/* * Copyright (c) 2013 Qualcomm Atheros, Inc. * All Rights Reserved. * Qualcomm Atheros Confidential and Proprietary. * */ #include #include #include #include #include #include #include #include #include "dbglog.h" #include "dbglog_id.h" #include "dbglog_host.h" #include "a_debug.h" #include "ol_defines.h" #include "ah_osdep.h" #ifdef CONFIG_ANDROID_LOG #include #define FWDEBUG_LOG_NAME "ROME" #define printf(...) __android_log_print(ANDROID_LOG_INFO, FWDEBUG_LOG_NAME, __VA_ARGS__); #endif unsigned char buf[RECLEN]; #define MAX_DBG_MSGS 256 module_dbg_print mod_print[WLAN_MODULE_ID_MAX]; const char *dbglog_get_module_str(A_UINT32 module_id) { switch (module_id) { case WLAN_MODULE_INF: return "INF"; case WLAN_MODULE_WMI: return "WMI"; case WLAN_MODULE_STA_PWRSAVE: return "STA PS"; case WLAN_MODULE_WHAL: return "WHAL"; case WLAN_MODULE_COEX: return "COEX"; case WLAN_MODULE_ROAM: return "ROAM"; case WLAN_MODULE_RESMGR_CHAN_MANAGER: return "CHANMGR"; case WLAN_MODULE_RESMGR: return "RESMGR"; case WLAN_MODULE_VDEV_MGR: return "VDEV"; case WLAN_MODULE_SCAN: return "SCAN"; case WLAN_MODULE_RATECTRL: return "RC"; case WLAN_MODULE_AP_PWRSAVE: return "AP PS"; case WLAN_MODULE_BLOCKACK: return "BA"; case WLAN_MODULE_MGMT_TXRX: return "MGMT"; case WLAN_MODULE_DATA_TXRX: return "DATA"; case WLAN_MODULE_HTT: return "HTT"; case WLAN_MODULE_HOST: return "HOST"; case WLAN_MODULE_BEACON: return "BEACON"; case WLAN_MODULE_OFFLOAD: return "OFFLOAD"; case WLAN_MODULE_WAL: return "WAL"; case WAL_MODULE_DE: return "DE"; case WLAN_MODULE_PCIELP: return "PCIELP"; case WLAN_MODULE_RTT: return "RTT"; case WLAN_MODULE_DCS: return "DCS"; case WLAN_MODULE_CACHEMGR: return "CACHEMGR"; case WLAN_MODULE_ANI: return "ANI"; case WLAN_MODULE_TEST: return "TESTPOINT"; case WLAN_MODULE_STA_SMPS: return "STA_SMPS"; case WLAN_MODULE_TDLS: return "TDLS"; default: return "UNKNOWN"; } } char * DBG_MSG_ARR[WLAN_MODULE_ID_MAX][MAX_DBG_MSGS] = { { "INF_MSG_START", "INF_ASSERTION_FAILED", "INF_TARGET_ID", "INF_MSG_END" }, { "WMI_DBGID_DEFINITION_START", "WMI_CMD_RX_XTND_PKT_TOO_SHORT", "WMI_EXTENDED_CMD_NOT_HANDLED", "WMI_CMD_RX_PKT_TOO_SHORT", "WMI_CALLING_WMI_EXTENSION_FN", "WMI_CMD_NOT_HANDLED", "WMI_IN_SYNC", "WMI_TARGET_WMI_SYNC_CMD", "WMI_SET_SNR_THRESHOLD_PARAMS", "WMI_SET_RSSI_THRESHOLD_PARAMS", "WMI_SET_LQ_TRESHOLD_PARAMS", "WMI_TARGET_CREATE_PSTREAM_CMD", "WMI_WI_DTM_INUSE", "WMI_TARGET_DELETE_PSTREAM_CMD", "WMI_TARGET_IMPLICIT_DELETE_PSTREAM_CMD", "WMI_TARGET_GET_BIT_RATE_CMD", "WMI_GET_RATE_MASK_CMD_FIX_RATE_MASK_IS", "WMI_TARGET_GET_AVAILABLE_CHANNELS_CMD", "WMI_TARGET_GET_TX_PWR_CMD", "WMI_FREE_EVBUF_WMIBUF", "WMI_FREE_EVBUF_DATABUF", "WMI_FREE_EVBUF_BADFLAG", "WMI_HTC_RX_ERROR_DATA_PACKET", "WMI_HTC_RX_SYNC_PAUSING_FOR_MBOX", "WMI_INCORRECT_WMI_DATA_HDR_DROPPING_PKT", "WMI_SENDING_READY_EVENT", "WMI_SETPOWER_MDOE_TO_MAXPERF", "WMI_SETPOWER_MDOE_TO_REC", "WMI_BSSINFO_EVENT_FROM", "WMI_TARGET_GET_STATS_CMD", "WMI_SENDING_SCAN_COMPLETE_EVENT", "WMI_SENDING_RSSI_INDB_THRESHOLD_EVENT ", "WMI_SENDING_RSSI_INDBM_THRESHOLD_EVENT", "WMI_SENDING_LINK_QUALITY_THRESHOLD_EVENT", "WMI_SENDING_ERROR_REPORT_EVENT", "WMI_SENDING_CAC_EVENT", "WMI_TARGET_GET_ROAM_TABLE_CMD", "WMI_TARGET_GET_ROAM_DATA_CMD", "WMI_SENDING_GPIO_INTR_EVENT", "WMI_SENDING_GPIO_ACK_EVENT", "WMI_SENDING_GPIO_DATA_EVENT", "WMI_CMD_RX", "WMI_CMD_RX_XTND", "WMI_EVENT_SEND", "WMI_EVENT_SEND_XTND", "WMI_CMD_PARAMS_DUMP_START", "WMI_CMD_PARAMS_DUMP_END", "WMI_CMD_PARAMS", "WMI_EVENT_ALLOC_FAILURE", "WMI_DBGID_DCS_PARAM_CMD", "WMI_DBGID_DEFNITION_END", }, { "PS_STA_DEFINITION_START", "PS_STA_PM_ARB_REQUEST", }, { "WHAL_DBGID_DEFINITION_START", "WHAL_ERROR_ANI_CONTROL", "WHAL_ERROR_CHIP_TEST1", "WHAL_ERROR_CHIP_TEST2", "WHAL_ERROR_EEPROM_CHECKSUM", "WHAL_ERROR_EEPROM_MACADDR", "WHAL_ERROR_INTERRUPT_HIU", "WHAL_ERROR_KEYCACHE_RESET", "WHAL_ERROR_KEYCACHE_SET", "WHAL_ERROR_KEYCACHE_TYPE", "WHAL_ERROR_KEYCACHE_TKIPENTRY", "WHAL_ERROR_KEYCACHE_WEPLENGTH", "WHAL_ERROR_PHY_INVALID_CHANNEL", "WHAL_ERROR_POWER_AWAKE", "WHAL_ERROR_POWER_SET", "WHAL_ERROR_RECV_STOPDMA", "WHAL_ERROR_RECV_STOPPCU", "WHAL_ERROR_RESET_CHANNF1", "WHAL_ERROR_RESET_CHANNF2", "WHAL_ERROR_RESET_PM", "WHAL_ERROR_RESET_OFFSETCAL", "WHAL_ERROR_RESET_RFGRANT", "WHAL_ERROR_RESET_RXFRAME", "WHAL_ERROR_RESET_STOPDMA", "WHAL_ERROR_RESET_ERRID", "WHAL_ERROR_RESET_ADCDCCAL1", "WHAL_ERROR_RESET_ADCDCCAL2", "WHAL_ERROR_RESET_TXIQCAL", "WHAL_ERROR_RESET_RXIQCAL", "WHAL_ERROR_RESET_CARRIERLEAK", "WHAL_ERROR_XMIT_COMPUTE", "WHAL_ERROR_XMIT_NOQUEUE", "WHAL_ERROR_XMIT_ACTIVEQUEUE", "WHAL_ERROR_XMIT_BADTYPE", "WHAL_ERROR_XMIT_STOPDMA", "WHAL_ERROR_INTERRUPT_BB_PANIC", "WHAL_ERROR_PAPRD_MAXGAIN_ABOVE_WINDOW", "WHAL_ERROR_QCU_HW_PAUSE_MISMATCH", "WHAL_COEX_RESET", "WHAL_COEX_SELF_GEN_MASK", "WHAL_ERROR_COEX_MCI_ISR", "WHAL_COEX_MCI_ISR_IntRaw", "WHAL_COEX_MCI_ISR_Int1Raw", "WHAL_COEX_MCI_ISR_RxMsgRaw", "WHAL_COEX_SENDMSG_QUEUE", "WHAL_COEX_TX_MCI_REMOTE_RESET", "WHAL_COEX_TX_MCI_TYPE_UNKNOWN", "WHAL_COEX_TX_MCI_SYS_SLEEPING", "WHAL_COEX_TX_MCI_REQ_WAKE", "WHAL_COEX_TX_MCI_SYS_WAKING", "WHAL_COEX_TX_MCI_LNA_TAKE", "WHAL_COEX_TX_MCI_LNA_TRANS", "WHAL_COEX_TX_MCI_GPM_UNKNOWN", "WHAL_COEX_TX_MCI_GPM_WLAN_SET_ACL_INACTIVITY", "WHAL_COEX_TX_MCI_GPM_BT_PAUSE_PROFILE", "WHAL_COEX_TX_MCI_GPM_WLAN_PRIO", "WHAL_COEX_TX_MCI_GPM_BT_STATUS_UPDATE", "WHAL_COEX_TX_MCI_GPM_BT_UPDATE_FLAGS", "WHAL_COEX_TX_MCI_GPM_VERSION_QUERY", "WHAL_COEX_TX_MCI_GPM_VERSION_RESPONSE", "WHAL_COEX_TX_MCI_GPM_STATUS_QUERY", "WHAL_COEX_TX_MCI_GPM_HALT_BT_GPM", "WHAL_COEX_TX_MCI_GPM_WLAN_CHANNELS", "WHAL_COEX_TX_MCI_GPM_BT_PROFILE_INFO", "WHAL_COEX_TX_MCI_GPM_BT_CAL_REQ ", "WHAL_COEX_TX_MCI_GPM_BT_CAL_GRANT", "WHAL_COEX_TX_MCI_GPM_BT_CAL_DONE", "WHAL_COEX_TX_MCI_GPM_WLAN_CAL_REQ", "WHAL_COEX_TX_MCI_GPM_WLAN_CAL_GRANT", "WHAL_COEX_TX_MCI_GPM_WLAN_CAL_DONE", "WHAL_COEX_TX_MCI_GPM_BT_DEBUG", "WHAL_COEX_WHAL_MCI_RESET", "WHAL_COEX_POLL_BT_CAL_DONE_TIMEOUT", "WHAL_COEX_WHAL_PAUSE", "WHAL_COEX_RX_MCI_GPM_BT_CAL_REQ", "WHAL_COEX_RX_MCI_GPM_BT_CAL_DONE", "WHAL_COEX_RX_MCI_GPM_BT_CAL_GRANT", "WHAL_COEX_WLAN_CAL_START", "WHAL_COEX_WLAN_CAL_RESULT ", "WHAL_COEX_BtMciState", "WHAL_COEX_BtCalState", "WHAL_COEX_WlanCalState", "WHAL_COEX_RxReqWakeCount", "WHAL_COEX_RxRemoteResetCount", "WHAL_COEX_RESTART_CAL", "WHAL_COEX_WHAL_COEX_RESET", "WHAL_COEX_SELF_GEN_MASK", "WHAL_DBGID_DEFINITION_END" }, { "COEX_DEBUGID_START", "BTCOEX_DBG_MCI_1", "BTCOEX_DBG_MCI_2", "BTCOEX_DBG_MCI_3", "BTCOEX_DBG_MCI_4", "BTCOEX_DBG_MCI_5", "BTCOEX_DBG_MCI_6", "BTCOEX_DBG_MCI_7", "BTCOEX_DBG_MCI_8", "BTCOEX_DBG_MCI_9", "BTCOEX_DBG_MCI_10", "COEX_WAL_BTCOEX_INIT", "COEX_WAL_PAUSE", "COEX_WAL_RESUME", "COEX_UPDATE_AFH", "COEX_HWQ_EMPTY_CB", "COEX_MCI_TIMER_HANDLER", "COEX_MCI_RECOVER", "ERROR_COEX_MCI_ISR", "ERROR_COEX_MCI_GPM", "COEX_ProfileType", "COEX_LinkID", "COEX_LinkState", "COEX_LinkRole", "COEX_LinkRate", "COEX_VoiceType", "COEX_TInterval", "COEX_WRetrx", "COEX_Attempts", "COEX_PerformanceState", "COEX_LinkType", "COEX_RX_MCI_GPM_VERSION_QUERY", "COEX_RX_MCI_GPM_VERSION_RESPONSE", "COEX_RX_MCI_GPM_STATUS_QUERY", "COEX_STATE_WLAN_VDEV_DOWN", "COEX_STATE_WLAN_VDEV_START", "COEX_STATE_WLAN_VDEV_CONNECTED", "COEX_STATE_WLAN_VDEV_SCAN_STARTED", "COEX_STATE_WLAN_VDEV_SCAN_END", "COEX_STATE_WLAN_DEFAULT", "COEX_CHANNEL_CHANGE", "COEX_POWER_CHANGE", "COEX_CONFIG_MGR", "COEX_TX_MCI_GPM_BT_CAL_REQ", "COEX_TX_MCI_GPM_BT_CAL_GRANT", "COEX_TX_MCI_GPM_BT_CAL_DONE", "COEX_TX_MCI_GPM_WLAN_CAL_REQ", "COEX_TX_MCI_GPM_WLAN_CAL_GRANT", "COEX_TX_MCI_GPM_WLAN_CAL_DONE", "COEX_TX_MCI_GPM_BT_DEBUG", "COEX_TX_MCI_GPM_VERSION_QUERY", "COEX_TX_MCI_GPM_VERSION_RESPONSE", "COEX_TX_MCI_GPM_STATUS_QUERY", "COEX_TX_MCI_GPM_HALT_BT_GPM", "COEX_TX_MCI_GPM_WLAN_CHANNELS", "COEX_TX_MCI_GPM_BT_PROFILE_INFO", "COEX_TX_MCI_GPM_BT_STATUS_UPDATE", "COEX_TX_MCI_GPM_BT_UPDATE_FLAGS", "COEX_TX_MCI_GPM_UNKNOWN", "COEX_TX_MCI_SYS_WAKING", "COEX_TX_MCI_LNA_TAKE", "COEX_TX_MCI_LNA_TRANS", "COEX_TX_MCI_SYS_SLEEPING", "COEX_TX_MCI_REQ_WAKE", "COEX_TX_MCI_REMOTE_RESET", "COEX_TX_MCI_TYPE_UNKNOWN", "COEX_WHAL_MCI_RESET", "COEX_POLL_BT_CAL_DONE_TIMEOUT", "COEX_WHAL_PAUSE", "COEX_RX_MCI_GPM_BT_CAL_REQ", "COEX_RX_MCI_GPM_BT_CAL_DONE", "COEX_RX_MCI_GPM_BT_CAL_GRANT", "COEX_WLAN_CAL_START", "COEX_WLAN_CAL_RESULT", "COEX_BtMciState", "COEX_BtCalState", "COEX_WlanCalState", "COEX_RxReqWakeCount", "COEX_RxRemoteResetCount", "COEX_RESTART_CAL", "COEX_SENDMSG_QUEUE", "COEX_RESETSEQ_LNAINFO_TIMEOUT", "COEX_MCI_ISR_IntRaw", "COEX_MCI_ISR_Int1Raw", "COEX_MCI_ISR_RxMsgRaw", "COEX_WHAL_COEX_RESET", "COEX_WAL_COEX_INIT", "COEX_TXRX_CNT_LIMIT_ISR", "COEX_CH_BUSY", "COEX_REASSESS_WLAN_STATE", "COEX_BTCOEX_WLAN_STATE_UPDATE", "COEX_BT_NUM_OF_PROFILES", "COEX_BT_NUM_OF_HID_PROFILES", "COEX_BT_NUM_OF_ACL_PROFILES", "COEX_BT_NUM_OF_HI_ACL_PROFILES", "COEX_BT_NUM_OF_VOICE_PROFILES", "COEX_WLAN_AGGR_LIMIT", "COEX_BT_LOW_PRIO_BUDGET", "COEX_BT_HI_PRIO_BUDGET", "COEX_BT_IDLE_TIME", "COEX_SET_COEX_WEIGHT", "COEX_WLAN_WEIGHT_GROUP", "COEX_BT_WEIGHT_GROUP", "COEX_BT_INTERVAL_ALLOC", "COEX_BT_SCHEME", "COEX_BT_MGR", "COEX_BT_SM_ERROR", "COEX_SYSTEM_UPDATE", "COEX_LOW_PRIO_LIMIT", "COEX_HI_PRIO_LIMIT", "COEX_BT_INTERVAL_START", "COEX_WLAN_INTERVAL_START", "COEX_NON_LINK_BUDGET", "COEX_CONTENTION_MSG", "COEX_SET_NSS", "COEX_SELF_GEN_MASK", "COEX_PROFILE_ERROR", "COEX_WLAN_INIT", "COEX_BEACON_MISS", "COEX_BEACON_OK", "COEX_BTCOEX_SCAN_ACTIVITY", "COEX_SCAN_ACTIVITY", "COEX_FORCE_QUIETTIME", "COEX_BT_MGR_QUIETTIME", "COEX_BT_INACTIVITY_TRIGGER", "COEX_BT_INACTIVITY_REPORTED", "COEX_TX_MCI_GPM_WLAN_PRIO", "COEX_TX_MCI_GPM_BT_PAUSE_PROFILE", "COEX_TX_MCI_GPM_WLAN_SET_ACL_INACTIVITY", "COEX_RX_MCI_GPM_BT_ACL_INACTIVITY_REPORT", "COEX_GENERIC_ERROR", "COEX_RX_RATE_THRESHOLD", "COEX_RSSI", "COEX_WLAN_VDEV_NOTIF_START", // 133 "COEX_WLAN_VDEV_NOTIF_UP", // 134 "COEX_WLAN_VDEV_NOTIF_DOWN", // 135 "COEX_WLAN_VDEV_NOTIF_STOP", // 136 "COEX_WLAN_VDEV_NOTIF_ADD_PEER", // 137 "COEX_WLAN_VDEV_NOTIF_DELETE_PEER", // 138 "COEX_WLAN_VDEV_NOTIF_CONNECTED_PEER", // 139 "COEX_WLAN_VDEV_NOTIF_PAUSE", // 140 "COEX_WLAN_VDEV_NOTIF_UNPAUSED", // 141 "COEX_STATE_WLAN_VDEV_PEER_ADD", // 142 "COEX_STATE_WLAN_VDEV_CONNECTED_PEER", // 143 "COEX_STATE_WLAN_VDEV_DELETE_PEER", // 144 "COEX_STATE_WLAN_VDEV_PAUSE", // 145 "COEX_STATE_WLAN_VDEV_UNPAUSED", // 146 "COEX_SCAN_CALLBACK", // 147 "COEX_RC_SET_CHAINMASK", // 148 "COEX_TX_MCI_GPM_WLAN_SET_BT_RXSS_THRES", // 149 "COEX_TX_MCI_GPM_BT_RXSS_THRES_QUERY", // 150 "COEX_BT_RXSS_THRES", // 151 "COEX_BT_PROFILE_ADD_RMV", // 152 "COEX_BT_SCHED_INFO", // 153 "COEX_TRF_MGMT", // 154 "COEX_SCHED_START", // 155 "COEX_SCHED_RESULT", // 156 "COEX_SCHED_ERROR", // 157 "COEX_SCHED_PRE_OP", // 158 "COEX_SCHED_POST_OP", // 159 "COEX_RX_RATE", // 160 "COEX_ACK_PRIORITY", // 161 "COEX_STATE_WLAN_VDEV_UP", // 162 "COEX_STATE_WLAN_VDEV_PEER_UPDATE", // 163 "COEX_STATE_WLAN_VDEV_STOP", // 164 "COEX_WLAN_PAUSE_PEER", // 165 "COEX_WLAN_UNPAUSE_PEER", // 166 "COEX_WLAN_PAUSE_INTERVAL_START", // 167 "COEX_WLAN_POSTPAUSE_INTERVAL_START", // 168 "COEX_TRF_FREERUN", // 169 "COEX_TRF_SHAPE_PM", // 170 "COEX_TRF_SHAPE_PSP", // 171 "COEX_TRF_SHAPE_S_CTS", // 172 "COEX_CHAIN_CONFIG", // 173 "COEX_SYSTEM_MONITOR", // 174 "COEX_SINGLECHAIN_INIT", // 175 "COEX_MULTICHAIN_INIT", // 176 "COEX_SINGLECHAIN_DBG_1", // 177 "COEX_SINGLECHAIN_DBG_2", // 178 "COEX_SINGLECHAIN_DBG_3", // 179 "COEX_MULTICHAIN_DBG_1", // 180 "COEX_MULTICHAIN_DBG_2", // 181 "COEX_MULTICHAIN_DBG_3", // 182 "COEX_PSP_TX_CB", // 183 "COEX_PSP_RX_CB", // 184 "COEX_PSP_STAT_1", // 185 "COEX_PSP_SPEC_POLL", // 186 "COEX_PSP_READY_STATE", // 187 "COEX_PSP_TX_STATUS_STATE", // 188 "COEX_PSP_RX_STATUS_STATE_1", // 189 "COEX_PSP_NOT_READY_STATE", // 190 "COEX_PSP_DISABLED_STATE", // 191 "COEX_PSP_ENABLED_STATE", // 192 "COEX_PSP_SEND_PSPOLL", // 193 "COEX_PSP_MGR_ENTER", // 194 "COEX_PSP_MGR_RESULT", // 195 "COEX_PSP_NONWLAN_INTERVAL", // 196 "COEX_PSP_STAT_2", // 197 "COEX_PSP_RX_STATUS_STATE_2", // 198 "COEX_PSP_ERROR", // 199 "COEX_T2BT", // 200 "COEX_BT_DURATION", // 201 "COEX_TX_MCI_GPM_WLAN_SCHED_INFO_TRIG", // 202 "COEX_TX_MCI_GPM_WLAN_SCHED_INFO_TRIG_RSP", // 203 "COEX_TX_MCI_GPM_SCAN_OP", // 204 "COEX_TX_MCI_GPM_BT_PAUSE_GPM_TX", // 205 "COEX_CTS2S_SEND", // 206 "COEX_CTS2S_RESULT", // 207 "COEX_ENTER_OCS", // 208 "COEX_EXIT_OCS", // 209 "COEX_UPDATE_OCS", // 210 "COEX_STATUS_OCS", // 211 "COEX_STATS_BT", // 212 "COEX_DEBUG_MESSAGE_END" }, { "RO_DBGID_DEFINITION_START", "RO_REFRESH_ROAM_TABLE", "RO_UPDATE_ROAM_CANDIDATE", "RO_UPDATE_ROAM_CANDIDATE_CB", "RO_UPDATE_ROAM_CANDIDATE_FINISH", "RO_REFRESH_ROAM_TABLE_DONE", "RO_PERIODIC_SEARCH_CB", "RO_PERIODIC_SEARCH_TIMEOUT", "RO_INIT", "RO_BMISS_STATE1", "RO_BMISS_STATE2", "RO_SET_PERIODIC_SEARCH_ENABLE", "RO_SET_PERIODIC_SEARCH_DISABLE", "RO_ENABLE_SQ_THRESHOLD", "RO_DISABLE_SQ_THRESHOLD", "RO_ADD_BSS_TO_ROAM_TABLE", "RO_SET_PERIODIC_SEARCH_MODE", "RO_CONFIGURE_SQ_THRESHOLD1", "RO_CONFIGURE_SQ_THRESHOLD2", "RO_CONFIGURE_SQ_PARAMS", "RO_LOW_SIGNAL_QUALITY_EVENT", "RO_HIGH_SIGNAL_QUALITY_EVENT", "RO_REMOVE_BSS_FROM_ROAM_TABLE", "RO_UPDATE_CONNECTION_STATE_METRIC", "RO_LOWRSSI_SCAN_PARAMS", "RO_LOWRSSI_SCAN_START", "RO_LOWRSSI_SCAN_END", "RO_LOWRSSI_SCAN_CANCEL", "RO_LOWRSSI_ROAM_CANCEL", "RO_REFRESH_ROAM_CANDIDATE", "RO_DBGID_DEFINITION_END" }, { "RESMGR_CHMGR_DEFINITION_START", "RESMGR_CHMGR_PAUSE_COMPLETE", "RESMGR_CHMGR_CHANNEL_CHANGE", "RESMGR_CHMGR_RESUME_COMPLETE", "RESMGR_CHMGR_VDEV_PAUSE", "RESMGR_CHMGR_VDEV_UNPAUSE", "RESMGR_CHMGR_DEFINITION_END" }, { "RESMGR_DEFINITION_START", "RESMGR_OCS_ALLOCRAM_SIZE", "RESMGR_OCS_RESOURCES", "RESMGR_LINK_CREATE", "RESMGR_LINK_DELETE", "RESMGR_OCS_CHREQ_CREATE", "RESMGR_OCS_CHREQ_DELETE", "RESMGR_OCS_CHREQ_START", "RESMGR_OCS_CHREQ_STOP", "RESMGR_OCS_SCHEDULER_INVOKED", "RESMGR_OCS_CHREQ_GRANT", "RESMGR_OCS_CHREQ_COMPLETE", "RESMGR_OCS_NEXT_TSFTIME", "RESMGR_OCS_TSF_TIMEOUT_US", "RESMGR_OCS_CURR_CAT_WINDOW", "RESMGR_OCS_CURR_CAT_WINDOW_REQ", "RESMGR_OCS_CURR_CAT_WINDOW_TIMESLOT", "RESMGR_OCS_CHREQ_RESTART", "RESMGR_OCS_CLEANUP_CH_ALLOCATORS", "RESMGR_OCS_PURGE_CHREQ", "RESMGR_OCS_CH_ALLOCATOR_FREE", "RESMGR_OCS_RECOMPUTE_SCHEDULE", "RESMGR_OCS_NEW_CAT_WINDOW_REQ", "RESMGR_OCS_NEW_CAT_WINDOW_TIMESLOT", "RESMGR_OCS_CUR_CH_ALLOC", "RESMGR_OCS_WIN_CH_ALLOC", "RESMGR_OCS_SCHED_CH_CHANGE", "RESMGR_OCS_CONSTRUCT_CAT_WIN", "RESMGR_OCS_CHREQ_PREEMPTED", "RESMGR_OCS_CH_SWITCH_REQ", "RESMGR_OCS_CHANNEL_SWITCHED", "RESMGR_OCS_CLEANUP_STALE_REQS", "RESMGR_OCS_CHREQ_UPDATE", "RESMGR_OCS_REG_NOA_NOTIF", "RESMGR_OCS_DEREG_NOA_NOTIF", "RESMGR_OCS_GEN_PERIODIC_NOA", "RESMGR_OCS_RECAL_QUOTAS", "RESMGR_OCS_GRANTED_QUOTA_STATS", "RESMGR_OCS_ALLOCATED_QUOTA_STATS", "RESMGR_OCS_REQ_QUOTA_STATS", "RESMGR_OCS_TRACKING_TIME_FIRED", "RESMGR_VC_ARBITRATE_ATTRIBUTES", "RESMGR_OCS_LATENCY_STRICT_TIME_SLOT", "RESMGR_OCS_CURR_TSF", "RESMGR_OCS_QUOTA_REM", "RESMGR_OCS_LATENCY_CASE_NO", "RESMGR_OCS_WIN_CAT_DUR", "RESMGR_VC_UPDATE_CUR_VC", "RESMGR_VC_REG_UNREG_LINK", "RESMGR_VC_PRINT_LINK", "RESMGR_OCS_MISS_TOLERANCE", "RESMGR_DEFINITION_END" }, { "VDEV_MGR_DEBID_DEFINITION_START", /* vdev Mgr */ "VDEV_MGR_FIRST_BEACON_MISS_DETECTED", "VDEV_MGR_FINAL_BEACON_MISS_DETECTED", "VDEV_MGR_BEACON_IN_SYNC", "VDEV_MGR_AP_KEEPALIVE_IDLE", "VDEV_MGR_AP_KEEPALIVE_INACTIVE", "VDEV_MGR_AP_KEEPALIVE_UNRESPONSIVE", "VDEV_MGR_AP_TBTT_CONFIG", "VDEV_MGR_FIRST_BCN_RECEIVED", "VDEV_MGR_VDEV_START", "VDEV_MGR_VDEV_UP", "VDEV_MGR_PEER_AUTHORIZED", "VDEV_MGR_OCS_HP_LP_REQ_POSTED", "VDEV_MGR_VDEV_START_OCS_HP_REQ_COMPLETE", "VDEV_MGR_VDEV_START_OCS_HP_REQ_STOP", "VDEV_MGR_HP_START_TIME", "VDEV_MGR_DEFINITION_END", }, { "SCAN_START_COMMAND_FAILED", /* scan */ "SCAN_STOP_COMMAND_FAILED", "SCAN_EVENT_SEND_FAILED", "SCAN_ENGINE_START", "SCAN_ENGINE_CANCEL_COMMAND", "SCAN_ENGINE_STOP_DUE_TO_TIMEOUT", "SCAN_EVENT_SEND_TO_HOST", "SCAN_FWLOG_EVENT_ADD", "SCAN_FWLOG_EVENT_REM", "SCAN_FWLOG_EVENT_PREEMPTED", "SCAN_FWLOG_EVENT_RESTARTED", "SCAN_FWLOG_EVENT_COMPLETED", }, { "" /* Rate ctrl*/ }, { "AP_PS_DBGID_DEFINITION_START", "AP_PS_DBGID_UPDATE_TIM", "AP_PS_DBGID_PEER_STATE_CHANGE", "AP_PS_DBGID_PSPOLL", "AP_PS_DBGID_PEER_CREATE", "AP_PS_DBGID_PEER_DELETE", "AP_PS_DBGID_VDEV_CREATE", "AP_PS_DBGID_VDEV_DELETE", "AP_PS_DBGID_SYNC_TIM", "AP_PS_DBGID_NEXT_RESPONSE", "AP_PS_DBGID_START_SP", "AP_PS_DBGID_COMPLETED_EOSP", "AP_PS_DBGID_TRIGGER", "AP_PS_DBGID_DUPLICATE_TRIGGER", "AP_PS_DBGID_UAPSD_RESPONSE", "AP_PS_DBGID_SEND_COMPLETE", "AP_PS_DBGID_SEND_N_COMPLETE", }, { "" /* Block Ack */ }, /* Mgmt TxRx */ { "MGMT_TXRX_DBGID_DEFINITION_START", "MGMT_TXRX_FORWARD_TO_HOST", "MGMT_TXRX_DBGID_DEFINITION_END", }, { /* Data TxRx */ "DATA_TXRX_DBGID_DEFINITION_START", "DATA_TXRX_DBGID_RX_DATA_SEQ_LEN_INFO", "DATA_TXRX_DBGID_DEFINITION_END", }, { "" /* HTT */ }, { "" /* HOST */ }, { "" /* BEACON */ "BEACON_EVENT_SWBA_SEND_FAILED", "BEACON_EVENT_EARLY_RX_BMISS_STATUS", "BEACON_EVENT_EARLY_RX_SLEEP_SLOP", "BEACON_EVENT_EARLY_RX_CONT_BMISS_TIMEOUT", "BEACON_EVENT_EARLY_RX_PAUSE_SKIP_BCN_NUM", }, { /* Offload Mgr */ "OFFLOAD_MGR_DBGID_DEFINITION_START", "OFFLOADMGR_REGISTER_OFFLOAD", "OFFLOADMGR_DEREGISTER_OFFLOAD", "OFFLOADMGR_NO_REG_DATA_HANDLERS", "OFFLOADMGR_NO_REG_EVENT_HANDLERS", "OFFLOADMGR_REG_OFFLOAD_FAILED", "OFFLOADMGR_DBGID_DEFINITION_END", }, { "WAL_DBGID_DEFINITION_START", "WAL_DBGID_FAST_WAKE_REQUEST", "WAL_DBGID_FAST_WAKE_RELEASE", "WAL_DBGID_SET_POWER_STATE", "WAL_DBGID_MISSING", "WAL_DBGID_CHANNEL_CHANGE_FORCE_RESET", "WAL_DBGID_CHANNEL_CHANGE", "WAL_DBGID_VDEV_START", "WAL_DBGID_VDEV_STOP", "WAL_DBGID_VDEV_UP", "WAL_DBGID_VDEV_DOWN", "WAL_DBGID_SW_WDOG_RESET", "WAL_DBGID_TX_SCH_REGISTER_TIDQ", "WAL_DBGID_TX_SCH_UNREGISTER_TIDQ", "WAL_DBGID_TX_SCH_TICKLE_TIDQ", "WAL_DBGID_XCESS_FAILURES", "WAL_DBGID_AST_ADD_WDS_ENTRY", "WAL_DBGID_AST_DEL_WDS_ENTRY", "WAL_DBGID_AST_WDS_ENTRY_PEER_CHG", "WAL_DBGID_AST_WDS_SRC_LEARN_FAIL", "WAL_DBGID_STA_KICKOUT", "WAL_DBGID_BAR_TX_FAIL", "WAL_DBGID_BAR_ALLOC_FAIL", "WAL_DBGID_LOCAL_DATA_TX_FAIL", "WAL_DBGID_SECURITY_PM4_QUEUED", "WAL_DBGID_SECURITY_GM1_QUEUED", "WAL_DBGID_SECURITY_PM4_SENT", "WAL_DBGID_SECURITY_ALLOW_DATA", "WAL_DBGID_SECURITY_UCAST_KEY_SET", "WAL_DBGID_SECURITY_MCAST_KEY_SET", "WAL_DBGID_SECURITY_ENCR_EN", "WAL_DBGID_BB_WDOG_TRIGGERED", "WAL_DBGID_RX_LOCAL_BUFS_LWM", "WAL_DBGID_RX_LOCAL_DROP_LARGE_MGMT", "WAL_DBGID_VHT_ILLEGAL_RATE_PHY_ERR_DETECTED", "WAL_DBGID_DEV_RESET", "WAL_DBGID_TX_BA_SETUP", "WAL_DBGID_RX_BA_SETUP", "WAL_DBGID_DEV_TX_TIMEOUT", "WAL_DBGID_DEV_RX_TIMEOUT", "WAL_DBGID_STA_VDEV_XRETRY", "WAL_DBGID_DCS", "WAL_DBGID_MGMT_TX_FAIL", "WAL_DBGID_SET_M4_SENT_MANUALLY", "WAL_DBGID_PROCESS_4_WAY_HANDSHAKE", "WAL_DBGID_WAL_CHANNEL_CHANGE_START", "WAL_DBGID_WAL_CHANNEL_CHANGE_COMPLETE", "WAL_DBGID_WHAL_CHANNEL_CHANGE_START", "WAL_DBGID_WHAL_CHANNEL_CHANGE_COMPLETE", "WAL_DBGID_TX_MGMT_DESCID_SEQ_TYPE_LEN", "WAL_DBGID_TX_DATA_MSDUID_SEQ_TYPE_LEN", "WAL_DBGID_TX_DISCARD", "WAL_DBGID_TX_MGMT_COMP_DESCID_STATUS", "WAL_DBGID_TX_DATA_COMP_MSDUID_STATUS", "WAL_DBGID_RESET_PCU_CYCLE_CNT", "WAL_DBGID_DEFINITION_END", }, { "" /* DE */ }, { "" /* pcie lp */ }, { "" /* RTT */ }, { /* RESOURCE */ "RESOURCE_DBGID_DEFINITION_START", "RESOURCE_PEER_ALLOC", "RESOURCE_PEER_FREE", "RESOURCE_PEER_ALLOC_WAL_PEER", "RESOURCE_DBGID_DEFINITION_END", }, { /* DCS */ "WLAN_DCS_DBGID_INIT", "WLAN_DCS_DBGID_WMI_CWINT", "WLAN_DCS_DBGID_TIMER", "WLAN_DCS_DBGID_CMDG", "WLAN_DCS_DBGID_CMDS", "WLAN_DCS_DBGID_DINIT" }, { /* CACHEMGR */ "" }, { /* ANI */ "" }, { "P2P_DBGID_DEFINITION_START", "P2P_DEV_REGISTER", "P2P_HANDLE_NOA", "P2P_UPDATE_SCHEDULE_OPPS", "P2P_UPDATE_SCHEDULE", "P2P_UPDATE_START_TIME", "P2P_UPDATE_START_TIME_DIFF_TSF32", "P2P_UPDATE_START_TIME_FINAL", "P2P_SETUP_SCHEDULE_TIMER", "P2P_PROCESS_SCHEDULE_AFTER_CALC", "P2P_PROCESS_SCHEDULE_STARTED_TIMER", "P2P_CALC_SCHEDULES_FIRST_CALL_ALL_NEXT_EVENT", "P2P_CALC_SCHEDULES_FIRST_VALUE", "P2P_CALC_SCHEDULES_EARLIEST_NEXT_EVENT", "P2P_CALC_SCHEDULES_SANITY_COUNT", "P2P_CALC_SCHEDULES_CALL_ALL_NEXT_EVENT_FROM_WHILE_LOOP", "P2P_CALC_SCHEDULES_TIMEOUT_1", "P2P_CALC_SCHEDULES_TIMEOUT_2", "P2P_FIND_ALL_NEXT_EVENTS_REQ_EXPIRED", "P2P_FIND_ALL_NEXT_EVENTS_REQ_ACTIVE", "P2P_FIND_NEXT_EVENT_REQ_NOT_STARTED", "P2P_FIND_NEXT_EVENT_REQ_COMPLETE_NON_PERIODIC", "P2P_FIND_NEXT_EVENT_IN_MID_OF_NOA", "P2P_FIND_NEXT_EVENT_REQ_COMPLETE", "P2P_SCHEDULE_TIMEOUT", "P2P_CALC_SCHEDULES_ENTER", "P2P_PROCESS_SCHEDULE_ENTER", "P2P_FIND_ALL_NEXT_EVENTS_INDIVIDUAL_REQ_AFTER_CHANGE", "P2P_FIND_ALL_NEXT_EVENTS_INDIVIDUAL_REQ_BEFORE_CHANGE", "P2P_FIND_ALL_NEXT_EVENTS_ENTER", "P2P_FIND_NEXT_EVENT_ENTER", "P2P_NOA_GO_PRESENT", "P2P_NOA_GO_ABSENT", "P2P_GO_NOA_NOTIF", "P2P_GO_TBTT_OFFSET", "P2P_GO_GET_NOA_INFO", "P2P_DBGID_DEFINITION_END", }, { "CSA_DBGID_DEFINITION_START", "CSA_OFFLOAD_POOL_INIT", "CSA_OFFLOAD_REGISTER_VDEV", "CSA_OFFLOAD_DEREGISTER_VDEV", "CSA_DEREGISTER_VDEV_ERROR", "CSA_OFFLOAD_BEACON_RECEIVED", "CSA_OFFLOAD_BEACON_CSA_RECV", "CSA_OFFLOAD_CSA_RECV_ERROR_IE", "CSA_OFFLOAD_CSA_TIMER_ERROR", "CSA_OFFLOAD_CSA_TIMER_EXP", "CSA_OFFLOAD_WMI_EVENT_ERROR", "CSA_OFFLOAD_WMI_EVENT_SENT", "CSA_OFFLOAD_WMI_CHANSWITCH_RECV", }, { /* NLO offload */ "" }, { "WLAN_CHATTER_DBGID_DEFINITION_START", "WLAN_CHATTER_ENTER", "WLAN_CHATTER_EXIT", "WLAN_CHATTER_FILTER_HIT", "WLAN_CHATTER_FILTER_MISS", "WLAN_CHATTER_FILTER_FULL", "WLAN_CHATTER_FILTER_TM_ADJ", "WLAN_CHATTER_DBGID_DEFINITION_END", }, { "WOW_DBGID_DEFINITION_START", "WOW_ENABLE_CMDID", "WOW_RECV_DATA_PKT", "WOW_WAKE_HOST_DATA", "WOW_RECV_MGMT", "WOW_WAKE_HOST_MGMT", "WOW_RECV_EVENT", "WOW_WAKE_HOST_EVENT", "WOW_INIT", "WOW_RECV_MAGIC_PKT", "WOW_RECV_BITMAP_PATTERN", }, { /* WAL_VDEV */ "" }, { /* WAL_PDEV */ "" }, { /* TEST */ "TP_CHANGE_CHANNEL", "TP_LOCAL_SEND", }, { /* STA SMPS */ "" }, { /* SWBMISS */ "SWBMISS_DBGID_DEFINITION_START", "SWBMISS_ENABLED", "SWBMISS_DISABLED", "SWBMISS_DBGID_DEFINITION_END", }, { /* WMMAC */ "" }, { /* TDLS */ "TDLS_DBGID_DEFINITION_START", "TDLS_DBGID_VDEV_CREATE", "TDLS_DBGID_VDEV_DELETE", "TDLS_DBGID_ENABLED_PASSIVE", "TDLS_DBGID_ENABLED_ACTIVE", "TDLS_DBGID_DISABLED", "TDLS_DBGID_CONNTRACK_TIMER", "TDLS_DBGID_WAL_SET", "TDLS_DBGID_WAL_GET", "TDLS_DBGID_WAL_PEER_UPDATE_SET", "TDLS_DBGID_WAL_PEER_UPDATE_EVT", "TDLS_DBGID_WAL_VDEV_CREATE", "TDLS_DBGID_WAL_VDEV_DELETE", "TDLS_DBGID_WLAN_EVENT", "TDLS_DBGID_WLAN_PEER_UPDATE_SET", "TDLS_DBGID_PEER_EVT_DRP_THRESH", "TDLS_DBGID_PEER_EVT_DRP_RATE", "TDLS_DBGID_PEER_EVT_DRP_RSSI", "TDLS_DBGID_PEER_EVT_DISCOVER", "TDLS_DBGID_PEER_EVT_DELETE", }, }; static char * dbglog_get_msg(A_UINT32 moduleid, A_UINT32 debugid) { static char unknown_str[64]; if (moduleid < WLAN_MODULE_ID_MAX && debugid < MAX_DBG_MSGS) { char *str = DBG_MSG_ARR[moduleid][debugid]; if (str && str[0] != '\0') { return str; } } snprintf(unknown_str, sizeof(unknown_str), "UNKNOWN %u:%u", moduleid, debugid); return unknown_str; } void dbglog_printf( A_UINT32 timestamp, A_UINT16 vap_id, const char *fmt, ...) { char buf[128]; va_list ap; if (vap_id < DBGLOG_MAX_VDEVID) { printf(DBGLOG_PRINT_PREFIX "[%u] vap-%u ", timestamp, vap_id); } else { printf(DBGLOG_PRINT_PREFIX "[%u] ", timestamp); } va_start(ap, fmt); vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); printf("%s\n", buf); } void dbglog_printf_no_line_break( A_UINT32 timestamp, A_UINT16 vap_id, const char *fmt, ...) { char buf[128]; va_list ap; if (vap_id < DBGLOG_MAX_VDEVID) { printf(DBGLOG_PRINT_PREFIX "[%u] vap-%u ", timestamp, vap_id); } else { printf(DBGLOG_PRINT_PREFIX "[%u] ", timestamp); } va_start(ap, fmt); vsnprintf(buf, sizeof(buf), fmt, ap); va_end(ap); printf("%s", buf); } #define USE_NUMERIC 0 A_BOOL dbglog_default_print_handler(A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { int i; if (vap_id < DBGLOG_MAX_VDEVID) { printf(DBGLOG_PRINT_PREFIX "[%u] vap-%u %s ( ", timestamp, vap_id, dbglog_get_msg(mod_id, dbg_id)); } else { printf(DBGLOG_PRINT_PREFIX "[%u] %s ( ", timestamp, dbglog_get_msg(mod_id, dbg_id)); } for (i = 0; i < numargs; i++) { #if USE_NUMERIC printf("%u", args[i]); #else printf("%#x", args[i]); #endif if ((i + 1) < numargs) { printf(", "); } } printf(" )\n"); return TRUE; } #define DBGLOG_PARSE_ARGS_STRING_LENGTH (DBGLOG_NUM_ARGS_MAX * 11 + 10) static int dbglog_print_raw_data(A_UINT32 *buffer, A_UINT32 length) { A_UINT32 timestamp; A_UINT32 debugid; A_UINT32 moduleid; A_UINT16 numargs, curArgs; A_UINT32 count = 0, totalWriteLen, writeLen; char parseArgsString[DBGLOG_PARSE_ARGS_STRING_LENGTH]; char *dbgidString; buffer = (A_UINT32 *)buf; while (count < length) { debugid = DBGLOG_GET_DBGID(buffer[count + 1]); moduleid = DBGLOG_GET_MODULEID(buffer[count + 1]); numargs = DBGLOG_GET_NUMARGS(buffer[count + 1]); timestamp = DBGLOG_GET_TIME_STAMP(buffer[count]); if (moduleid < WLAN_MODULE_ID_MAX && debugid < MAX_DBG_MSGS && numargs <= DBGLOG_NUM_ARGS_MAX) { memset(parseArgsString, 0, sizeof(parseArgsString)); totalWriteLen = 0; for (curArgs = 0; curArgs < numargs; curArgs++){ writeLen = snprintf(parseArgsString + totalWriteLen, sizeof(parseArgsString), "%x ", buffer[count + 2 + curArgs]); totalWriteLen += writeLen; } dbgidString = DBG_MSG_ARR[moduleid][debugid]; if (dbgidString != NULL) { printf("fw:%s(%x %x):%s\n", dbgidString, timestamp, buffer[count+1], parseArgsString); } else { /* host need sync with FW id */ printf("fw:%s:m:%x,id:%x(%x %x):%s\n", "UNKNOWN", moduleid, debugid, timestamp, buffer[count+1], parseArgsString); } } count += numargs + 2; /* 32 bit Time stamp + 32 bit Dbg header*/ } return 0; } int dbglog_parse_debug_logs(u_int8_t *datap, u_int16_t len) { A_UINT32 count=0; A_UINT32 timestamp=0; A_UINT32 debugid=0; A_UINT32 moduleid=0; A_UINT16 vapid=0; A_UINT16 numargs=0; A_UINT32 *buffer; A_UINT32 length = len >> 2; buffer = (A_UINT32 *)datap; length = (len >> 2); while ((count + 2) < length) { timestamp = DBGLOG_GET_TIME_STAMP(buffer[count]); debugid = DBGLOG_GET_DBGID(buffer[count+1]); moduleid = DBGLOG_GET_MODULEID(buffer[count+1]); vapid = DBGLOG_GET_VDEVID(buffer[count+1]); numargs = DBGLOG_GET_NUMARGS(buffer[count+1]); if ((count + 2 + numargs) > length) return 0; if (moduleid >= WLAN_MODULE_ID_MAX) return 0; if (mod_print[moduleid] == NULL) { /* No module specific log registered use the default handler*/ dbglog_default_print_handler(moduleid, vapid, debugid, timestamp, numargs, (((A_UINT32 *)buffer) + 2 + count)); } else { if(!(mod_print[moduleid](moduleid, vapid, debugid, timestamp, numargs, (((A_UINT32 *)buffer) + 2 + count)))) { /* The message is not handled by the module specific handler*/ dbglog_default_print_handler(moduleid, vapid, debugid, timestamp, numargs, (((A_UINT32 *)buffer) + 2 + count)); } } count += numargs + 2; /* 32 bit Time stamp + 32 bit Dbg header*/ } /* Always returns zero */ return (0); } void dbglog_reg_modprint(A_UINT32 mod_id, module_dbg_print printfn) { if (!mod_print[mod_id]) { mod_print[mod_id] = printfn; } else { printf("module print is already registered for this module %d\n", mod_id); } } void dbglog_sm_print( A_UINT32 timestamp, A_UINT16 vap_id, A_UINT16 numargs, A_UINT32 *args, const char *module_prefix, const char *states[], A_UINT32 num_states, const char *events[], A_UINT32 num_events) { A_UINT8 type, arg1, arg2, arg3; A_UINT32 extra, extra2, extra3; if (numargs != 4) { return; } type = (args[0] >> 24) & 0xff; arg1 = (args[0] >> 16) & 0xff; arg2 = (args[0] >> 8) & 0xff; arg3 = (args[0] >> 0) & 0xff; extra = args[1]; extra2 = args[2]; extra3 = args[3]; switch (type) { case 0: /* state transition */ if (arg1 < num_states && arg2 < num_states) { dbglog_printf(timestamp, vap_id, "%s: %s => %s (%#x, %#x, %#x)", module_prefix, states[arg1], states[arg2], extra, extra2, extra3); } else { dbglog_printf(timestamp, vap_id, "%s: %u => %u (%#x, %#x, %#x)", module_prefix, arg1, arg2, extra, extra2, extra3); } break; case 1: /* dispatch event */ if (arg1 < num_states && arg2 < num_events) { dbglog_printf(timestamp, vap_id, "%s: %s < %s (%#x, %#x, %#x)", module_prefix, states[arg1], events[arg2], extra, extra2, extra3); } else { dbglog_printf(timestamp, vap_id, "%s: %u < %u (%#x, %#x, %#x)", module_prefix, arg1, arg2, extra, extra2, extra3); } break; case 2: /* warning */ switch (arg1) { case 0: /* unhandled event */ if (arg2 < num_states && arg3 < num_events) { dbglog_printf(timestamp, vap_id, "%s: unhandled event %s in state %s (%#x, %#x, %#x)", module_prefix, events[arg3], states[arg2], extra, extra2, extra3); } else { dbglog_printf(timestamp, vap_id, "%s: unhandled event %u in state %u (%#x, %#x, %#x)", module_prefix, arg3, arg2, extra, extra2, extra3); } break; default: break; } break; } } A_BOOL dbglog_sta_powersave_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { static const char *states[] = { "IDLE", "ACTIVE", "SLEEP_TXQ_FLUSH", "SLEEP_TX_SENT", "PAUSE", "SLEEP_DOZE", "SLEEP_AWAKE", "ACTIVE_TXQ_FLUSH", "ACTIVE_TX_SENT", "PAUSE_TXQ_FLUSH", "PAUSE_TX_SENT", "IDLE_TXQ_FLUSH", "IDLE_TX_SENT", }; static const char *events[] = { "START", "STOP", "PAUSE", "UNPAUSE", "TIM", "DTIM", "SEND_COMPLETE", "PRE_SEND", "RX", "HWQ_EMPTY", "PAUSE_TIMEOUT", "TXRX_INACTIVITY_TIMEOUT", "PSPOLL_TIMEOUT", "UAPSD_TIMEOUT", "DELAYED_SLEEP_TIMEOUT", "SEND_N_COMPLETE", "TIDQ_PAUSE_COMPLETE", "SEND_PSPOLL", "SEND_SPEC_PSPOLL", }; switch (dbg_id) { case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: dbglog_sm_print(timestamp, vap_id, numargs, args, "STA PS", states, ARRAY_LENGTH(states), events, ARRAY_LENGTH(events)); break; case PS_STA_PM_ARB_REQUEST: if (numargs == 4) { dbglog_printf(timestamp, vap_id, "PM ARB request flags=%x, last_time=%x %s: %s", args[1], args[2], dbglog_get_module_str(args[0]), args[3] ? "SLEEP" : "WAKE"); } break; case PS_STA_DELIVER_EVENT: if (numargs == 2) { dbglog_printf(timestamp, vap_id, "STA PS: %s %s", (args[0] == 0 ? "PAUSE_COMPLETE" : (args[0] == 1 ? "UNPAUSE_COMPLETE" : (args[0] == 2 ? "SLEEP" : (args[0] == 3 ? "AWAKE" : "UNKNOWN")))), (args[1] == 0 ? "SUCCESS" : (args[1] == 1 ? "TXQ_FLUSH_TIMEOUT" : (args[1] == 2 ? "NO_ACK" : (args[1] == 3 ? "RX_LEAK_TIMEOUT" : (args[1] == 4 ? "PSPOLL_UAPSD_BUSY_TIMEOUT" : "UNKNOWN")))))); } break; case PS_STA_PSPOLL_SEQ_DONE: if (numargs == 5) { dbglog_printf(timestamp, vap_id, "STA PS poll: queue=%u comp=%u rsp=%u rsp_dur=%u fc=%x qos=%x %s", args[0], args[1], args[2], args[3], (args[4] >> 16) & 0xffff, (args[4] >> 8) & 0xff, (args[4] & 0xff) == 0 ? "SUCCESS" : (args[4] & 0xff) == 1 ? "NO_ACK" : (args[4] & 0xff) == 2 ? "DROPPED" : (args[4] & 0xff) == 3 ? "FILTERED" : (args[4] & 0xff) == 4 ? "RSP_TIMEOUT" : "UNKNOWN"); } break; case PS_STA_COEX_MODE: if (numargs == 1) { dbglog_printf(timestamp, vap_id, "STA PS COEX MODE %s", args[0] ? "ENABLED" : "DISABLED"); } break; case PS_STA_PSPOLL_ALLOW: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "STA PS-Poll %s flags=%x time=%u", args[0] ? "ALLOW" : "DISALLOW", args[1], args[2]); } break; case PS_STA_SET_PARAM: if (numargs == 2) { struct { char *name; int is_time_param; } params[] = { { "MAX_SLEEP_ATTEMPTS", 0 }, { "DELAYED_SLEEP", 1 }, { "TXRX_INACTIVITY", 1 }, { "MAX_TX_BEFORE_WAKE", 0 }, { "UAPSD_TIMEOUT", 1 }, { "UAPSD_CONFIG", 0 }, { "PSPOLL_RESPONSE_TIMEOUT", 1 }, { "MAX_PSPOLL_BEFORE_WAKE", 0 }, { "RX_WAKE_POLICY", 0 }, { "DELAYED_PAUSE_RX_LEAK", 1 }, { "TXRX_INACTIVITY_BLOCKED_RETRY", 1 }, }; A_UINT32 param = args[0]; A_UINT32 value = args[1]; if (param < ARRAY_LENGTH(params)) { if (params[param].is_time_param) { dbglog_printf(timestamp, vap_id, "STA PS SET_PARAM %s => %u (us)", params[param].name, value); } else { dbglog_printf(timestamp, vap_id, "STA PS SET_PARAM %s => %#x", params[param].name, value); } } else { dbglog_printf(timestamp, vap_id, "STA PS SET_PARAM %x => %#x", param, value); } } break; case PS_STA_SPECPOLL_TIMER_STARTED: dbglog_printf(timestamp, vap_id, "SPEC Poll Timer Started: Beacon time Remaining:%d wakeup interval:%d", args[0], args[1]); break; case PS_STA_SPECPOLL_TIMER_STOPPED: dbglog_printf(timestamp, vap_id, "SPEC Poll Timer Stopped"); break; default: return FALSE; } return TRUE; } A_BOOL dbglog_ratectrl_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { switch (dbg_id) { case RATECTRL_DBGID_ASSOC: dbglog_printf(timestamp, vap_id, "RATE: ChainMask %d, phymode %d, ni_flags 0x%08x, vht_mcs_set 0x%04x, ht_mcs_set 0x%04x", args[0], args[1], args[2], args[3], args[4]); break; case RATECTRL_DBGID_NSS_CHANGE: dbglog_printf(timestamp, vap_id, "RATE: NEW NSS %d\n", args[0]); break; case RATECTRL_DBGID_CHAINMASK_ERR: dbglog_printf(timestamp, vap_id, "RATE: Chainmask ERR %d %d %d\n", args[0], args[1], args[2]); break; case RATECTRL_DBGID_UNEXPECTED_FRAME: dbglog_printf(timestamp, vap_id, "RATE: WARN1: rate %d flags 0x%08x\n", args[0], args[1]); break; case RATECTRL_DBGID_WAL_RCQUERY: dbglog_printf(timestamp, vap_id, "ratectrl_dbgid_wal_rcquery [rix1 %d rix2 %d rix3 %d proberix %d ppduflag 0x%x] ", args[0], args[1], args[2], args[3], args[4]); break; case RATECTRL_DBGID_WAL_RCUPDATE: dbglog_printf(timestamp, vap_id, "ratectrl_dbgid_wal_rcupdate [numelems %d ppduflag 0x%x] ", args[0], args[1]); } return TRUE; } A_BOOL dbglog_ani_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { switch (dbg_id) { case ANI_DBGID_ENABLE: dbglog_printf(timestamp, vap_id, "ANI Enable: %d", args[0]); break; case ANI_DBGID_POLL: dbglog_printf(timestamp, vap_id, "ANI POLLING: AccumListenTime %d ListenTime %d ofdmphyerr %d cckphyerr %d", args[0], args[1], args[2],args[3]); break; case ANI_DBGID_RESTART: dbglog_printf(timestamp, vap_id,"ANI Restart"); break; case ANI_DBGID_CURRENT_LEVEL: dbglog_printf(timestamp, vap_id, "ANI CURRENT LEVEL ofdm level %d cck level %d",args[0],args[1]); break; case ANI_DBGID_OFDM_LEVEL: dbglog_printf(timestamp, vap_id, "ANI UPDATE ofdm level %d firstep %d firstep_low %d cycpwr_thr %d self_corr_low %d", args[0], args[1],args[2],args[3],args[4]); break; case ANI_DBGID_CCK_LEVEL: dbglog_printf(timestamp, vap_id, "ANI UPDATE cck level %d firstep %d firstep_low %d mrc_cck %d", args[0],args[1],args[2],args[3]); break; case ANI_DBGID_CONTROL: dbglog_printf(timestamp, vap_id, "ANI CONTROL ofdmlevel %d ccklevel %d\n", args[0]); break; case ANI_DBGID_OFDM_PARAMS: dbglog_printf(timestamp, vap_id, "ANI ofdm_control firstep %d cycpwr %d\n", args[0],args[1]); break; case ANI_DBGID_CCK_PARAMS: dbglog_printf(timestamp, vap_id, "ANI cck_control mrc_cck %d barker_threshold %d\n", args[0],args[1]); break; case ANI_DBGID_RESET: dbglog_printf(timestamp, vap_id, "ANI resetting resetflag %d resetCause %8x channel index %d", args[0],args[1],args[2]); break; case ANI_DBGID_SELF_CORR_LOW: dbglog_printf(timestamp, vap_id,"ANI self_corr_low %d",args[0]); break; case ANI_DBGID_FIRSTEP: dbglog_printf(timestamp, vap_id,"ANI firstep %d firstep_low %d", args[0],args[1]); break; case ANI_DBGID_MRC_CCK: dbglog_printf(timestamp, vap_id,"ANI mrc_cck %d",args[0]); break; case ANI_DBGID_CYCPWR: dbglog_printf(timestamp, vap_id,"ANI cypwr_thresh %d",args[0]); break; case ANI_DBGID_POLL_PERIOD: dbglog_printf(timestamp, vap_id,"ANI Configure poll period to %d",args[0]); break; case ANI_DBGID_LISTEN_PERIOD: dbglog_printf(timestamp, vap_id,"ANI Configure listen period to %d",args[0]); break; case ANI_DBGID_OFDM_LEVEL_CFG: dbglog_printf(timestamp, vap_id,"ANI Configure ofdm level to %d",args[0]); break; case ANI_DBGID_CCK_LEVEL_CFG: dbglog_printf(timestamp, vap_id,"ANI Configure cck level to %d",args[0]); break; default: dbglog_printf(timestamp, vap_id,"ANI arg1 %d arg2 %d arg3 %d", args[0],args[1],args[2]); break; } return TRUE; } A_BOOL dbglog_ap_powersave_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { switch (dbg_id) { case AP_PS_DBGID_UPDATE_TIM: if (numargs == 2) { dbglog_printf(timestamp, vap_id, "AP PS: TIM update AID=%u %s", args[0], args[1] ? "set" : "clear"); } break; case AP_PS_DBGID_PEER_STATE_CHANGE: if (numargs == 2) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u power save %s", args[0], args[1] ? "enabled" : "disabled"); } break; case AP_PS_DBGID_PSPOLL: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u pspoll response tid=%u flags=%x", args[0], args[1], args[2]); } break; case AP_PS_DBGID_PEER_CREATE: if (numargs == 1) { dbglog_printf(timestamp, vap_id, "AP PS: create peer AID=%u", args[0]); } break; case AP_PS_DBGID_PEER_DELETE: if (numargs == 1) { dbglog_printf(timestamp, vap_id, "AP PS: delete peer AID=%u", args[0]); } break; case AP_PS_DBGID_VDEV_CREATE: dbglog_printf(timestamp, vap_id, "AP PS: vdev create"); break; case AP_PS_DBGID_VDEV_DELETE: dbglog_printf(timestamp, vap_id, "AP PS: vdev delete"); break; case AP_PS_DBGID_SYNC_TIM: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u advertised=%#x buffered=%#x", args[0], args[1], args[2]); } break; case AP_PS_DBGID_NEXT_RESPONSE: if (numargs == 4) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u select next response %s%s%s", args[0], args[1] ? "(usp active) " : "", args[2] ? "(pending usp) " : "", args[3] ? "(pending poll response)" : ""); } break; case AP_PS_DBGID_START_SP: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u START SP tsf=%#x (%u)", args[0], args[1], args[2]); } break; case AP_PS_DBGID_COMPLETED_EOSP: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u EOSP eosp_tsf=%#x trigger_tsf=%#x", args[0], args[1], args[2]); } break; case AP_PS_DBGID_TRIGGER: if (numargs == 4) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u TRIGGER tsf=%#x %s%s", args[0], args[1], args[2] ? "(usp active) " : "", args[3] ? "(send_n in progress)" : ""); } break; case AP_PS_DBGID_DUPLICATE_TRIGGER: if (numargs == 4) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u DUP TRIGGER tsf=%#x seq=%u ac=%u", args[0], args[1], args[2], args[3]); } break; case AP_PS_DBGID_UAPSD_RESPONSE: if (numargs == 5) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u UAPSD response tid=%u, n_mpdu=%u flags=%#x max_sp=%u current_sp=%u", args[0], args[1], args[2], args[3], (args[4] >> 16) & 0xffff, args[4] & 0xffff); } break; case AP_PS_DBGID_SEND_COMPLETE: if (numargs == 5) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u SEND_COMPLETE fc=%#x qos=%#x %s%s", args[0], args[1], args[2], args[3] ? "(usp active) " : "", args[4] ? "(pending poll response)" : ""); } break; case AP_PS_DBGID_SEND_N_COMPLETE: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u SEND_N_COMPLETE %s%s", args[0], args[1] ? "(usp active) " : "", args[2] ? "(pending poll response)" : ""); } break; case AP_PS_DBGID_DETECT_OUT_OF_SYNC_STA: if (numargs == 4) { dbglog_printf(timestamp, vap_id, "AP PS: AID=%u detected out-of-sync now=%u tx_waiting=%u txq_depth=%u", args[0], args[1], args[2], args[3]); } break; case AP_PS_DBGID_DELIVER_CAB: if (numargs == 4) { dbglog_printf(timestamp, vap_id, "AP PS: CAB %s n_mpdus=%u, flags=%x, extra=%u", (args[0] == 17) ? "MGMT" : "DATA", args[1], args[2], args[3]); } break; default: return FALSE; } return TRUE; } A_BOOL dbglog_wal_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { static const char *states[] = { "ACTIVE", "WAIT", "WAIT_FILTER", "PAUSE", "PAUSE_SEND_N", "BLOCK", }; static const char *events[] = { "PAUSE", "PAUSE_FILTER", "UNPAUSE", "BLOCK", "BLOCK_FILTER", "UNBLOCK", "HWQ_EMPTY", "ALLOW_N", }; #define WAL_VDEV_TYPE(type) \ (type == 0 ? "AP" : \ (type == 1 ? "STA" : \ (type == 2 ? "IBSS" : \ (type == 2 ? "MONITOR" : \ "UNKNOWN")))) #define WAL_SLEEP_STATE(state) \ (state == 1 ? "NETWORK SLEEP" : \ (state == 2 ? "AWAKE" : \ (state == 3 ? "SYSTEM SLEEP" : \ "UNKNOWN"))) switch (dbg_id) { case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: dbglog_sm_print(timestamp, vap_id, numargs, args, "TID PAUSE", states, ARRAY_LENGTH(states), events, ARRAY_LENGTH(events)); break; case WAL_DBGID_SET_POWER_STATE: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "WAL %s => %s, req_count=%u", WAL_SLEEP_STATE(args[0]), WAL_SLEEP_STATE(args[1]), args[2]); } break; case WAL_DBGID_CHANNEL_CHANGE_FORCE_RESET: if (numargs == 4) { dbglog_printf(timestamp, vap_id, "WAL channel change (force reset) freq=%u, flags=%u mode=%u rx_ok=%u tx_ok=%u", args[0] & 0x0000ffff, (args[0] & 0xffff0000) >> 16, args[1], args[2], args[3]); } break; case WAL_DBGID_CHANNEL_CHANGE: if (numargs == 2) { dbglog_printf(timestamp, vap_id, "WAL channel change freq=%u, mode=%u flags=%u rx_ok=1 tx_ok=1", args[0] & 0x0000ffff, (args[0] & 0xffff0000) >> 16, args[1]); } break; case WAL_DBGID_VDEV_START: if (numargs == 1) { dbglog_printf(timestamp, vap_id, "WAL %s vdev started", WAL_VDEV_TYPE(args[0])); } break; case WAL_DBGID_VDEV_STOP: dbglog_printf(timestamp, vap_id, "WAL %s vdev stopped", WAL_VDEV_TYPE(args[0])); break; case WAL_DBGID_VDEV_UP: dbglog_printf(timestamp, vap_id, "WAL %s vdev up, count=%u", WAL_VDEV_TYPE(args[0]), args[1]); break; case WAL_DBGID_VDEV_DOWN: dbglog_printf(timestamp, vap_id, "WAL %s vdev down, count=%u", WAL_VDEV_TYPE(args[0]), args[1]); break; case WAL_DBGID_TX_MGMT_DESCID_SEQ_TYPE_LEN: dbglog_printf(timestamp, vap_id, "WAL Tx Mgmt frame desc_id=0x%x, seq=0x%x, type=0x%x, len=0x%x islocal=0x%x", args[0], args[1], args[2], (args[3] & 0xffff0000) >> 16, args[3] & 0x0000ffff); break; case WAL_DBGID_TX_MGMT_COMP_DESCID_STATUS: dbglog_printf(timestamp, vap_id, "WAL Tx Mgmt frame completion desc_id=0x%x, status=0x%x, islocal=0x%x", args[0], args[1], args[2]); break; case WAL_DBGID_TX_DATA_MSDUID_SEQ_TYPE_LEN: dbglog_printf(timestamp, vap_id, "WAL Tx Data frame msdu_id=0x%x, seq=0x%x, type=0x%x, len=0x%x", args[0], args[1], args[2], args[3]); break; case WAL_DBGID_TX_DATA_COMP_MSDUID_STATUS: dbglog_printf(timestamp, vap_id, "WAL Tx Data frame completion desc_id=0x%x, status=0x%x, seq=0x%x", args[0], args[1], args[2]); break; case WAL_DBGID_RESET_PCU_CYCLE_CNT: dbglog_printf(timestamp, vap_id, "WAL PCU cycle counter value at reset:%x", args[0]); break; case WAL_DBGID_TX_DISCARD: dbglog_printf(timestamp, vap_id, "WAL Tx enqueue discard msdu_id=0x%x", args[0]); break; default: return FALSE; } return TRUE; } A_BOOL dbglog_scan_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { static const char *states[] = { "IDLE", "BSSCHAN", "WAIT_FOREIGN_CHAN", "FOREIGN_CHANNEL", "TERMINATING" }; static const char *events[] = { "REQ", "STOP", "BSSCHAN", "FOREIGN_CHAN", "CHECK_ACTIVITY", "REST_TIME_EXPIRE", "DWELL_TIME_EXPIRE", "PROBE_TIME_EXPIRE", }; switch (dbg_id) { case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: dbglog_sm_print(timestamp, vap_id, numargs, args, "SCAN", states, ARRAY_LENGTH(states), events, ARRAY_LENGTH(events)); break; default: return FALSE; } return TRUE; } A_BOOL dbglog_coex_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 * args) { A_UINT8 i; char * dbg_id_str; static const char * wlan_rx_xput_status[] = { "WLAN_XPUT_NORMAL", "WLAN_XPUT_UNDER_THRESH", "WLAN_XPUT_CRITICAL", "WLAN_XPUT_RECOVERY_TIMEOUT", }; static const char * coex_sched_req[] = { "SCHED_REQ_NEXT", "SCHED_REQ_BT", "SCHED_REQ_WLAN", "SCHED_REQ_POSTPAUSE", "SCHED_REQ_UNPAUSE", }; static const char * coex_sched_type[] = { "SCHED_NONE", "SCHED_WLAN", "SCHED_BT", "SCHED_WLAN_PAUSE", "SCHED_WLAN_POSTPAUSE", "SCHED_WLAN_UNPAUSE", }; static const char * coex_trf_mgmt_type[] = { "TRF_MGMT_FREERUN", "TRF_MGMT_SHAPE_PM", "TRF_MGMT_SHAPE_PSP", "TRF_MGMT_SHAPE_S_CTS", }; static const char * coex_system_status[] = { "BT_OFF", "BTCOEX_NOT_REQD", "WLAN_IS_IDLE", "EXECUTE_SCHEME", "BT_FULL_CONCURRENCY", "WLAN_SLEEPING", "WLAN_IS_PAUSED", "WAIT_FOR_NEXT_ACTION", }; static const char * wlan_rssi_type[] = { "LOW_RSSI", "MID_RSSI", "HI_RSSI", "INVALID_RSSI", }; static const char * coex_bt_scheme[] = { "IDLE_CTRL", "ACTIVE_ASYNC_CTRL", "PASSIVE_SYNC_CTRL", "ACTIVE_SYNC_CTRL", "DEFAULT_CTRL", "CONCURRENCY_CTRL", }; static const char * wal_peer_rx_rate_stats_event_sent[] = { "PR_RX_EVT_SENT_NONE", "PR_RX_EVT_SENT_LOWER", "PR_RX_EVT_SENT_UPPER", }; static const char * wlan_psp_stimulus[] = { "ENTRY", "EXIT", "PS_READY", "PS_NOT_READY", "RX_MORE_DATA_RCVD", "RX_NO_MORE_DATA_RCVD", "TX_DATA_COMPLT", "TX_COMPLT", "TIM_SET", "REQ", "DONE_SUCCESS", "DONE_NO_PS_POLL_ACK", "DONE_RESPONSE_TMO", "DONE_DROPPED", "DONE_FILTERED", "WLAN_START", "NONWLAN_START", "NONWLAN_INTVL_UPDATE", "NULL_TX", "NULL_TX_COMPLT", "BMISS_FIRST", "NULL_TX_FAIL", "RX_NO_MORE_DATA_DATAFRM", }; static const char * coex_pspoll_state[] = { "STATE_DISABLED", "STATE_NOT_READY", "STATE_ENABLED", "STATE_READY", "STATE_TX_STATUS", "STATE_RX_STATUS", }; static const char * coex_scheduler_interval[] = { "COEX_SCHED_NONWLAN_INT", "COEX_SCHED_WLAN_INT", }; static const char * wlan_weight[] = { "BT_COEX_BASE", "BT_COEX_LOW", "BT_COEX_MID", "BT_COEX_MID_NONSYNC", "BT_COEX_HI_NONVOICE", "BT_COEX_HI", "BT_COEX_CRITICAL", }; static const char * coex_psp_error_type[] = { "DISABLED_STATE", "VDEV_NULL", "COEX_PSP_ENTRY", "ZERO_INTERVAL", "COEX_PSP_EXIT", "READY_DISABLED", "READY_NOT_DISABLED", "POLL_PKT_DROPPED", "SET_TIMER_PARAM", }; dbg_id_str = dbglog_get_msg(mod_id, dbg_id); switch (dbg_id) { case COEX_SYSTEM_UPDATE: if (numargs >= 1 && args[0] < 8) { dbglog_printf(timestamp, vap_id, "%s: %s", dbg_id_str, coex_system_status[args[0]]); } else { return FALSE; } break; case COEX_SCHED_START: if (numargs >= 5 && args[0] < 5 && args[2] < 4 && args[3] < 4 && args[4] < 4) { if (args[1] == 0xffffffff) { dbglog_printf(timestamp, vap_id, "%s: %s, DETERMINE_DURATION, %s, %s, %s", dbg_id_str, coex_sched_req[args[0]], coex_trf_mgmt_type[args[2]], wlan_rx_xput_status[args[3]], wlan_rssi_type[args[4]]); } else { dbglog_printf(timestamp, vap_id, "%s: %s, IntvlDur(%u), %s, %s, %s", dbg_id_str, coex_sched_req[args[0]], args[1], coex_trf_mgmt_type[args[2]], wlan_rx_xput_status[args[3]], wlan_rssi_type[args[4]]); } } else { return FALSE; } break; case COEX_SCHED_RESULT: if (numargs >= 5 && args[0] < 6) { dbglog_printf(timestamp, vap_id, "%s: %s, CoexMgrPolicy(%u), WlanIsIdleOverride(%u), HidConcurTxOverride(%u), minRSSI(%u)", dbg_id_str, coex_sched_type[args[0]], args[1], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_BT_SCHEME: if (numargs >= 1 && args[0] < 6) { dbglog_printf(timestamp, vap_id, "%s: %s", dbg_id_str, coex_bt_scheme[args[0]]); } else { return FALSE; } break; case COEX_TRF_FREERUN: case COEX_TRF_SHAPE_PM: if (numargs >= 5 && args[0] < 6) { dbglog_printf(timestamp, vap_id, "%s: %s, AllocatedBtIntvls(%u), BtIntvlCnt(%u), AllocatedWlanIntvls(%u), WlanIntvlCnt(%u)", dbg_id_str, coex_sched_type[args[0]], args[1], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_SYSTEM_MONITOR: if (numargs >= 5 && args[1] < 4 && args[4] < 4) { dbglog_printf(timestamp, vap_id, "%s: WlanRxCritical(%u), %s, MinDirectRxRate(%u), XputMonitorActiveNum(%u), %s", dbg_id_str, args[0], wlan_rx_xput_status[args[1]], args[2], args[3], wlan_rssi_type[args[4]]); } else { return FALSE; } break; case COEX_RX_RATE: if (numargs >= 5 && args[4] < 3) { dbglog_printf(timestamp, vap_id, "%s: NumUnderThreshPeers(%u), MinDirectRate(%u), LastRateSample(%u), DeltaT(%u), %s", dbg_id_str, args[0], args[1], args[2], args[3], wal_peer_rx_rate_stats_event_sent[args[4]]); } else { return FALSE; } break; case COEX_WLAN_INTERVAL_START: if (numargs >= 4) { dbglog_printf(timestamp, vap_id, "%s: WlanIntvlCnt(%u), XputMonitorActiveNum(%u), Duration(%u), Weight(%u)", dbg_id_str, args[0], args[1], args[2], args[3]); } else { return FALSE; } break; case COEX_WLAN_POSTPAUSE_INTERVAL_START: if (numargs >= 4) { dbglog_printf(timestamp, vap_id, "%s: WlanPostPauseIntvlCnt(%u), XputMonitorActiveNum(%u), Duration(%u), Weight(%u)", dbg_id_str, args[0], args[1], args[2], args[3]); } else { return FALSE; } break; case COEX_BT_INTERVAL_START: if (numargs >= 5) { dbglog_printf(timestamp, vap_id, "%s: BtIntvlCnt(%u), HidConcurrentTxOverride(%u), EnableBtBwLimit(%u), Duration(%u), Weight(%u)", dbg_id_str, args[0], args[1], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_PSP_MGR_ENTER: if (numargs >= 5 && args[0] < 23 && args[1] < 6 && args[3] < 2) { dbglog_printf(timestamp, vap_id, "%s: %s, %s, PsPollAvg(%u), %s, CurrT(%u)", dbg_id_str, wlan_psp_stimulus[args[0]], coex_pspoll_state[args[1]], args[2], coex_scheduler_interval[args[3]], args[4]); } else { return FALSE; } break; case COEX_PSP_MGR_RESULT: if (numargs >= 5 && args[0] < 6) { dbglog_printf(timestamp, vap_id, "%s: %s, PsPollAvg(%u), EstimationOverrun(%u), EstimationUnderun(%u), NotReadyErr(%u)", dbg_id_str, coex_pspoll_state[args[0]], args[1], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_TRF_SHAPE_PSP: if (numargs == 2 && args[0] < 6) { dbglog_printf(timestamp, vap_id, "%s: %s, CurrT(%u)", dbg_id_str, coex_pspoll_state[args[0]], args[1]); } else if (numargs >= 5 && args[0] < 6 && args[1] < 7) { dbglog_printf(timestamp, vap_id, "%s: %s, %s, Dur(%u), WlanOverride(%u), PrioritizeWlanDuringCollis(%u)", dbg_id_str, coex_sched_type[args[0]], wlan_weight[args[1]], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_PSP_SPEC_POLL: if (numargs >= 5) { dbglog_printf(timestamp, vap_id, "%s: PsPollSpecEna(%u), Count(%u), NextTS(%u), AllowSpecPsPollTx(%u), Intvl(%u)", dbg_id_str, args[0], args[1], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_PSP_READY_STATE: if (numargs >= 5) { dbglog_printf(timestamp, vap_id, "%s: T2BT(%u), CoexSchedulerEndTS(%u), MoreData(%u), PSPRespExpectedTS(%u), NonWlanIdleT(%u)", dbg_id_str, args[0], args[1], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_PSP_NONWLAN_INTERVAL: if (numargs >= 4) { dbglog_printf(timestamp, vap_id, "%s: NonWlanBaseIntvl(%u), NonWlanIdleT(%u), PSPSpecIntvl(%u), ApRespTimeout(%u)", dbg_id_str, args[0], args[1], args[2], args[3]); } else { return FALSE; } break; case COEX_PSP_ERROR: if (numargs >= 1 && args[0] < 9) { dbglog_printf_no_line_break(timestamp, vap_id, "%s: %s", dbg_id_str, coex_psp_error_type[args[0]]); for (i = 1; i < numargs; i++) { printf(", %u", args[i]); } printf("\n"); } else { return FALSE; } break; case COEX_PSP_STAT_1: if (numargs >= 5) { dbglog_printf(timestamp, vap_id, "%s: ApResp0(%u), ApResp1(%u), ApResp2(%u), ApResp3(%u), ApResp4(%u)", dbg_id_str, args[0], args[1], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_PSP_STAT_2: if (numargs >= 5) { dbglog_printf(timestamp, vap_id, "%s: DataPt(%u), Max(%u), NextApRespIndex(%u), NumOfValidDataPts(%u), PsPollAvg(%u)", dbg_id_str, args[0], args[1], args[2], args[3], args[4]); } else { return FALSE; } break; case COEX_PSP_RX_STATUS_STATE_1: if (numargs >= 5) { if (args[2]) { dbglog_printf(timestamp, vap_id, "%s: RsExpectedTS(%u), RespActualTS(%u), Overrun, RsOverrunT(%u), RsRxDur(%u)", dbg_id_str, args[0], args[1], args[3], args[4]); } else { dbglog_printf(timestamp, vap_id, "%s: RsExpectedTS(%u), RespActualTS(%u), Underrun, RsUnderrunT(%u), RsRxDur(%u)", dbg_id_str, args[0], args[1], args[3], args[4]); } } else { return FALSE; } break; //Translate following into decimal case COEX_SINGLECHAIN_DBG_1: case COEX_SINGLECHAIN_DBG_2: case COEX_SINGLECHAIN_DBG_3: case COEX_MULTICHAIN_DBG_1: case COEX_MULTICHAIN_DBG_2: case COEX_MULTICHAIN_DBG_3: if (numargs > 0) { dbglog_printf_no_line_break(timestamp, vap_id, "%s: %u", dbg_id_str, args[0]); for (i = 1; i < numargs; i++) { printf(", %u", args[i]); } printf("\n"); } else { return FALSE; } break; case COEX_LinkID: if (numargs >= 4) { if (args[0]) { //Add profile dbglog_printf(timestamp, vap_id, "%s Alloc: LocalID(%u), RemoteID(%u), MinFreeLocalID(%u)", dbg_id_str, args[1], args[2], args[3]); } else { //Remove profile dbglog_printf(timestamp, vap_id, "%s Dealloc: LocalID(%u), RemoteID(%u), MinFreeLocalID(%u)", dbg_id_str, args[1], args[2], args[3]); } } else { return FALSE; } break; case COEX_BT_DURATION: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "%s: Result(%u), NumOfValidSchedMsgs(%u) PrioLowerLimit(%u)", dbg_id_str, args[0], args[1], args[2]); } else { return FALSE; } break; case COEX_T2BT: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "%s: Result(%u), BtTime1(%u), PrioLowerLimit(%u)", dbg_id_str, args[0], args[1], args[2]); } else { return FALSE; } break; default: return FALSE; } return TRUE; } A_BOOL dbglog_beacon_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { static const char *states[] = { "INIT", "ADJUST_START", "ADJUSTING", "ADJUST_HOLD", }; static const char *events[] = { "ADJUST_START", "ADJUST_RESTART", "ADJUST_STOP", "ADJUST_PAUSE", "ADJUST_UNPAUSE", "ADJUST_INC_SLOP_STEP", "ADJUST_HOLD", "ADJUST_HOLD_TIME_OUT", }; switch (dbg_id) { case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: dbglog_sm_print(timestamp, vap_id, numargs, args, "EARLY_RX", states, ARRAY_LENGTH(states), events, ARRAY_LENGTH(events)); break; case BEACON_EVENT_EARLY_RX_BMISS_STATUS: if (numargs == 3) { dbglog_printf(timestamp, vap_id, "early_rx bmiss status:rcv=%d total=%d miss=%d", args[0], args[1], args[2]); } break; case BEACON_EVENT_EARLY_RX_SLEEP_SLOP: if (numargs == 1) { dbglog_printf(timestamp, vap_id, "early_rx update sleep_slop:%d", args[0]); } break; case BEACON_EVENT_EARLY_RX_CONT_BMISS_TIMEOUT: if (numargs == 1) { dbglog_printf(timestamp, vap_id, "early_rx cont bmiss timeout,update sleep_slop:%d", args[0]); } break; case BEACON_EVENT_EARLY_RX_PAUSE_SKIP_BCN_NUM: if (numargs == 1) { dbglog_printf(timestamp, vap_id, "early_rx skip bcn num:%d", args[0]); } break; default: return FALSE; } return TRUE; } A_BOOL dbglog_data_txrx_print_handler( A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { switch (dbg_id) { case DATA_TXRX_DBGID_RX_DATA_SEQ_LEN_INFO: dbglog_printf(timestamp, vap_id, "DATA RX seq=0x%x, len=0x%x, stored=0x%x, duperr=0x%x", args[0], args[1], (args[2] & 0xffff0000) >> 16, args[2] & 0x0000ffff); break; default: return FALSE; } return TRUE; } A_BOOL dbglog_smps_print_handler(A_UINT32 mod_id, A_UINT16 vap_id, A_UINT32 dbg_id, A_UINT32 timestamp, A_UINT16 numargs, A_UINT32 *args) { static const char *states[] = { "S_INACTIVE", "S_STATIC", "S_DYNAMIC", "S_STALLED", "S_INACTIVE_WAIT", "S_STATIC_WAIT", "S_DYNAMIC_WAIT", }; static const char *events[] = { "E_STOP", "E_STOP_COMPL", "E_START", "E_STATIC", "E_STATIC_COMPL", "E_DYNAMIC", "E_DYNAMIC_COMPL", "E_STALL", "E_RSSI_ABOVE_THRESH", "E_RSSI_BELOW_THRESH", "E_FORCED_NONE", }; switch(dbg_id) { case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: dbglog_sm_print(timestamp, vap_id, numargs, args, "STA_SMPS SM", states, ARRAY_LENGTH(states), events, ARRAY_LENGTH(events)); break; case STA_SMPS_DBGID_CREATE_PDEV_INSTANCE: dbglog_printf(timestamp, vap_id, "STA_SMPS Create PDEV ctx %#x", args[0]); break; case STA_SMPS_DBGID_CREATE_VIRTUAL_CHAN_INSTANCE: dbglog_printf(timestamp, vap_id, "STA_SMPS Create Virtual Chan ctx %#x", args[0]); break; case STA_SMPS_DBGID_DELETE_VIRTUAL_CHAN_INSTANCE: dbglog_printf(timestamp, vap_id, "STA_SMPS Delete Virtual Chan ctx %#x", args[0]); break; case STA_SMPS_DBGID_CREATE_STA_INSTANCE: dbglog_printf(timestamp, vap_id, "STA_SMPS Create STA ctx %#x", args[0]); break; case STA_SMPS_DBGID_DELETE_STA_INSTANCE: dbglog_printf(timestamp, vap_id, "STA_SMPS Delete STA ctx %#x", args[0]); break; case STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_START: break; case STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_STOP: break; case STA_SMPS_DBGID_SEND_SMPS_ACTION_FRAME: dbglog_printf(timestamp, vap_id, "STA_SMPS STA %#x Signal SMPS mode as %s; cb_flags %#x", args[0], (args[1] == 0 ? "DISABLED": (args[1] == 0x1 ? "STATIC" : (args[1] == 0x3 ? "DYNAMIC" : "UNKNOWN"))), args[2]); break; default: dbglog_printf( timestamp, vap_id, "STA_SMPS: UNKNOWN DBGID!"); return FALSE; } return TRUE; } int parser_init() { /* Registering parser */ dbglog_reg_modprint(WLAN_MODULE_STA_PWRSAVE, dbglog_sta_powersave_print_handler); dbglog_reg_modprint(WLAN_MODULE_AP_PWRSAVE, dbglog_ap_powersave_print_handler); dbglog_reg_modprint(WLAN_MODULE_WAL, dbglog_wal_print_handler); dbglog_reg_modprint(WLAN_MODULE_SCAN, dbglog_scan_print_handler); dbglog_reg_modprint(WLAN_MODULE_RATECTRL, dbglog_ratectrl_print_handler); dbglog_reg_modprint(WLAN_MODULE_ANI, dbglog_ani_print_handler); dbglog_reg_modprint(WLAN_MODULE_COEX, dbglog_coex_print_handler); dbglog_reg_modprint(WLAN_MODULE_BEACON,dbglog_beacon_print_handler); dbglog_reg_modprint(WLAN_MODULE_DATA_TXRX,dbglog_data_txrx_print_handler); dbglog_reg_modprint(WLAN_MODULE_STA_SMPS, dbglog_smps_print_handler); return 0; }