/* SPDX-License-Identifier: GPL-2.0 */ /* * EVENT_LOG System Definitions * * This file describes the payloads of event log entries that are data buffers * rather than formatted string entries. The contents are generally XTLVs. * * 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: event_log_payload.h 700076 2017-05-17 14:42:22Z $ */ #ifndef _EVENT_LOG_PAYLOAD_H_ #define _EVENT_LOG_PAYLOAD_H_ #include #include #include #include #define EVENT_LOG_XTLV_ID_STR 0 /**< XTLV ID for a string */ #define EVENT_LOG_XTLV_ID_TXQ_SUM 1 /**< XTLV ID for txq_summary_t */ #define EVENT_LOG_XTLV_ID_SCBDATA_SUM 2 /**< XTLV ID for cb_subq_summary_t */ #define EVENT_LOG_XTLV_ID_SCBDATA_AMPDU_TX_SUM 3 /**< XTLV ID for scb_ampdu_tx_summary_t */ #define EVENT_LOG_XTLV_ID_BSSCFGDATA_SUM 4 /**< XTLV ID for bsscfg_q_summary_t */ #define EVENT_LOG_XTLV_ID_UCTXSTATUS 5 /**< XTLV ID for ucode TxStatus array */ #define EVENT_LOG_XTLV_ID_TXQ_SUM_V2 6 /**< XTLV ID for txq_summary_v2_t */ /** * An XTLV holding a string * String is not null terminated, length is the XTLV len. */ typedef struct xtlv_string { uint16 id; /* XTLV ID: EVENT_LOG_XTLV_ID_STR */ uint16 len; /* XTLV Len (String length) */ char str[1]; /* var len array characters */ } xtlv_string_t; #define XTLV_STRING_FULL_LEN(str_len) (BCM_XTLV_HDR_SIZE + (str_len) * sizeof(char)) /** * Summary for a single TxQ context * Two of these will be used per TxQ context---one for the high TxQ, and one for * the low txq that contains DMA prepared pkts. The high TxQ is a full multi-precidence * queue and also has a BSSCFG map to identify the BSSCFGS associated with the queue context. * The low txq counterpart does not populate the BSSCFG map. * The excursion queue will have no bsscfgs associated and is the first queue dumped. */ typedef struct txq_summary { uint16 id; /* XTLV ID: EVENT_LOG_XTLV_ID_TXQ_SUM */ uint16 len; /* XTLV Len */ uint32 bsscfg_map; /* bitmap of bsscfg indexes associated with this queue */ uint32 stopped; /* flow control bitmap */ uint8 prec_count; /* count of precedences/fifos and len of following array */ uint8 pad; uint16 plen[1]; /* var len array of lengths of each prec/fifo in the queue */ } txq_summary_t; #define TXQ_SUMMARY_LEN (OFFSETOF(txq_summary_t, plen)) #define TXQ_SUMMARY_FULL_LEN(num_q) (TXQ_SUMMARY_LEN + (num_q) * sizeof(uint16)) typedef struct txq_summary_v2 { uint16 id; /* XTLV ID: EVENT_LOG_XTLV_ID_TXQ_SUM_V2 */ uint16 len; /* XTLV Len */ uint32 bsscfg_map; /* bitmap of bsscfg indexes associated with this queue */ uint32 stopped; /* flow control bitmap */ uint32 hw_stopped; /* flow control bitmap */ uint8 prec_count; /* count of precedences/fifos and len of following array */ uint8 pad; uint16 plen[1]; /* var len array of lengths of each prec/fifo in the queue */ } txq_summary_v2_t; #define TXQ_SUMMARY_V2_LEN (OFFSETOF(txq_summary_v2_t, plen)) #define TXQ_SUMMARY_V2_FULL_LEN(num_q) (TXQ_SUMMARY_V2_LEN + (num_q) * sizeof(uint16)) /** * Summary for tx datapath of an SCB cubby * This is a generic summary structure (one size fits all) with * a cubby ID and sub-ID to differentiate SCB cubby types and possible sub-queues. */ typedef struct scb_subq_summary { uint16 id; /* XTLV ID: EVENT_LOG_XTLV_ID_SCBDATA_SUM */ uint16 len; /* XTLV Len */ uint32 flags; /* cubby specficic flags */ uint8 cubby_id; /* ID registered for cubby */ uint8 sub_id; /* sub ID if a cubby has more than one queue */ uint8 prec_count; /* count of precedences/fifos and len of following array */ uint8 pad; uint16 plen[1]; /* var len array of lengths of each prec/fifo in the queue */ } scb_subq_summary_t; #define SCB_SUBQ_SUMMARY_LEN (OFFSETOF(scb_subq_summary_t, plen)) #define SCB_SUBQ_SUMMARY_FULL_LEN(num_q) (SCB_SUBQ_SUMMARY_LEN + (num_q) * sizeof(uint16)) /* scb_subq_summary_t.flags for APPS */ #define SCBDATA_APPS_F_PS 0x00000001 #define SCBDATA_APPS_F_PSPEND 0x00000002 #define SCBDATA_APPS_F_INPVB 0x00000004 #define SCBDATA_APPS_F_APSD_USP 0x00000008 #define SCBDATA_APPS_F_TXBLOCK 0x00000010 #define SCBDATA_APPS_F_APSD_HPKT_TMR 0x00000020 #define SCBDATA_APPS_F_APSD_TX_PEND 0x00000040 #define SCBDATA_APPS_F_INTRANS 0x00000080 #define SCBDATA_APPS_F_OFF_PEND 0x00000100 #define SCBDATA_APPS_F_OFF_BLOCKED 0x00000200 #define SCBDATA_APPS_F_OFF_IN_PROG 0x00000400 /** * Summary for tx datapath AMPDU SCB cubby * This is a specific data structure to describe the AMPDU datapath state for an SCB * used instead of scb_subq_summary_t. * Info is for one TID, so one will be dumped per BA TID active for an SCB. */ typedef struct scb_ampdu_tx_summary { uint16 id; /* XTLV ID: EVENT_LOG_XTLV_ID_SCBDATA_AMPDU_TX_SUM */ uint16 len; /* XTLV Len */ uint32 flags; /* misc flags */ uint8 tid; /* initiator TID (priority) */ uint8 ba_state; /* internal BA state */ uint8 bar_cnt; /* number of bars sent with no progress */ uint8 retry_bar; /* reason code if bar to be retried at watchdog */ uint16 barpending_seq; /* seqnum for bar */ uint16 bar_ackpending_seq; /* seqnum of bar for which ack is pending */ uint16 start_seq; /* seqnum of the first unacknowledged packet */ uint16 max_seq; /* max unacknowledged seqnum sent */ uint32 released_bytes_inflight; /* Number of bytes pending in bytes */ uint32 released_bytes_target; } scb_ampdu_tx_summary_t; /* scb_ampdu_tx_summary.flags defs */ #define SCBDATA_AMPDU_TX_F_BAR_ACKPEND 0x00000001 /* bar_ackpending */ /** XTLV stuct to summarize a BSSCFG's packet queue */ typedef struct bsscfg_q_summary { uint16 id; /* XTLV ID: EVENT_LOG_XTLV_ID_BSSCFGDATA_SUM */ uint16 len; /* XTLV Len */ struct ether_addr BSSID; /* BSSID */ uint8 bsscfg_idx; /* bsscfg index */ uint8 type; /* bsscfg type enumeration: BSSCFG_TYPE_XXX */ uint8 subtype; /* bsscfg subtype enumeration: BSSCFG_SUBTYPE_XXX */ uint8 prec_count; /* count of precedences/fifos and len of following array */ uint16 plen[1]; /* var len array of lengths of each prec/fifo in the queue */ } bsscfg_q_summary_t; #define BSSCFG_Q_SUMMARY_LEN (OFFSETOF(bsscfg_q_summary_t, plen)) #define BSSCFG_Q_SUMMARY_FULL_LEN(num_q) (BSSCFG_Q_SUMMARY_LEN + (num_q) * sizeof(uint16)) /** * An XTLV holding a TxStats array * TxStatus entries are 8 or 16 bytes, size in words (2 or 4) givent in * entry_size field. * Array is uint32 words */ typedef struct xtlv_uc_txs { uint16 id; /* XTLV ID: EVENT_LOG_XTLV_ID_UCTXSTATUS */ uint16 len; /* XTLV Len */ uint8 entry_size; /* num uint32 words per entry */ uint8 pad[3]; /* reserved, zero */ uint32 w[1]; /* var len array of words */ } xtlv_uc_txs_t; #define XTLV_UCTXSTATUS_LEN (OFFSETOF(xtlv_uc_txs_t, w)) #define XTLV_UCTXSTATUS_FULL_LEN(words) (XTLV_UCTXSTATUS_LEN + (words) * sizeof(uint32)) #define SCAN_SUMMARY_VERSION 1 /* Scan flags */ #define SCAN_SUM_CHAN_INFO 0x1 /* Scan_sum flags */ #define BAND5G_SIB_ENAB 0x2 #define BAND2G_SIB_ENAB 0x4 #define PARALLEL_SCAN 0x8 #define SCAN_ABORT 0x10 /* scan_channel_info flags */ #define ACTIVE_SCAN_SCN_SUM 0x2 #define SCAN_SUM_WLC_CORE0 0x4 #define SCAN_SUM_WLC_CORE1 0x8 #define HOME_CHAN 0x10 typedef struct wl_scan_ssid_info { uint8 ssid_len; /* the length of SSID */ uint8 ssid[32]; /* SSID string */ } wl_scan_ssid_info_t; typedef struct wl_scan_channel_info { uint16 chanspec; /* chanspec scanned */ uint16 reserv; uint32 start_time; /* Scan start time in * milliseconds for the chanspec * or home_dwell time start */ uint32 end_time; /* Scan end time in * milliseconds for the chanspec * or home_dwell time end */ uint16 probe_count; /* No of probes sent out. For future use */ uint16 scn_res_count; /* Count of scan_results found per * channel. For future use */ } wl_scan_channel_info_t; typedef struct wl_scan_summary_info { uint32 total_chan_num; /* Total number of channels scanned */ uint32 scan_start_time; /* Scan start time in milliseconds */ uint32 scan_end_time; /* Scan end time in milliseconds */ wl_scan_ssid_info_t ssid[1]; /* SSID being scanned in current * channel. For future use */ } wl_scan_summary_info_t; struct wl_scan_summary { uint8 version; /* Version */ uint8 reserved; uint16 len; /* Length of the data buffer including SSID * list. */ uint16 sync_id; /* Scan Sync ID */ uint16 scan_flags; /* flags [0] or SCAN_SUM_CHAN_INFO = */ /* channel_info, if not set */ /* it is scan_summary_info */ /* when channel_info is used, */ /* the following flag bits are overridden: */ /* flags[1] or ACTIVE_SCAN_SCN_SUM = active channel if set */ /* passive if not set */ /* flags[2] or WLC_CORE0 = if set, represents wlc_core0 */ /* flags[3] or WLC_CORE1 = if set, represents wlc_core1 */ /* flags[4] or HOME_CHAN = if set, represents home-channel */ /* flags[5:15] = reserved */ /* when scan_summary_info is used, */ /* the following flag bits are used: */ /* flags[1] or BAND5G_SIB_ENAB = */ /* allowSIBParallelPassiveScan on 5G band */ /* flags[2] or BAND2G_SIB_ENAB = */ /* allowSIBParallelPassiveScan on 2G band */ /* flags[3] or PARALLEL_SCAN = Parallel scan enabled or not */ /* flags[4] or SCAN_ABORT = SCAN_ABORTED scenario */ /* flags[5:15] = reserved */ union { wl_scan_channel_info_t scan_chan_info; /* scan related information * for each channel scanned */ wl_scan_summary_info_t scan_sum_info; /* Cumulative scan related * information. */ } u; }; /* Channel switch log record structure * Host may map the following structure on channel switch event log record * received from dongle. Note that all payload entries in event log record are * uint32/int32. */ typedef struct wl_chansw_event_log_record { uint32 time; /* Time in us */ uint32 old_chanspec; /* Old channel spec */ uint32 new_chanspec; /* New channel spec */ uint32 chansw_reason; /* Reason for channel change */ int32 dwell_time; } wl_chansw_event_log_record_t; /* Sub-block type for EVENT_LOG_TAG_AMPDU_DUMP */ #define WL_AMPDU_STATS_TYPE_RXMCSx1 0 /* RX MCS rate (Nss = 1) */ #define WL_AMPDU_STATS_TYPE_RXMCSx2 1 #define WL_AMPDU_STATS_TYPE_RXMCSx3 2 #define WL_AMPDU_STATS_TYPE_RXMCSx4 3 #define WL_AMPDU_STATS_TYPE_RXVHTx1 4 /* RX VHT rate (Nss = 1) */ #define WL_AMPDU_STATS_TYPE_RXVHTx2 5 #define WL_AMPDU_STATS_TYPE_RXVHTx3 6 #define WL_AMPDU_STATS_TYPE_RXVHTx4 7 #define WL_AMPDU_STATS_TYPE_TXMCSx1 8 /* TX MCS rate (Nss = 1) */ #define WL_AMPDU_STATS_TYPE_TXMCSx2 9 #define WL_AMPDU_STATS_TYPE_TXMCSx3 10 #define WL_AMPDU_STATS_TYPE_TXMCSx4 11 #define WL_AMPDU_STATS_TYPE_TXVHTx1 12 /* TX VHT rate (Nss = 1) */ #define WL_AMPDU_STATS_TYPE_TXVHTx2 13 #define WL_AMPDU_STATS_TYPE_TXVHTx3 14 #define WL_AMPDU_STATS_TYPE_TXVHTx4 15 #define WL_AMPDU_STATS_TYPE_RXMCSSGI 16 /* RX SGI usage (for all MCS rates) */ #define WL_AMPDU_STATS_TYPE_TXMCSSGI 17 /* TX SGI usage (for all MCS rates) */ #define WL_AMPDU_STATS_TYPE_RXVHTSGI 18 /* RX SGI usage (for all VHT rates) */ #define WL_AMPDU_STATS_TYPE_TXVHTSGI 19 /* TX SGI usage (for all VHT rates) */ #define WL_AMPDU_STATS_TYPE_RXMCSPER 20 /* RX PER (for all MCS rates) */ #define WL_AMPDU_STATS_TYPE_TXMCSPER 21 /* TX PER (for all MCS rates) */ #define WL_AMPDU_STATS_TYPE_RXVHTPER 22 /* RX PER (for all VHT rates) */ #define WL_AMPDU_STATS_TYPE_TXVHTPER 23 /* TX PER (for all VHT rates) */ #define WL_AMPDU_STATS_TYPE_RXDENS 24 /* RX AMPDU density */ #define WL_AMPDU_STATS_TYPE_TXDENS 25 /* TX AMPDU density */ #define WL_AMPDU_STATS_TYPE_RXMCSOK 26 /* RX all MCS rates */ #define WL_AMPDU_STATS_TYPE_RXVHTOK 27 /* RX all VHT rates */ #define WL_AMPDU_STATS_TYPE_TXMCSALL 28 /* TX all MCS rates */ #define WL_AMPDU_STATS_TYPE_TXVHTALL 29 /* TX all VHT rates */ #define WL_AMPDU_STATS_TYPE_TXMCSOK 30 /* TX all MCS rates */ #define WL_AMPDU_STATS_TYPE_TXVHTOK 31 /* TX all VHT rates */ #define WL_AMPDU_STATS_MAX_CNTS 64 typedef struct { uint16 type; /* AMPDU statistics sub-type */ uint16 len; /* Number of 32-bit counters */ uint32 counters[WL_AMPDU_STATS_MAX_CNTS]; } wl_ampdu_stats_generic_t; typedef struct { uint16 type; /* AMPDU statistics sub-type */ uint16 len; /* Number of 32-bit counters + 2 */ uint32 total_ampdu; uint32 total_mpdu; uint32 aggr_dist[WL_AMPDU_STATS_MAX_CNTS + 1]; } wl_ampdu_stats_aggrsz_t; /* Sub-block type for EVENT_LOG_TAG_MSCHPROFILE */ #define WL_MSCH_PROFILER_START 0 /* start event check */ #define WL_MSCH_PROFILER_EXIT 1 /* exit event check */ #define WL_MSCH_PROFILER_REQ 2 /* request event */ #define WL_MSCH_PROFILER_CALLBACK 3 /* call back event */ #define WL_MSCH_PROFILER_MESSAGE 4 /* message event */ #define WL_MSCH_PROFILER_PROFILE_START 5 #define WL_MSCH_PROFILER_PROFILE_END 6 #define WL_MSCH_PROFILER_REQ_HANDLE 7 #define WL_MSCH_PROFILER_REQ_ENTITY 8 #define WL_MSCH_PROFILER_CHAN_CTXT 9 #define WL_MSCH_PROFILER_EVENT_LOG 10 #define WL_MSCH_PROFILER_REQ_TIMING 11 #define WL_MSCH_PROFILER_TYPE_MASK 0x00ff #define WL_MSCH_PROFILER_WLINDEX_SHIFT 8 #define WL_MSCH_PROFILER_WLINDEX_MASK 0x0f00 #define WL_MSCH_PROFILER_VER_SHIFT 12 #define WL_MSCH_PROFILER_VER_MASK 0xf000 /* MSCH Event data current verion */ #define WL_MSCH_PROFILER_VER 2 /* msch version history */ #define WL_MSCH_PROFILER_RSDB_VER 1 #define WL_MSCH_PROFILER_REPORT_VER 2 /* msch collect header size */ #define WL_MSCH_PROFILE_HEAD_SIZE OFFSETOF(msch_collect_tlv_t, value) /* msch event log header size */ #define WL_MSCH_EVENT_LOG_HEAD_SIZE OFFSETOF(msch_event_log_profiler_event_data_t, data) /* MSCH data buffer size */ #define WL_MSCH_PROFILER_BUFFER_SIZE 512 /* request type used in wlc_msch_req_param_t struct */ #define WL_MSCH_RT_BOTH_FIXED 0 /* both start and end time is fixed */ #define WL_MSCH_RT_START_FLEX 1 /* start time is flexible and duration is fixed */ #define WL_MSCH_RT_DUR_FLEX 2 /* start time is fixed and end time is flexible */ #define WL_MSCH_RT_BOTH_FLEX 3 /* Both start and duration is flexible */ /* Flags used in wlc_msch_req_param_t struct */ #define WL_MSCH_REQ_FLAGS_CHAN_CONTIGUOUS (1 << 0) /* Don't break up channels in chanspec_list */ #define WL_MSCH_REQ_FLAGS_MERGE_CONT_SLOTS (1 << 1) /* No slot end if slots are continous */ #define WL_MSCH_REQ_FLAGS_PREMTABLE (1 << 2) /* Req can be pre-empted by PREMT_CURTS req */ #define WL_MSCH_REQ_FLAGS_PREMT_CURTS (1 << 3) /* Pre-empt request at the end of curts */ #define WL_MSCH_REQ_FLAGS_PREMT_IMMEDIATE (1 << 4) /* Pre-empt cur_ts immediately */ /* Requested slot Callback states * req->pend_slot/cur_slot->flags */ #define WL_MSCH_RC_FLAGS_ONCHAN_FIRE (1 << 0) #define WL_MSCH_RC_FLAGS_START_FIRE_DONE (1 << 1) #define WL_MSCH_RC_FLAGS_END_FIRE_DONE (1 << 2) #define WL_MSCH_RC_FLAGS_ONFIRE_DONE (1 << 3) #define WL_MSCH_RC_FLAGS_SPLIT_SLOT_START (1 << 4) #define WL_MSCH_RC_FLAGS_SPLIT_SLOT_END (1 << 5) #define WL_MSCH_RC_FLAGS_PRE_ONFIRE_DONE (1 << 6) /* Request entity flags */ #define WL_MSCH_ENTITY_FLAG_MULTI_INSTANCE (1 << 0) /* Request Handle flags */ #define WL_MSCH_REQ_HDL_FLAGS_NEW_REQ (1 << 0) /* req_start callback */ /* MSCH state flags (msch_info->flags) */ #define WL_MSCH_STATE_IN_TIEMR_CTXT 0x1 #define WL_MSCH_STATE_SCHD_PENDING 0x2 /* MSCH callback type */ #define WL_MSCH_CT_REQ_START 0x1 #define WL_MSCH_CT_ON_CHAN 0x2 #define WL_MSCH_CT_SLOT_START 0x4 #define WL_MSCH_CT_SLOT_END 0x8 #define WL_MSCH_CT_SLOT_SKIP 0x10 #define WL_MSCH_CT_OFF_CHAN 0x20 #define WL_MSCH_CT_OFF_CHAN_DONE 0x40 #define WL_MSCH_CT_REQ_END 0x80 #define WL_MSCH_CT_PARTIAL 0x100 #define WL_MSCH_CT_PRE_ONCHAN 0x200 #define WL_MSCH_CT_PRE_REQ_START 0x400 /* MSCH command bits */ #define WL_MSCH_CMD_ENABLE_BIT 0x01 #define WL_MSCH_CMD_PROFILE_BIT 0x02 #define WL_MSCH_CMD_CALLBACK_BIT 0x04 #define WL_MSCH_CMD_REGISTER_BIT 0x08 #define WL_MSCH_CMD_ERROR_BIT 0x10 #define WL_MSCH_CMD_DEBUG_BIT 0x20 #define WL_MSCH_CMD_INFOM_BIT 0x40 #define WL_MSCH_CMD_TRACE_BIT 0x80 #define WL_MSCH_CMD_ALL_BITS 0xfe #define WL_MSCH_CMD_SIZE_MASK 0x00ff0000 #define WL_MSCH_CMD_SIZE_SHIFT 16 #define WL_MSCH_CMD_VER_MASK 0xff000000 #define WL_MSCH_CMD_VER_SHIFT 24 /* maximum channels returned by the get valid channels iovar */ #define WL_MSCH_NUMCHANNELS 64 typedef struct msch_collect_tlv { uint16 type; uint16 size; char value[1]; } msch_collect_tlv_t; typedef struct msch_profiler_event_data { uint32 time_lo; /* Request time */ uint32 time_hi; } msch_profiler_event_data_t; typedef struct msch_start_profiler_event_data { uint32 time_lo; /* Request time */ uint32 time_hi; uint32 status; } msch_start_profiler_event_data_t; typedef struct msch_message_profiler_event_data { uint32 time_lo; /* Request time */ uint32 time_hi; char message[1]; /* message */ } msch_message_profiler_event_data_t; typedef struct msch_event_log_profiler_event_data { uint32 time_lo; /* Request time */ uint32 time_hi; event_log_hdr_t hdr; /* event log header */ uint32 data[9]; /* event data */ } msch_event_log_profiler_event_data_t; typedef struct msch_req_param_profiler_event_data { uint16 flags; /* Describe various request properties */ uint8 req_type; /* Describe start and end time flexiblilty */ uint8 priority; /* Define the request priority */ uint32 start_time_l; /* Requested start time offset in us unit */ uint32 start_time_h; uint32 duration; /* Requested duration in us unit */ uint32 interval; /* Requested periodic interval in us unit, * 0 means non-periodic */ union { uint32 dur_flex; /* MSCH_REG_DUR_FLEX, min_dur = duration - dur_flex */ struct { uint32 min_dur; /* min duration for traffic, maps to home_time */ uint32 max_away_dur; /* max acceptable away dur, maps to home_away_time */ uint32 hi_prio_time_l; uint32 hi_prio_time_h; uint32 hi_prio_interval; /* repeated high priority interval */ } bf; } flex; } msch_req_param_profiler_event_data_t; typedef struct msch_req_timing_profiler_event_data { uint32 p_req_timing; uint32 p_prev; uint32 p_next; uint16 flags; uint16 timeslot_ptr; uint32 fire_time_l; uint32 fire_time_h; uint32 pre_start_time_l; uint32 pre_start_time_h; uint32 start_time_l; uint32 start_time_h; uint32 end_time_l; uint32 end_time_h; uint32 p_timeslot; } msch_req_timing_profiler_event_data_t; typedef struct msch_chan_ctxt_profiler_event_data { uint32 p_chan_ctxt; uint32 p_prev; uint32 p_next; uint16 chanspec; uint16 bf_sch_pending; uint32 bf_link_prev; uint32 bf_link_next; uint32 onchan_time_l; uint32 onchan_time_h; uint32 actual_onchan_dur_l; uint32 actual_onchan_dur_h; uint32 pend_onchan_dur_l; uint32 pend_onchan_dur_h; uint16 req_entity_list_cnt; uint16 req_entity_list_ptr; uint16 bf_entity_list_cnt; uint16 bf_entity_list_ptr; uint32 bf_skipped_count; } msch_chan_ctxt_profiler_event_data_t; typedef struct msch_req_entity_profiler_event_data { uint32 p_req_entity; uint32 req_hdl_link_prev; uint32 req_hdl_link_next; uint32 chan_ctxt_link_prev; uint32 chan_ctxt_link_next; uint32 rt_specific_link_prev; uint32 rt_specific_link_next; uint32 start_fixed_link_prev; uint32 start_fixed_link_next; uint32 both_flex_list_prev; uint32 both_flex_list_next; uint16 chanspec; uint16 priority; uint16 cur_slot_ptr; uint16 pend_slot_ptr; uint16 pad; uint16 chan_ctxt_ptr; uint32 p_chan_ctxt; uint32 p_req_hdl; uint32 bf_last_serv_time_l; uint32 bf_last_serv_time_h; uint16 onchan_chn_idx; uint16 cur_chn_idx; uint32 flags; uint32 actual_start_time_l; uint32 actual_start_time_h; uint32 curts_fire_time_l; uint32 curts_fire_time_h; } msch_req_entity_profiler_event_data_t; typedef struct msch_req_handle_profiler_event_data { uint32 p_req_handle; uint32 p_prev; uint32 p_next; uint32 cb_func; uint32 cb_ctxt; uint16 req_param_ptr; uint16 req_entity_list_cnt; uint16 req_entity_list_ptr; uint16 chan_cnt; uint32 flags; uint16 chanspec_list; uint16 chanspec_cnt; uint16 chan_idx; uint16 last_chan_idx; uint32 req_time_l; uint32 req_time_h; } msch_req_handle_profiler_event_data_t; typedef struct msch_profiler_profiler_event_data { uint32 time_lo; /* Request time */ uint32 time_hi; uint32 free_req_hdl_list; uint32 free_req_entity_list; uint32 free_chan_ctxt_list; uint32 free_chanspec_list; uint16 cur_msch_timeslot_ptr; uint16 next_timeslot_ptr; uint32 p_cur_msch_timeslot; uint32 p_next_timeslot; uint32 cur_armed_timeslot; uint32 flags; uint32 ts_id; uint32 service_interval; uint32 max_lo_prio_interval; uint16 flex_list_cnt; uint16 msch_chanspec_alloc_cnt; uint16 msch_req_entity_alloc_cnt; uint16 msch_req_hdl_alloc_cnt; uint16 msch_chan_ctxt_alloc_cnt; uint16 msch_timeslot_alloc_cnt; uint16 msch_req_hdl_list_cnt; uint16 msch_req_hdl_list_ptr; uint16 msch_chan_ctxt_list_cnt; uint16 msch_chan_ctxt_list_ptr; uint16 msch_req_timing_list_cnt; uint16 msch_req_timing_list_ptr; uint16 msch_start_fixed_list_cnt; uint16 msch_start_fixed_list_ptr; uint16 msch_both_flex_req_entity_list_cnt; uint16 msch_both_flex_req_entity_list_ptr; uint16 msch_start_flex_list_cnt; uint16 msch_start_flex_list_ptr; uint16 msch_both_flex_list_cnt; uint16 msch_both_flex_list_ptr; uint32 slotskip_flag; } msch_profiler_profiler_event_data_t; typedef struct msch_req_profiler_event_data { uint32 time_lo; /* Request time */ uint32 time_hi; uint16 chanspec_cnt; uint16 chanspec_ptr; uint16 req_param_ptr; uint16 pad; } msch_req_profiler_event_data_t; typedef struct msch_callback_profiler_event_data { uint32 time_lo; /* Request time */ uint32 time_hi; uint16 type; /* callback type */ uint16 chanspec; /* actual chanspec, may different with requested one */ uint32 start_time_l; /* time slot start time low 32bit */ uint32 start_time_h; /* time slot start time high 32bit */ uint32 end_time_l; /* time slot end time low 32 bit */ uint32 end_time_h; /* time slot end time high 32 bit */ uint32 timeslot_id; /* unique time slot id */ uint32 p_req_hdl; uint32 onchan_idx; /* Current channel index */ uint32 cur_chan_seq_start_time_l; /* start time of current sequence */ uint32 cur_chan_seq_start_time_h; } msch_callback_profiler_event_data_t; typedef struct msch_timeslot_profiler_event_data { uint32 p_timeslot; uint32 timeslot_id; uint32 pre_start_time_l; uint32 pre_start_time_h; uint32 end_time_l; uint32 end_time_h; uint32 sch_dur_l; uint32 sch_dur_h; uint32 p_chan_ctxt; uint32 fire_time_l; uint32 fire_time_h; uint32 state; } msch_timeslot_profiler_event_data_t; typedef struct msch_register_params { uint16 wlc_index; /* Optional wlc index */ uint16 flags; /* Describe various request properties */ uint32 req_type; /* Describe start and end time flexiblilty */ uint16 id; /* register id */ uint16 priority; /* Define the request priority */ uint32 start_time; /* Requested start time offset in ms unit */ uint32 duration; /* Requested duration in ms unit */ uint32 interval; /* Requested periodic interval in ms unit, * 0 means non-periodic */ uint32 dur_flex; /* MSCH_REG_DUR_FLEX, min_dur = duration - dur_flex */ uint32 min_dur; /* min duration for traffic, maps to home_time */ uint32 max_away_dur; /* max acceptable away dur, maps to home_away_time */ uint32 hi_prio_time; uint32 hi_prio_interval; /* repeated high priority interval */ uint32 chanspec_cnt; uint16 chanspec_list[WL_MSCH_NUMCHANNELS]; } msch_register_params_t; #endif /* _EVENT_LOG_PAYLOAD_H_ */