Interface index allocated by FW */ char ifname[BCM_MSG_IFNAME_MAX]; /**< name of interface */ } wl_interface_info_v2_t; #define PHY_RXIQEST_AVERAGING_DELAY 10 typedef struct wl_iqest_params { uint32 rxiq; uint8 niter; uint8 delay; uint8 PAD[2]; } wl_iqest_params_t; typedef struct wl_iqest_sweep_params { wl_iqest_params_t params; uint8 nchannels; uint8 channel[3]; /** variable */ } wl_iqest_sweep_params_t; typedef struct wl_iqest_value { uint8 channel; uint8 PAD[3]; uint32 rxiq; } wl_iqest_value_t; typedef struct wl_iqest_result { uint8 nvalues; uint8 PAD[3]; wl_iqest_value_t value[1]; } wl_iqest_result_t; /* BTCX AIBSS (Oxygen) Status */ typedef struct wlc_btc_aibss_info { uint32 prev_tsf_l; // Lower 32 bits of last read of TSF uint32 prev_tsf_h; // Higher 32 bits of last read of TSF uint32 last_btinfo; // Last read of BT info uint32 local_btinfo; // Local BT INFO BitMap uint8 bt_out_of_sync_cnt; // BT not in sync with strobe uint8 esco_off_cnt; // Count incremented when ESCO is off uint8 strobe_enabled; // Set only in AIBSS mode uint8 strobe_on; // strobe to BT is on for Oxygen uint8 local_bt_in_sync; // Sync status of local BT when strobe is on uint8 other_bt_in_sync; // Sync state of BT in other devices in AIBSS uint8 local_bt_is_master; // Local BT is master uint8 sco_prot_on; // eSCO Protection on in local device uint8 other_esco_present; // eSCO status in other devices in AIBSS uint8 rx_agg_change; // Indicates Rx Agg size needs to change uint8 rx_agg_modified; // Rx Agg size modified uint8 acl_grant_set; // ACL grants on for speeding up sync uint8 write_ie_err_cnt; // BTCX Ie write error cnt uint8 parse_ie_err_cnt; // BTCX IE parse error cnt uint8 wci2_fail_cnt; // WCI2 init failure cnt uint8 strobe_enable_err_cnt; // Strobe enable err cnt uint8 strobe_init_err_cnt; // Strobe init err cnt uint8 tsf_jump_cnt; // TSF jump cnt uint8 acl_grant_cnt; // ALC grant cnt uint8 pad1; uint16 ibss_tsf_shm; // SHM address of strobe TSF uint16 pad2; } wlc_btc_aibss_info_t; #define WLC_BTC_AIBSS_STATUS_VER 1 #define WLC_BTC_AIBSS_STATUS_LEN (sizeof(wlc_btc_aibss_status_t) - 2 * (sizeof(uint16))) typedef struct wlc_btc_aibss_status { uint16 version; // Version # uint16 len; // Length of the structure(excluding len & version) int32 mode; // Current value of btc_mode uint16 bth_period; // bt coex period. read from shm. uint16 agg_off_bm; // AGG OFF BM read from SHM uint8 bth_active; // bt active session uint8 pad[3]; wlc_btc_aibss_info_t aibss_info; // Structure definition above } wlc_btc_aibss_status_t; typedef enum { STATE_NONE = 0, /* WLAN -> BT */ W2B_DATA_SET = 21, B2W_ACK_SET = 22, W2B_DATA_CLEAR = 23, B2W_ACK_CLEAR = 24, /* BT -> WLAN */ B2W_DATA_SET = 31, W2B_ACK_SET = 32, B2W_DATA_CLEAR = 33, W2B_ACK_CLEAR = 34 } bwte_gci_intstate_t; #define WL_BWTE_STATS_VERSION 1 /* version of bwte_stats_t */ typedef struct { uint32 version; bwte_gci_intstate_t inttobt; bwte_gci_intstate_t intfrombt; uint32 bt2wl_intrcnt; /* bt->wlan interrrupt count */ uint32 wl2bt_intrcnt; /* wlan->bt interrupt count */ uint32 wl2bt_dset_cnt; uint32 wl2bt_dclear_cnt; uint32 wl2bt_aset_cnt; uint32 wl2bt_aclear_cnt; uint32 bt2wl_dset_cnt; uint32 bt2wl_dclear_cnt; uint32 bt2wl_aset_cnt; uint32 bt2wl_aclear_cnt; uint32 state_error_1; uint32 state_error_2; uint32 state_error_3; uint32 state_error_4; } bwte_stats_t; #define TBOW_MAX_SSID_LEN 32 #define TBOW_MAX_PASSPHRASE_LEN 63 #define WL_TBOW_SETUPINFO_T_VERSION 1 /* version of tbow_setup_netinfo_t */ typedef struct tbow_setup_netinfo { uint32 version; uint8 opmode; uint8 pad; uint8 macaddr[ETHER_ADDR_LEN]; uint32 ssid_len; uint8 ssid[TBOW_MAX_SSID_LEN]; uint8 passphrase_len; uint8 passphrase[TBOW_MAX_PASSPHRASE_LEN]; chanspec_t chanspec; uint8 PAD[2]; uint32 channel; } tbow_setup_netinfo_t; typedef enum tbow_ho_opmode { TBOW_HO_MODE_START_GO = 0, TBOW_HO_MODE_START_STA, TBOW_HO_MODE_START_GC, TBOW_HO_MODE_TEST_GO, TBOW_HO_MODE_STOP_GO = 0x10, TBOW_HO_MODE_STOP_STA, TBOW_HO_MODE_STOP_GC, TBOW_HO_MODE_TEARDOWN } tbow_ho_opmode_t; /* Beacon trim feature statistics */ /* configuration */ #define BCNTRIMST_PER 0 /* Number of beacons to trim (0: disable) */ #define BCNTRIMST_TIMEND 1 /* Number of bytes till TIM IE */ #define BCNTRIMST_TSFLMT 2 /* TSF tolerance value (usecs) */ /* internal use */ #define BCNTRIMST_CUR 3 /* PSM's local beacon trim counter */ #define BCNTRIMST_PREVLEN 4 /* Beacon length excluding the TIM IE */ #define BCNTRIMST_TIMLEN 5 /* TIM IE Length */ #define BCNTRIMST_RSSI 6 /* Partial beacon RSSI */ #define BCNTRIMST_CHAN 7 /* Partial beacon channel */ /* debug stat (off by default) */ #define BCNTRIMST_DUR 8 /* RX duration until beacon trimmed */ #define BCNTRIMST_RXMBSS 9 /* MYBSSID beacon received */ #define BCNTRIMST_CANTRIM 10 /* # beacons which were trimmed */ #define BCNTRIMST_LENCHG 11 /* # beacons not trimmed due to length change */ #define BCNTRIMST_TSFDRF 12 /* # beacons not trimmed due to large TSF delta */ #define BCNTRIMST_NOTIM 13 /* # beacons not trimmed due to TIM missing */ #define BCNTRIMST_NUM 14 #define WL_BCNTRIM_STATUS_VERSION_1 1 typedef struct wl_bcntrim_status_query_v1 { uint16 version; uint16 len; /* Total length includes fixed fields */ uint8 reset; /* reset after reading the stats */ uint8 pad[3]; /* 4-byte alignment */ } wl_bcntrim_status_query_v1_t; typedef struct wl_bcntrim_status_v1 { uint16 version; uint16 len; /* Total length includes fixed fields and variable data[] */ uint8 curr_slice_id; /* slice index of the interface */ uint8 applied_cfg; /* applied bcntrim N threshold */ uint8 pad[2]; /* 4-byte alignment */ uint32 fw_status; /* Bits representing bcntrim disable reason in FW */ uint32 total_disable_dur; /* total duration (msec) bcntrim remains disabled due to FW disable reasons */ uint32 data[]; /* variable length data containing stats */ } wl_bcntrim_status_v1_t; #define BCNTRIM_STATS_MAX 10 /* Total stats part of the status data[] */ /* Bits for FW status */ #define WL_BCNTRIM_DISABLE_HOST 0x1 /* Host disabled bcntrim through bcntrim IOVar */ #define WL_BCNTRIM_DISABLE_PHY_RATE 0x2 /* bcntrim disabled because beacon rx rate is higher than phy_rate_thresh */ #define WL_BCNTRIM_DISABLE_QUIET_IE 0x4 /* bcntrim disable when Quiet IE present */ #define WL_BCNTRIM_CFG_VERSION_1 1 /* Common IOVAR struct */ typedef struct wl_bcntrim_cfg_v1 { uint16 version; uint16 len; /* Total length includes fixed fields and variable data[] */ uint16 subcmd_id; /* subcommand id */ uint16 pad; /* pad/reserved */ uint8 data[]; /* subcommand data; could be empty */ } wl_bcntrim_cfg_v1_t; /* subcommands ids */ enum { WL_BCNTRIM_CFG_SUBCMD_PHY_RATE_THRESH = 0, /* PHY rate threshold above which bcntrim is not applied */ WL_BCNTRIM_CFG_SUBCMD_OVERRIDE_DISABLE_MASK = 1, /* Override bcntrim disable reasons */ WL_BCNTRIM_CFG_SUBCMD_TSF_DRIFT_LIMIT = 2 /* TSF drift limit to consider bcntrim */ }; #define BCNTRIM_MAX_PHY_RATE 48 /* in 500Kbps */ #define BCNTRIM_MAX_TSF_DRIFT 65535 /* in usec */ #define WL_BCNTRIM_OVERRIDE_DISABLE_MASK (WL_BCNTRIM_DISABLE_QUIET_IE) /* WL_BCNTRIM_CFG_SUBCMD_PHY_RATE_TRESH */ typedef struct wl_bcntrim_cfg_phy_rate_thresh { uint32 rate; /* beacon rate (in 500kbps units) */ } wl_bcntrim_cfg_phy_rate_thresh_t; /* WL_BCNTRIM_CFG_SUBCMD_OVERRIDE_DISABLE_MASK */ typedef struct wl_bcntrim_cfg_override_disable_mask { uint32 mask; /* bits representing individual disable reason to override */ } wl_bcntrim_cfg_override_disable_mask_t; /* WL_BCNTRIM_CFG_SUBCMD_TSF_DRIFT_LIMIT */ typedef struct wl_bcntrim_cfg_tsf_drift_limit { uint16 drift; /* tsf drift limit specified in usec */ uint8 pad[2]; /* 4-byte alignment */ } wl_bcntrim_cfg_tsf_drift_limit_t; /* -------------- TX Power Cap --------------- */ #define TXPWRCAP_MAX_NUM_CORES 8 #define TXPWRCAP_MAX_NUM_ANTENNAS (TXPWRCAP_MAX_NUM_CORES * 2) #define TXPWRCAP_NUM_SUBBANDS 5 /* IOVAR txcapconfig enum's */ #define TXPWRCAPCONFIG_WCI2 0 #define TXPWRCAPCONFIG_HOST 1 #define TXPWRCAPCONFIG_WCI2_AND_HOST 2 /* IOVAR txcapstate enum's */ #define TXPWRCAPSTATE_LOW_CAP 0 #define TXPWRCAPSTATE_HIGH_CAP 1 #define TXPWRCAPSTATE_HOST_LOW_WCI2_LOW_CAP 0 #define TXPWRCAPSTATE_HOST_LOW_WCI2_HIGH_CAP 1 #define TXPWRCAPSTATE_HOST_HIGH_WCI2_LOW_CAP 2 #define TXPWRCAPSTATE_HOST_HIGH_WCI2_HIGH_CAP 3 /* IOVAR txcapconfig and txcapstate structure is shared: SET and GET */ #define TXPWRCAPCTL_VERSION 2 typedef struct wl_txpwrcap_ctl { uint8 version; uint8 ctl[TXPWRCAP_NUM_SUBBANDS]; } wl_txpwrcap_ctl_t; /* IOVAR txcapdump structure: GET only */ #define TXPWRCAP_DUMP_VERSION 2 typedef struct wl_txpwrcap_dump { uint8 version; uint8 pad0; uint8 current_country[2]; uint32 current_channel; uint8 config[TXPWRCAP_NUM_SUBBANDS]; uint8 state[TXPWRCAP_NUM_SUBBANDS]; uint8 high_cap_state_enabled; uint8 wci2_cell_status_last; uint8 download_present; uint8 num_subbands; uint8 num_antennas; uint8 num_antennas_per_core[TXPWRCAP_MAX_NUM_CORES]; uint8 num_cc_groups; uint8 current_country_cc_group_info_index; int8 low_cap[TXPWRCAP_MAX_NUM_ANTENNAS*TXPWRCAP_NUM_SUBBANDS]; int8 high_cap[TXPWRCAP_MAX_NUM_ANTENNAS*TXPWRCAP_NUM_SUBBANDS]; uint8 PAD[3]; } wl_txpwrcap_dump_t; typedef struct wl_txpwrcap_dump_v3 { uint8 version; uint8 pad0; uint8 current_country[2]; uint32 current_channel; uint8 config[TXPWRCAP_NUM_SUBBANDS]; uint8 state[TXPWRCAP_NUM_SUBBANDS]; uint8 high_cap_state_enabled; uint8 wci2_cell_status_last; uint8 download_present; uint8 num_subbands; uint8 num_antennas; uint8 num_antennas_per_core[TXPWRCAP_MAX_NUM_CORES]; uint8 num_cc_groups; uint8 current_country_cc_group_info_index; uint8 cap_states_per_cc_group; int8 host_low_wci2_low_cap[TXPWRCAP_MAX_NUM_ANTENNAS*TXPWRCAP_NUM_SUBBANDS]; int8 host_low_wci2_high_cap[TXPWRCAP_MAX_NUM_ANTENNAS*TXPWRCAP_NUM_SUBBANDS]; int8 host_high_wci2_low_cap[TXPWRCAP_MAX_NUM_ANTENNAS*TXPWRCAP_NUM_SUBBANDS]; int8 host_high_wci2_high_cap[TXPWRCAP_MAX_NUM_ANTENNAS*TXPWRCAP_NUM_SUBBANDS]; uint8 PAD[2]; } wl_txpwrcap_dump_v3_t; typedef struct wl_txpwrcap_tbl { uint8 num_antennas_per_core[TXPWRCAP_MAX_NUM_CORES]; /* Stores values for valid antennas */ int8 pwrcap_cell_on[TXPWRCAP_MAX_NUM_ANTENNAS]; /* qdBm units */ int8 pwrcap_cell_off[TXPWRCAP_MAX_NUM_ANTENNAS]; /* qdBm units */ } wl_txpwrcap_tbl_t; /* ##### Ecounters section ##### */ #define ECOUNTERS_VERSION_1 1 /* Input structure for ecounters IOVAR */ typedef struct ecounters_config_request { uint16 version; /* config version */ uint16 set; /* Set where data will go. */ uint16 size; /* Size of the set. */ uint16 timeout; /* timeout in seconds. */ uint16 num_events; /* Number of events to report. */ uint16 ntypes; /* Number of entries in type array. */ uint16 type[1]; /* Statistics Types (tags) to retrieve. */ } ecounters_config_request_t; #define ECOUNTERS_EVENTMSGS_VERSION_1 1 #define ECOUNTERS_TRIGGER_CONFIG_VERSION_1 1 #define ECOUNTERS_EVENTMSGS_EXT_MASK_OFFSET \ OFFSETOF(ecounters_eventmsgs_ext_t, mask[0]) #define ECOUNTERS_TRIG_CONFIG_TYPE_OFFSET \ OFFSETOF(ecounters_trigger_config_t, type[0]) typedef struct ecounters_eventmsgs_ext { uint8 version; uint8 len; uint8 mask[1]; } ecounters_eventmsgs_ext_t; typedef struct ecounters_trigger_config { uint16 version; /* version */ uint16 set; /* set where data should go */ uint16 rsvd; /* reserved */ uint16 pad; /* pad/reserved */ uint16 ntypes; /* number of types/tags */ uint16 type[1]; /* list of types */ } ecounters_trigger_config_t; #define ECOUNTERS_TRIGGER_REASON_VERSION_1 1 /* Triggered due to timer based ecounters */ #define ECOUNTERS_TRIGGER_REASON_TIMER 0 /* Triggered due to event based configuration */ #define ECOUNTERS_TRIGGER_REASON_EVENTS 1 #define ECOUNTERS_TRIGGER_REASON_MAX 1 typedef struct ecounters_trigger_reason { uint16 version; /* version */ uint16 trigger_reason; /* trigger reason */ uint32 sub_reason_code; /* sub reason code */ uint32 trigger_time_now; /* time in ms at trigger */ uint32 host_ref_time; /* host ref time */ } ecounters_trigger_reason_t; #define WL_LQM_VERSION_1 1 /* For wl_lqm_t flags field */ #define WL_LQM_CURRENT_BSS_VALID 0x1 #define WL_LQM_TARGET_BSS_VALID 0x2 typedef struct { struct ether_addr BSSID; chanspec_t chanspec; int32 rssi; int32 snr; } wl_rx_signal_metric_t; typedef struct { uint8 version; uint8 flags; uint16 pad; int32 noise_level; /* current noise level */ wl_rx_signal_metric_t current_bss; wl_rx_signal_metric_t target_bss; } wl_lqm_t; /* ##### Ecounters v2 section ##### */ #define ECOUNTERS_VERSION_2 2 /* Enumeration of various ecounters request types. This namespace is different from * global reportable stats namespace. */ enum { WL_ECOUNTERS_XTLV_REPORT_REQ = 1 }; /* Input structure for ecounters IOVAR */ typedef struct ecounters_config_request_v2 { uint16 version; /* config version */ uint16 len; /* Length of this struct including variable len */ uint16 logset; /* Set where data will go. */ uint16 reporting_period; /* reporting_period */ uint16 num_reports; /* Number of timer expirations to report on */ uint8 pad[2]; /* Reserved for future use */ uint8 ecounters_xtlvs[]; /* Statistics Types (tags) to retrieve. */ } ecounters_config_request_v2_t; #define ECOUNTERS_STATS_TYPES_FLAG_SLICE 0x1 #define ECOUNTERS_STATS_TYPES_FLAG_IFACE 0x2 #define ECOUNTERS_STATS_TYPES_FLAG_GLOBAL 0x4 /* Slice mask bits */ #define ECOUNTERS_STATS_TYPES_SLICE_MASK_SLICE0 0x1 #define ECOUNTERS_STATS_TYPES_SLICE_MASK_SLICE1 0x2 typedef struct ecounters_stats_types_report_req { /* flags: bit0 = slice, bit1 = iface, bit2 = global, * rest reserved */ uint16 flags; uint16 if_index; /* host interface index */ uint16 slice_mask; /* bit0 = slice0, bit1=slice1, rest reserved */ uint8 pad[2]; /* padding */ uint8 stats_types_req[]; /* XTLVs of requested types */ } ecounters_stats_types_report_req_t; /* -------------- dynamic BTCOEX --------------- */ #define DCTL_TROWS 2 /**< currently practical number of rows */ #define DCTL_TROWS_MAX 4 /**< 2 extra rows RFU */ /* DYNCTL profile flags */ #define DCTL_FLAGS_DISABLED 0 /**< default value: all features disabled */ #define DCTL_FLAGS_DYNCTL (1 << 0) /**< 1 - enabled, 0 - legacy only */ #define DCTL_FLAGS_DESENSE (1 << 1) /**< auto desense is enabled */ #define DCTL_FLAGS_MSWITCH (1 << 2) /**< mode switching is enabled */ #define DCTL_FLAGS_PWRCTRL (1 << 3) /**< Tx power control is enabled */ /* for now AGG on/off is handled separately */ #define DCTL_FLAGS_TX_AGG_OFF (1 << 4) /**< TBD: allow TX agg Off */ #define DCTL_FLAGS_RX_AGG_OFF (1 << 5) /**< TBD: allow RX agg Off */ /* used for dry run testing only */ #define DCTL_FLAGS_DRYRUN (1 << 7) /**< Enables dynctl dry run mode */ #define IS_DYNCTL_ON(prof) ((prof->flags & DCTL_FLAGS_DYNCTL) != 0) #define IS_DESENSE_ON(prof) ((prof->flags & DCTL_FLAGS_DESENSE) != 0) #define IS_MSWITCH_ON(prof) ((prof->flags & DCTL_FLAGS_MSWITCH) != 0) #define IS_PWRCTRL_ON(prof) ((prof->flags & DCTL_FLAGS_PWRCTRL) != 0) /* desense level currently in use */ #define DESENSE_OFF 0 #define DFLT_DESENSE_MID 12 #define DFLT_DESENSE_HIGH 2 /** * dynctl data points(a set of btpwr & wlrssi thresholds) * for mode & desense switching */ typedef struct btc_thr_data { int8 mode; /**< used by desense sw */ int8 bt_pwr; /**< BT tx power threshold */ int8 bt_rssi; /**< BT rssi threshold */ /* wl rssi range when mode or desense change may be needed */ int8 wl_rssi_high; int8 wl_rssi_low; } btc_thr_data_t; /* dynctl. profile data structure */ #define DCTL_PROFILE_VER 0x01 #include typedef BWL_PRE_PACKED_STRUCT struct dctl_prof { uint8 version; /**< dynctl profile version */ /* dynctl profile flags bit:0 - dynctl On, bit:1 dsns On, bit:2 mode sw On, */ uint8 flags; /**< bit[6:3] reserved, bit7 - Dryrun (sim) - On */ /** wl desense levels to apply */ uint8 dflt_dsns_level; uint8 low_dsns_level; uint8 mid_dsns_level; uint8 high_dsns_level; /** mode switching hysteresis in dBm */ int8 msw_btrssi_hyster; /** default btcoex mode */ uint8 default_btc_mode; /** num of active rows in mode switching table */ uint8 msw_rows; /** num of rows in desense table */ uint8 dsns_rows; /** dynctl mode switching data table */ btc_thr_data_t msw_data[DCTL_TROWS_MAX]; /** dynctl desense switching data table */ btc_thr_data_t dsns_data[DCTL_TROWS_MAX]; } BWL_POST_PACKED_STRUCT dctl_prof_t; #include /** dynctl status info */ #include typedef BWL_PRE_PACKED_STRUCT struct dynctl_status { uint8 sim_on; /**< true if simulation is On */ uint16 bt_pwr_shm; /**< BT per/task power as read from ucode */ int8 bt_pwr; /**< BT pwr extracted & converted to dBm */ int8 bt_rssi; /**< BT rssi in dBm */ int8 wl_rssi; /**< last wl rssi reading used by btcoex */ uint8 dsns_level; /**< current desense level */ uint8 btc_mode; /**< current btcoex mode */ /* add more status items if needed, pad to 4 BB if needed */ } BWL_POST_PACKED_STRUCT dynctl_status_t; #include /** dynctl simulation (dryrun data) */ #include typedef BWL_PRE_PACKED_STRUCT struct dynctl_sim { uint8 sim_on; /**< simulation mode on/off */ int8 btpwr; /**< simulated BT power in dBm */ int8 btrssi; /**< simulated BT rssi in dBm */ int8 wlrssi; /**< simulated WL rssi in dBm */ } BWL_POST_PACKED_STRUCT dynctl_sim_t; /* no default structure packing */ #include /** PTK key maintained per SCB */ #define RSN_TEMP_ENCR_KEY_LEN 16 typedef struct wpa_ptk { uint8 kck[RSN_KCK_LENGTH]; /**< EAPOL-Key Key Confirmation Key (KCK) */ uint8 kek[RSN_KEK_LENGTH]; /**< EAPOL-Key Key Encryption Key (KEK) */ uint8 tk1[RSN_TEMP_ENCR_KEY_LEN]; /**< Temporal Key 1 (TK1) */ uint8 tk2[RSN_TEMP_ENCR_KEY_LEN]; /**< Temporal Key 2 (TK2) */ } wpa_ptk_t; /** GTK key maintained per SCB */ typedef struct wpa_gtk { uint32 idx; uint32 key_len; uint8 key[DOT11_MAX_KEY_SIZE]; } wpa_gtk_t; /** FBT Auth Response Data structure */ typedef struct wlc_fbt_auth_resp { uint8 macaddr[ETHER_ADDR_LEN]; /**< station mac address */ uint8 pad[2]; uint8 pmk_r1_name[WPA2_PMKID_LEN]; wpa_ptk_t ptk; /**< pairwise key */ wpa_gtk_t gtk; /**< group key */ uint32 ie_len; uint8 status; /**< Status of parsing FBT authentication Request in application */ uint8 ies[1]; /**< IEs contains MDIE, RSNIE, FBTIE (ANonce, SNonce,R0KH-ID, R1KH-ID) */ } wlc_fbt_auth_resp_t; /** FBT Action Response frame */ typedef struct wlc_fbt_action_resp { uint16 version; /**< structure version */ uint16 length; /**< length of structure */ uint8 macaddr[ETHER_ADDR_LEN]; /**< station mac address */ uint8 data_len; /**< len of ie from Category */ uint8 data[1]; /**< data contains category, action, sta address, target ap, status code,fbt response frame body */ } wlc_fbt_action_resp_t; #define MACDBG_PMAC_ADDR_INPUT_MAXNUM 16 #define MACDBG_PMAC_OBJ_TYPE_LEN 8 typedef struct _wl_macdbg_pmac_param_t { char type[MACDBG_PMAC_OBJ_TYPE_LEN]; uint8 step; uint8 w_en; uint16 num; uint32 bitmap; uint8 addr_raw; uint8 addr_num; uint16 addr[MACDBG_PMAC_ADDR_INPUT_MAXNUM]; uint8 pad0[2]; uint32 w_val; } wl_macdbg_pmac_param_t; /** IOVAR 'svmp_sampcol' parameter. Used to set and read SVMP_SAMPLE_COLLECT's setting */ typedef struct wl_svmp_sampcol_param { uint32 version; /* version */ uint8 enable; uint8 trigger_mode; /* SVMP_SAMPCOL_TRIGGER */ uint8 trigger_mode_s[2]; /* SVMP_SAMPCOL_PKTPROC */ uint8 data_samplerate; /* SVMP_SAMPCOL_SAMPLERATE */ uint8 data_sel_phy1; /* SVMP_SAMPCOL_PHY1MUX */ uint8 data_sel_rx1; /* SVMP_SAMPCOL_RX1MUX without iqCompOut */ uint8 data_sel_dualcap; /* SVMP_SAMPCOL_RX1MUX */ uint8 pack_mode; /* SVMP_SAMPCOL_PACK */ uint8 pack_order; uint8 pack_cfix_fmt; uint8 pack_1core_sel; uint16 waitcnt; uint16 caplen; uint32 buff_addr_start; /* in word-size (2-bytes) */ uint32 buff_addr_end; /* note: Tcl in byte-size, HW in vector-size (8-bytes) */ uint8 int2vasip; uint8 PAD; uint16 status; } wl_svmp_sampcol_t; #define WL_SVMP_SAMPCOL_PARAMS_VERSION 1 enum { SVMP_SAMPCOL_TRIGGER_PKTPROC_TRANSITION = 0, SVMP_SAMPCOL_TRIGGER_FORCE_IMMEDIATE, SVMP_SAMPCOL_TRIGGER_RADAR_DET }; enum { SVMP_SAMPCOL_PHY1MUX_GPIOOUT = 0, SVMP_SAMPCOL_PHY1MUX_FFT, SVMP_SAMPCOL_PHY1MUX_DBGHX, SVMP_SAMPCOL_PHY1MUX_RX1MUX }; enum { SVMP_SAMPCOL_RX1MUX_FARROWOUT = 4, SVMP_SAMPCOL_RX1MUX_IQCOMPOUT, SVMP_SAMPCOL_RX1MUX_DCFILTEROUT, SVMP_SAMPCOL_RX1MUX_RXFILTEROUT, SVMP_SAMPCOL_RX1MUX_ACIFILTEROUT }; enum { SVMP_SAMPCOL_SAMPLERATE_1XBW = 0, SVMP_SAMPCOL_SAMPLERATE_2XBW }; enum { SVMP_SAMPCOL_PACK_DUALCAP = 0, SVMP_SAMPCOL_PACK_4CORE, SVMP_SAMPCOL_PACK_2CORE, SVMP_SAMPCOL_PACK_1CORE }; enum { SVMP_SAMPCOL_PKTPROC_RESET = 0, SVMP_SAMPCOL_PKTPROC_CARRIER_SEARCH, SVMP_SAMPCOL_PKTPROC_WAIT_FOR_NB_PWR, SVMP_SAMPCOL_PKTPROC_WAIT_FOR_W1_PWR, SVMP_SAMPCOL_PKTPROC_WAIT_FOR_W2_PWR, SVMP_SAMPCOL_PKTPROC_OFDM_PHY, SVMP_SAMPCOL_PKTPROC_TIMING_SEARCH, SVMP_SAMPCOL_PKTPROC_CHAN_EST_1, SVMP_SAMPCOL_PKTPROC_LEG_SIG_DEC, SVMP_SAMPCOL_PKTPROC_SIG_DECODE_1, SVMP_SAMPCOL_PKTPROC_SIG_DECODE_2, SVMP_SAMPCOL_PKTPROC_HT_AGC, SVMP_SAMPCOL_PKTPROC_CHAN_EST_2, SVMP_SAMPCOL_PKTPROC_PAY_DECODE, SVMP_SAMPCOL_PKTPROC_DSSS_CCK_PHY, SVMP_SAMPCOL_PKTPROC_WAIT_ENERGY_DROP, SVMP_SAMPCOL_PKTPROC_WAIT_NCLKS, SVMP_SAMPCOL_PKTPROC_PAY_DEC_EXT, SVMP_SAMPCOL_PKTPROC_SIG_FAIL_DELAY, SVMP_SAMPCOL_PKTPROC_RIFS_SEARCH, SVMP_SAMPCOL_PKTPROC_BOARD_SWITCH_DIV_SEARCH, SVMP_SAMPCOL_PKTPROC_DSSS_CCK_BOARD_SWITCH_DIV_SEARCH, SVMP_SAMPCOL_PKTPROC_CHAN_EST_3, SVMP_SAMPCOL_PKTPROC_CHAN_EST_4, SVMP_SAMPCOL_PKTPROC_FINE_TIMING_SEARCH, SVMP_SAMPCOL_PKTPROC_SET_CLIP_GAIN, SVMP_SAMPCOL_PKTPROC_NAP, SVMP_SAMPCOL_PKTPROC_VHT_SIGA_DEC, SVMP_SAMPCOL_PKTPROC_VHT_SIGB_DEC, SVMP_SAMPCOL_PKTPROC_PKT_ABORT, SVMP_SAMPCOL_PKTPROC_DCCAL }; /** IOVAR 'svmp_mem' parameter. Used to read/clear svmp memory */ typedef struct svmp_mem { uint32 addr; /**< offset to read svmp memory from vasip base address */ uint16 len; /**< length in count of uint16's */ uint16 val; /**< set the range of addr/len with a value */ } svmp_mem_t; /** IOVAR 'mu_rate' parameter. read/set mu rate for upto four users */ #define MU_RATE_CFG_VERSION 1 typedef struct mu_rate { uint16 version; /**< version of the structure as defined by MU_RATE_CFG_VERSION */ uint16 length; /**< length of entire structure */ uint8 auto_rate; /**< enable/disable auto rate */ uint8 PAD; uint16 rate_user[4]; /**< rate per each of four users, set to -1 for no change */ } mu_rate_t; /** IOVAR 'mu_group' parameter. Used to set and read MU group recommendation setting */ #define WL_MU_GROUP_AUTO_COMMAND -1 #define WL_MU_GROUP_PARAMS_VERSION 3 #define WL_MU_GROUP_METHOD_NAMELEN 64 #define WL_MU_GROUP_NGROUP_MAX 15 #define WL_MU_GROUP_NUSER_MAX 4 #define WL_MU_GROUP_METHOD_MIN 0 #define WL_MU_GROUP_NUMBER_AUTO_MIN 1 #define WL_MU_GROUP_NUMBER_AUTO_MAX 15 #define WL_MU_GROUP_NUMBER_FORCED_MAX 8 #define WL_MU_GROUP_METHOD_OLD 0 #define WL_MU_GROUP_MODE_AUTO 0 #define WL_MU_GROUP_MODE_FORCED 1 #define WL_MU_GROUP_FORCED_1GROUP 1 #define WL_MU_GROUP_ENTRY_EMPTY -1 typedef struct mu_group { uint32 version; /* version */ int16 forced; /* forced group recommendation */ int16 forced_group_mcs; /* forced group with mcs */ int16 forced_group_num; /* forced group number */ int16 group_option[WL_MU_GROUP_NGROUP_MAX][WL_MU_GROUP_NUSER_MAX]; /* set mode for forced grouping and read mode for auto grouping */ int16 group_GID[WL_MU_GROUP_NGROUP_MAX]; int16 group_method; /* methof for VASIP group recommendation */ int16 group_number; /* requested number for VASIP group recommendation */ int16 auto_group_num; /* exact number from VASIP group recommendation */ int8 group_method_name[WL_MU_GROUP_METHOD_NAMELEN]; uint8 PAD[2]; } mu_group_t; typedef struct mupkteng_sta { struct ether_addr ea; uint8 PAD[2]; int32 nrxchain; int32 idx; } mupkteng_sta_t; typedef struct mupkteng_client { int32 rspec; int32 idx; int32 flen; int32 nframes; } mupkteng_client_t; typedef struct mupkteng_tx { mupkteng_client_t client[8]; int32 nclients; int32 ntx; } mupkteng_tx_t; /* * MU Packet engine interface. * The following two definitions will go into * wlioctl_defs.h * when wl utility changes are merged to EAGLE TOB & Trunk */ #define WL_MUPKTENG_PER_TX_START 0x10 #define WL_MUPKTENG_PER_TX_STOP 0x20 /** IOVAR 'mu_policy' parameter. Used to configure MU admission control policies */ #define WL_MU_POLICY_PARAMS_VERSION 1 #define WL_MU_POLICY_SCHED_DEFAULT 60 #define WL_MU_POLICY_DISABLED 0 #define WL_MU_POLICY_ENABLED 1 #define WL_MU_POLICY_NRX_MIN 1 #define WL_MU_POLICY_NRX_MAX 2 typedef struct mu_policy { uint16 version; uint16 length; uint32 sched_timer; uint32 pfmon; uint32 pfmon_gpos; uint32 samebw; uint32 nrx; uint32 max_muclients; } mu_policy_t; #define WL_NAN_BAND_STR_SIZE 5 /* sizeof ("auto") */ /** Definitions of different NAN Bands */ /* do not change the order */ enum { NAN_BAND_B = 0, NAN_BAND_A, NAN_BAND_AUTO, NAN_BAND_INVALID = 0xFF }; /* ifdef WL11ULB */ /* ULB Mode configured via "ulb_mode" IOVAR */ enum { ULB_MODE_DISABLED = 0, ULB_MODE_STD_ALONE_MODE = 1, /* Standalone ULB Mode */ ULB_MODE_DYN_MODE = 2, /* Dynamic ULB Mode */ /* Add all other enums before this */ MAX_SUPP_ULB_MODES }; /* ULB BWs configured via "ulb_bw" IOVAR during Standalone Mode Only. * Values of this enumeration are also used to specify 'Current Operational Bandwidth' * and 'Primary Operational Bandwidth' sub-fields in 'ULB Operations' field (used in * 'ULB Operations' Attribute or 'ULB Mode Switch' Attribute) */ typedef enum { ULB_BW_DISABLED = 0, ULB_BW_10MHZ = 1, /* Standalone ULB BW in 10 MHz BW */ ULB_BW_5MHZ = 2, /* Standalone ULB BW in 5 MHz BW */ ULB_BW_2P5MHZ = 3, /* Standalone ULB BW in 2.5 MHz BW */ /* Add all other enums before this */ MAX_SUPP_ULB_BW } ulb_bw_type_t; /* endif WL11ULB */ #define WL_MESH_IOCTL_VERSION 1 #define MESH_IOC_BUFSZ 512 /* sufficient ioc buff size for mesh */ #ifdef WLMESH typedef struct mesh_peer_info_ext { mesh_peer_info_t peer_info; uint8 pad1; uint16 local_aid; /* AID generated by *local* to peer */ uint32 entry_state; /* see MESH_PEER_ENTRY_STATE_ACTIVE etc; valid * ONLY for internal peering requests */ int8 rssi; uint8 pad2; struct ether_addr ea; /* peer ea */ } mesh_peer_info_ext_t; /* #ifdef WLMESH */ typedef struct mesh_peer_info_dump { uint32 buflen; uint32 version; uint16 count; /* number of results */ uint16 remaining; /* remaining rsults */ mesh_peer_info_ext_t mpi_ext[1]; } mesh_peer_info_dump_t; #define WL_MESH_PEER_RES_FIXED_SIZE (sizeof(mesh_peer_info_dump_t) - sizeof(mesh_peer_info_ext_t)) #endif /* WLMESH */ /* container for mesh iovtls & events */ typedef struct wl_mesh_ioc { uint16 version; /* interface command or event version */ uint16 id; /* mesh ioctl cmd ID */ uint16 len; /* total length of all tlv records in data[] */ uint16 pad; /* pad to be 32 bit aligment */ uint8 data[]; /* var len payload of bcm_xtlv_t type */ } wl_mesh_ioc_t; enum wl_mesh_cmds { WL_MESH_CMD_ENABLE = 1, WL_MESH_CMD_JOIN = 2, WL_MESH_CMD_PEER_STATUS = 3, WL_MESH_CMD_ADD_ROUTE = 4, WL_MESH_CMD_DEL_ROUTE = 5, WL_MESH_CMD_ADD_FILTER = 6, WL_MESH_CMD_ENAB_AL_METRIC = 7 }; enum wl_mesh_cmd_xtlv_id { WL_MESH_XTLV_ENABLE = 1, WL_MESH_XTLV_JOIN = 2, WL_MESH_XTLV_STATUS = 3, WL_MESH_XTLV_ADD_ROUTE = 4, WL_MESH_XTLV_DEL_ROUTE = 5, WL_MESH_XTLV_ADD_FILTER = 6, WL_MESH_XTLV_ENAB_AIRLINK = 7 }; /* endif WLMESH */ #ifdef WLMESH #ifndef SAE_MAX_PASSWD_LEN #define SAE_MAX_PASSWD_LEN 32 #endif #endif /* Fast BSS Transition parameter configuration */ #define FBT_PARAM_CURRENT_VERSION 0 typedef struct _wl_fbt_params { uint16 version; /* version of the structure * as defined by FBT_PARAM_CURRENT_VERSION */ uint16 length; /* length of the entire structure */ uint16 param_type; /* type of parameter defined below */ uint16 param_len; /* length of the param_value */ uint8 param_value[1]; /* variable length */ } wl_fbt_params_t; #define WL_FBT_PARAM_TYPE_RSNIE 0 #define WL_FBT_PARAM_TYPE_FTIE 0x1 #define WL_FBT_PARAM_TYPE_SNONCE 0x2 #define WL_FBT_PARAM_TYPE_MDE 0x3 #define WL_FBT_PARAM_TYPE_PMK_R0_NAME 0x4 #define WL_FBT_PARAM_TYPE_R0_KHID 0x5 #define WL_FBT_PARAM_TYPE_R1_KHID 0x6 #define WL_FBT_PARAM_TYPE_FIRST_INVALID 0x7 /* Assoc Mgr commands for fine control of assoc */ #define WL_ASSOC_MGR_CURRENT_VERSION 0x0 typedef struct { uint16 version; /* version of the structure as * defined by WL_ASSOC_MGR_CURRENT_VERSION */ uint16 length; /* length of the entire structure */ uint16 cmd; uint16 params; } wl_assoc_mgr_cmd_t; #define WL_ASSOC_MGR_CMD_PAUSE_ON_EVT 0 /* have assoc pause on certain events */ #define WL_ASSOC_MGR_CMD_ABORT_ASSOC 1 #define WL_ASSOC_MGR_PARAMS_EVENT_NONE 0 /* use this to resume as well as clear */ #define WL_ASSOC_MGR_PARAMS_PAUSE_EVENT_AUTH_RESP 1 #define WL_WINVER_STRUCT_VER_1 (1) typedef struct wl_winver { /* Version and length of this structure. Length includes all fields in wl_winver_t */ uint16 struct_version; uint16 struct_length; /* Windows operating system version info (Microsoft provided) */ struct { uint32 major_ver; uint32 minor_ver; uint32 build; } os_runtime; /* NDIS runtime version (Microsoft provided) */ struct { uint16 major_ver; uint16 minor_ver; } ndis_runtime; /* NDIS Driver version (Broadcom provided) */ struct { uint16 major_ver; uint16 minor_ver; } ndis_driver; /* WDI Upper Edge (UE) Driver version (Microsoft provided) */ struct { uint8 major_ver; uint8 minor_ver; uint8 suffix; } wdi_ue; /* WDI Lower Edge (LE) Driver version (Broadcom provided) */ struct { uint8 major_ver; uint8 minor_ver; uint8 suffix; } wdi_le; uint8 PAD[2]; } wl_winver_t; /* defined(WLRCC) || defined(ROAM_CHANNEL_CACHE) */ #define MAX_ROAM_CHANNEL 20 typedef struct { int32 n; chanspec_t channels[MAX_ROAM_CHANNEL]; } wl_roam_channel_list_t; /* endif RCC || ROAM_CHANNEL_CACHE */ /* values for IOV_MFP arg */ enum { WL_MFP_NONE = 0, WL_MFP_CAPABLE, WL_MFP_REQUIRED }; typedef enum { CHANSW_UNKNOWN = 0, /* channel switch due to unknown reason */ CHANSW_SCAN = 1, /* channel switch due to scan */ CHANSW_PHYCAL = 2, /* channel switch due to phy calibration */ CHANSW_INIT = 3, /* channel set at WLC up time */ CHANSW_ASSOC = 4, /* channel switch due to association */ CHANSW_ROAM = 5, /* channel switch due to roam */ CHANSW_MCHAN = 6, /* channel switch triggered by mchan module */ CHANSW_IOVAR = 7, /* channel switch due to IOVAR */ CHANSW_CSA_DFS = 8, /* channel switch due to chan switch announcement from AP */ CHANSW_APCS = 9, /* Channel switch from AP channel select module */ CHANSW_AWDL = 10, /* channel switch due to AWDL */ CHANSW_FBT = 11, /* Channel switch from FBT module for action frame response */ CHANSW_UPDBW = 12, /* channel switch at update bandwidth */ CHANSW_ULB = 13, /* channel switch at ULB */ CHANSW_LAST = 14 /* last channel switch reason */ } chansw_reason_t; /* * WOWL unassociated mode power svae pattern. */ typedef struct wowl_radio_duty_cycle { uint16 wake_interval; uint16 sleep_interval; } wowl_radio_duty_cycle_t; typedef struct nd_ra_ol_limits { uint16 version; /* version of the iovar buffer */ uint16 type; /* type of data provided */ uint16 length; /* length of the entire structure */ uint16 pad1; /* pad union to 4 byte boundary */ union { struct { uint16 min_time; /* seconds, min time for RA offload hold */ uint16 lifetime_percent; /* percent, lifetime percentage for offload hold time */ } lifetime_relative; struct { uint16 hold_time; /* seconds, RA offload hold time */ uint16 pad2; /* unused */ } fixed; } limits; } nd_ra_ol_limits_t; #define ND_RA_OL_LIMITS_VER 1 /* nd_ra_ol_limits sub-types */ #define ND_RA_OL_LIMITS_REL_TYPE 0 /* relative, percent of RA lifetime */ #define ND_RA_OL_LIMITS_FIXED_TYPE 1 /* fixed time */ /* buffer lengths for the different nd_ra_ol_limits types */ #define ND_RA_OL_LIMITS_REL_TYPE_LEN 12 #define ND_RA_OL_LIMITS_FIXED_TYPE_LEN 10 /* * Temperature Throttling control mode */ typedef struct wl_temp_control { uint8 enable; uint8 PAD; uint16 control_bit; } wl_temp_control_t; /* SensorHub Interworking mode */ #define SHUB_CONTROL_VERSION 1 #define SHUB_CONTROL_LEN 12 typedef struct { uint16 verison; uint16 length; uint16 cmd; uint16 op_mode; uint16 interval; uint16 enable; } shub_control_t; /* WLC_MAJOR_VER <= 5 */ /* Data structures for non-TLV format */ /* Data structures for rsdb caps */ /* * The flags field of the rsdb_caps_response is designed to be * a Bit Mask. As of now only Bit 0 is used as mentioned below. */ /* Bit-0 in flags is used to indicate if the cores can operate synchronously * i.e either as 2x2 MIMO or 2(1x1 SISO). This is true only for 4349 variants * 0 - device can operate only in rsdb mode (eg: 4364) * 1 - device can operate in both rsdb and mimo (eg : 4359 variants) */ #define WL_RSDB_CAPS_VER 2 #define SYNCHRONOUS_OPERATION_TRUE (1 << 0) #define WL_RSDB_CAPS_FIXED_LEN OFFSETOF(rsdb_caps_response_t, num_chains) typedef struct rsdb_caps_response { uint8 ver; /* Version */ uint8 len; /* length of this structure excluding ver and len */ uint8 rsdb; /* TRUE for rsdb chip */ uint8 num_of_cores; /* no of d11 cores */ uint16 flags; /* Flags to indicate various capabilities */ uint8 num_chains[1]; /* Tx/Rx chains for each core */ } rsdb_caps_response_t; /* Data structures for rsdb bands */ #define WL_RSDB_BANDS_VER 2 #define WL_RSDB_BANDS_FIXED_LEN OFFSETOF(rsdb_bands_t, band) typedef struct rsdb_bands { uint8 ver; uint8 len; uint16 num_cores; /* num of D11 cores */ int16 band[1]; /* The band operating on each of the d11 cores */ } rsdb_bands_t; /* rsdb config */ #define WL_RSDB_CONFIG_VER 3 #define ALLOW_SIB_PARALLEL_SCAN (1 << 0) #define MAX_BANDS 2 #define WL_RSDB_CONFIG_LEN sizeof(rsdb_config_t) typedef uint8 rsdb_opmode_t; typedef uint32 rsdb_flags_t; typedef enum rsdb_modes { WLC_SDB_MODE_NOSDB_MAIN = 1, /* 2X2 or MIMO mode (applicable only for 4355) */ WLC_SDB_MODE_NOSDB_AUX = 2, WLC_SDB_MODE_SDB_MAIN = 3, /* This is RSDB mode(default) applicable only for 4364 */ WLC_SDB_MODE_SDB_AUX = 4, WLC_SDB_MODE_SDB_AUTO = 5, /* Same as WLC_RSDB_MODE_RSDB(1+1) mode above */ } rsdb_modes_t; typedef struct rsdb_config { uint8 ver; uint8 len; uint16 reserved; rsdb_opmode_t non_infra_mode; rsdb_opmode_t infra_mode[MAX_BANDS]; rsdb_flags_t flags[MAX_BANDS]; rsdb_opmode_t current_mode; /* Valid only in GET, returns the current mode */ uint8 pad[3]; } rsdb_config_t; /* WLC_MAJOR_VER > =5 */ /* TLV definitions and data structures for rsdb subcmds */ enum wl_rsdb_cmd_ids { /* RSDB ioctls */ WL_RSDB_CMD_VER = 0, WL_RSDB_CMD_CAPS = 1, WL_RSDB_CMD_BANDS = 2, WL_RSDB_CMD_CONFIG = 3, /* Add before this !! */ WL_RSDB_CMD_LAST }; #define WL_RSDB_IOV_VERSION 0x1 typedef struct rsdb_caps_response_v1 { uint8 rsdb; /* TRUE for rsdb chip */ uint8 num_of_cores; /* no of d11 cores */ uint16 flags; /* Flags to indicate various capabilities */ uint8 num_chains[MAX_NUM_D11CORES]; /* Tx/Rx chains for each core */ uint8 band_cap[MAX_NUM_D11CORES]; /* band cap bitmask per slice */ } rsdb_caps_response_v1_t; typedef struct rsdb_bands_v1 { uint8 num_cores; /* num of D11 cores */ uint8 pad; /* padding bytes for 4 byte alignment */ int8 band[MAX_NUM_D11CORES]; /* The band operating on each of the d11 cores */ } rsdb_bands_v1_t; typedef struct rsdb_config_xtlv { rsdb_opmode_t reserved1; /* Non_infra mode is no more applicable */ rsdb_opmode_t infra_mode[MAX_BANDS]; /* Target mode for Infra association */ uint8 pad; /* pad bytes for 4 byte alignment */ rsdb_flags_t flags[MAX_BANDS]; rsdb_opmode_t current_mode; /* GET only; has current mode of operation */ uint8 pad1[3]; } rsdb_config_xtlv_t; /* Definitions for slot_bss chanseq iovar */ #define WL_SLOT_BSS_VERSION 1 enum wl_slotted_bss_cmd_id { WL_SLOTTED_BSS_CMD_VER = 0, WL_SLOTTED_BSS_CMD_CHANSEQ = 1 }; typedef uint16 chan_seq_type_t; enum chan_seq_type { CHAN_SEQ_TYPE_AWDL = 1, CHAN_SEQ_TYPE_SLICE = 2, CHAN_SEQ_TYPE_NAN = 3 }; typedef uint8 sched_flag_t; enum sched_flag { NO_SDB_SCHED = 0x1, SDB_TDM_SCHED = 0x2, SDB_SPLIT_BAND_SCHED = 0x4, /* default mode for 4357 */ MAIN_ONLY = 0x8, AUX_ONLY = 0x10, SDB_DUAL_TIME = (MAIN_ONLY | AUX_ONLY), NO_SDB_MAIN_ONLY = (NO_SDB_SCHED | MAIN_ONLY), /* default mode for 4364 */ SDB_TDM_SCHED_MAIN = (SDB_TDM_SCHED | MAIN_ONLY), SDB_TDM_SCHED_AUX = (SDB_TDM_SCHED | AUX_ONLY), SDB_TDM_SCHED_DUAL_TIME = (SDB_TDM_SCHED | SDB_DUAL_TIME), SDB_SPLIT_BAND_SCHED_DUAL_TIME = (SDB_SPLIT_BAND_SCHED | SDB_DUAL_TIME) }; typedef struct chan_seq_tlv_data { uint32 flags; uint8 data[1]; } chan_seq_tlv_data_t; typedef struct chan_seq_tlv { chan_seq_type_t type; uint16 len; chan_seq_tlv_data_t chanseq_data[1]; } chan_seq_tlv_t; typedef struct sb_channel_sequence { sched_flag_t sched_flags; /* (sdb-tdm or sdb-sb or Dual-Time) */ uint8 num_seq; /* number of chan_seq_tlv following */ uint16 pad; chan_seq_tlv_t seq[1]; } sb_channel_sequence_t; typedef struct slice_chan_seq { uint8 slice_index; /* 0(Main) or 1 (Aux) */ uint8 num_chanspecs; uint16 pad; chanspec_t chanspecs[1]; } slice_chan_seq_t; #define WL_SLICE_CHAN_SEQ_FIXED_LEN OFFSETOF(slice_chan_seq_t, chanspecs) typedef struct sim_pm_params { uint32 enabled; uint16 cycle; uint16 up; } sim_pm_params_t; /* Bits for fw_status */ #define NAP_DISABLED_HOST 0x01 /* Host has disabled through nap_enable */ #define NAP_DISABLED_RSSI 0x02 /* Disabled because of nap_rssi_threshold */ /* Bits for hw_status */ #define NAP_HWCFG 0x01 /* State of NAP config bit in phy HW */ /* ifdef WL_NATOE */ #define WL_NATOE_IOCTL_VERSION 1 #define WL_NATOE_IOC_BUFSZ 512 /* sufficient ioc buff size for natoe */ #define WL_NATOE_DBG_STATS_BUFSZ 2048 /* config natoe STA and AP IP's structure */ typedef struct { uint32 sta_ip; uint32 sta_netmask; uint32 sta_router_ip; uint32 sta_dnsip; uint32 ap_ip; uint32 ap_netmask; } wl_natoe_config_ips_t; /* natoe ports config structure */ typedef struct { uint16 start_port_num; uint16 no_of_ports; } wl_natoe_ports_config_t; /* natoe ports exception info */ typedef struct { uint16 sta_port_num; uint16 dst_port_num; /* for SIP type protocol, dst_port_num info can be ignored by FW */ uint32 ip; /* for SIP ip is APcli_ip and for port clash it is dst_ip */ uint8 entry_type; /* Create/Destroy */ uint8 pad[3]; } wl_natoe_exception_port_t; /* container for natoe ioctls & events */ typedef struct wl_natoe_ioc { uint16 version; /* interface command or event version */ uint16 id; /* natoe ioctl cmd ID */ uint16 len; /* total length of all tlv records in data[] */ uint16 pad; /* pad to be 32 bit aligment */ uint8 data[]; /* var len payload of bcm_xtlv_t type */ } wl_natoe_ioc_t; enum wl_natoe_cmds { WL_NATOE_CMD_ENABLE = 1, WL_NATOE_CMD_CONFIG_IPS = 2, WL_NATOE_CMD_CONFIG_PORTS = 3, WL_NATOE_CMD_DBG_STATS = 4, WL_NATOE_CMD_EXCEPTION_PORT = 5, WL_NATOE_CMD_SKIP_PORT = 6, WL_NATOE_CMD_TBL_CNT = 7 }; enum wl_natoe_cmd_xtlv_id { WL_NATOE_XTLV_ENABLE = 1, WL_NATOE_XTLV_CONFIG_IPS = 2, WL_NATOE_XTLV_CONFIG_PORTS = 3, WL_NATOE_XTLV_DBG_STATS = 4, WL_NATOE_XTLV_EXCEPTION_PORT = 5, WL_NATOE_XTLV_SKIP_PORT = 6, WL_NATOE_XTLV_TBL_CNT = 7 }; /* endif WL_NATOE */ enum wl_idauth_cmd_ids { WL_IDAUTH_CMD_CONFIG = 1, WL_IDAUTH_CMD_PEER_INFO = 2, WL_IDAUTH_CMD_COUNTERS = 3, WL_IDAUTH_CMD_LAST }; enum wl_idauth_xtlv_id { WL_IDAUTH_XTLV_AUTH_ENAB = 0x1, WL_IDAUTH_XTLV_GTK_ROTATION = 0x2, WL_IDAUTH_XTLV_EAPOL_COUNT = 0x3, WL_IDAUTH_XTLV_EAPOL_INTRVL = 0x4, WL_IDAUTH_XTLV_BLKLIST_COUNT = 0x5, WL_IDAUTH_XTLV_BLKLIST_AGE = 0x6, WL_IDAUTH_XTLV_PEERS_INFO = 0x7, WL_IDAUTH_XTLV_COUNTERS = 0x8 }; enum wl_idauth_stats { WL_AUTH_PEER_STATE_AUTHORISED = 0x01, WL_AUTH_PEER_STATE_BLACKLISTED = 0x02, WL_AUTH_PEER_STATE_4WAY_HS_ONGOING = 0x03, WL_AUTH_PEER_STATE_LAST }; typedef struct { uint16 state; /* Peer State: Authorised or Blacklisted */ struct ether_addr peer_addr; /* peer Address */ uint32 blklist_end_time; /* Time of blacklist end */ } auth_peer_t; typedef struct wl_idauth_counters { uint32 auth_reqs; /* No of auth req recvd */ uint32 mic_fail; /* No of mic fails */ uint32 four_way_hs_fail; /* No of 4-way handshake fails */ } wl_idauth_counters_t; #define WLC_UTRACE_LEN 512 #define WLC_UTRACE_READ_END 0 #define WLC_UTRACE_MORE_DATA 1 typedef struct wl_utrace_capture_args_v1 { uint32 length; uint32 flag; } wl_utrace_capture_args_v1_t; #define UTRACE_CAPTURE_VER_2 2 typedef struct wl_utrace_capture_args_v2 { /* structure control */ uint16 version; /**< structure version */ uint16 length; /**< length of the response */ uint32 flag; /* Indicates if there is more data or not */ } wl_utrace_capture_args_v2_t; /* XTLV IDs for the Health Check "hc" iovar top level container */ enum { WL_HC_XTLV_ID_CAT_HC = 1, /* category for HC as a whole */ WL_HC_XTLV_ID_CAT_DATAPATH_TX = 2, /* Datapath Tx */ WL_HC_XTLV_ID_CAT_DATAPATH_RX = 3, /* Datapath Rx */ WL_HC_XTLV_ID_CAT_SCAN = 4, /* Scan */ }; /* Health Check: Common XTLV IDs for sub-elements in the top level container * Number starts at 0x8000 to be out of the way for category specific IDs. */ enum { WL_HC_XTLV_ID_ERR = 0x8000, /* for sub-command err return */ WL_HC_XTLV_ID_IDLIST = 0x8001, /* container for uint16 IDs */ }; /* Health Check: Datapath TX IDs */ enum { WL_HC_TX_XTLV_ID_VAL_STALL_THRESHOLD = 1, /* stall_threshold */ WL_HC_TX_XTLV_ID_VAL_STALL_SAMPLE_SIZE = 2, /* stall_sample_size */ WL_HC_TX_XTLV_ID_VAL_STALL_TIMEOUT = 3, /* stall_timeout */ WL_HC_TX_XTLV_ID_VAL_STALL_FORCE = 4, /* stall_force */ WL_HC_TX_XTLV_ID_VAL_STALL_EXCLUDE = 5, /* stall_exclude */ WL_HC_TX_XTLV_ID_VAL_FC_TIMEOUT = 6, /* flow ctl timeout */ WL_HC_TX_XTLV_ID_VAL_FC_FORCE = 7, /* flow ctl force failure */ WL_HC_TX_XTLV_ID_VAL_DELAY_TO_TRAP = 8, /* delay threshold for forced trap */ WL_HC_TX_XTLV_ID_VAL_DELAY_TO_RPT = 9, /* delay threshold for event log report */ }; /* Health Check: Datapath RX IDs */ enum { WL_HC_RX_XTLV_ID_VAL_DMA_STALL_TIMEOUT = 1, /* dma_stall_timeout */ WL_HC_RX_XTLV_ID_VAL_DMA_STALL_FORCE = 2, /* dma_stall test trigger */ WL_HC_RX_XTLV_ID_VAL_STALL_THRESHOLD = 3, /* stall_threshold */ WL_HC_RX_XTLV_ID_VAL_STALL_SAMPLE_SIZE = 4, /* stall_sample_size */ WL_HC_RX_XTLV_ID_VAL_STALL_FORCE = 5, /* stall test trigger */ }; /* Health Check: Datapath SCAN IDs */ enum { WL_HC_XTLV_ID_VAL_SCAN_STALL_THRESHOLD = 1, /* scan stall threshold */ }; /* IDs of Health Check report structures for sub types of health checks within WL */ enum { WL_HC_DD_UNDEFINED = 0, /* Undefined */ WL_HC_DD_RX_DMA_STALL = 1, /* RX DMA stall check */ WL_HC_DD_RX_STALL = 2, /* RX stall check */ WL_HC_DD_TX_STALL = 3, /* TX stall check */ WL_HC_DD_SCAN_STALL = 4, /* SCAN stall check */ WL_HC_DD_MAX }; /* * Health Check report structures for sub types of health checks within WL */ /* Health Check report structure for Rx DMA Stall check */ typedef struct { uint16 type; uint16 length; uint16 timeout; uint16 stalled_dma_bitmap; } wl_rx_dma_hc_info_t; /* Health Check report structure for Tx packet failure check */ typedef struct { uint16 type; uint16 length; uint32 stall_bitmap; uint32 stall_bitmap1; uint32 failure_ac; uint32 threshold; uint32 tx_all; uint32 tx_failure_all; } wl_tx_hc_info_t; /* Health Check report structure for Rx dropped packet failure check */ typedef struct { uint16 type; uint16 length; uint32 bsscfg_idx; uint32 rx_hc_pkts; uint32 rx_hc_dropped_all; uint32 rx_hc_alert_th; } wl_rx_hc_info_t; /* HE top level command IDs */ enum { WL_HE_CMD_ENAB = 0, WL_HE_CMD_FEATURES = 1, WL_HE_CMD_TWT_SETUP = 2, WL_HE_CMD_TWT_TEARDOWN = 3, WL_HE_CMD_TWT_INFO = 4, WL_HE_CMD_BSSCOLOR = 5, WL_HE_CMD_PARTIAL_BSSCOLOR = 6, WL_HE_CMD_LAST }; #define WL_HEB_VERSION 0 /* HEB top level command IDs */ enum { WL_HEB_CMD_ENAB = 0, WL_HEB_CMD_NUM_HEB = 1, WL_HEB_CMD_COUNTERS = 1, WL_HEB_CMD_CLEAR_COUNTERS = 2, WL_HEB_CMD_LAST }; /* HEB counters structures */ typedef struct { uint16 pre_event; uint16 start_event; uint16 end_event; uint16 missed; } wl_heb_int_cnt_t; typedef struct { /* structure control */ uint16 version; /* structure version */ uint16 length; /* data length (starting after this field) */ wl_heb_int_cnt_t heb_int_cnt[1]; } wl_heb_cnt_t; /* TWT Setup descriptor */ typedef struct { /* Setup Command. */ uint8 setup_cmd; /* See TWT_SETUP_CMD_XXXX in 802.11ah.h, * valid when bcast_twt is FALSE. */ /* Flow attributes */ uint8 flow_flags; /* See WL_TWT_FLOW_FLAG_XXXX below */ uint8 flow_id; /* must be between 0 and 7 */ /* Target Wake Time */ uint8 wake_type; /* See WL_TWT_TIME_TYPE_XXXX below */ uint32 wake_time_h; /* target wake time - BSS TSF (us) */ uint32 wake_time_l; uint32 wake_dur; /* target wake duration in us units */ uint32 wake_int; /* target wake interval */ } wl_twt_sdesc_t; /* Flow flags */ #define WL_TWT_FLOW_FLAG_BROADCAST (1<<0) #define WL_TWT_FLOW_FLAG_IMPLICIT (1<<1) #define WL_TWT_FLOW_FLAG_UNANNOUNCED (1<<2) #define WL_TWT_FLOW_FLAG_TRIGGER (1<<3) /* Flow id */ #define WL_TWT_FLOW_ID_FID 0x07 /* flow id */ #define WL_TWT_FLOW_ID_GID_MASK 0x70 /* group id - broadcast TWT only */ #define WL_TWT_FLOW_ID_GID_SHIFT 4 /* Wake type */ /* TODO: not yet finalized */ #define WL_TWT_TIME_TYPE_BSS 0 /* The time specified in wake_time_h/l is * the BSS TSF time. */ #define WL_TWT_TIME_TYPE_OFFSET 1 /* The time specified in wake_time_h/l is an offset * of the TSF time when the iovar is processed. */ #define WL_TWT_SETUP_VER 0 /* HE TWT Setup command */ typedef struct { /* structure control */ uint16 version; /* structure version */ uint16 length; /* data length (starting after this field) */ /* peer address */ struct ether_addr peer; /* leave it all 0s' for AP */ /* session id */ uint8 dialog; /* an arbitrary number to identify the seesion */ uint8 pad; /* setup descriptor */ wl_twt_sdesc_t desc; } wl_twt_setup_t; #define WL_TWT_TEARDOWN_VER 0 /* HE TWT Teardown command */ typedef struct { /* structure control */ uint16 version; /* structure version */ uint16 length; /* data length (starting after this field) */ /* peer address */ struct ether_addr peer; /* leave it all 0s' for AP */ /* flow attributes */ uint8 flow_flags; /* See WL_TWT_FLOW_FLAG_XXXX above. * (only BORADCAST) is applicable) */ uint8 flow_id; /* must be between 0 and 7 */ } wl_twt_teardown_t; /* twt information descriptor */ typedef struct { uint8 flow_flags; /* See WL_TWT_INFO_FLAG_XXX below */ uint8 flow_id; uint8 pad[2]; uint32 next_twt_h; uint32 next_twt_l; } wl_twt_idesc_t; /* Flow flags */ #define WL_TWT_INFO_FLAG_RESP_REQ (1<<0) /* Request response */ #define WL_TWT_INFO_VER 0 /* HE TWT Information command */ typedef struct { /* structure control */ uint16 version; /* structure version */ uint16 length; /* data length (starting after this field) */ /* peer address */ struct ether_addr peer; /* leave it all 0s' for AP */ uint8 pad[2]; /* information descriptor */ wl_twt_idesc_t desc; } wl_twt_info_t; /* Current version for wlc_clm_power_limits_req_t structure and flags */ #define WLC_CLM_POWER_LIMITS_REQ_VERSION 1 /* "clm_power_limits" iovar request structure */ typedef struct wlc_clm_power_limits_req { /* Input. Structure and flags version */ uint32 version; /* Full length of buffer (includes this structure and space for TLV-encoded PPR) */ uint32 buflen; /* Input. Flags (see WLC_CLM_POWER_LIMITS_INPUT_FLAG_... below) */ uint32 input_flags; /* Input. CC of region whose data is being requested */ char cc[WLC_CNTRY_BUF_SZ]; /* Input. Channel/subchannel in chanspec_t format */ uint32 chanspec; /* Subchannel encoded as clm_limits_type_t */ uint32 clm_subchannel; /* Input. 0-based antenna index */ uint32 antenna_idx; /* Output. General flags (see WLC_CLM_POWER_LIMITS_OUTPUT_FLAG_... below) */ uint32 output_flags; /* Output. 2.4G country flags, encoded as clm_flags_t enum */ uint32 clm_country_flags_2g; /* Output. 5G country flags, encoded as clm_flags_t enum */ uint32 clm_country_flags_5g; /* Output. Length of TLV-encoded PPR data that follows this structure */ uint32 ppr_tlv_size; /* Output. Beginning of buffer for TLV-encoded PPR data */ uint8 ppr_tlv[1]; } wlc_clm_power_limits_req_t; /* Input. Do not apply SAR limits */ #define WLC_CLM_POWER_LIMITS_INPUT_FLAG_NO_SAR 0x00000001 /* Input. Do not apply board limits */ #define WLC_CLM_POWER_LIMITS_INPUT_FLAG_NO_BOARD 0x00000002 /* Output. Limits taken from product-specific country data */ #define WLC_CLM_POWER_LIMITS_OUTPUT_FLAG_PRODUCT_LIMITS 0x00000001 /* Output. Limits taken from product-specific worldwide data */ #define WLC_CLM_POWER_LIMITS_OUTPUT_FLAG_WORLDWIDE_LIMITS 0x00000002 /* Output. Limits taken from country-default (all-product) data */ #define WLC_CLM_POWER_LIMITS_OUTPUT_FLAG_DEFAULT_COUNTRY_LIMITS 0x00000004 /* * WOG (Wake On Googlecast) */ #define MAX_GCAST_APPID_CNT_LIMIT 50 #define MAX_DNS_LABEL 63 typedef struct wog_appid { uint8 appID[MAX_DNS_LABEL+1]; } wog_appid_t; enum { WOG_APPID_ADD, WOG_APPID_DEL, WOG_APPID_CLEAR, WOG_APPID_LIST, WOG_MAX_APPID_CNT }; #define WOG_APPID_IOV_VER 1 typedef struct wog_appid_iov { /* version for iovar */ uint32 ver; /* add/del/clear/list operation */ uint32 operation; /* for adding or deleting multiple items */ /* for WOG_MAX_APPID_CNT, this value is used for max count for AppID */ uint32 cnt; /* Application IDs */ /* If FW found an AppID from this list, FW will respond to discovery */ /* without wake up the host */ wog_appid_t appids[1]; } wog_appid_iov_t; /* dns service record */ /* service name : _googlecast */ typedef struct wog_srv_record { uint32 ttl; uint16 port; /* tcp 8008 or 8009 */ uint8 PAD[2]; } wog_srv_record_t; #define GCAST_MAX_MODEL_NAME_LEN 16 #define GCAST_MAX_FNAME_LEN 64 #define GCAST_MAX_RS_LEN 60 #define GCAST_UUID_LEN 32 #define GCAST_PUBLICKEY_ID_LEN 64 #define GCAST_VER_LEN 2 typedef struct wog_txt_record { uint32 ttl; /* id : UUID for the receiver */ char id[GCAST_UUID_LEN+1]; /* Cast protocol version supported. Begins at 2 */ /* and is incremented by 1 with each version */ char ver[GCAST_VER_LEN+1]; /* 256bit receiver Subject Public Key Identifier from the SSL cert */ char public_key[GCAST_PUBLICKEY_ID_LEN+1]; /* A bitfield of device capabilities. */ /* bit 0 : video_out (1:has video out, 0:no video) */ /* bit 1 : video_in */ /* bit 2 : audio_out */ /* bit 3 : audio_in */ /* bit 4 : dev_mode */ /* (1:dev mode enabled, 0: not enabled) */ char capability; /* Receiver status flag 0:IDLE, 1(BUSY/JOIN) */ /* IDLE : The receiver is idle */ /* and doesn't need to be connected now. */ /* BUSY/JOIN : The receiver is hosting an activity */ /* and invites the sender to join */ char receiver_status_flag; uint8 PAD0[1]; char friendly_name[GCAST_MAX_FNAME_LEN+1]; uint8 PAD1[3]; char model_name[GCAST_MAX_MODEL_NAME_LEN+1]; uint8 PAD2[3]; /* Receiver Status text for Cast Protocol v2 */ /* Spec says that if the status text exceeds 60 characters in length, */ /* it is truncated at 60 caracters and */ /* a UTF-8 ellipsis character is appended to indicate trucation. */ /* But our dongle won't use UTF-8 ellipsis. It's not a big deal. */ char receiver_status[GCAST_MAX_RS_LEN+1]; uint8 PAD3[3]; } wog_txt_record_t; /* ip will be taken from the ip of wog_info_t */ typedef struct wog_a_record { uint32 ttl; } wog_a_record_t; /* Google Cast protocl uses mDNS SD for its discovery */ #define WOG_SD_RESP_VER 1 typedef struct wog_sd_resp { /* version for iovar */ int32 ver; /* device name of Google Cast receiver */ char device_name[MAX_DNS_LABEL+1]; /* IP address of Google Cast receiver */ uint8 ip[4]; /* ttl of PTR response */ uint32 ptr_ttl; /* DNS TXT record */ wog_txt_record_t txt; /* DNS SRV record */ wog_srv_record_t srv; /* DNS A record */ wog_a_record_t a; } wog_sd_resp_t; enum wl_mbo_cmd_ids { WL_MBO_CMD_ADD_CHAN_PREF = 1, WL_MBO_CMD_DEL_CHAN_PREF = 2, WL_MBO_CMD_LIST_CHAN_PREF = 3, WL_MBO_CMD_CELLULAR_DATA_CAP = 4, WL_MBO_CMD_DUMP_COUNTERS = 5, WL_MBO_CMD_CLEAR_COUNTERS = 6, WL_MBO_CMD_FORCE_ASSOC = 7, WL_MBO_CMD_BSSTRANS_REJECT = 8, WL_MBO_CMD_SEND_NOTIF = 9, /* Add before this !! */ WL_MBO_CMD_LAST }; enum wl_mbo_xtlv_id { WL_MBO_XTLV_OPCLASS = 0x1, WL_MBO_XTLV_CHAN = 0x2, WL_MBO_XTLV_PREFERENCE = 0x3, WL_MBO_XTLV_REASON_CODE = 0x4, WL_MBO_XTLV_CELL_DATA_CAP = 0x5, WL_MBO_XTLV_COUNTERS = 0x6, WL_MBO_XTLV_ENABLE = 0x7, WL_MBO_XTLV_SUB_ELEM_TYPE = 0x8 }; typedef struct wl_mbo_counters { /* No of transition req recvd */ uint16 trans_req_rcvd; /* No of transition req with disassoc imminent */ uint16 trans_req_disassoc; /* No of transition req with BSS Termination */ uint16 trans_req_bss_term; /* No of trans req w/ unspecified reason */ uint16 trans_resn_unspec; /* No of trans req w/ reason frame loss */ uint16 trans_resn_frm_loss; /* No of trans req w/ reason traffic delay */ uint16 trans_resn_traffic_delay; /* No of trans req w/ reason insufficient buffer */ uint16 trans_resn_insuff_bw; /* No of trans req w/ reason load balance */ uint16 trans_resn_load_bal; /* No of trans req w/ reason low rssi */ uint16 trans_resn_low_rssi; /* No of trans req w/ reason excessive retransmission */ uint16 trans_resn_xcess_retransmn; /* No of trans req w/ reason gray zone */ uint16 trans_resn_gray_zone; /* No of trans req w/ reason switch to premium AP */ uint16 trans_resn_prem_ap_sw; /* No of transition rejection sent */ uint16 trans_rejn_sent; /* No of trans rejn reason excessive frame loss */ uint16 trans_rejn_xcess_frm_loss; /* No of trans rejn reason excessive traffic delay */ uint16 trans_rejn_xcess_traffic_delay; /* No of trans rejn reason insufficient QoS capability */ uint16 trans_rejn_insuffic_qos_cap; /* No of trans rejn reason low RSSI */ uint16 trans_rejn_low_rssi; /* No of trans rejn reason high interference */ uint16 trans_rejn_high_interference; /* No of trans rejn reason service unavilable */ uint16 trans_rejn_service_unavail; /* No of beacon request rcvd */ uint16 bcn_req_rcvd; /* No of beacon report sent */ uint16 bcn_rep_sent; /* No of null beacon report sent */ uint16 null_bcn_rep_sent; /* No of wifi to cell switch */ uint16 wifi_to_cell; } wl_mbo_counters_t; /* otpread command */ #define WL_OTPREAD_VER 1 typedef struct { uint16 version; /* cmd structure version */ uint16 cmd_len; /* cmd struct len */ uint32 rdmode; /* otp read mode */ uint32 rdoffset; /* byte offset into otp to start read */ uint32 rdsize; /* number of bytes to read */ } wl_otpread_cmd_t; /* "otpecc_rows" command */ typedef struct { uint16 version; /* version of this structure */ uint16 len; /* len in bytes of this structure */ uint32 cmdtype; /* command type : 0 : read row data, 1 : ECC lock */ uint32 rowoffset; /* start row offset */ uint32 numrows; /* number of rows */ uint8 rowdata[]; /* read rows data */ } wl_otpecc_rows_t; #define WL_OTPECC_ROWS_VER 1 #define WL_OTPECC_ROWS_CMD_READ 0 #define WL_OTPECC_ROWS_CMD_LOCK 1 #define WL_OTPECC_ARGIDX_CMDTYPE 0 /* command type */ #define WL_OTPECC_ARGIDX_ROWOFFSET 1 /* start row offset */ #define WL_OTPECC_ARGIDX_NUMROWS 2 /* number of rows */ /* "otpeccrows" raw data size per row */ #define WL_ECCDUMP_ROW_SIZE_BYTE 6 /* 4 bytes row data + 2 bytes ECC status */ #define WL_ECCDUMP_ROW_SIZE_WORD 3 /* otpECCstatus */ #define OTP_ECC_ENAB_SHIFT 13 #define OTP_ECC_ENAB_MASK 0x7 #define OTP_ECC_CORR_ST_SHIFT 12 #define OTP_ECC_CORR_ST_MASK 0x1 #define OTP_ECC_DBL_ERR_SHIFT 11 #define OTP_ECC_DBL_ERR_MASK 0x1 #define OTP_ECC_DED_ST_SHIFT 10 #define OTP_ECC_DED_ST_MASK 0x1 #define OTP_ECC_SEC_ST_SHIFT 9 #define OTP_ECC_SEC_ST_MASK 0x1 #define OTP_ECC_DATA_SHIFT 0 #define OTP_ECC_DATA_MASK 0x7f /* OTP_ECC_CORR_ST field */ #define OTP_ECC_MODE 1 #define OTP_NO_ECC_MODE 0 /* OTP_ECC_ENAB field (bit15:13) : * When 2 or 3 bits are set, * it indicates that OTP ECC is enabled on the last row read. * Otherwise, ECC is disabled */ #define OTP_ECC_ENAB(val) \ (bcm_bitcount((uint8 *)&(val), sizeof(uint8)) > 1) #define WL_LEAKY_AP_STATS_GT_TYPE 0 #define WL_LEAKY_AP_STATS_PKT_TYPE 1 typedef struct wlc_leaked_infra_guard_marker { /* type field for this TLV: WL_LEAKY_AP_STATS_GT_TYPE */ uint16 type; /* length field for this TLV */ uint16 len; /* guard sample sequence number; Updated by 1 on every guard sample */ uint32 seq_number; /* Guard time start time (tsf; PS indicated and acked) */ uint32 start_time; /* tsf timestamp for the GT end event */ uint32 gt_tsf_l; /* Guard time period in ms */ uint16 guard_duration; /* Number PPDUs in the notification */ uint16 num_pkts; /* Flags to indicate some states see below */ uint8 flag; /* pad for 32-bit alignment */ uint8 reserved[3]; } wlc_leaked_infra_guard_marker_t; /* Flag information */ #define WL_LEAKED_GUARD_TIME_NONE 0 /* Not in any guard time */ #define WL_LEAKED_GUARD_TIME_FRTS (0x01 << 0) /* Normal FRTS power save */ #define WL_LEAKED_GUARD_TIME_SCAN (0x01 << 1) /* Channel switch due to scanning */ #define WL_LEAKED_GUARD_TIME_AWDL_PSF (0x01 << 2) /* Channel switch due to AWDL PSF */ #define WL_LEAKED_GUARD_TIME_AWDL_AW (0x01 << 3) /* Channel switch due to AWDL AW */ #define WL_LEAKED_GUARD_TIME_INFRA_STA (0x01 << 4) /* generic type infra sta channel switch */ #define WL_LEAKED_GUARD_TIME_TERMINATED (0x01 << 7) /* indicate a GT is terminated early */ typedef struct wlc_leaked_infra_packet_stat { uint16 type; /* type field for this TLV: WL_LEAKY_AP_STATS_PKT_TYPE */ uint16 len; /* length field for this TLV */ uint16 ppdu_len_bytes; /* PPDU packet length in bytes */ uint16 num_mpdus; /* number of the MPDUs in the PPDU */ uint32 ppdu_time; /* PPDU arrival time at the begining of the guard time */ uint32 rate; /* PPDU packet rate; Received packet's data rate */ uint16 seq_number; /* sequence number */ int8 rssi; /* RSSI */ uint8 tid; /* tid */ } wlc_leaked_infra_packet_stat_t; /* Wake timer structure definition */ #define WAKE_TIMER_VERSION 1 #define WAKE_TIMER_NOLIMIT 0xFFFF typedef struct wake_timer { uint16 ver; uint16 len; uint16 limit; /* number of events to deliver * 0-disable, 0xffff-indefinite, num_events otherwise */ uint16 count; /* number of events delivered since enable (get only) */ uint16 period; /* timeout/period in milliseconds */ } wake_timer_t; typedef struct wl_desense_restage_gain { uint16 version; uint16 length; uint32 band; uint8 num_cores; uint8 desense_array[WL_TX_CHAINS_MAX]; uint8 PAD[3]; } wl_desense_restage_gain_t; #define MAX_UCM_CHAINS 5 #define MAX_UCM_PROFILES 4 #define UCM_PROFILE_VERSION_1 1 /* UCM per chain attribute struct */ typedef struct wlc_btcx_chain_attr { uint16 length; /* chain attr length, version is same as profile version */ int8 desense_level; /* per chain desense level */ int8 ack_pwr_strong_rssi; /* per chain ack power at strong rssi */ int8 ack_pwr_weak_rssi; /* per chain ack power at weak rssi */ int8 tx_pwr_strong_rssi; /* per chain tx power at strong rssi */ int8 tx_pwr_weak_rssi; /* per chain tx power at weak rssi */ uint8 PAD[1]; /* additional bytes for alignment */ } wlc_btcx_chain_attr_t; typedef struct wlc_btcx_profile_v1 { uint16 version; /* UCM profile version */ uint16 length; /* profile size */ uint16 fixed_length; /* size of the fixed portion of the profile */ uint8 init; /* profile initialized or not */ uint8 chain_attr_count; /* Number of elements in chain_attr array */ uint8 profile_index; /* profile index */ uint8 mode_strong_wl_bt; /* Mode under strong WLAN and BT RSSI */ uint8 mode_weak_wl; /* Mode under weak WLAN RSSI */ uint8 mode_weak_bt; /* Mode under weak BT RSSI */ uint8 mode_weak_wl_bt; /* Mode under weak BT and WLAN RSSI */ int8 mode_wl_hi_lo_rssi_thresh; /* Strong to weak WLAN RSSI threshold for mode selection */ int8 mode_wl_lo_hi_rssi_thresh; /* Weak to strong WLAN RSSI threshold for mode selection */ int8 mode_bt_hi_lo_rssi_thresh; /* Strong to weak BT RSSI threshold for mode selection */ int8 mode_bt_lo_hi_rssi_thresh; /* Weak to strong BT RSSI threshold for mode selection */ int8 desense_wl_hi_lo_rssi_thresh; /* Strong to weak RSSI threshold for desense */ int8 desense_wl_lo_hi_rssi_thresh; /* Weak to strong RSSI threshold for desense */ int8 ack_pwr_wl_hi_lo_rssi_thresh; /* Strong to weak RSSI threshold for ACK power */ int8 ack_pwr_wl_lo_hi_rssi_thresh; /* Weak to strong RSSI threshold for ACK power */ int8 tx_pwr_wl_hi_lo_rssi_thresh; /* Strong to weak RSSI threshold for Tx power */ int8 tx_pwr_wl_lo_hi_rssi_thresh; /* Weak to strong RSSI threshold for Tx power */ uint8 PAD[1]; /* additional bytes for 4 byte alignment */ wlc_btcx_chain_attr_t chain_attr[]; /* variable length array with chain attributes */ } wlc_btcx_profile_v1_t; #define SSSR_D11_RESET_SEQ_STEPS 5 #define SSSR_REG_INFO_VER 0 typedef struct sssr_reg_info { uint16 version; uint16 length; /* length of the structure validated at host */ struct { struct { uint32 pmuintmask0; uint32 pmuintmask1; uint32 resreqtimer; uint32 macresreqtimer; uint32 macresreqtimer1; } base_regs; } pmu_regs; struct { struct { uint32 intmask; uint32 powerctrl; uint32 clockcontrolstatus; uint32 powerctrl_mask; } base_regs; } chipcommon_regs; struct { struct { uint32 clockcontrolstatus; uint32 clockcontrolstatus_val; } base_regs; struct { uint32 resetctrl; uint32 itopoobb; } wrapper_regs; } arm_regs; struct { struct { uint32 ltrstate; uint32 clockcontrolstatus; uint32 clockcontrolstatus_val; } base_regs; struct { uint32 itopoobb; } wrapper_regs; } pcie_regs; struct { struct { uint32 ioctrl; } wrapper_regs; uint32 vasip_sr_addr; uint32 vasip_sr_size; } vasip_regs; struct { struct { uint32 xmtaddress; uint32 xmtdata; uint32 clockcontrolstatus; uint32 clockcontrolstatus_val; } base_regs; struct { uint32 resetctrl; uint32 itopoobb; uint32 ioctrl; uint32 ioctrl_resetseq_val[SSSR_D11_RESET_SEQ_STEPS]; } wrapper_regs; uint32 sr_size; } mac_regs[MAX_NUM_D11CORES]; } sssr_reg_info_t; /* ADaptive Power Save(ADPS) structure definition */ #define WL_ADPS_IOV_MAJOR_VER 1 #define WL_ADPS_IOV_MINOR_VER 0 #define WL_ADPS_IOV_MAJOR_VER_SHIFT 8 #define WL_ADPS_IOV_VER \ ((WL_ADPS_IOV_MAJOR_VER << WL_ADPS_IOV_MAJOR_VER_SHIFT) | WL_ADPS_IOV_MINOR_VER) #define ADPS_NUM_DIR 2 #define ADPS_RX 0 #define ADPS_TX 1 #define WL_ADPS_IOV_MODE 0x0001 #define WL_ADPS_IOV_RSSI 0x0002 #define WL_ADPS_IOV_DUMP 0x0003 #define WL_ADPS_IOV_DUMP_CLEAR 0x0004 #define ADPS_SUMMARY_STEP_NUM 2 #define ADPS_SUMMARY_STEP_LOW 0 #define ADPS_SUMMARY_STEP_HIGH 1 #define ADPS_SUB_IOV_VERSION_1 1 #define ADPS_SUB_IOV_VERSION_2 2 typedef struct wl_adps_params_v1 { uint16 version; uint16 length; uint8 band; /* band - 2G or 5G */ uint8 mode; /* operation mode, default = 0 (ADPS disable) */ uint16 padding; } wl_adps_params_v1_t; typedef struct wl_adps_rssi { int32 thresh_hi; /* rssi threshold to resume ADPS operation */ int32 thresh_lo; /* rssi threshold to suspend ADPS operation */ } wl_adps_rssi_t; typedef struct wl_adps_rssi_params_v1 { uint16 version; uint16 length; uint8 band; uint8 padding[3]; wl_adps_rssi_t rssi; } wl_adps_rssi_params_v1_t; typedef struct adps_stat_elem { uint32 duration; /* each step duration time (mSec) */ uint32 counts; /* each step hit count number */ } adps_stat_elem_t; typedef struct wl_adps_dump_summary_v1 { uint16 version; uint16 length; uint8 mode; /* operation mode: On/Off */ uint8 flags; /* restrict flags */ uint8 current_step; /* current step */ uint8 padding; adps_stat_elem_t stat[ADPS_SUMMARY_STEP_NUM]; /* statistics */ } wl_adps_dump_summary_v1_t; typedef struct wlc_btc_2gchain_dis { uint16 ver; uint16 len; uint8 chain_dis; uint8 flag; } wlc_btc_2gchain_dis_t; #define WLC_BTC_2GCHAIN_DIS_REASSOC 0x1 #define WLC_BTC_2GCHAIN_DIS_VER1 0x1 #define WLC_BTC_2GCHAIN_DIS_VER1_LEN 6 enum wl_rpsnoa_cmd_ids { WL_RPSNOA_CMD_ENABLE = 1, WL_RPSNOA_CMD_STATUS, WL_RPSNOA_CMD_PARAMS, WL_RPSNOA_CMD_LAST }; typedef struct rpsnoa_cmnhdr { uint16 ver; /* cmd structure version */ uint16 len; /* cmd structure len */ uint32 subcmd; uint32 cnt; } rpsnoa_cmnhdr_t; typedef struct rpsnoa_data { int16 band; int16 value; } rpsnoa_data_t; typedef struct rpsnoa_param { uint16 band; uint8 level; uint8 stas_assoc_check; uint32 pps; uint32 quiet_time; } rpsnoa_param_t; typedef struct rpsnoa_iovar { rpsnoa_cmnhdr_t hdr; rpsnoa_data_t data[1]; } rpsnoa_iovar_t; typedef struct rpsnoa_iovar_params { rpsnoa_cmnhdr_t hdr; rpsnoa_param_t param[1]; } rpsnoa_iovar_params_t; /* Per-interface reportable stats types */ enum wl_ifstats_xtlv_id { /* global */ WL_IFSTATS_XTLV_SLICE_INDEX = 1, WL_IFSTATS_XTLV_IF_INDEX = 2, WL_IFSTATS_XTLV_MAC_ADDR = 3, WL_IFSTATS_XTLV_REPORT_CMD = 4, /* Comes in an iovar */ WL_IFSTATS_XTLV_BUS_PCIE = 5, /* Report data across all SCBs using ecounters */ WL_IFSTATS_XTLV_WL_STA_INFO_ECOUNTERS = 0x100, /* Per-slice information * Per-interface reporting could also include slice specific data */ /* xtlv container for reporting */ WL_IFSTATS_XTLV_WL_SLICE = 0x301, /* Per-slice AMPDU stats */ WL_IFSTATS_XTLV_WL_SLICE_AMPDU_DUMP = 0x302, /* Per-slice BTCOEX stats */ WL_IFSTATS_XTLV_WL_SLICE_BTCOEX = 0x303, /* V11_WLCNTRS used in ecounters */ WL_IFSTATS_XTLV_WL_SLICE_V11_WLCNTRS = 0x304, /* V30_WLCNTRS Used in ecounters */ WL_IFSTATS_XTLV_WL_SLICE_V30_WLCNTRS = 0x305, /* Per-interface */ /* XTLV container for reporting */ WL_IFSTATS_XTLV_IF = 0x501, /* Generic stats applicable to all IFs */ WL_IFSTATS_XTLV_GENERIC = 0x502, /* Infra specific */ WL_IFSTATS_XTLV_INFRA_SPECIFIC = 0x503, /* MGT counters infra and softAP */ WL_IFSTATS_XTLV_MGT_CNT = 0x504, /* AMPDU stats on per-IF */ WL_IFSTATS_XTLV_AMPDU_DUMP = 0x505, WL_IFSTATS_XTLV_IF_SPECIFIC = 0x506 }; /* interface specific mgt count */ #define WL_MGT_STATS_VERSION_V1 1 /* Associated stats type: WL_IFSTATS_MGT_CNT */ typedef struct { uint16 version; uint8 pad[2]; /* detailed control/management frames */ uint32 txnull; uint32 rxnull; uint32 txqosnull; uint32 rxqosnull; uint32 txassocreq; uint32 rxassocreq; uint32 txreassocreq; uint32 rxreassocreq; uint32 txdisassoc; uint32 rxdisassoc; uint32 txassocrsp; uint32 rxassocrsp; uint32 txreassocrsp; uint32 rxreassocrsp; uint32 txauth; uint32 rxauth; uint32 txdeauth; uint32 rxdeauth; uint32 txprobereq; uint32 rxprobereq; uint32 txprobersp; uint32 rxprobersp; uint32 txaction; uint32 rxaction; uint32 txpspoll; uint32 rxpspoll; } wl_if_mgt_stats_t; #define WL_INFRA_STATS_VERSION_V1 1 /* Associated stats type: WL_IFSTATS_INFRA_SPECIFIC */ typedef struct wl_infra_stats { uint16 version; /**< version of the structure */ uint8 pad[2]; uint32 rxbeaconmbss; uint32 tbtt; } wl_if_infra_stats_t; typedef struct csa_event_data { chanspec_t chan_old; dot11_ext_csa_ie_t ecsa; dot11_mesh_csp_ie_t mcsp; dot11_wide_bw_chan_switch_ie_t wbcs; uint8 PAD; } csa_event_data_t; #endif /* _wlioctl_h_ */