1 /* 2 * Copyright (c) 2013-2018 The Linux Foundation. All rights reserved. 3 * 4 * Permission to use, copy, modify, and/or distribute this software for 5 * any purpose with or without fee is hereby granted, provided that the 6 * above copyright notice and this permission notice appear in all 7 * copies. 8 * 9 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL 10 * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED 11 * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE 12 * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL 13 * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR 14 * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER 15 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR 16 * PERFORMANCE OF THIS SOFTWARE. 17 */ 18 19 /* Host Debug log implementation */ 20 21 #include "athdefs.h" 22 #include "a_types.h" 23 #include "dbglog_host.h" 24 #include "wmi.h" 25 #include "wmi_unified_api.h" 26 #include "wma.h" 27 #include "ol_defines.h" 28 #include <wlan_nlink_srv.h> 29 #include "host_diag_core_event.h" 30 #include "qwlan_version.h" 31 #include <net/sock.h> 32 #include <linux/netlink.h> 33 #include <linux/vmalloc.h> 34 35 #ifdef WLAN_OPEN_SOURCE 36 #include <linux/debugfs.h> 37 #endif /* WLAN_OPEN_SOURCE */ 38 #include "wmi_unified_priv.h" 39 40 #ifdef CNSS_GENL 41 #include <net/cnss_nl.h> 42 #include "wlan_cfg80211.h" 43 #endif 44 45 #ifdef MULTI_IF_NAME 46 #define CLD_DEBUGFS_DIR "cld" MULTI_IF_NAME 47 #else 48 49 #define CLD_DEBUGFS_DIR "cld" 50 #endif 51 #define DEBUGFS_BLOCK_NAME "dbglog_block" 52 53 #define ATH_MODULE_NAME fwlog 54 #include <a_debug.h> 55 #define FWLOG_DEBUG ATH_DEBUG_MAKE_MODULE_MASK(0) 56 57 #ifdef WLAN_DEBUG 58 59 static int get_version; 60 static int gprint_limiter; 61 static bool tgt_assert_enable; 62 63 static ATH_DEBUG_MASK_DESCRIPTION g_fwlog_debug_description[] = { 64 {FWLOG_DEBUG, "fwlog"}, 65 }; 66 67 ATH_DEBUG_INSTANTIATE_MODULE_VAR(fwlog, 68 "fwlog", 69 "Firmware Debug Log", 70 ATH_DEBUG_MASK_DEFAULTS | ATH_DEBUG_INFO | 71 ATH_DEBUG_ERR, 72 ATH_DEBUG_DESCRIPTION_COUNT 73 (g_fwlog_debug_description), 74 g_fwlog_debug_description); 75 #endif 76 77 module_dbg_print mod_print[WLAN_MODULE_ID_MAX]; 78 79 uint32_t dbglog_process_type = DBGLOG_PROCESS_NET_RAW; 80 81 static const char *dbglog_get_module_str(uint32_t module_id) 82 { 83 switch (module_id) { 84 case WLAN_MODULE_INF: 85 return "INF"; 86 case WLAN_MODULE_WMI: 87 return "WMI"; 88 case WLAN_MODULE_STA_PWRSAVE: 89 return "STA PS"; 90 case WLAN_MODULE_WHAL: 91 return "WHAL"; 92 case WLAN_MODULE_COEX: 93 return "COEX"; 94 case WLAN_MODULE_ROAM: 95 return "ROAM"; 96 case WLAN_MODULE_RESMGR_CHAN_MANAGER: 97 return "CHANMGR"; 98 case WLAN_MODULE_RESMGR: 99 return "RESMGR"; 100 case WLAN_MODULE_VDEV_MGR: 101 return "VDEV"; 102 case WLAN_MODULE_SCAN: 103 return "SCAN"; 104 case WLAN_MODULE_RATECTRL: 105 return "RC"; 106 case WLAN_MODULE_AP_PWRSAVE: 107 return "AP PS"; 108 case WLAN_MODULE_BLOCKACK: 109 return "BA"; 110 case WLAN_MODULE_MGMT_TXRX: 111 return "MGMT"; 112 case WLAN_MODULE_DATA_TXRX: 113 return "DATA"; 114 case WLAN_MODULE_HTT: 115 return "HTT"; 116 case WLAN_MODULE_HOST: 117 return "HOST"; 118 case WLAN_MODULE_BEACON: 119 return "BEACON"; 120 case WLAN_MODULE_OFFLOAD: 121 return "OFFLOAD"; 122 case WLAN_MODULE_WAL: 123 return "WAL"; 124 case WAL_MODULE_DE: 125 return "DE"; 126 case WLAN_MODULE_PCIELP: 127 return "PCIELP"; 128 case WLAN_MODULE_RTT: 129 return "RTT"; 130 case WLAN_MODULE_DCS: 131 return "DCS"; 132 case WLAN_MODULE_CACHEMGR: 133 return "CACHEMGR"; 134 case WLAN_MODULE_ANI: 135 return "ANI"; 136 case WLAN_MODULE_TEST: 137 return "TESTPOINT"; 138 case WLAN_MODULE_STA_SMPS: 139 return "STA_SMPS"; 140 case WLAN_MODULE_TDLS: 141 return "TDLS"; 142 case WLAN_MODULE_P2P: 143 return "P2P"; 144 case WLAN_MODULE_WOW: 145 return "WoW"; 146 case WLAN_MODULE_IBSS_PWRSAVE: 147 return "IBSS PS"; 148 case WLAN_MODULE_EXTSCAN: 149 return "ExtScan"; 150 case WLAN_MODULE_UNIT_TEST: 151 return "UNIT_TEST"; 152 case WLAN_MODULE_MLME: 153 return "MLME"; 154 case WLAN_MODULE_SUPPL: 155 return "SUPPLICANT"; 156 default: 157 return "UNKNOWN"; 158 } 159 } 160 161 char *DBG_MSG_ARR[WLAN_MODULE_ID_MAX][MAX_DBG_MSGS] = { 162 { 163 "INF_MSG_START", 164 "INF_ASSERTION_FAILED", 165 "INF_TARGET_ID", 166 "INF_MSG_END" 167 }, 168 { 169 "WMI_DBGID_DEFINITION_START", 170 "WMI_CMD_RX_XTND_PKT_TOO_SHORT", 171 "WMI_EXTENDED_CMD_NOT_HANDLED", 172 "WMI_CMD_RX_PKT_TOO_SHORT", 173 "WMI_CALLING_WMI_EXTENSION_FN", 174 "WMI_CMD_NOT_HANDLED", 175 "WMI_IN_SYNC", 176 "WMI_TARGET_WMI_SYNC_CMD", 177 "WMI_SET_SNR_THRESHOLD_PARAMS", 178 "WMI_SET_RSSI_THRESHOLD_PARAMS", 179 "WMI_SET_LQ_THRESHOLD_PARAMS", 180 "WMI_TARGET_CREATE_PSTREAM_CMD", 181 "WMI_WI_DTM_INUSE", 182 "WMI_TARGET_DELETE_PSTREAM_CMD", 183 "WMI_TARGET_IMPLICIT_DELETE_PSTREAM_CMD", 184 "WMI_TARGET_GET_BIT_RATE_CMD", 185 "WMI_GET_RATE_MASK_CMD_FIX_RATE_MASK_IS", 186 "WMI_TARGET_GET_AVAILABLE_CHANNELS_CMD", 187 "WMI_TARGET_GET_TX_PWR_CMD", 188 "WMI_FREE_EVBUF_WMIBUF", 189 "WMI_FREE_EVBUF_DATABUF", 190 "WMI_FREE_EVBUF_BADFLAG", 191 "WMI_HTC_RX_ERROR_DATA_PACKET", 192 "WMI_HTC_RX_SYNC_PAUSING_FOR_MBOX", 193 "WMI_INCORRECT_WMI_DATA_HDR_DROPPING_PKT", 194 "WMI_SENDING_READY_EVENT", 195 "WMI_SETPOWER_MDOE_TO_MAXPERF", 196 "WMI_SETPOWER_MDOE_TO_REC", 197 "WMI_BSSINFO_EVENT_FROM", 198 "WMI_TARGET_GET_STATS_CMD", 199 "WMI_SENDING_SCAN_COMPLETE_EVENT", 200 "WMI_SENDING_RSSI_INDB_THRESHOLD_EVENT ", 201 "WMI_SENDING_RSSI_INDBM_THRESHOLD_EVENT", 202 "WMI_SENDING_LINK_QUALITY_THRESHOLD_EVENT", 203 "WMI_SENDING_ERROR_REPORT_EVENT", 204 "WMI_SENDING_CAC_EVENT", 205 "WMI_TARGET_GET_ROAM_TABLE_CMD", 206 "WMI_TARGET_GET_ROAM_DATA_CMD", 207 "WMI_SENDING_GPIO_INTR_EVENT", 208 "WMI_SENDING_GPIO_ACK_EVENT", 209 "WMI_SENDING_GPIO_DATA_EVENT", 210 "WMI_CMD_RX", 211 "WMI_CMD_RX_XTND", 212 "WMI_EVENT_SEND", 213 "WMI_EVENT_SEND_XTND", 214 "WMI_CMD_PARAMS_DUMP_START", 215 "WMI_CMD_PARAMS_DUMP_END", 216 "WMI_CMD_PARAMS", 217 "WMI_EVENT_ALLOC_FAILURE", 218 "WMI_DBGID_DCS_PARAM_CMD", 219 "WMI_SEND_EVENT_WRONG_TLV", 220 "WMI_SEND_EVENT_NO_TLV_DEF", 221 "WMI_DBGID_DEFNITION_END", 222 }, 223 { 224 "PS_STA_DEFINITION_START", 225 "PS_STA_PM_ARB_REQUEST", 226 "PS_STA_DELIVER_EVENT", 227 "PS_STA_PSPOLL_SEQ_DONE", 228 "PS_STA_COEX_MODE", 229 "PS_STA_PSPOLL_ALLOW", 230 "PS_STA_SET_PARAM", 231 "PS_STA_SPECPOLL_TIMER_STARTED", 232 "PS_STA_SPECPOLL_TIMER_STOPPED", 233 }, 234 { 235 "WHAL_DBGID_DEFINITION_START", 236 "WHAL_ERROR_ANI_CONTROL", 237 "WHAL_ERROR_CHIP_TEST1", 238 "WHAL_ERROR_CHIP_TEST2", 239 "WHAL_ERROR_EEPROM_CHECKSUM", 240 "WHAL_ERROR_EEPROM_MACADDR", 241 "WHAL_ERROR_INTERRUPT_HIU", 242 "WHAL_ERROR_KEYCACHE_RESET", 243 "WHAL_ERROR_KEYCACHE_SET", 244 "WHAL_ERROR_KEYCACHE_TYPE", 245 "WHAL_ERROR_KEYCACHE_TKIPENTRY", 246 "WHAL_ERROR_KEYCACHE_WEPLENGTH", 247 "WHAL_ERROR_PHY_INVALID_CHANNEL", 248 "WHAL_ERROR_POWER_AWAKE", 249 "WHAL_ERROR_POWER_SET", 250 "WHAL_ERROR_RECV_STOPDMA", 251 "WHAL_ERROR_RECV_STOPPCU", 252 "WHAL_ERROR_RESET_CHANNF1", 253 "WHAL_ERROR_RESET_CHANNF2", 254 "WHAL_ERROR_RESET_PM", 255 "WHAL_ERROR_RESET_OFFSETCAL", 256 "WHAL_ERROR_RESET_RFGRANT", 257 "WHAL_ERROR_RESET_RXFRAME", 258 "WHAL_ERROR_RESET_STOPDMA", 259 "WHAL_ERROR_RESET_ERRID", 260 "WHAL_ERROR_RESET_ADCDCCAL1", 261 "WHAL_ERROR_RESET_ADCDCCAL2", 262 "WHAL_ERROR_RESET_TXIQCAL", 263 "WHAL_ERROR_RESET_RXIQCAL", 264 "WHAL_ERROR_RESET_CARRIERLEAK", 265 "WHAL_ERROR_XMIT_COMPUTE", 266 "WHAL_ERROR_XMIT_NOQUEUE", 267 "WHAL_ERROR_XMIT_ACTIVEQUEUE", 268 "WHAL_ERROR_XMIT_BADTYPE", 269 "WHAL_ERROR_XMIT_STOPDMA", 270 "WHAL_ERROR_INTERRUPT_BB_PANIC", 271 "WHAL_ERROR_PAPRD_MAXGAIN_ABOVE_WINDOW", 272 "WHAL_ERROR_QCU_HW_PAUSE_MISMATCH", 273 "WHAL_DBGID_DEFINITION_END", 274 }, 275 { 276 "COEX_DEBUGID_START", 277 "BTCOEX_DBG_MCI_1", 278 "BTCOEX_DBG_MCI_2", 279 "BTCOEX_DBG_MCI_3", 280 "BTCOEX_DBG_MCI_4", 281 "BTCOEX_DBG_MCI_5", 282 "BTCOEX_DBG_MCI_6", 283 "BTCOEX_DBG_MCI_7", 284 "BTCOEX_DBG_MCI_8", 285 "BTCOEX_DBG_MCI_9", 286 "BTCOEX_DBG_MCI_10", 287 "COEX_WAL_BTCOEX_INIT", 288 "COEX_WAL_PAUSE", 289 "COEX_WAL_RESUME", 290 "COEX_UPDATE_AFH", 291 "COEX_HWQ_EMPTY_CB", 292 "COEX_MCI_TIMER_HANDLER", 293 "COEX_MCI_RECOVER", 294 "ERROR_COEX_MCI_ISR", 295 "ERROR_COEX_MCI_GPM", 296 "COEX_ProfileType", 297 "COEX_LinkID", 298 "COEX_LinkState", 299 "COEX_LinkRole", 300 "COEX_LinkRate", 301 "COEX_VoiceType", 302 "COEX_TInterval", 303 "COEX_WRetrx", 304 "COEX_Attempts", 305 "COEX_PerformanceState", 306 "COEX_LinkType", 307 "COEX_RX_MCI_GPM_VERSION_QUERY", 308 "COEX_RX_MCI_GPM_VERSION_RESPONSE", 309 "COEX_RX_MCI_GPM_STATUS_QUERY", 310 "COEX_STATE_WLAN_VDEV_DOWN", 311 "COEX_STATE_WLAN_VDEV_START", 312 "COEX_STATE_WLAN_VDEV_CONNECTED", 313 "COEX_STATE_WLAN_VDEV_SCAN_STARTED", 314 "COEX_STATE_WLAN_VDEV_SCAN_END", 315 "COEX_STATE_WLAN_DEFAULT", 316 "COEX_CHANNEL_CHANGE", 317 "COEX_POWER_CHANGE", 318 "COEX_CONFIG_MGR", 319 "COEX_TX_MCI_GPM_BT_CAL_REQ", 320 "COEX_TX_MCI_GPM_BT_CAL_GRANT", 321 "COEX_TX_MCI_GPM_BT_CAL_DONE", 322 "COEX_TX_MCI_GPM_WLAN_CAL_REQ", 323 "COEX_TX_MCI_GPM_WLAN_CAL_GRANT", 324 "COEX_TX_MCI_GPM_WLAN_CAL_DONE", 325 "COEX_TX_MCI_GPM_BT_DEBUG", 326 "COEX_TX_MCI_GPM_VERSION_QUERY", 327 "COEX_TX_MCI_GPM_VERSION_RESPONSE", 328 "COEX_TX_MCI_GPM_STATUS_QUERY", 329 "COEX_TX_MCI_GPM_HALT_BT_GPM", 330 "COEX_TX_MCI_GPM_WLAN_CHANNELS", 331 "COEX_TX_MCI_GPM_BT_PROFILE_INFO", 332 "COEX_TX_MCI_GPM_BT_STATUS_UPDATE", 333 "COEX_TX_MCI_GPM_BT_UPDATE_FLAGS", 334 "COEX_TX_MCI_GPM_UNKNOWN", 335 "COEX_TX_MCI_SYS_WAKING", 336 "COEX_TX_MCI_LNA_TAKE", 337 "COEX_TX_MCI_LNA_TRANS", 338 "COEX_TX_MCI_SYS_SLEEPING", 339 "COEX_TX_MCI_REQ_WAKE", 340 "COEX_TX_MCI_REMOTE_RESET", 341 "COEX_TX_MCI_TYPE_UNKNOWN", 342 "COEX_WHAL_MCI_RESET", 343 "COEX_POLL_BT_CAL_DONE_TIMEOUT", 344 "COEX_WHAL_PAUSE", 345 "COEX_RX_MCI_GPM_BT_CAL_REQ", 346 "COEX_RX_MCI_GPM_BT_CAL_DONE", 347 "COEX_RX_MCI_GPM_BT_CAL_GRANT", 348 "COEX_WLAN_CAL_START", 349 "COEX_WLAN_CAL_RESULT", 350 "COEX_BtMciState", 351 "COEX_BtCalState", 352 "COEX_WlanCalState", 353 "COEX_RxReqWakeCount", 354 "COEX_RxRemoteResetCount", 355 "COEX_RESTART_CAL", 356 "COEX_SENDMSG_QUEUE", 357 "COEX_RESETSEQ_LNAINFO_TIMEOUT", 358 "COEX_MCI_ISR_IntRaw", 359 "COEX_MCI_ISR_Int1Raw", 360 "COEX_MCI_ISR_RxMsgRaw", 361 "COEX_WHAL_COEX_RESET", 362 "COEX_WAL_COEX_INIT", 363 "COEX_TXRX_CNT_LIMIT_ISR", 364 "COEX_CH_BUSY", 365 "COEX_REASSESS_WLAN_STATE", 366 "COEX_BTCOEX_WLAN_STATE_UPDATE", 367 "COEX_BT_NUM_OF_PROFILES", 368 "COEX_BT_NUM_OF_HID_PROFILES", 369 "COEX_BT_NUM_OF_ACL_PROFILES", 370 "COEX_BT_NUM_OF_HI_ACL_PROFILES", 371 "COEX_BT_NUM_OF_VOICE_PROFILES", 372 "COEX_WLAN_AGGR_LIMIT", 373 "COEX_BT_LOW_PRIO_BUDGET", 374 "COEX_BT_HI_PRIO_BUDGET", 375 "COEX_BT_IDLE_TIME", 376 "COEX_SET_COEX_WEIGHT", 377 "COEX_WLAN_WEIGHT_GROUP", 378 "COEX_BT_WEIGHT_GROUP", 379 "COEX_BT_INTERVAL_ALLOC", 380 "COEX_BT_SCHEME", 381 "COEX_BT_MGR", 382 "COEX_BT_SM_ERROR", 383 "COEX_SYSTEM_UPDATE", 384 "COEX_LOW_PRIO_LIMIT", 385 "COEX_HI_PRIO_LIMIT", 386 "COEX_BT_INTERVAL_START", 387 "COEX_WLAN_INTERVAL_START", 388 "COEX_NON_LINK_BUDGET", 389 "COEX_CONTENTION_MSG", 390 "COEX_SET_NSS", 391 "COEX_SELF_GEN_MASK", 392 "COEX_PROFILE_ERROR", 393 "COEX_WLAN_INIT", 394 "COEX_BEACON_MISS", 395 "COEX_BEACON_OK", 396 "COEX_BTCOEX_SCAN_ACTIVITY", 397 "COEX_SCAN_ACTIVITY", 398 "COEX_FORCE_QUIETTIME", 399 "COEX_BT_MGR_QUIETTIME", 400 "COEX_BT_INACTIVITY_TRIGGER", 401 "COEX_BT_INACTIVITY_REPORTED", 402 "COEX_TX_MCI_GPM_WLAN_PRIO", 403 "COEX_TX_MCI_GPM_BT_PAUSE_PROFILE", 404 "COEX_TX_MCI_GPM_WLAN_SET_ACL_INACTIVITY", 405 "COEX_RX_MCI_GPM_BT_ACL_INACTIVITY_REPORT", 406 "COEX_GENERIC_ERROR", 407 "COEX_RX_RATE_THRESHOLD", 408 "COEX_RSSI", 409 "COEX_WLAN_VDEV_NOTIF_START", /* 133 */ 410 "COEX_WLAN_VDEV_NOTIF_UP", /* 134 */ 411 "COEX_WLAN_VDEV_NOTIF_DOWN", /* 135 */ 412 "COEX_WLAN_VDEV_NOTIF_STOP", /* 136 */ 413 "COEX_WLAN_VDEV_NOTIF_ADD_PEER", /* 137 */ 414 "COEX_WLAN_VDEV_NOTIF_DELETE_PEER", /* 138 */ 415 "COEX_WLAN_VDEV_NOTIF_CONNECTED_PEER", /* 139 */ 416 "COEX_WLAN_VDEV_NOTIF_PAUSE", /* 140 */ 417 "COEX_WLAN_VDEV_NOTIF_UNPAUSED", /* 141 */ 418 "COEX_STATE_WLAN_VDEV_PEER_ADD", /* 142 */ 419 "COEX_STATE_WLAN_VDEV_CONNECTED_PEER", /* 143 */ 420 "COEX_STATE_WLAN_VDEV_DELETE_PEER", /* 144 */ 421 "COEX_STATE_WLAN_VDEV_PAUSE", /* 145 */ 422 "COEX_STATE_WLAN_VDEV_UNPAUSED", /* 146 */ 423 "COEX_SCAN_CALLBACK", /* 147 */ 424 "COEX_RC_SET_CHAINMASK", /* 148 */ 425 "COEX_TX_MCI_GPM_WLAN_SET_BT_RXSS_THRES", /* 149 */ 426 "COEX_TX_MCI_GPM_BT_RXSS_THRES_QUERY", /* 150 */ 427 "COEX_BT_RXSS_THRES", /* 151 */ 428 "COEX_BT_PROFILE_ADD_RMV", /* 152 */ 429 "COEX_BT_SCHED_INFO", /* 153 */ 430 "COEX_TRF_MGMT", /* 154 */ 431 "COEX_SCHED_START", /* 155 */ 432 "COEX_SCHED_RESULT", /* 156 */ 433 "COEX_SCHED_ERROR", /* 157 */ 434 "COEX_SCHED_PRE_OP", /* 158 */ 435 "COEX_SCHED_POST_OP", /* 159 */ 436 "COEX_RX_RATE", /* 160 */ 437 "COEX_ACK_PRIORITY", /* 161 */ 438 "COEX_STATE_WLAN_VDEV_UP", /* 162 */ 439 "COEX_STATE_WLAN_VDEV_PEER_UPDATE", /* 163 */ 440 "COEX_STATE_WLAN_VDEV_STOP", /* 164 */ 441 "COEX_WLAN_PAUSE_PEER", /* 165 */ 442 "COEX_WLAN_UNPAUSE_PEER", /* 166 */ 443 "COEX_WLAN_PAUSE_INTERVAL_START", /* 167 */ 444 "COEX_WLAN_POSTPAUSE_INTERVAL_START", /* 168 */ 445 "COEX_TRF_FREERUN", /* 169 */ 446 "COEX_TRF_SHAPE_PM", /* 170 */ 447 "COEX_TRF_SHAPE_PSP", /* 171 */ 448 "COEX_TRF_SHAPE_S_CTS", /* 172 */ 449 "COEX_CHAIN_CONFIG", /* 173 */ 450 "COEX_SYSTEM_MONITOR", /* 174 */ 451 "COEX_SINGLECHAIN_INIT", /* 175 */ 452 "COEX_MULTICHAIN_INIT", /* 176 */ 453 "COEX_SINGLECHAIN_DBG_1", /* 177 */ 454 "COEX_SINGLECHAIN_DBG_2", /* 178 */ 455 "COEX_SINGLECHAIN_DBG_3", /* 179 */ 456 "COEX_MULTICHAIN_DBG_1", /* 180 */ 457 "COEX_MULTICHAIN_DBG_2", /* 181 */ 458 "COEX_MULTICHAIN_DBG_3", /* 182 */ 459 "COEX_PSP_TX_CB", /* 183 */ 460 "COEX_PSP_RX_CB", /* 184 */ 461 "COEX_PSP_STAT_1", /* 185 */ 462 "COEX_PSP_SPEC_POLL", /* 186 */ 463 "COEX_PSP_READY_STATE", /* 187 */ 464 "COEX_PSP_TX_STATUS_STATE", /* 188 */ 465 "COEX_PSP_RX_STATUS_STATE_1", /* 189 */ 466 "COEX_PSP_NOT_READY_STATE", /* 190 */ 467 "COEX_PSP_DISABLED_STATE", /* 191 */ 468 "COEX_PSP_ENABLED_STATE", /* 192 */ 469 "COEX_PSP_SEND_PSPOLL", /* 193 */ 470 "COEX_PSP_MGR_ENTER", /* 194 */ 471 "COEX_PSP_MGR_RESULT", /* 195 */ 472 "COEX_PSP_NONWLAN_INTERVAL", /* 196 */ 473 "COEX_PSP_STAT_2", /* 197 */ 474 "COEX_PSP_RX_STATUS_STATE_2", /* 198 */ 475 "COEX_PSP_ERROR", /* 199 */ 476 "COEX_T2BT", /* 200 */ 477 "COEX_BT_DURATION", /* 201 */ 478 "COEX_TX_MCI_GPM_WLAN_SCHED_INFO_TRIG", /* 202 */ 479 "COEX_TX_MCI_GPM_WLAN_SCHED_INFO_TRIG_RSP", /* 203 */ 480 "COEX_TX_MCI_GPM_SCAN_OP", /* 204 */ 481 "COEX_TX_MCI_GPM_BT_PAUSE_GPM_TX", /* 205 */ 482 "COEX_CTS2S_SEND", /* 206 */ 483 "COEX_CTS2S_RESULT", /* 207 */ 484 "COEX_ENTER_OCS", /* 208 */ 485 "COEX_EXIT_OCS", /* 209 */ 486 "COEX_UPDATE_OCS", /* 210 */ 487 "COEX_STATUS_OCS", /* 211 */ 488 "COEX_STATS_BT", /* 212 */ 489 "COEX_MWS_WLAN_INIT", 490 "COEX_MWS_WBTMR_SYNC", 491 "COEX_MWS_TYPE2_RX", 492 "COEX_MWS_TYPE2_TX", 493 "COEX_MWS_WLAN_CHAVD", 494 "COEX_MWS_WLAN_CHAVD_INSERT", 495 "COEX_MWS_WLAN_CHAVD_MERGE", 496 "COEX_MWS_WLAN_CHAVD_RPT", 497 "COEX_MWS_CP_MSG_SEND", 498 "COEX_MWS_CP_ESCAPE", 499 "COEX_MWS_CP_UNFRAME", 500 "COEX_MWS_CP_SYNC_UPDATE", 501 "COEX_MWS_CP_SYNC", 502 "COEX_MWS_CP_WLAN_STATE_IND", 503 "COEX_MWS_CP_SYNCRESP_TIMEOUT", 504 "COEX_MWS_SCHEME_UPDATE", 505 "COEX_MWS_WLAN_EVENT", 506 "COEX_MWS_UART_UNESCAPE", 507 "COEX_MWS_UART_ENCODE_SEND", 508 "COEX_MWS_UART_RECV_DECODE", 509 "COEX_MWS_UL_HDL", 510 "COEX_MWS_REMOTE_EVENT", 511 "COEX_MWS_OTHER", 512 "COEX_MWS_ERROR", 513 "COEX_MWS_ANT_DIVERSITY", /* 237 */ 514 "COEX_P2P_GO", 515 "COEX_P2P_CLIENT", 516 "COEX_SCC_1", 517 "COEX_SCC_2", 518 "COEX_MCC_1", 519 "COEX_MCC_2", 520 "COEX_TRF_SHAPE_NOA", 521 "COEX_NOA_ONESHOT", 522 "COEX_NOA_PERIODIC", 523 "COEX_LE_1", 524 "COEX_LE_2", 525 "COEX_ANT_1", 526 "COEX_ANT_2", 527 "COEX_ENTER_NOA", 528 "COEX_EXIT_NOA", 529 "COEX_BT_SCAN_PROTECT", /* 253 */ 530 "COEX_DEBUG_ID_END" /* 254 */ 531 }, 532 { 533 "ROAM_DBGID_DEFINITION_START", 534 "ROAM_MODULE_INIT", 535 "ROAM_DEV_START", 536 "ROAM_CONFIG_RSSI_THRESH", 537 "ROAM_CONFIG_SCAN_PERIOD", 538 "ROAM_CONFIG_AP_PROFILE", 539 "ROAM_CONFIG_CHAN_LIST", 540 "ROAM_CONFIG_SCAN_PARAMS", 541 "ROAM_CONFIG_RSSI_CHANGE", 542 "ROAM_SCAN_TIMER_START", 543 "ROAM_SCAN_TIMER_EXPIRE", 544 "ROAM_SCAN_TIMER_STOP", 545 "ROAM_SCAN_STARTED", 546 "ROAM_SCAN_COMPLETE", 547 "ROAM_SCAN_CANCELLED", 548 "ROAM_CANDIDATE_FOUND", 549 "ROAM_RSSI_ACTIVE_SCAN", 550 "ROAM_RSSI_ACTIVE_ROAM", 551 "ROAM_RSSI_GOOD", 552 "ROAM_BMISS_FIRST_RECV", 553 "ROAM_DEV_STOP", 554 "ROAM_FW_OFFLOAD_ENABLE", 555 "ROAM_CANDIDATE_SSID_MATCH", 556 "ROAM_CANDIDATE_SECURITY_MATCH", 557 "ROAM_LOW_RSSI_INTERRUPT", 558 "ROAM_HIGH_RSSI_INTERRUPT", 559 "ROAM_SCAN_REQUESTED", 560 "ROAM_BETTER_CANDIDATE_FOUND", 561 "ROAM_BETTER_AP_EVENT", 562 "ROAM_CANCEL_LOW_PRIO_SCAN", 563 "ROAM_FINAL_BMISS_RECVD", 564 "ROAM_CONFIG_SCAN_MODE", 565 "ROAM_BMISS_FINAL_SCAN_ENABLE", 566 "ROAM_SUITABLE_AP_EVENT", 567 "ROAM_RSN_IE_PARSE_ERROR", 568 "ROAM_WPA_IE_PARSE_ERROR", 569 "ROAM_SCAN_CMD_FROM_HOST", 570 "ROAM_HO_SORT_CANDIDATE", 571 "ROAM_HO_SAVE_CANDIDATE", 572 "ROAM_HO_GET_CANDIDATE", 573 "ROAM_HO_OFFLOAD_SET_PARAM", 574 "ROAM_HO_SM", 575 "ROAM_HO_HTT_SAVED", 576 "ROAM_HO_SYNC_START", 577 "ROAM_HO_START", 578 "ROAM_HO_COMPLETE", 579 "ROAM_HO_STOP", 580 "ROAM_HO_HTT_FORWARD", 581 "ROAM_DBGID_DEFINITION_END" 582 }, 583 { 584 "RESMGR_CHMGR_DEFINITION_START", 585 "RESMGR_CHMGR_PAUSE_COMPLETE", 586 "RESMGR_CHMGR_CHANNEL_CHANGE", 587 "RESMGR_CHMGR_RESUME_COMPLETE", 588 "RESMGR_CHMGR_VDEV_PAUSE", 589 "RESMGR_CHMGR_VDEV_UNPAUSE", 590 "RESMGR_CHMGR_CTS2S_TX_COMP", 591 "RESMGR_CHMGR_CFEND_TX_COMP", 592 "RESMGR_CHMGR_DEFINITION_END" 593 }, 594 { 595 "RESMGR_DEFINITION_START", 596 "RESMGR_OCS_ALLOCRAM_SIZE", 597 "RESMGR_OCS_RESOURCES", 598 "RESMGR_LINK_CREATE", 599 "RESMGR_LINK_DELETE", 600 "RESMGR_OCS_CHREQ_CREATE", 601 "RESMGR_OCS_CHREQ_DELETE", 602 "RESMGR_OCS_CHREQ_START", 603 "RESMGR_OCS_CHREQ_STOP", 604 "RESMGR_OCS_SCHEDULER_INVOKED", 605 "RESMGR_OCS_CHREQ_GRANT", 606 "RESMGR_OCS_CHREQ_COMPLETE", 607 "RESMGR_OCS_NEXT_TSFTIME", 608 "RESMGR_OCS_TSF_TIMEOUT_US", 609 "RESMGR_OCS_CURR_CAT_WINDOW", 610 "RESMGR_OCS_CURR_CAT_WINDOW_REQ", 611 "RESMGR_OCS_CURR_CAT_WINDOW_TIMESLOT", 612 "RESMGR_OCS_CHREQ_RESTART", 613 "RESMGR_OCS_CLEANUP_CH_ALLOCATORS", 614 "RESMGR_OCS_PURGE_CHREQ", 615 "RESMGR_OCS_CH_ALLOCATOR_FREE", 616 "RESMGR_OCS_RECOMPUTE_SCHEDULE", 617 "RESMGR_OCS_NEW_CAT_WINDOW_REQ", 618 "RESMGR_OCS_NEW_CAT_WINDOW_TIMESLOT", 619 "RESMGR_OCS_CUR_CH_ALLOC", 620 "RESMGR_OCS_WIN_CH_ALLOC", 621 "RESMGR_OCS_SCHED_CH_CHANGE", 622 "RESMGR_OCS_CONSTRUCT_CAT_WIN", 623 "RESMGR_OCS_CHREQ_PREEMPTED", 624 "RESMGR_OCS_CH_SWITCH_REQ", 625 "RESMGR_OCS_CHANNEL_SWITCHED", 626 "RESMGR_OCS_CLEANUP_STALE_REQS", 627 "RESMGR_OCS_CHREQ_UPDATE", 628 "RESMGR_OCS_REG_NOA_NOTIF", 629 "RESMGR_OCS_DEREG_NOA_NOTIF", 630 "RESMGR_OCS_GEN_PERIODIC_NOA", 631 "RESMGR_OCS_RECAL_QUOTAS", 632 "RESMGR_OCS_GRANTED_QUOTA_STATS", 633 "RESMGR_OCS_ALLOCATED_QUOTA_STATS", 634 "RESMGR_OCS_REQ_QUOTA_STATS", 635 "RESMGR_OCS_TRACKING_TIME_FIRED", 636 "RESMGR_VC_ARBITRATE_ATTRIBUTES", 637 "RESMGR_OCS_LATENCY_STRICT_TIME_SLOT", 638 "RESMGR_OCS_CURR_TSF", 639 "RESMGR_OCS_QUOTA_REM", 640 "RESMGR_OCS_LATENCY_CASE_NO", 641 "RESMGR_OCS_WIN_CAT_DUR", 642 "RESMGR_VC_UPDATE_CUR_VC", 643 "RESMGR_VC_REG_UNREG_LINK", 644 "RESMGR_VC_PRINT_LINK", 645 "RESMGR_OCS_MISS_TOLERANCE", 646 "RESMGR_DYN_SCH_ALLOCRAM_SIZE", 647 "RESMGR_DYN_SCH_ENABLE", 648 "RESMGR_DYN_SCH_ACTIVE", 649 "RESMGR_DYN_SCH_CH_STATS_START", 650 "RESMGR_DYN_SCH_CH_SX_STATS", 651 "RESMGR_DYN_SCH_TOT_UTIL_PER", 652 "RESMGR_DYN_SCH_HOME_CH_QUOTA", 653 "RESMGR_OCS_REG_RECAL_QUOTA_NOTIF", 654 "RESMGR_OCS_DEREG_RECAL_QUOTA_NOTIF", 655 "RESMGR_DEFINITION_END" 656 }, 657 { 658 "VDEV_MGR_DEBID_DEFINITION_START", /* vdev Mgr */ 659 "VDEV_MGR_FIRST_BEACON_MISS_DETECTED", 660 "VDEV_MGR_FINAL_BEACON_MISS_DETECTED", 661 "VDEV_MGR_BEACON_IN_SYNC", 662 "VDEV_MGR_AP_KEEPALIVE_IDLE", 663 "VDEV_MGR_AP_KEEPALIVE_INACTIVE", 664 "VDEV_MGR_AP_KEEPALIVE_UNRESPONSIVE", 665 "VDEV_MGR_AP_TBTT_CONFIG", 666 "VDEV_MGR_FIRST_BCN_RECEIVED", 667 "VDEV_MGR_VDEV_START", 668 "VDEV_MGR_VDEV_UP", 669 "VDEV_MGR_PEER_AUTHORIZED", 670 "VDEV_MGR_OCS_HP_LP_REQ_POSTED", 671 "VDEV_MGR_VDEV_START_OCS_HP_REQ_COMPLETE", 672 "VDEV_MGR_VDEV_START_OCS_HP_REQ_STOP", 673 "VDEV_MGR_HP_START_TIME", 674 "VDEV_MGR_VDEV_PAUSE_DELAY_UPDATE", 675 "VDEV_MGR_VDEV_PAUSE_FAIL", 676 "VDEV_MGR_GEN_PERIODIC_NOA", 677 "VDEV_MGR_OFF_CHAN_GO_CH_REQ_SETUP", 678 "VDEV_MGR_DEFINITION_END", 679 }, 680 { 681 "SCAN_START_COMMAND_FAILED", /* scan */ 682 "SCAN_STOP_COMMAND_FAILED", 683 "SCAN_EVENT_SEND_FAILED", 684 "SCAN_ENGINE_START", 685 "SCAN_ENGINE_CANCEL_COMMAND", 686 "SCAN_ENGINE_STOP_DUE_TO_TIMEOUT", 687 "SCAN_EVENT_SEND_TO_HOST", 688 "SCAN_FWLOG_EVENT_ADD", 689 "SCAN_FWLOG_EVENT_REM", 690 "SCAN_FWLOG_EVENT_PREEMPTED", 691 "SCAN_FWLOG_EVENT_RESTARTED", 692 "SCAN_FWLOG_EVENT_COMPLETED", 693 }, 694 { 695 "RATECTRL_DBGID_DEFINITION_START", /* Rate ctrl */ 696 "RATECTRL_DBGID_ASSOC", 697 "RATECTRL_DBGID_NSS_CHANGE", 698 "RATECTRL_DBGID_CHAINMASK_ERR", 699 "RATECTRL_DBGID_UNEXPECTED_FRAME", 700 "RATECTRL_DBGID_WAL_RCQUERY", 701 "RATECTRL_DBGID_WAL_RCUPDATE", 702 "RATECTRL_DBGID_GTX_UPDATE", 703 "RATECTRL_DBGID_DEFINITION_END" 704 }, 705 { 706 "AP_PS_DBGID_DEFINITION_START", 707 "AP_PS_DBGID_UPDATE_TIM", 708 "AP_PS_DBGID_PEER_STATE_CHANGE", 709 "AP_PS_DBGID_PSPOLL", 710 "AP_PS_DBGID_PEER_CREATE", 711 "AP_PS_DBGID_PEER_DELETE", 712 "AP_PS_DBGID_VDEV_CREATE", 713 "AP_PS_DBGID_VDEV_DELETE", 714 "AP_PS_DBGID_SYNC_TIM", 715 "AP_PS_DBGID_NEXT_RESPONSE", 716 "AP_PS_DBGID_START_SP", 717 "AP_PS_DBGID_COMPLETED_EOSP", 718 "AP_PS_DBGID_TRIGGER", 719 "AP_PS_DBGID_DUPLICATE_TRIGGER", 720 "AP_PS_DBGID_UAPSD_RESPONSE", 721 "AP_PS_DBGID_SEND_COMPLETE", 722 "AP_PS_DBGID_SEND_N_COMPLETE", 723 "AP_PS_DBGID_DETECT_OUT_OF_SYNC_STA", 724 "AP_PS_DBGID_DELIVER_CAB", 725 }, 726 { 727 "" /* Block Ack */ 728 }, 729 /* Mgmt TxRx */ 730 { 731 "MGMT_TXRX_DBGID_DEFINITION_START", 732 "MGMT_TXRX_FORWARD_TO_HOST", 733 "MGMT_TXRX_DBGID_DEFINITION_END", 734 }, 735 { /* Data TxRx */ 736 "DATA_TXRX_DBGID_DEFINITION_START", 737 "DATA_TXRX_DBGID_RX_DATA_SEQ_LEN_INFO", 738 "DATA_TXRX_DBGID_DEFINITION_END", 739 }, 740 {"" /* HTT */ 741 }, 742 {"" /* HOST */ 743 }, 744 {"" /* BEACON */ 745 "BEACON_EVENT_SWBA_SEND_FAILED", 746 "BEACON_EVENT_EARLY_RX_BMISS_STATUS", 747 "BEACON_EVENT_EARLY_RX_SLEEP_SLOP", 748 "BEACON_EVENT_EARLY_RX_CONT_BMISS_TIMEOUT", 749 "BEACON_EVENT_EARLY_RX_PAUSE_SKIP_BCN_NUM", 750 "BEACON_EVENT_EARLY_RX_CLK_DRIFT", 751 "BEACON_EVENT_EARLY_RX_AP_DRIFT", 752 "BEACON_EVENT_EARLY_RX_BCN_TYPE",}, 753 { /* Offload Mgr */ 754 "OFFLOAD_MGR_DBGID_DEFINITION_START", 755 "OFFLOADMGR_REGISTER_OFFLOAD", 756 "OFFLOADMGR_DEREGISTER_OFFLOAD", 757 "OFFLOADMGR_NO_REG_DATA_HANDLERS", 758 "OFFLOADMGR_NO_REG_EVENT_HANDLERS", 759 "OFFLOADMGR_REG_OFFLOAD_FAILED", 760 "OFFLOADMGR_DBGID_DEFINITION_END", 761 }, 762 { 763 "WAL_DBGID_DEFINITION_START", 764 "WAL_DBGID_FAST_WAKE_REQUEST", 765 "WAL_DBGID_FAST_WAKE_RELEASE", 766 "WAL_DBGID_SET_POWER_STATE", 767 "WAL_DBGID_MISSING", 768 "WAL_DBGID_CHANNEL_CHANGE_FORCE_RESET", 769 "WAL_DBGID_CHANNEL_CHANGE", 770 "WAL_DBGID_VDEV_START", 771 "WAL_DBGID_VDEV_STOP", 772 "WAL_DBGID_VDEV_UP", 773 "WAL_DBGID_VDEV_DOWN", 774 "WAL_DBGID_SW_WDOG_RESET", 775 "WAL_DBGID_TX_SCH_REGISTER_TIDQ", 776 "WAL_DBGID_TX_SCH_UNREGISTER_TIDQ", 777 "WAL_DBGID_TX_SCH_TICKLE_TIDQ", 778 "WAL_DBGID_XCESS_FAILURES", 779 "WAL_DBGID_AST_ADD_WDS_ENTRY", 780 "WAL_DBGID_AST_DEL_WDS_ENTRY", 781 "WAL_DBGID_AST_WDS_ENTRY_PEER_CHG", 782 "WAL_DBGID_AST_WDS_SRC_LEARN_FAIL", 783 "WAL_DBGID_STA_KICKOUT", 784 "WAL_DBGID_BAR_TX_FAIL", 785 "WAL_DBGID_BAR_ALLOC_FAIL", 786 "WAL_DBGID_LOCAL_DATA_TX_FAIL", 787 "WAL_DBGID_SECURITY_PM4_QUEUED", 788 "WAL_DBGID_SECURITY_GM1_QUEUED", 789 "WAL_DBGID_SECURITY_PM4_SENT", 790 "WAL_DBGID_SECURITY_ALLOW_DATA", 791 "WAL_DBGID_SECURITY_UCAST_KEY_SET", 792 "WAL_DBGID_SECURITY_MCAST_KEY_SET", 793 "WAL_DBGID_SECURITY_ENCR_EN", 794 "WAL_DBGID_BB_WDOG_TRIGGERED", 795 "WAL_DBGID_RX_LOCAL_BUFS_LWM", 796 "WAL_DBGID_RX_LOCAL_DROP_LARGE_MGMT", 797 "WAL_DBGID_VHT_ILLEGAL_RATE_PHY_ERR_DETECTED", 798 "WAL_DBGID_DEV_RESET", 799 "WAL_DBGID_TX_BA_SETUP", 800 "WAL_DBGID_RX_BA_SETUP", 801 "WAL_DBGID_DEV_TX_TIMEOUT", 802 "WAL_DBGID_DEV_RX_TIMEOUT", 803 "WAL_DBGID_STA_VDEV_XRETRY", 804 "WAL_DBGID_DCS", 805 "WAL_DBGID_MGMT_TX_FAIL", 806 "WAL_DBGID_SET_M4_SENT_MANUALLY", 807 "WAL_DBGID_PROCESS_4_WAY_HANDSHAKE", 808 "WAL_DBGID_WAL_CHANNEL_CHANGE_START", 809 "WAL_DBGID_WAL_CHANNEL_CHANGE_COMPLETE", 810 "WAL_DBGID_WHAL_CHANNEL_CHANGE_START", 811 "WAL_DBGID_WHAL_CHANNEL_CHANGE_COMPLETE", 812 "WAL_DBGID_TX_MGMT_DESCID_SEQ_TYPE_LEN", 813 "WAL_DBGID_TX_DATA_MSDUID_SEQ_TYPE_LEN", 814 "WAL_DBGID_TX_DISCARD", 815 "WAL_DBGID_TX_MGMT_COMP_DESCID_STATUS", 816 "WAL_DBGID_TX_DATA_COMP_MSDUID_STATUS", 817 "WAL_DBGID_RESET_PCU_CYCLE_CNT", 818 "WAL_DBGID_SETUP_RSSI_INTERRUPTS", 819 "WAL_DBGID_BRSSI_CONFIG", 820 "WAL_DBGID_CURRENT_BRSSI_AVE", 821 "WAL_DBGID_BCN_TX_COMP", 822 "WAL_DBGID_SET_HW_CHAINMASK", 823 "WAL_DBGID_SET_HW_CHAINMASK_TXRX_STOP_FAIL", 824 "WAL_DBGID_GET_HW_CHAINMASK", 825 "WAL_DBGID_SMPS_DISABLE", 826 "WAL_DBGID_SMPS_ENABLE_HW_CNTRL", 827 "WAL_DBGID_SMPS_SWSEL_CHAINMASK", 828 "WAL_DBGID_DEFINITION_END", 829 }, 830 { 831 "" /* DE */ 832 }, 833 { 834 "" /* pcie lp */ 835 }, 836 { 837 /* RTT */ 838 "RTT_CALL_FLOW", 839 "RTT_REQ_SUB_TYPE", 840 "RTT_MEAS_REQ_HEAD", 841 "RTT_MEAS_REQ_BODY", 842 "", 843 "", 844 "RTT_INIT_GLOBAL_STATE", 845 "", 846 "RTT_REPORT", 847 "", 848 "RTT_ERROR_REPORT", 849 "RTT_TIMER_STOP", 850 "RTT_SEND_TM_FRAME", 851 "RTT_V3_RESP_CNT", 852 "RTT_V3_RESP_FINISH", 853 "RTT_CHANNEL_SWITCH_REQ", 854 "RTT_CHANNEL_SWITCH_GRANT", 855 "RTT_CHANNEL_SWITCH_COMPLETE", 856 "RTT_CHANNEL_SWITCH_PREEMPT", 857 "RTT_CHANNEL_SWITCH_STOP", 858 "RTT_TIMER_START", 859 }, 860 { /* RESOURCE */ 861 "RESOURCE_DBGID_DEFINITION_START", 862 "RESOURCE_PEER_ALLOC", 863 "RESOURCE_PEER_FREE", 864 "RESOURCE_PEER_ALLOC_WAL_PEER", 865 "RESOURCE_PEER_NBRHOOD_MGMT_ALLOC", 866 "RESOURCE_PEER_NBRHOOD_MGMT_INFO,RESOURCE_DBGID_DEFINITION_END", 867 }, 868 { /* DCS */ 869 "WLAN_DCS_DBGID_INIT", 870 "WLAN_DCS_DBGID_WMI_CWINT", 871 "WLAN_DCS_DBGID_TIMER", 872 "WLAN_DCS_DBGID_CMDG", 873 "WLAN_DCS_DBGID_CMDS", 874 "WLAN_DCS_DBGID_DINIT" 875 }, 876 { /* CACHEMGR */ 877 "" 878 }, 879 { /* ANI */ 880 "ANI_DBGID_POLL", 881 "ANI_DBGID_CONTROL", 882 "ANI_DBGID_OFDM_PARAMS", 883 "ANI_DBGID_CCK_PARAMS", 884 "ANI_DBGID_RESET", 885 "ANI_DBGID_RESTART", 886 "ANI_DBGID_OFDM_LEVEL", 887 "ANI_DBGID_CCK_LEVEL", 888 "ANI_DBGID_FIRSTEP", 889 "ANI_DBGID_CYCPWR", 890 "ANI_DBGID_MRC_CCK", 891 "ANI_DBGID_SELF_CORR_LOW", 892 "ANI_DBGID_ENABLE", 893 "ANI_DBGID_CURRENT_LEVEL", 894 "ANI_DBGID_POLL_PERIOD", 895 "ANI_DBGID_LISTEN_PERIOD", 896 "ANI_DBGID_OFDM_LEVEL_CFG", 897 "ANI_DBGID_CCK_LEVEL_CFG" 898 }, 899 { 900 "P2P_DBGID_DEFINITION_START", 901 "P2P_DEV_REGISTER", 902 "P2P_HANDLE_NOA", 903 "P2P_UPDATE_SCHEDULE_OPPS", 904 "P2P_UPDATE_SCHEDULE", 905 "P2P_UPDATE_START_TIME", 906 "P2P_UPDATE_START_TIME_DIFF_TSF32", 907 "P2P_UPDATE_START_TIME_FINAL", 908 "P2P_SETUP_SCHEDULE_TIMER", 909 "P2P_PROCESS_SCHEDULE_AFTER_CALC", 910 "P2P_PROCESS_SCHEDULE_STARTED_TIMER", 911 "P2P_CALC_SCHEDULES_FIRST_CALL_ALL_NEXT_EVENT", 912 "P2P_CALC_SCHEDULES_FIRST_VALUE", 913 "P2P_CALC_SCHEDULES_EARLIEST_NEXT_EVENT", 914 "P2P_CALC_SCHEDULES_SANITY_COUNT", 915 "P2P_CALC_SCHEDULES_CALL_ALL_NEXT_EVENT_FROM_WHILE_LOOP", 916 "P2P_CALC_SCHEDULES_TIMEOUT_1", 917 "P2P_CALC_SCHEDULES_TIMEOUT_2", 918 "P2P_FIND_ALL_NEXT_EVENTS_REQ_EXPIRED", 919 "P2P_FIND_ALL_NEXT_EVENTS_REQ_ACTIVE", 920 "P2P_FIND_NEXT_EVENT_REQ_NOT_STARTED", 921 "P2P_FIND_NEXT_EVENT_REQ_COMPLETE_NON_PERIODIC", 922 "P2P_FIND_NEXT_EVENT_IN_MID_OF_NOA", 923 "P2P_FIND_NEXT_EVENT_REQ_COMPLETE", 924 "P2P_SCHEDULE_TIMEOUT", 925 "P2P_CALC_SCHEDULES_ENTER", 926 "P2P_PROCESS_SCHEDULE_ENTER", 927 "P2P_FIND_ALL_NEXT_EVENTS_INDIVIDUAL_REQ_AFTER_CHANGE", 928 "P2P_FIND_ALL_NEXT_EVENTS_INDIVIDUAL_REQ_BEFORE_CHANGE", 929 "P2P_FIND_ALL_NEXT_EVENTS_ENTER", 930 "P2P_FIND_NEXT_EVENT_ENTER", 931 "P2P_NOA_GO_PRESENT", 932 "P2P_NOA_GO_ABSENT", 933 "P2P_GO_NOA_NOTIF", 934 "P2P_GO_TBTT_OFFSET", 935 "P2P_GO_GET_NOA_INFO", 936 "P2P_GO_ADD_ONE_SHOT_NOA", 937 "P2P_GO_GET_NOA_IE", 938 "P2P_GO_BCN_TX_COMP", 939 "P2P_DBGID_DEFINITION_END", 940 }, 941 { 942 "CSA_DBGID_DEFINITION_START", 943 "CSA_OFFLOAD_POOL_INIT", 944 "CSA_OFFLOAD_REGISTER_VDEV", 945 "CSA_OFFLOAD_DEREGISTER_VDEV", 946 "CSA_DEREGISTER_VDEV_ERROR", 947 "CSA_OFFLOAD_BEACON_RECEIVED", 948 "CSA_OFFLOAD_BEACON_CSA_RECV", 949 "CSA_OFFLOAD_CSA_RECV_ERROR_IE", 950 "CSA_OFFLOAD_CSA_TIMER_ERROR", 951 "CSA_OFFLOAD_CSA_TIMER_EXP", 952 "CSA_OFFLOAD_WMI_EVENT_ERROR", 953 "CSA_OFFLOAD_WMI_EVENT_SENT", 954 "CSA_OFFLOAD_WMI_CHANSWITCH_RECV", 955 "CSA_DBGID_DEFINITION_END", 956 }, 957 { /* NLO offload */ 958 "" 959 }, 960 { 961 "WLAN_CHATTER_DBGID_DEFINITION_START", 962 "WLAN_CHATTER_ENTER", 963 "WLAN_CHATTER_EXIT", 964 "WLAN_CHATTER_FILTER_HIT", 965 "WLAN_CHATTER_FILTER_MISS", 966 "WLAN_CHATTER_FILTER_FULL", 967 "WLAN_CHATTER_FILTER_TM_ADJ", 968 "WLAN_CHATTER_BUFFER_FULL", 969 "WLAN_CHATTER_TIMEOUT", 970 "WLAN_CHATTER_DBGID_DEFINITION_END", 971 }, 972 { 973 "WOW_DBGID_DEFINITION_START", 974 "WOW_ENABLE_CMDID", 975 "WOW_RECV_DATA_PKT", 976 "WOW_WAKE_HOST_DATA", 977 "WOW_RECV_MGMT", 978 "WOW_WAKE_HOST_MGMT", 979 "WOW_RECV_EVENT", 980 "WOW_WAKE_HOST_EVENT", 981 "WOW_INIT", 982 "WOW_RECV_MAGIC_PKT", 983 "WOW_RECV_BITMAP_PATTERN", 984 "WOW_AP_VDEV_DISALLOW", 985 "WOW_STA_VDEV_DISALLOW", 986 "WOW_P2PGO_VDEV_DISALLOW", 987 "WOW_NS_OFLD_ENABLE", 988 "WOW_ARP_OFLD_ENABLE", 989 "WOW_NS_ARP_OFLD_DISABLE", 990 "WOW_NS_RECEIVED", 991 "WOW_NS_REPLIED", 992 "WOW_ARP_RECEIVED", 993 "WOW_ARP_REPLIED", 994 "WOW_DBGID_DEFINITION_END", 995 }, 996 { /* WAL VDEV */ 997 "" 998 }, 999 { /* WAL PDEV */ 1000 "" 1001 }, 1002 { /* TEST */ 1003 "TP_CHANGE_CHANNEL", 1004 "TP_LOCAL_SEND", 1005 }, 1006 { /* STA SMPS */ 1007 "STA_SMPS_DBGID_DEFINITION_START", 1008 "STA_SMPS_DBGID_CREATE_PDEV_INSTANCE", 1009 "STA_SMPS_DBGID_CREATE_VIRTUAL_CHAN_INSTANCE", 1010 "STA_SMPS_DBGID_DELETE_VIRTUAL_CHAN_INSTANCE", 1011 "STA_SMPS_DBGID_CREATE_STA_INSTANCE", 1012 "STA_SMPS_DBGID_DELETE_STA_INSTANCE", 1013 "STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_START", 1014 "STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_STOP", 1015 "STA_SMPS_DBGID_SEND_SMPS_ACTION_FRAME", 1016 "STA_SMPS_DBGID_HOST_FORCED_MODE", 1017 "STA_SMPS_DBGID_FW_FORCED_MODE", 1018 "STA_SMPS_DBGID_RSSI_THRESHOLD_CROSSED", 1019 "STA_SMPS_DBGID_SMPS_ACTION_FRAME_COMPLETION", 1020 "STA_SMPS_DBGID_DTIM_EBT_EVENT_CHMASK_UPDATE", 1021 "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE", 1022 "STA_SMPS_DBGID_DTIM_BEACON_EVENT_CHMASK_UPDATE", 1023 "STA_SMPS_DBGID_DTIM_POWER_STATE_CHANGE", 1024 "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_SLEEP", 1025 "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_AWAKE", 1026 "SMPS_DBGID_DEFINITION_END", 1027 }, 1028 { /* SWBMISS */ 1029 "SWBMISS_DBGID_DEFINITION_START", 1030 "SWBMISS_ENABLED", 1031 "SWBMISS_DISABLED", 1032 "SWBMISS_DBGID_DEFINITION_END", 1033 }, 1034 { /* WMMAC */ 1035 "" 1036 }, 1037 { /* TDLS */ 1038 "TDLS_DBGID_DEFINITION_START", 1039 "TDLS_DBGID_VDEV_CREATE", 1040 "TDLS_DBGID_VDEV_DELETE", 1041 "TDLS_DBGID_ENABLED_PASSIVE", 1042 "TDLS_DBGID_ENABLED_ACTIVE", 1043 "TDLS_DBGID_DISABLED", 1044 "TDLS_DBGID_CONNTRACK_TIMER", 1045 "TDLS_DBGID_WAL_SET", 1046 "TDLS_DBGID_WAL_GET", 1047 "TDLS_DBGID_WAL_PEER_UPDATE_SET", 1048 "TDLS_DBGID_WAL_PEER_UPDATE_EVT", 1049 "TDLS_DBGID_WAL_VDEV_CREATE", 1050 "TDLS_DBGID_WAL_VDEV_DELETE", 1051 "TDLS_DBGID_WLAN_EVENT", 1052 "TDLS_DBGID_WLAN_PEER_UPDATE_SET", 1053 "TDLS_DBGID_PEER_EVT_DRP_THRESH", 1054 "TDLS_DBGID_PEER_EVT_DRP_RATE", 1055 "TDLS_DBGID_PEER_EVT_DRP_RSSI", 1056 "TDLS_DBGID_PEER_EVT_DISCOVER", 1057 "TDLS_DBGID_PEER_EVT_DELETE", 1058 "TDLS_DBGID_PEER_CAP_UPDATE", 1059 "TDLS_DBGID_UAPSD_SEND_PTI_FRAME", 1060 "TDLS_DBGID_UAPSD_SEND_PTI_FRAME2PEER", 1061 "TDLS_DBGID_UAPSD_START_PTR_TIMER", 1062 "TDLS_DBGID_UAPSD_CANCEL_PTR_TIMER", 1063 "TDLS_DBGID_UAPSD_PTR_TIMER_TIMEOUT", 1064 "TDLS_DBGID_UAPSD_STA_PS_EVENT_HANDLER", 1065 "TDLS_DBGID_UAPSD_PEER_EVENT_HANDLER", 1066 "TDLS_DBGID_UAPSD_PS_DEFAULT_SETTINGS", 1067 "TDLS_DBGID_UAPSD_GENERIC", 1068 }, 1069 { /* HB */ 1070 "WLAN_HB_DBGID_DEFINITION_START", 1071 "WLAN_HB_DBGID_INIT", 1072 "WLAN_HB_DBGID_TCP_GET_TXBUF_FAIL", 1073 "WLAN_HB_DBGID_TCP_SEND_FAIL", 1074 "WLAN_HB_DBGID_BSS_PEER_NULL", 1075 "WLAN_HB_DBGID_UDP_GET_TXBUF_FAIL", 1076 "WLAN_HB_DBGID_UDP_SEND_FAIL", 1077 "WLAN_HB_DBGID_WMI_CMD_INVALID_PARAM", 1078 "WLAN_HB_DBGID_WMI_CMD_INVALID_OP", 1079 "WLAN_HB_DBGID_WOW_NOT_ENTERED", 1080 "WLAN_HB_DBGID_ALLOC_SESS_FAIL", 1081 "WLAN_HB_DBGID_CTX_NULL", 1082 "WLAN_HB_DBGID_CHKSUM_ERR", 1083 "WLAN_HB_DBGID_UDP_TX", 1084 "WLAN_HB_DBGID_TCP_TX", 1085 "WLAN_HB_DBGID_DEFINITION_END", 1086 }, 1087 { /* TXBF */ 1088 "TXBFEE_DBGID_START", 1089 "TXBFEE_DBGID_NDPA_RECEIVED", 1090 "TXBFEE_DBGID_HOST_CONFIG_TXBFEE_TYPE", 1091 "TXBFER_DBGID_SEND_NDPA", 1092 "TXBFER_DBGID_GET_NDPA_BUF_FAIL", 1093 "TXBFER_DBGID_SEND_NDPA_FAIL", 1094 "TXBFER_DBGID_GET_NDP_BUF_FAIL", 1095 "TXBFER_DBGID_SEND_NDP_FAIL", 1096 "TXBFER_DBGID_GET_BRPOLL_BUF_FAIL", 1097 "TXBFER_DBGID_SEND_BRPOLL_FAIL", 1098 "TXBFER_DBGID_HOST_CONFIG_CMDID", 1099 "TXBFEE_DBGID_HOST_CONFIG_CMDID", 1100 "TXBFEE_DBGID_ENABLED_ENABLED_UPLOAD_H", 1101 "TXBFEE_DBGID_UPLOADH_CV_TAG", 1102 "TXBFEE_DBGID_UPLOADH_H_TAG", 1103 "TXBFEE_DBGID_CAPTUREH_RECEIVED", 1104 "TXBFEE_DBGID_PACKET_IS_STEERED", 1105 "TXBFEE_UPLOADH_EVENT_ALLOC_MEM_FAIL", 1106 "TXBFEE_DBGID_END", 1107 }, 1108 { /*BATCH SCAN */ 1109 }, 1110 { /*THERMAL MGR */ 1111 "THERMAL_MGR_DBGID_DEFINITION_START", 1112 "THERMAL_MGR_NEW_THRESH", 1113 "THERMAL_MGR_THRESH_CROSSED", 1114 "THERMAL_MGR_DBGID_DEFINITION END", 1115 }, 1116 { /* WLAN_MODULE_PHYERR_DFS */ 1117 "" 1118 }, 1119 { 1120 /* WLAN_MODULE_RMC */ 1121 "RMC_DBGID_DEFINITION_START", 1122 "RMC_CREATE_INSTANCE", 1123 "RMC_DELETE_INSTANCE", 1124 "RMC_LDR_SEL", 1125 "RMC_NO_LDR", 1126 "RMC_LDR_NOT_SEL", 1127 "RMC_LDR_INF_SENT", 1128 "RMC_PEER_ADD", 1129 "RMC_PEER_DELETE", 1130 "RMC_PEER_UNKNOWN", 1131 "RMC_SET_MODE", 1132 "RMC_SET_ACTION_PERIOD", 1133 "RMC_ACRION_FRAME_RX", 1134 "RMC_DBGID_DEFINITION_END", 1135 }, 1136 { 1137 /* WLAN_MODULE_STATS */ 1138 "WLAN_STATS_DBGID_DEFINITION_START", 1139 "WLAN_STATS_DBGID_EST_LINKSPEED_VDEV_EN_DIS", 1140 "WLAN_STATS_DBGID_EST_LINKSPEED_CHAN_TIME_START", 1141 "WLAN_STATS_DBGID_EST_LINKSPEED_CHAN_TIME_END", 1142 "WLAN_STATS_DBGID_EST_LINKSPEED_CALC", 1143 "WLAN_STATS_DBGID_EST_LINKSPEED_UPDATE_HOME_CHAN", 1144 "WLAN_STATS_DBGID_DEFINITION_END", 1145 }, 1146 { 1147 /* WLAN_MODULE_NAN */ 1148 }, 1149 { 1150 /* WLAN_MODULE_IBSS_PWRSAVE */ 1151 "IBSS_PS_DBGID_DEFINITION_START", 1152 "IBSS_PS_DBGID_PEER_CREATE", 1153 "IBSS_PS_DBGID_PEER_DELETE", 1154 "IBSS_PS_DBGID_VDEV_CREATE", 1155 "IBSS_PS_DBGID_VDEV_DELETE", 1156 "IBSS_PS_DBGID_VDEV_EVENT", 1157 "IBSS_PS_DBGID_PEER_EVENT", 1158 "IBSS_PS_DBGID_DELIVER_CAB", 1159 "IBSS_PS_DBGID_DELIVER_UC_DATA", 1160 "IBSS_PS_DBGID_DELIVER_UC_DATA_ERROR", 1161 "IBSS_PS_DBGID_UC_INACTIVITY_TMR_RESTART", 1162 "IBSS_PS_DBGID_MC_INACTIVITY_TMR_RESTART", 1163 "IBSS_PS_DBGID_NULL_TX_COMPLETION", 1164 "IBSS_PS_DBGID_ATIM_TIMER_START", 1165 "IBSS_PS_DBGID_UC_ATIM_SEND", 1166 "IBSS_PS_DBGID_BC_ATIM_SEND", 1167 "IBSS_PS_DBGID_UC_TIMEOUT", 1168 "IBSS_PS_DBGID_PWR_COLLAPSE_ALLOWED", 1169 "IBSS_PS_DBGID_PWR_COLLAPSE_NOT_ALLOWED", 1170 "IBSS_PS_DBGID_SET_PARAM", 1171 "IBSS_PS_DBGID_HOST_TX_PAUSE", 1172 "IBSS_PS_DBGID_HOST_TX_UNPAUSE", 1173 "IBSS_PS_DBGID_PS_DESC_BIN_HWM", 1174 "IBSS_PS_DBGID_PS_DESC_BIN_LWM", 1175 "IBSS_PS_DBGID_PS_KICKOUT_PEER", 1176 "IBSS_PS_DBGID_SET_PEER_PARAM", 1177 "IBSS_PS_DBGID_BCN_ATIM_WIN_MISMATCH", 1178 "IBSS_PS_DBGID_RX_CHAINMASK_CHANGE", 1179 }, 1180 { 1181 /* HIF UART Interface DBGIDs */ 1182 "HIF_UART_DBGID_START", 1183 "HIF_UART_DBGID_POWER_STATE", 1184 "HIF_UART_DBGID_TXRX_FLOW", 1185 "HIF_UART_DBGID_TXRX_CTRL_CHAR", 1186 "HIF_UART_DBGID_TXRX_BUF_DUMP", 1187 }, 1188 { 1189 /* LPI */ 1190 "" 1191 }, 1192 { 1193 /* EXTSCAN DBGIDs */ 1194 "EXTSCAN_START", 1195 "EXTSCAN_STOP", 1196 "EXTSCAN_CLEAR_ENTRY_CONTENT", 1197 "EXTSCAN_GET_FREE_ENTRY_SUCCESS", 1198 "EXTSCAN_GET_FREE_ENTRY_INCONSISTENT", 1199 "EXTSCAN_GET_FREE_ENTRY_NO_MORE_ENTRIES", 1200 "EXTSCAN_CREATE_ENTRY_SUCCESS", 1201 "EXTSCAN_CREATE_ENTRY_ERROR", 1202 "EXTSCAN_SEARCH_SCAN_ENTRY_QUEUE", 1203 "EXTSCAN_SEARCH_SCAN_ENTRY_KEY_FOUND", 1204 "EXTSCAN_SEARCH_SCAN_ENTRY_KEY_NOT_FOUND", 1205 "EXTSCAN_ADD_ENTRY", 1206 "EXTSCAN_BUCKET_SEND_OPERATION_EVENT", 1207 "EXTSCAN_BUCKET_SEND_OPERATION_EVENT_FAILED", 1208 "EXTSCAN_BUCKET_START_SCAN_CYCLE", 1209 "EXTSCAN_BUCKET_PERIODIC_TIMER", 1210 "EXTSCAN_SEND_START_STOP_EVENT", 1211 "EXTSCAN_NOTIFY_WLAN_CHANGE", 1212 "EXTSCAN_NOTIFY_WLAN_HOTLIST_MATCH", 1213 "EXTSCAN_MAIN_RECEIVED_FRAME", 1214 "EXTSCAN_MAIN_NO_SSID_IE", 1215 "EXTSCAN_MAIN_MALFORMED_FRAME", 1216 "EXTSCAN_FIND_BSSID_BY_REFERENCE", 1217 "EXTSCAN_FIND_BSSID_BY_REFERENCE_ERROR", 1218 "EXTSCAN_NOTIFY_TABLE_USAGE", 1219 "EXTSCAN_FOUND_RSSI_ENTRY", 1220 "EXTSCAN_BSSID_FOUND_RSSI_SAMPLE", 1221 "EXTSCAN_BSSID_ADDED_RSSI_SAMPLE", 1222 "EXTSCAN_BSSID_REPLACED_RSSI_SAMPLE", 1223 "EXTSCAN_BSSID_TRANSFER_CURRENT_SAMPLES", 1224 "EXTSCAN_BUCKET_PROCESS_SCAN_EVENT", 1225 "EXTSCAN_BUCKET_CANNOT_FIND_BUCKET", 1226 "EXTSCAN_START_SCAN_REQUEST_FAILED", 1227 "EXTSCAN_BUCKET_STOP_CURRENT_SCANS", 1228 "EXTSCAN_BUCKET_SCAN_STOP_REQUEST", 1229 "EXTSCAN_BUCKET_PERIODIC_TIMER_ERROR", 1230 "EXTSCAN_BUCKET_START_OPERATION", 1231 "EXTSCAN_START_INTERNAL_ERROR", 1232 "EXTSCAN_NOTIFY_HOTLIST_MATCH", 1233 "EXTSCAN_CONFIG_HOTLIST_TABLE", 1234 "EXTSCAN_CONFIG_WLAN_CHANGE_TABLE", 1235 }, 1236 { /* UNIT_TEST */ 1237 "UNIT_TEST_GEN", 1238 }, 1239 { /* MLME */ 1240 "MLME_DEBUG_CMN", 1241 "MLME_IF", 1242 "MLME_AUTH", 1243 "MLME_REASSOC", 1244 "MLME_DEAUTH", 1245 "MLME_DISASSOC", 1246 "MLME_ROAM", 1247 "MLME_RETRY", 1248 "MLME_TIMER", 1249 "MLME_FRMPARSE", 1250 }, 1251 { /*SUPPLICANT */ 1252 "SUPPL_INIT", 1253 "SUPPL_RECV_EAPOL", 1254 "SUPPL_RECV_EAPOL_TIMEOUT", 1255 "SUPPL_SEND_EAPOL", 1256 "SUPPL_MIC_MISMATCH", 1257 "SUPPL_FINISH", 1258 }, 1259 }; 1260 1261 int dbglog_module_log_enable(wmi_unified_t wmi_handle, uint32_t mod_id, 1262 bool isenable) 1263 { 1264 uint32_t val = 0; 1265 1266 if (mod_id > WLAN_MODULE_ID_MAX) { 1267 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1268 ("dbglog_module_log_enable: Invalid module id %d\n", 1269 mod_id)); 1270 return -EINVAL; 1271 } 1272 1273 WMI_DBGLOG_SET_MODULE_ID(val, mod_id); 1274 if (isenable) { 1275 /* set it to global module level */ 1276 WMI_DBGLOG_SET_LOG_LEVEL(val, DBGLOG_INFO); 1277 } else { 1278 /* set it to ERROR level */ 1279 WMI_DBGLOG_SET_LOG_LEVEL(val, DBGLOG_ERR); 1280 } 1281 wma_config_debug_module_cmd(wmi_handle, WMI_DEBUG_LOG_PARAM_LOG_LEVEL, 1282 val, NULL, 0); 1283 1284 return 0; 1285 } 1286 1287 int dbglog_vap_log_enable(wmi_unified_t wmi_handle, uint16_t vap_id, 1288 bool isenable) 1289 { 1290 if (vap_id > DBGLOG_MAX_VDEVID) { 1291 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1292 ("dbglog_vap_log_enable:Invalid vap_id %d\n", 1293 vap_id)); 1294 return -EINVAL; 1295 } 1296 1297 wma_config_debug_module_cmd(wmi_handle, 1298 isenable ? WMI_DEBUG_LOG_PARAM_VDEV_ENABLE : 1299 WMI_DEBUG_LOG_PARAM_VDEV_DISABLE, vap_id, 1300 NULL, 0); 1301 1302 return 0; 1303 } 1304 1305 int dbglog_set_log_lvl(wmi_unified_t wmi_handle, DBGLOG_LOG_LVL log_lvl) 1306 { 1307 uint32_t val = 0; 1308 1309 if (log_lvl > DBGLOG_LVL_MAX) { 1310 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1311 ("dbglog_set_log_lvl:Invalid log level %d\n", 1312 log_lvl)); 1313 return -EINVAL; 1314 } 1315 1316 WMI_DBGLOG_SET_MODULE_ID(val, WMI_DEBUG_LOG_MODULE_ALL); 1317 WMI_DBGLOG_SET_LOG_LEVEL(val, log_lvl); 1318 wma_config_debug_module_cmd(wmi_handle, WMI_DEBUG_LOG_PARAM_LOG_LEVEL, 1319 val, NULL, 0); 1320 1321 return 0; 1322 } 1323 1324 int dbglog_set_mod_log_lvl(wmi_unified_t wmi_handle, uint32_t mod_log_lvl) 1325 { 1326 /* set the global module level to log_lvl */ 1327 wma_config_debug_module_cmd(wmi_handle, WMI_DEBUG_LOG_PARAM_LOG_LEVEL, 1328 mod_log_lvl, NULL, 0); 1329 1330 return 0; 1331 } 1332 1333 void 1334 dbglog_set_vap_enable_bitmap(wmi_unified_t wmi_handle, 1335 uint32_t vap_enable_bitmap) 1336 { 1337 wma_config_debug_module_cmd(wmi_handle, 1338 WMI_DEBUG_LOG_PARAM_VDEV_ENABLE_BITMAP, 1339 vap_enable_bitmap, NULL, 0); 1340 } 1341 1342 void 1343 dbglog_set_mod_enable_bitmap(wmi_unified_t wmi_handle, uint32_t log_level, 1344 uint32_t *mod_enable_bitmap, uint32_t bitmap_len) 1345 { 1346 wma_config_debug_module_cmd(wmi_handle, 1347 WMI_DEBUG_LOG_PARAM_MOD_ENABLE_BITMAP, 1348 log_level, mod_enable_bitmap, bitmap_len); 1349 } 1350 1351 int dbglog_report_enable(wmi_unified_t wmi_handle, bool isenable) 1352 { 1353 int bitmap[2] = { 0 }; 1354 1355 if (isenable) { 1356 /* set the vap enable bitmap */ 1357 dbglog_set_vap_enable_bitmap(wmi_handle, 0xFFFF); 1358 bitmap[0] = 0xFFFFFFFF; 1359 bitmap[1] = 0x1F; 1360 /* set the module level bitmap */ 1361 dbglog_set_mod_enable_bitmap(wmi_handle, 0x0, bitmap, 2); 1362 } else { 1363 dbglog_set_vap_enable_bitmap(wmi_handle, bitmap[0]); 1364 dbglog_set_mod_enable_bitmap(wmi_handle, DBGLOG_LVL_MAX, bitmap, 1365 2); 1366 } 1367 return 0; 1368 } 1369 1370 static char *dbglog_get_msg(uint32_t moduleid, uint32_t debugid) 1371 { 1372 static char unknown_str[64]; 1373 1374 if (moduleid < WLAN_MODULE_ID_MAX && debugid < MAX_DBG_MSGS) { 1375 char *str = DBG_MSG_ARR[moduleid][debugid]; 1376 if (str && str[0] != '\0') 1377 return str; 1378 } 1379 1380 snprintf(unknown_str, sizeof(unknown_str), 1381 "UNKNOWN %u:%u", moduleid, debugid); 1382 1383 return unknown_str; 1384 } 1385 1386 static 1387 void dbglog_printf(uint32_t timestamp, uint16_t vap_id, const char *fmt, ...) 1388 { 1389 char buf[128]; 1390 va_list ap; 1391 1392 if (vap_id < DBGLOG_MAX_VDEVID) { 1393 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1394 (DBGLOG_PRINT_PREFIX "[%u] vap-%u ", timestamp, 1395 vap_id)); 1396 } else { 1397 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1398 (DBGLOG_PRINT_PREFIX "[%u] ", timestamp)); 1399 } 1400 1401 va_start(ap, fmt); 1402 vsnprintf(buf, sizeof(buf), fmt, ap); 1403 va_end(ap); 1404 1405 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s\n", buf)); 1406 } 1407 1408 static void 1409 dbglog_printf_no_line_break(uint32_t timestamp, 1410 uint16_t vap_id, const char *fmt, ...) 1411 { 1412 char buf[128]; 1413 va_list ap; 1414 1415 if (vap_id < DBGLOG_MAX_VDEVID) { 1416 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1417 (DBGLOG_PRINT_PREFIX "[%u] vap-%u ", timestamp, 1418 vap_id)); 1419 } else { 1420 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1421 (DBGLOG_PRINT_PREFIX "[%u] ", timestamp)); 1422 } 1423 1424 va_start(ap, fmt); 1425 vsnprintf(buf, sizeof(buf), fmt, ap); 1426 va_end(ap); 1427 1428 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s", buf)); 1429 } 1430 1431 #define USE_NUMERIC 0 1432 1433 static A_BOOL 1434 dbglog_default_print_handler(uint32_t mod_id, uint16_t vap_id, uint32_t dbg_id, 1435 uint32_t timestamp, uint16_t numargs, 1436 uint32_t *args) 1437 { 1438 int i; 1439 1440 if (vap_id < DBGLOG_MAX_VDEVID) { 1441 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1442 (DBGLOG_PRINT_PREFIX "[%u] vap-%u %s ( ", 1443 timestamp, vap_id, dbglog_get_msg(mod_id, 1444 dbg_id))); 1445 } else { 1446 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1447 (DBGLOG_PRINT_PREFIX "[%u] %s ( ", timestamp, 1448 dbglog_get_msg(mod_id, dbg_id))); 1449 } 1450 1451 for (i = 0; i < numargs; i++) { 1452 #if USE_NUMERIC 1453 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%u", args[i])); 1454 #else 1455 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%#x", args[i])); 1456 #endif 1457 if ((i + 1) < numargs) { 1458 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, (", ")); 1459 } 1460 } 1461 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, (" )\n")); 1462 1463 return true; 1464 } 1465 1466 #define DBGLOG_PARSE_ARGS_STRING_LENGTH (DBGLOG_NUM_ARGS_MAX * 11 + 10) 1467 static int dbglog_print_raw_data(uint32_t *buffer, uint32_t length) 1468 { 1469 uint32_t timestamp; 1470 uint32_t debugid; 1471 uint32_t moduleid; 1472 uint16_t numargs, curArgs; 1473 uint32_t count = 0, totalWriteLen, writeLen; 1474 char parseArgsString[DBGLOG_PARSE_ARGS_STRING_LENGTH]; 1475 char *dbgidString; 1476 1477 while ((count + 1) < length) { 1478 1479 debugid = DBGLOG_GET_DBGID(buffer[count + 1]); 1480 moduleid = DBGLOG_GET_MODULEID(buffer[count + 1]); 1481 numargs = DBGLOG_GET_NUMARGS(buffer[count + 1]); 1482 timestamp = DBGLOG_GET_TIME_STAMP(buffer[count]); 1483 1484 if (moduleid < WLAN_MODULE_ID_MAX && debugid < MAX_DBG_MSGS 1485 && numargs <= DBGLOG_NUM_ARGS_MAX) { 1486 1487 OS_MEMZERO(parseArgsString, sizeof(parseArgsString)); 1488 totalWriteLen = 0; 1489 1490 if (!numargs || (count + numargs + 2 > length)) 1491 goto skip_args_processing; 1492 1493 for (curArgs = 0; curArgs < numargs; curArgs++) { 1494 /* 1495 * Using sprintf_s instead of sprintf, 1496 * to avoid length overflow 1497 */ 1498 writeLen = 1499 snprintf(parseArgsString + totalWriteLen, 1500 DBGLOG_PARSE_ARGS_STRING_LENGTH - 1501 totalWriteLen, "%x ", 1502 buffer[count + 2 + curArgs]); 1503 totalWriteLen += writeLen; 1504 } 1505 skip_args_processing: 1506 if (debugid < MAX_DBG_MSGS) { 1507 dbgidString = DBG_MSG_ARR[moduleid][debugid]; 1508 if (dbgidString != NULL) { 1509 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1510 ("fw:%s(%x %x):%s\n", 1511 dbgidString, timestamp, 1512 buffer[count + 1], 1513 parseArgsString)); 1514 } else { 1515 /* host need sync with FW id */ 1516 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1517 ("fw:%s:m:%x,id:%x(%x %x):%s\n", 1518 "UNKNOWN", moduleid, 1519 debugid, timestamp, 1520 buffer[count + 1], 1521 parseArgsString)); 1522 } 1523 } else if (debugid == 1524 DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG) { 1525 /* specific debugid */ 1526 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1527 ("fw:%s:m:%x,id:%x(%x %x):%s\n", 1528 "DBGLOG_SM_MSG", moduleid, 1529 debugid, timestamp, 1530 buffer[count + 1], 1531 parseArgsString)); 1532 } else { 1533 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1534 ("fw:%s:m:%x,id:%x(%x %x):%s\n", 1535 "UNKNOWN", moduleid, debugid, 1536 timestamp, buffer[count + 1], 1537 parseArgsString)); 1538 } 1539 } 1540 1541 /* 32 bit Time stamp + 32 bit Dbg header */ 1542 count += numargs + 2; 1543 } 1544 1545 return 0; 1546 1547 } 1548 1549 #ifdef WLAN_OPEN_SOURCE 1550 static int 1551 dbglog_debugfs_raw_data(wmi_unified_t wmi_handle, const uint8_t *buf, 1552 uint32_t length, uint32_t dropped) 1553 { 1554 struct fwdebug *fwlog = (struct fwdebug *)&wmi_handle->dbglog; 1555 struct dbglog_slot *slot; 1556 struct sk_buff *skb; 1557 size_t slot_len; 1558 1559 if (WARN_ON(length > ATH6KL_FWLOG_PAYLOAD_SIZE)) 1560 return -ENODEV; 1561 1562 slot_len = sizeof(*slot) + ATH6KL_FWLOG_PAYLOAD_SIZE; 1563 1564 skb = alloc_skb(slot_len, GFP_KERNEL); 1565 if (!skb) 1566 return -ENOMEM; 1567 1568 slot = (struct dbglog_slot *)skb_put(skb, slot_len); 1569 slot->diag_type = (uint32_t) DIAG_TYPE_FW_DEBUG_MSG; 1570 slot->timestamp = cpu_to_le32(jiffies); 1571 slot->length = cpu_to_le32(length); 1572 slot->dropped = cpu_to_le32(dropped); 1573 memcpy(slot->payload, buf, length); 1574 1575 /* Need to pad each record to fixed length ATH6KL_FWLOG_PAYLOAD_SIZE */ 1576 memset(slot->payload + length, 0, ATH6KL_FWLOG_PAYLOAD_SIZE - length); 1577 1578 spin_lock(&fwlog->fwlog_queue.lock); 1579 1580 __skb_queue_tail(&fwlog->fwlog_queue, skb); 1581 1582 complete(&fwlog->fwlog_completion); 1583 1584 /* drop oldest entries */ 1585 while (skb_queue_len(&fwlog->fwlog_queue) > ATH6KL_FWLOG_MAX_ENTRIES) { 1586 skb = __skb_dequeue(&fwlog->fwlog_queue); 1587 kfree_skb(skb); 1588 } 1589 1590 spin_unlock(&fwlog->fwlog_queue.lock); 1591 1592 return true; 1593 } 1594 #endif /* WLAN_OPEN_SOURCE */ 1595 1596 /** 1597 * nl_srv_bcast_fw_logs() - Wrapper func to send bcast msgs to FW logs mcast grp 1598 * @skb: sk buffer pointer 1599 * 1600 * Sends the bcast message to FW logs multicast group with generic nl socket 1601 * if CNSS_GENL is enabled. Else, use the legacy netlink socket to send. 1602 * 1603 * Return: zero on success, error code otherwise 1604 */ 1605 static int nl_srv_bcast_fw_logs(struct sk_buff *skb) 1606 { 1607 #ifdef CNSS_GENL 1608 return nl_srv_bcast(skb, CLD80211_MCGRP_FW_LOGS, WLAN_NL_MSG_CNSS_DIAG); 1609 #else 1610 return nl_srv_bcast(skb); 1611 #endif 1612 } 1613 1614 /** 1615 * send_fw_diag_nl_data - pack the data from fw diag event handler 1616 * @buffer: buffer of diag event 1617 * @len: length of the diag event 1618 * @event: the even type 1619 * 1620 * return: 0 if sent successfully, otherwise error code 1621 */ 1622 static int send_fw_diag_nl_data(const uint8_t *buffer, uint32_t len, 1623 uint32_t event_type) 1624 { 1625 struct sk_buff *skb_out; 1626 struct nlmsghdr *nlh; 1627 int res = 0; 1628 tAniNlHdr *wnl; 1629 int radio; 1630 int msg_len; 1631 1632 if (WARN_ON(len > ATH6KL_FWLOG_PAYLOAD_SIZE)) 1633 return -ENODEV; 1634 1635 if (nl_srv_is_initialized() != 0) 1636 return -EIO; 1637 1638 radio = cds_get_radio_index(); 1639 if (radio == -EINVAL) 1640 return -EIO; 1641 1642 if (cds_is_multicast_logging()) { 1643 msg_len = len + sizeof(radio); 1644 skb_out = nlmsg_new(msg_len, GFP_KERNEL); 1645 if (!skb_out) { 1646 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1647 ("Failed to allocate new skb\n")); 1648 return -ENOMEM; 1649 } 1650 nlh = nlmsg_put(skb_out, 0, 0, WLAN_NL_MSG_CNSS_DIAG, msg_len, 1651 0); 1652 if (!nlh) { 1653 kfree_skb(skb_out); 1654 return -EMSGSIZE; 1655 } 1656 wnl = (tAniNlHdr *)nlh; 1657 wnl->radio = radio; 1658 1659 /* data buffer offset from nlmsg_hdr + sizeof(int) radio */ 1660 memcpy(nlmsg_data(nlh) + sizeof(radio), buffer, len); 1661 1662 res = nl_srv_bcast_fw_logs(skb_out); 1663 if ((res < 0) && (res != -ESRCH)) { 1664 AR_DEBUG_PRINTF(ATH_DEBUG_RSVD1, 1665 ("%s: nl_srv_bcast_fw_logs failed 0x%x\n", 1666 __func__, res)); 1667 return res; 1668 } 1669 } 1670 return res; 1671 } 1672 1673 /** 1674 * process_fw_diag_event_data() - process diag events and fw messages 1675 * @datap: data to be processed 1676 * @num_data: number of data chunks 1677 * 1678 * return: success 1679 */ 1680 static int 1681 process_fw_diag_event_data(uint8_t *datap, uint32_t num_data) 1682 { 1683 uint32_t diag_type; 1684 uint32_t nl_data_len; /* diag hdr + payload */ 1685 uint32_t diag_data_len; /* each fw diag payload */ 1686 struct wlan_diag_data *diag_data; 1687 1688 while (num_data > 0) { 1689 diag_data = (struct wlan_diag_data *)datap; 1690 diag_type = WLAN_DIAG_0_TYPE_GET(diag_data->word0); 1691 diag_data_len = WLAN_DIAG_0_LEN_GET(diag_data->word0); 1692 /* Length of diag struct and len of payload */ 1693 nl_data_len = sizeof(struct wlan_diag_data) + diag_data_len; 1694 if (nl_data_len > num_data) { 1695 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 1696 ("processed all the messages\n")); 1697 return 0; 1698 } 1699 1700 switch (diag_type) { 1701 case DIAG_TYPE_FW_EVENT: 1702 return send_fw_diag_nl_data(datap, nl_data_len, 1703 diag_type); 1704 break; 1705 case DIAG_TYPE_FW_LOG: 1706 return send_fw_diag_nl_data(datap, nl_data_len, 1707 diag_type); 1708 break; 1709 } 1710 /* Move to the next event and send to cnss-diag */ 1711 datap += nl_data_len; 1712 num_data -= nl_data_len; 1713 } 1714 1715 return 0; 1716 } 1717 1718 static int 1719 send_diag_netlink_data(const uint8_t *buffer, uint32_t len, uint32_t cmd) 1720 { 1721 struct sk_buff *skb_out; 1722 struct nlmsghdr *nlh; 1723 int res = 0; 1724 struct dbglog_slot *slot; 1725 size_t slot_len; 1726 tAniNlHdr *wnl; 1727 int radio; 1728 1729 if (WARN_ON(len > ATH6KL_FWLOG_PAYLOAD_SIZE)) 1730 return -ENODEV; 1731 1732 if (nl_srv_is_initialized() != 0) 1733 return -EIO; 1734 1735 radio = cds_get_radio_index(); 1736 if (radio == -EINVAL) 1737 return -EIO; 1738 1739 if (cds_is_multicast_logging()) { 1740 slot_len = sizeof(*slot) + ATH6KL_FWLOG_PAYLOAD_SIZE + 1741 sizeof(radio); 1742 1743 skb_out = nlmsg_new(slot_len, GFP_KERNEL); 1744 if (!skb_out) { 1745 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1746 ("Failed to allocate new skb\n")); 1747 return A_ERROR; 1748 } 1749 1750 nlh = nlmsg_put(skb_out, 0, 0, WLAN_NL_MSG_CNSS_DIAG, 1751 slot_len, 0); 1752 if (!nlh) { 1753 kfree_skb(skb_out); 1754 return -EMSGSIZE; 1755 } 1756 wnl = (tAniNlHdr *)nlh; 1757 wnl->radio = radio; 1758 /* data buffer offset from: nlmsg_hdr + sizeof(int) radio */ 1759 slot = (struct dbglog_slot *) (nlmsg_data(nlh) + sizeof(radio)); 1760 slot->diag_type = cmd; 1761 slot->timestamp = cpu_to_le32(jiffies); 1762 slot->length = cpu_to_le32(len); 1763 /* Version mapped to get_version here */ 1764 slot->dropped = get_version; 1765 memcpy(slot->payload, buffer, len); 1766 1767 res = nl_srv_bcast_fw_logs(skb_out); 1768 if ((res < 0) && (res != -ESRCH)) { 1769 AR_DEBUG_PRINTF(ATH_DEBUG_RSVD1, 1770 ("%s: nl_srv_bcast_fw_logs failed 0x%x\n", 1771 __func__, res)); 1772 return res; 1773 } 1774 } 1775 return res; 1776 } 1777 1778 static int 1779 dbglog_process_netlink_data(wmi_unified_t wmi_handle, const uint8_t *buffer, 1780 uint32_t len, uint32_t dropped) 1781 { 1782 struct sk_buff *skb_out; 1783 struct nlmsghdr *nlh; 1784 int res = 0; 1785 struct dbglog_slot *slot; 1786 size_t slot_len; 1787 tAniNlHdr *wnl; 1788 int radio; 1789 1790 if (WARN_ON(len > ATH6KL_FWLOG_PAYLOAD_SIZE)) 1791 return -ENODEV; 1792 1793 if (nl_srv_is_initialized() != 0) 1794 return -EIO; 1795 1796 radio = cds_get_radio_index(); 1797 if (radio == -EINVAL) 1798 return -EIO; 1799 1800 if (cds_is_multicast_logging()) { 1801 slot_len = sizeof(*slot) + ATH6KL_FWLOG_PAYLOAD_SIZE + 1802 sizeof(radio); 1803 1804 skb_out = nlmsg_new(slot_len, GFP_KERNEL); 1805 if (!skb_out) { 1806 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1807 ("Failed to allocate new skb\n")); 1808 return A_ERROR; 1809 } 1810 1811 nlh = nlmsg_put(skb_out, 0, 0, WLAN_NL_MSG_CNSS_DIAG, 1812 slot_len, 0); 1813 if (!nlh) { 1814 kfree_skb(skb_out); 1815 return -EMSGSIZE; 1816 } 1817 wnl = (tAniNlHdr *)nlh; 1818 wnl->radio = radio; 1819 /* data buffer offset from: nlmsg_hdr + sizeof(int) radio */ 1820 slot = (struct dbglog_slot *) (nlmsg_data(nlh) + sizeof(radio)); 1821 slot->diag_type = (uint32_t) DIAG_TYPE_FW_DEBUG_MSG; 1822 slot->timestamp = cpu_to_le32(jiffies); 1823 slot->length = cpu_to_le32(len); 1824 slot->dropped = cpu_to_le32(dropped); 1825 memcpy(slot->payload, buffer, len); 1826 1827 res = nl_srv_bcast_fw_logs(skb_out); 1828 if ((res < 0) && (res != -ESRCH)) { 1829 AR_DEBUG_PRINTF(ATH_DEBUG_RSVD1, 1830 ("%s: nl_srv_bcast_fw_logs failed 0x%x\n", 1831 __func__, res)); 1832 return res; 1833 } 1834 } 1835 return res; 1836 } 1837 1838 /* 1839 * WMI diag data event handler, this function invoked as a CB 1840 * when there DIAG_EVENT, DIAG_MSG, DIAG_DBG to be 1841 * forwarded from the FW. This is the new implementation for 1842 * replacement of fw_dbg and dbg messages 1843 */ 1844 1845 static int diag_fw_handler(ol_scn_t scn, uint8_t *data, uint32_t datalen) 1846 { 1847 1848 tp_wma_handle wma = (tp_wma_handle) scn; 1849 WMI_DIAG_EVENTID_param_tlvs *param_buf; 1850 uint8_t *datap; 1851 uint32_t len = 0; 1852 uint32_t *buffer; 1853 1854 if (!wma) { 1855 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("NULL Pointer assigned\n")); 1856 return A_ERROR; 1857 } 1858 /* when fw asser occurs,host can't use TLV format. */ 1859 if (wma->is_fw_assert) { 1860 datap = data; 1861 len = datalen; 1862 wma->is_fw_assert = 0; 1863 } else { 1864 param_buf = (WMI_DIAG_EVENTID_param_tlvs *) data; 1865 if (!param_buf) { 1866 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1867 ("Get NULL point message from FW\n")); 1868 return A_ERROR; 1869 } 1870 1871 datap = param_buf->bufp; 1872 len = param_buf->num_bufp; 1873 1874 if (!get_version) { 1875 if (len < 2*(sizeof(uint32_t))) { 1876 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1877 ("len is less than expected\n")); 1878 return A_ERROR; 1879 } 1880 buffer = (uint32_t *) datap; 1881 buffer++; /* skip offset */ 1882 if (WLAN_DIAG_TYPE_CONFIG == DIAG_GET_TYPE(*buffer)) { 1883 if (len < 3*(sizeof(uint32_t))) { 1884 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1885 ("len is less than expected\n")); 1886 return A_ERROR; 1887 } 1888 buffer++; /* skip */ 1889 if (DIAG_VERSION_INFO == DIAG_GET_ID(*buffer)) { 1890 if (len < 4*(sizeof(uint32_t))) { 1891 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1892 ("len is less than expected\n")); 1893 return A_ERROR; 1894 } 1895 buffer++; /* skip */ 1896 /* get payload */ 1897 get_version = *buffer; 1898 } 1899 } 1900 } 1901 } 1902 if (dbglog_process_type == DBGLOG_PROCESS_PRINT_RAW) { 1903 if (!gprint_limiter) { 1904 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1905 ("NOT Supported only supports net link socket\n")); 1906 gprint_limiter = true; 1907 } 1908 return 0; 1909 } 1910 1911 if (dbglog_process_type == DBGLOG_PROCESS_NET_RAW) { 1912 return send_diag_netlink_data((uint8_t *) datap, 1913 len, DIAG_TYPE_FW_MSG); 1914 } 1915 #ifdef WLAN_OPEN_SOURCE 1916 if (dbglog_process_type == DBGLOG_PROCESS_POOL_RAW) { 1917 if (!gprint_limiter) { 1918 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1919 ("NOT Supported only supports net link socket\n")); 1920 gprint_limiter = true; 1921 } 1922 return 0; 1923 } 1924 #endif /* WLAN_OPEN_SOURCE */ 1925 if (!gprint_limiter) { 1926 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1927 ("NOT Supported only supports net link socket\n")); 1928 gprint_limiter = true; 1929 } 1930 /* Always returns zero */ 1931 return 0; 1932 } 1933 1934 /* 1935 * WMI diag data event handler, this function invoked as a CB 1936 * when there DIAG_DATA to be forwarded from the FW. 1937 */ 1938 static int 1939 fw_diag_data_event_handler(ol_scn_t scn, uint8_t *data, uint32_t datalen) 1940 { 1941 1942 WMI_DIAG_DATA_CONTAINER_EVENTID_param_tlvs *param_buf; 1943 uint8_t *datap; 1944 uint32_t num_data; /* Total events */ 1945 1946 param_buf = (WMI_DIAG_DATA_CONTAINER_EVENTID_param_tlvs *) data; 1947 if (!param_buf) { 1948 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1949 ("Got NULL point message from FW\n")); 1950 return A_ERROR; 1951 } 1952 1953 num_data = param_buf->num_bufp; 1954 1955 datap = (uint8_t *) param_buf->bufp; 1956 1957 return process_fw_diag_event_data(datap, num_data); 1958 } 1959 1960 int dbglog_parse_debug_logs(ol_scn_t scn, uint8_t *data, uint32_t datalen) 1961 { 1962 tp_wma_handle wma = (tp_wma_handle) scn; 1963 uint32_t count; 1964 uint32_t *buffer; 1965 uint32_t timestamp; 1966 uint32_t debugid; 1967 uint32_t moduleid; 1968 uint16_t vapid; 1969 uint16_t numargs; 1970 qdf_size_t length; 1971 uint32_t dropped; 1972 WMI_DEBUG_MESG_EVENTID_param_tlvs *param_buf; 1973 uint8_t *datap; 1974 uint32_t len; 1975 1976 if (!wma) { 1977 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("NULL Pointer assigned\n")); 1978 return A_ERROR; 1979 } 1980 /*when fw asser occurs,host can't use TLV format. */ 1981 if (wma->is_fw_assert) { 1982 datap = data; 1983 len = datalen; 1984 wma->is_fw_assert = 0; 1985 } else { 1986 param_buf = (WMI_DEBUG_MESG_EVENTID_param_tlvs *) data; 1987 if (!param_buf) { 1988 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 1989 ("Get NULL point message from FW\n")); 1990 return A_ERROR; 1991 } 1992 1993 datap = param_buf->bufp; 1994 len = param_buf->num_bufp; 1995 } 1996 1997 if (len < sizeof(dropped)) { 1998 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Invalid length\n")); 1999 return A_ERROR; 2000 } 2001 2002 dropped = *((uint32_t *) datap); 2003 if (dropped > 0) { 2004 AR_DEBUG_PRINTF(ATH_DEBUG_TRC, 2005 ("%d log buffers are dropped\n", dropped)); 2006 } 2007 datap += sizeof(dropped); 2008 len -= sizeof(dropped); 2009 2010 count = 0; 2011 buffer = (uint32_t *) datap; 2012 length = (len >> 2); 2013 2014 if (dbglog_process_type == DBGLOG_PROCESS_PRINT_RAW) 2015 return dbglog_print_raw_data(buffer, length); 2016 2017 if (dbglog_process_type == DBGLOG_PROCESS_NET_RAW) { 2018 return dbglog_process_netlink_data((wmi_unified_t) wma-> 2019 wmi_handle, 2020 (uint8_t *) buffer, 2021 len, dropped); 2022 } 2023 #ifdef WLAN_OPEN_SOURCE 2024 if (dbglog_process_type == DBGLOG_PROCESS_POOL_RAW) { 2025 return dbglog_debugfs_raw_data((wmi_unified_t) wma->wmi_handle, 2026 (uint8_t *) buffer, len, 2027 dropped); 2028 } 2029 #endif /* WLAN_OPEN_SOURCE */ 2030 2031 while ((count + 2) < length) { 2032 timestamp = DBGLOG_GET_TIME_STAMP(buffer[count]); 2033 debugid = DBGLOG_GET_DBGID(buffer[count + 1]); 2034 moduleid = DBGLOG_GET_MODULEID(buffer[count + 1]); 2035 vapid = DBGLOG_GET_VDEVID(buffer[count + 1]); 2036 numargs = DBGLOG_GET_NUMARGS(buffer[count + 1]); 2037 2038 if ((count + 2 + numargs) > length) 2039 return A_OK; 2040 2041 if (moduleid >= WLAN_MODULE_ID_MAX) 2042 return A_OK; 2043 2044 if (mod_print[moduleid] == NULL) { 2045 /* 2046 * No module specific log registered 2047 * use the default handler 2048 */ 2049 dbglog_default_print_handler(moduleid, vapid, debugid, 2050 timestamp, numargs, 2051 (((uint32_t *) buffer) + 2052 2 + count)); 2053 } else { 2054 if (!(mod_print[moduleid](moduleid, vapid, debugid, 2055 timestamp, numargs, 2056 (((uint32_t *) buffer) + 2057 2 + count)))) { 2058 /* 2059 * The message is not handled 2060 * by the module specific handler 2061 */ 2062 dbglog_default_print_handler(moduleid, vapid, 2063 debugid, timestamp, 2064 numargs, 2065 (((uint32_t *) 2066 buffer) + 2 + 2067 count)); 2068 2069 } 2070 } 2071 2072 /* 32 bit Time stamp + 32 bit Dbg header */ 2073 count += numargs + 2; 2074 } 2075 /* Always returns zero */ 2076 return A_OK; 2077 } 2078 2079 void dbglog_reg_modprint(uint32_t mod_id, module_dbg_print printfn) 2080 { 2081 if (!mod_print[mod_id]) { 2082 mod_print[mod_id] = printfn; 2083 } else { 2084 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 2085 ("module print is already registered for this module %d\n", 2086 mod_id)); 2087 } 2088 } 2089 2090 static void 2091 dbglog_sm_print(uint32_t timestamp, 2092 uint16_t vap_id, 2093 uint16_t numargs, 2094 uint32_t *args, 2095 const char *module_prefix, 2096 const char *const states[], uint32_t num_states, 2097 const char *const events[], uint32_t num_events) 2098 { 2099 uint8_t type, arg1, arg2, arg3; 2100 uint32_t extra, extra2, extra3; 2101 2102 if (numargs != 4) 2103 return; 2104 2105 type = (args[0] >> 24) & 0xff; 2106 arg1 = (args[0] >> 16) & 0xff; 2107 arg2 = (args[0] >> 8) & 0xff; 2108 arg3 = (args[0] >> 0) & 0xff; 2109 2110 extra = args[1]; 2111 extra2 = args[2]; 2112 extra3 = args[3]; 2113 2114 switch (type) { 2115 case 0: /* state transition */ 2116 if (arg1 < num_states && arg2 < num_states) { 2117 dbglog_printf(timestamp, vap_id, 2118 "%s: %s => %s (%#x, %#x, %#x)", 2119 module_prefix, states[arg1], states[arg2], 2120 extra, extra2, extra3); 2121 } else { 2122 dbglog_printf(timestamp, vap_id, 2123 "%s: %u => %u (%#x, %#x, %#x)", 2124 module_prefix, arg1, arg2, extra, extra2, 2125 extra3); 2126 } 2127 break; 2128 case 1: /* dispatch event */ 2129 if (arg1 < num_states && arg2 < num_events) { 2130 dbglog_printf(timestamp, vap_id, 2131 "%s: %s < %s (%#x, %#x, %#x)", 2132 module_prefix, states[arg1], events[arg2], 2133 extra, extra2, extra3); 2134 } else { 2135 dbglog_printf(timestamp, vap_id, 2136 "%s: %u < %u (%#x, %#x, %#x)", 2137 module_prefix, arg1, arg2, extra, extra2, 2138 extra3); 2139 } 2140 break; 2141 case 2: /* warning */ 2142 switch (arg1) { 2143 case 0: /* unhandled event */ 2144 if (arg2 < num_states && arg3 < num_events) { 2145 dbglog_printf(timestamp, vap_id, 2146 "%s: unhandled event %s in state %s (%#x, %#x, %#x)", 2147 module_prefix, events[arg3], 2148 states[arg2], extra, extra2, 2149 extra3); 2150 } else { 2151 dbglog_printf(timestamp, vap_id, 2152 "%s: unhandled event %u in state %u (%#x, %#x, %#x)", 2153 module_prefix, arg3, arg2, extra, 2154 extra2, extra3); 2155 } 2156 break; 2157 default: 2158 break; 2159 2160 } 2161 break; 2162 } 2163 } 2164 2165 static A_BOOL 2166 dbglog_sta_powersave_print_handler(uint32_t mod_id, 2167 uint16_t vap_id, 2168 uint32_t dbg_id, 2169 uint32_t timestamp, 2170 uint16_t numargs, uint32_t *args) 2171 { 2172 static const char *const states[] = { 2173 "IDLE", 2174 "ACTIVE", 2175 "SLEEP_TXQ_FLUSH", 2176 "SLEEP_TX_SENT", 2177 "PAUSE", 2178 "SLEEP_DOZE", 2179 "SLEEP_AWAKE", 2180 "ACTIVE_TXQ_FLUSH", 2181 "ACTIVE_TX_SENT", 2182 "PAUSE_TXQ_FLUSH", 2183 "PAUSE_TX_SENT", 2184 "IDLE_TXQ_FLUSH", 2185 "IDLE_TX_SENT", 2186 }; 2187 2188 static const char *const events[] = { 2189 "START", 2190 "STOP", 2191 "PAUSE", 2192 "UNPAUSE", 2193 "TIM", 2194 "DTIM", 2195 "SEND_COMPLETE", 2196 "PRE_SEND", 2197 "RX", 2198 "HWQ_EMPTY", 2199 "PAUSE_TIMEOUT", 2200 "TXRX_INACTIVITY_TIMEOUT", 2201 "PSPOLL_TIMEOUT", 2202 "UAPSD_TIMEOUT", 2203 "DELAYED_SLEEP_TIMEOUT", 2204 "SEND_N_COMPLETE", 2205 "TIDQ_PAUSE_COMPLETE", 2206 "SEND_PSPOLL", 2207 "SEND_SPEC_PSPOLL", 2208 }; 2209 2210 switch (dbg_id) { 2211 case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: 2212 dbglog_sm_print(timestamp, vap_id, numargs, args, "STA PS", 2213 states, QDF_ARRAY_SIZE(states), events, 2214 QDF_ARRAY_SIZE(events)); 2215 break; 2216 case PS_STA_PM_ARB_REQUEST: 2217 if (numargs == 4) { 2218 dbglog_printf(timestamp, vap_id, 2219 "PM ARB request flags=%x, last_time=%x %s: %s", 2220 args[1], args[2], 2221 dbglog_get_module_str(args[0]), 2222 args[3] ? "SLEEP" : "WAKE"); 2223 } 2224 break; 2225 case PS_STA_DELIVER_EVENT: 2226 if (numargs == 2) { 2227 dbglog_printf(timestamp, vap_id, "STA PS: %s %s", 2228 (args[0] == 0 ? "PAUSE_COMPLETE" : 2229 (args[0] == 1 ? "UNPAUSE_COMPLETE" : 2230 (args[0] == 2 ? "SLEEP" : 2231 (args[0] == 2232 3 ? "AWAKE" : "UNKNOWN")))), 2233 (args[1] == 2234 0 ? "SUCCESS" : (args[1] == 2235 1 ? "TXQ_FLUSH_TIMEOUT" 2236 : (args[1] == 2237 2 ? "NO_ACK" 2238 : (args[1] == 2239 3 ? 2240 "RX_LEAK_TIMEOUT" 2241 : (args[1] == 2242 4 ? 2243 "PSPOLL_UAPSD_BUSY_TIMEOUT" 2244 : 2245 "UNKNOWN")))))); 2246 } 2247 break; 2248 case PS_STA_PSPOLL_SEQ_DONE: 2249 if (numargs == 5) { 2250 dbglog_printf(timestamp, vap_id, 2251 "STA PS poll: queue=%u comp=%u rsp=%u rsp_dur=%u fc=%x qos=%x %s", 2252 args[0], args[1], args[2], args[3], 2253 (args[4] >> 16) & 0xffff, 2254 (args[4] >> 8) & 0xff, 2255 (args[4] & 0xff) == 2256 0 ? "SUCCESS" : (args[4] & 0xff) == 2257 1 ? "NO_ACK" : (args[4] & 0xff) == 2258 2 ? "DROPPED" : (args[4] & 0xff) == 2259 3 ? "FILTERED" : (args[4] & 0xff) == 2260 4 ? "RSP_TIMEOUT" : "UNKNOWN"); 2261 } 2262 break; 2263 case PS_STA_COEX_MODE: 2264 if (numargs == 1) { 2265 dbglog_printf(timestamp, vap_id, "STA PS COEX MODE %s", 2266 args[0] ? "ENABLED" : "DISABLED"); 2267 } 2268 break; 2269 case PS_STA_PSPOLL_ALLOW: 2270 if (numargs == 3) { 2271 dbglog_printf(timestamp, vap_id, 2272 "STA PS-Poll %s flags=%x time=%u", 2273 args[0] ? "ALLOW" : "DISALLOW", args[1], 2274 args[2]); 2275 } 2276 break; 2277 case PS_STA_SET_PARAM: 2278 if (numargs == 2) { 2279 struct { 2280 char *name; 2281 int is_time_param; 2282 } params[] = { 2283 { 2284 "MAX_SLEEP_ATTEMPTS", 0 2285 }, { 2286 "DELAYED_SLEEP", 1 2287 }, { 2288 "TXRX_INACTIVITY", 1 2289 }, { 2290 "MAX_TX_BEFORE_WAKE", 0 2291 }, { 2292 "UAPSD_TIMEOUT", 1 2293 }, { 2294 "UAPSD_CONFIG", 0 2295 }, { 2296 "PSPOLL_RESPONSE_TIMEOUT", 1 2297 }, { 2298 "MAX_PSPOLL_BEFORE_WAKE", 0 2299 }, { 2300 "RX_WAKE_POLICY", 0 2301 }, { 2302 "DELAYED_PAUSE_RX_LEAK", 1 2303 }, { 2304 "TXRX_INACTIVITY_BLOCKED_RETRY", 1 2305 }, { 2306 "SPEC_WAKE_INTERVAL", 1 2307 }, { 2308 "MAX_SPEC_NODATA_PSPOLL", 0 2309 }, { 2310 "ESTIMATED_PSPOLL_RESP_TIME", 1 2311 }, { 2312 "QPOWER_MAX_PSPOLL_BEFORE_WAKE", 0 2313 }, { 2314 "QPOWER_ENABLE", 0 2315 }, 2316 }; 2317 uint32_t param = args[0]; 2318 uint32_t value = args[1]; 2319 2320 if (param < QDF_ARRAY_SIZE(params)) { 2321 if (params[param].is_time_param) { 2322 dbglog_printf(timestamp, vap_id, 2323 "STA PS SET_PARAM %s => %u (us)", 2324 params[param].name, 2325 value); 2326 } else { 2327 dbglog_printf(timestamp, vap_id, 2328 "STA PS SET_PARAM %s => %#x", 2329 params[param].name, 2330 value); 2331 } 2332 } else { 2333 dbglog_printf(timestamp, vap_id, 2334 "STA PS SET_PARAM %x => %#x", 2335 param, value); 2336 } 2337 } 2338 break; 2339 case PS_STA_SPECPOLL_TIMER_STARTED: 2340 dbglog_printf(timestamp, vap_id, 2341 "SPEC Poll Timer Started: Beacon time Remaining:%d wakeup interval:%d", 2342 args[0], args[1]); 2343 break; 2344 case PS_STA_SPECPOLL_TIMER_STOPPED: 2345 dbglog_printf(timestamp, vap_id, "SPEC Poll Timer Stopped"); 2346 break; 2347 default: 2348 return false; 2349 } 2350 2351 return true; 2352 } 2353 2354 /* IBSS PS sub modules */ 2355 enum wlan_ibss_ps_sub_module { 2356 WLAN_IBSS_PS_SUB_MODULE_IBSS_NW_SM = 0, 2357 WLAN_IBSS_PS_SUB_MODULE_IBSS_SELF_PS = 1, 2358 WLAN_IBSS_PS_SUB_MODULE_IBSS_PEER_PS = 2, 2359 WLAN_IBSS_PS_SUB_MODULE_MAX = 3, 2360 }; 2361 2362 #define WLAN_IBSS_PS_SUB_MODULE_OFFSET 0x1E 2363 2364 static A_BOOL 2365 dbglog_ibss_powersave_print_handler(uint32_t mod_id, 2366 uint16_t vap_id, 2367 uint32_t dbg_id, 2368 uint32_t timestamp, 2369 uint16_t numargs, uint32_t *args) 2370 { 2371 static const char *const nw_states[] = { 2372 "WAIT_FOR_TBTT", 2373 "ATIM_WINDOW_PRE_BCN", 2374 "ATIM_WINDOW_POST_BCN", 2375 "OUT_OF_ATIM_WINDOW", 2376 "PAUSE_PENDING", 2377 "PAUSED", 2378 }; 2379 2380 static const char *const ps_states[] = { 2381 "ACTIVE", 2382 "SLEEP_TX_SEND", 2383 "SLEEP_DOZE_PAUSE_PENDING", 2384 "SLEEP_DOZE", 2385 "SLEEP_AWAKE", 2386 "ACTIVE_TX_SEND", 2387 "PAUSE_TX_SEND", 2388 "PAUSED", 2389 }; 2390 2391 static const char *const peer_ps_states[] = { 2392 "ACTIVE", 2393 "SLEEP_AWAKE", 2394 "SLEEP_DOZE", 2395 "PS_UNKNOWN", 2396 }; 2397 2398 static const char *const events[] = { 2399 "START", 2400 "STOP", 2401 "SWBA", 2402 "TBTT", 2403 "TX_BCN_CMP", 2404 "SEND_COMPLETE", 2405 "SEND_N_COMPLETE", 2406 "PRE_SEND", 2407 "RX", 2408 "UC_INACTIVITY_TIMEOUT", 2409 "BC_INACTIVITY_TIMEOUT", 2410 "ATIM_WINDOW_BEGIN", 2411 "ATIM_WINDOW_END", 2412 "HWQ_EMPTY", 2413 "UC_ATIM_RCVD", 2414 "TRAFFIC_EXCHANGE_DONE", 2415 "POWER_SAVE_STATE_CHANGE", 2416 "NEW_PEER_JOIN", 2417 "IBSS_VDEV_PAUSE_REQUEST", 2418 "IBSS_VDEV_PAUSE_RESPONSE", 2419 "IBSS_VDEV_PAUSE_TIMEOUT", 2420 "IBSS_VDEV_UNPAUSE_REQUEST", 2421 "PS_STATE_CHANGE", 2422 }; 2423 2424 enum wlan_ibss_ps_sub_module sub_module; 2425 2426 switch (dbg_id) { 2427 case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: 2428 sub_module = (args[1] >> WLAN_IBSS_PS_SUB_MODULE_OFFSET) & 0x3; 2429 switch (sub_module) { 2430 case WLAN_IBSS_PS_SUB_MODULE_IBSS_NW_SM: 2431 dbglog_sm_print(timestamp, vap_id, numargs, args, 2432 "IBSS PS NW", nw_states, 2433 QDF_ARRAY_SIZE(nw_states), events, 2434 QDF_ARRAY_SIZE(events)); 2435 break; 2436 case WLAN_IBSS_PS_SUB_MODULE_IBSS_SELF_PS: 2437 dbglog_sm_print(timestamp, vap_id, numargs, args, 2438 "IBSS PS Self", ps_states, 2439 QDF_ARRAY_SIZE(ps_states), events, 2440 QDF_ARRAY_SIZE(events)); 2441 break; 2442 case WLAN_IBSS_PS_SUB_MODULE_IBSS_PEER_PS: 2443 dbglog_sm_print(timestamp, vap_id, numargs, args, 2444 "IBSS PS Peer", peer_ps_states, 2445 QDF_ARRAY_SIZE(peer_ps_states), events, 2446 QDF_ARRAY_SIZE(events)); 2447 break; 2448 default: 2449 break; 2450 } 2451 break; 2452 case IBSS_PS_DBGID_PEER_CREATE: 2453 if (numargs == 2) { 2454 dbglog_printf(timestamp, vap_id, 2455 "IBSS PS: peer alloc failed for peer ID:%u", 2456 args[0]); 2457 } else if (numargs == 1) { 2458 dbglog_printf(timestamp, vap_id, 2459 "IBSS PS: create peer ID=%u", args[0]); 2460 } 2461 break; 2462 case IBSS_PS_DBGID_PEER_DELETE: 2463 if (numargs == 4) { 2464 dbglog_printf(timestamp, vap_id, 2465 "IBSS PS: delete peer ID=%u num_peers:%d num_sleeping_peers:%d ps_enabled_for_this_peer:%d", 2466 args[0], args[1], args[2], args[3]); 2467 } 2468 break; 2469 case IBSS_PS_DBGID_VDEV_CREATE: 2470 if (numargs == 1) { 2471 dbglog_printf(timestamp, vap_id, 2472 "IBSS PS: vdev alloc failed", args[0]); 2473 } else if (numargs == 0) { 2474 dbglog_printf(timestamp, vap_id, 2475 "IBSS PS: vdev created"); 2476 } 2477 break; 2478 case IBSS_PS_DBGID_VDEV_DELETE: 2479 dbglog_printf(timestamp, vap_id, "IBSS PS: vdev deleted"); 2480 break; 2481 2482 case IBSS_PS_DBGID_VDEV_EVENT: 2483 if (numargs == 1) { 2484 if (args[0] == 5) { 2485 dbglog_printf(timestamp, vap_id, 2486 "IBSS PS: vdev event for peer add"); 2487 } else if (args[0] == 7) { 2488 dbglog_printf(timestamp, vap_id, 2489 "IBSS PS: vdev event for peer delete"); 2490 } else { 2491 dbglog_printf(timestamp, vap_id, 2492 "IBSS PS: vdev event %u", 2493 args[0]); 2494 } 2495 } 2496 break; 2497 2498 case IBSS_PS_DBGID_PEER_EVENT: 2499 if (numargs == 4) { 2500 if (args[0] == 0xFFFF) { 2501 dbglog_printf(timestamp, vap_id, 2502 "IBSS PS: pre_send for peer:%u peer_type:%u sm_event_mask:%0x", 2503 args[1], args[3], args[2]); 2504 } else if (args[0] == 0x20000) { 2505 dbglog_printf(timestamp, vap_id, 2506 "IBSS PS: send_complete for peer:%u peer_type:%u sm_event_mask:%0x", 2507 args[1], args[3], args[2]); 2508 } else if (args[0] == 0x10) { 2509 dbglog_printf(timestamp, vap_id, 2510 "IBSS PS: send_n_complete for peer:%u peer_type:%u sm_event_mask:%0x", 2511 args[1], args[3], args[2]); 2512 } else if (args[0] == 0x40) { 2513 dbglog_printf(timestamp, vap_id, 2514 "IBSS PS: rx event for peer:%u peer_type:%u sm_event_mask:%0x", 2515 args[1], args[3], args[2]); 2516 } else if (args[0] == 0x4) { 2517 dbglog_printf(timestamp, vap_id, 2518 "IBSS PS: hw_q_empty for peer:%u peer_type:%u sm_event_mask:%0x", 2519 args[1], args[3], args[2]); 2520 } 2521 } 2522 break; 2523 2524 case IBSS_PS_DBGID_DELIVER_CAB: 2525 if (numargs == 4) { 2526 dbglog_printf(timestamp, vap_id, 2527 "IBSS PS: Deliver CAB n_mpdu:%d send_flags:%0x tid_cur:%d q_depth_for_other_tid:%d", 2528 args[0], args[1], args[2], args[3]); 2529 } 2530 break; 2531 2532 case IBSS_PS_DBGID_DELIVER_UC_DATA: 2533 if (numargs == 4) { 2534 dbglog_printf(timestamp, vap_id, 2535 "IBSS PS: Deliver UC data peer:%d tid:%d n_mpdu:%d send_flags:%0x", 2536 args[0], args[1], args[2], args[3]); 2537 } 2538 break; 2539 2540 case IBSS_PS_DBGID_DELIVER_UC_DATA_ERROR: 2541 if (numargs == 4) { 2542 dbglog_printf(timestamp, vap_id, 2543 "IBSS PS: Deliver UC data error peer:%d tid:%d allowed_tidmask:%0x, pending_tidmap:%0x", 2544 args[0], args[1], args[2], args[3]); 2545 } 2546 break; 2547 2548 case IBSS_PS_DBGID_UC_INACTIVITY_TMR_RESTART: 2549 if (numargs == 2) { 2550 dbglog_printf(timestamp, vap_id, 2551 "IBSS PS: UC timer restart peer:%d timer_val:%0x", 2552 args[0], args[1]); 2553 } 2554 break; 2555 2556 case IBSS_PS_DBGID_MC_INACTIVITY_TMR_RESTART: 2557 if (numargs == 1) { 2558 dbglog_printf(timestamp, vap_id, 2559 "IBSS PS: MC timer restart timer_val:%0x", 2560 args[0]); 2561 } 2562 break; 2563 2564 case IBSS_PS_DBGID_NULL_TX_COMPLETION: 2565 if (numargs == 3) { 2566 dbglog_printf(timestamp, vap_id, 2567 "IBSS PS: null tx completion peer:%d tx_completion_status:%d flags:%0x", 2568 args[0], args[1], args[2]); 2569 } 2570 break; 2571 2572 case IBSS_PS_DBGID_ATIM_TIMER_START: 2573 if (numargs == 4) { 2574 dbglog_printf(timestamp, vap_id, 2575 "IBSS PS: ATIM timer start tsf:%0x %0x tbtt:%0x %0x", 2576 args[0], args[1], args[2], args[3]); 2577 } 2578 break; 2579 2580 case IBSS_PS_DBGID_UC_ATIM_SEND: 2581 if (numargs == 2) { 2582 dbglog_printf(timestamp, vap_id, 2583 "IBSS PS: Send ATIM to peer:%d", args[1]); 2584 } else if (numargs == 1) { 2585 dbglog_printf(timestamp, vap_id, 2586 "IBSS PS: no peers to send UC ATIM", 2587 args[1]); 2588 } 2589 break; 2590 2591 case IBSS_PS_DBGID_BC_ATIM_SEND: 2592 if (numargs == 2) { 2593 dbglog_printf(timestamp, vap_id, 2594 "IBSS PS: MC Data, num_of_peers:%d bc_atim_sent:%d", 2595 args[1], args[0]); 2596 } 2597 break; 2598 2599 case IBSS_PS_DBGID_UC_TIMEOUT: 2600 if (numargs == 2) { 2601 dbglog_printf(timestamp, vap_id, 2602 "IBSS PS: UC timeout for peer:%d send_null:%d", 2603 args[0], args[1]); 2604 } 2605 break; 2606 2607 case IBSS_PS_DBGID_PWR_COLLAPSE_ALLOWED: 2608 dbglog_printf(timestamp, vap_id, 2609 "IBSS PS: allow power collapse"); 2610 break; 2611 2612 case IBSS_PS_DBGID_PWR_COLLAPSE_NOT_ALLOWED: 2613 if (numargs == 0) { 2614 dbglog_printf(timestamp, vap_id, 2615 "IBSS PS: power collapse not allowed by INI"); 2616 } else if (numargs == 1) { 2617 dbglog_printf(timestamp, vap_id, 2618 "IBSS PS: power collapse not allowed since peer id:%d is not PS capable", 2619 args[0]); 2620 } else if (numargs == 2) { 2621 dbglog_printf(timestamp, vap_id, 2622 "IBSS PS: power collapse not allowed - no peers in NW"); 2623 } else if (numargs == 3) { 2624 if (args[0] == 2) { 2625 dbglog_printf(timestamp, vap_id, 2626 "IBSS PS: power collapse not allowed, non-zero qdepth %d %d", 2627 args[1], args[2]); 2628 } else if (args[0] == 3) { 2629 dbglog_printf(timestamp, vap_id, 2630 "IBSS PS: power collapse not allowed by peer:%d peer_flags:%0x", 2631 args[1], args[2]); 2632 } 2633 } else if (numargs == 5) { 2634 dbglog_printf(timestamp, vap_id, 2635 "IBSS PS: power collapse not allowed by state m/c nw_cur_state:%d nw_next_state:%d ps_cur_state:%d flags:%0x", 2636 args[1], args[2], args[3], args[4]); 2637 } 2638 break; 2639 2640 case IBSS_PS_DBGID_SET_PARAM: 2641 if (numargs == 2) { 2642 dbglog_printf(timestamp, vap_id, 2643 "IBSS PS: Set Param ID:%0x Value:%0x", 2644 args[0], args[1]); 2645 } 2646 break; 2647 2648 case IBSS_PS_DBGID_HOST_TX_PAUSE: 2649 if (numargs == 1) { 2650 dbglog_printf(timestamp, vap_id, 2651 "IBSS PS: Pausing host, vdev_map:%0x", 2652 args[0]); 2653 } 2654 break; 2655 2656 case IBSS_PS_DBGID_HOST_TX_UNPAUSE: 2657 if (numargs == 1) { 2658 dbglog_printf(timestamp, vap_id, 2659 "IBSS PS: Unpausing host, vdev_map:%0x", 2660 args[0]); 2661 } 2662 break; 2663 case IBSS_PS_DBGID_PS_DESC_BIN_LWM: 2664 if (numargs == 1) { 2665 dbglog_printf(timestamp, vap_id, 2666 "IBSS PS: LWM, vdev_map:%0x", args[0]); 2667 } 2668 break; 2669 2670 case IBSS_PS_DBGID_PS_DESC_BIN_HWM: 2671 if (numargs == 1) { 2672 dbglog_printf(timestamp, vap_id, 2673 "IBSS PS: HWM, vdev_map:%0x", args[0]); 2674 } 2675 break; 2676 2677 case IBSS_PS_DBGID_PS_KICKOUT_PEER: 2678 if (numargs == 3) { 2679 dbglog_printf(timestamp, vap_id, 2680 "IBSS PS: Kickout peer id:%d atim_fail_cnt:%d status:%d", 2681 args[0], args[1], args[2]); 2682 } 2683 break; 2684 2685 case IBSS_PS_DBGID_SET_PEER_PARAM: 2686 if (numargs == 3) { 2687 dbglog_printf(timestamp, vap_id, 2688 "IBSS PS: Set Peer Id:%d Param ID:%0x Value:%0x", 2689 args[0], args[1], args[2]); 2690 } 2691 break; 2692 2693 case IBSS_PS_DBGID_BCN_ATIM_WIN_MISMATCH: 2694 if (numargs == 4) { 2695 if (args[0] == 0xDEAD) { 2696 dbglog_printf(timestamp, vap_id, 2697 "IBSS PS: ATIM window length mismatch, our's:%d, peer id:%d, peer's:%d", 2698 args[1], args[2], args[3]); 2699 } else if (args[0] == 0xBEEF) { 2700 dbglog_printf(timestamp, vap_id, 2701 "IBSS PS: Peer ATIM window length changed, peer id:%d, peer recorded atim window:%d new atim window:%d", 2702 args[1], args[2], args[3]); 2703 } 2704 } 2705 break; 2706 2707 case IBSS_PS_DBGID_RX_CHAINMASK_CHANGE: 2708 if (numargs == 2) { 2709 if (args[1] == 0x1) { 2710 dbglog_printf(timestamp, vap_id, 2711 "IBSS PS: Voting for low power chainmask from :%d", 2712 args[0]); 2713 } else { 2714 dbglog_printf(timestamp, vap_id, 2715 "IBSS PS: Voting for high power chainmask from :%d", 2716 args[0]); 2717 } 2718 } 2719 break; 2720 2721 default: 2722 return false; 2723 } 2724 2725 return true; 2726 } 2727 2728 static 2729 A_BOOL dbglog_ratectrl_print_handler(uint32_t mod_id, 2730 uint16_t vap_id, 2731 uint32_t dbg_id, 2732 uint32_t timestamp, 2733 uint16_t numargs, uint32_t *args) 2734 { 2735 switch (dbg_id) { 2736 case RATECTRL_DBGID_ASSOC: 2737 dbglog_printf(timestamp, vap_id, 2738 "RATE: ChainMask %d, phymode %d, ni_flags 0x%08x, vht_mcs_set 0x%04x, ht_mcs_set 0x%04x", 2739 args[0], args[1], args[2], args[3], args[4]); 2740 break; 2741 case RATECTRL_DBGID_NSS_CHANGE: 2742 dbglog_printf(timestamp, vap_id, "RATE: NEW NSS %d\n", args[0]); 2743 break; 2744 case RATECTRL_DBGID_CHAINMASK_ERR: 2745 dbglog_printf(timestamp, vap_id, 2746 "RATE: Chainmask ERR %d %d %d\n", args[0], 2747 args[1], args[2]); 2748 break; 2749 case RATECTRL_DBGID_UNEXPECTED_FRAME: 2750 dbglog_printf(timestamp, vap_id, 2751 "RATE: WARN1: rate %d flags 0x%08x\n", args[0], 2752 args[1]); 2753 break; 2754 case RATECTRL_DBGID_WAL_RCQUERY: 2755 dbglog_printf(timestamp, vap_id, 2756 "ratectrl_dbgid_wal_rcquery [rix1 %d rix2 %d rix3 %d proberix %d ppduflag 0x%x] ", 2757 args[0], args[1], args[2], args[3], args[4]); 2758 break; 2759 case RATECTRL_DBGID_WAL_RCUPDATE: 2760 dbglog_printf(timestamp, vap_id, 2761 "ratectrl_dbgid_wal_rcupdate [numelems %d ppduflag 0x%x] ", 2762 args[0], args[1]); 2763 break; 2764 case RATECTRL_DBGID_GTX_UPDATE: 2765 { 2766 switch (args[0]) { 2767 case 255: 2768 dbglog_printf(timestamp, vap_id, 2769 "GtxInitPwrCfg [bw[last %d|cur %d] rtcode 0x%x tpc %d tpc_init_pwr_cfg %d] ", 2770 args[1] >> 8, args[1] & 0xff, 2771 args[2], args[3], args[4]); 2772 break; 2773 case 254: 2774 dbglog_printf(timestamp, vap_id, 2775 "gtx_cfg_addr [RTMask0@0x%x PERThreshold@0x%x gtxTPCMin@0x%x userGtxMask@0x%x] ", 2776 args[1], args[2], args[3], 2777 args[4]); 2778 break; 2779 default: 2780 dbglog_printf(timestamp, vap_id, 2781 "gtx_update [act %d bw %d rix 0x%x tpc %d per %d lastrssi %d] ", 2782 args[0], args[1], args[2], 2783 args[3], args[4], args[5]); 2784 } 2785 } 2786 break; 2787 } 2788 return true; 2789 } 2790 2791 static 2792 A_BOOL dbglog_ani_print_handler(uint32_t mod_id, 2793 uint16_t vap_id, 2794 uint32_t dbg_id, 2795 uint32_t timestamp, 2796 uint16_t numargs, uint32_t *args) 2797 { 2798 switch (dbg_id) { 2799 case ANI_DBGID_ENABLE: 2800 dbglog_printf(timestamp, vap_id, "ANI Enable: %d", args[0]); 2801 break; 2802 case ANI_DBGID_POLL: 2803 dbglog_printf(timestamp, vap_id, 2804 "ANI POLLING: AccumListenTime %d ListenTime %d ofdmphyerr %d cckphyerr %d", 2805 args[0], args[1], args[2], args[3]); 2806 break; 2807 case ANI_DBGID_RESTART: 2808 dbglog_printf(timestamp, vap_id, "ANI Restart"); 2809 break; 2810 case ANI_DBGID_CURRENT_LEVEL: 2811 dbglog_printf(timestamp, vap_id, 2812 "ANI CURRENT LEVEL ofdm level %d cck level %d", 2813 args[0], args[1]); 2814 break; 2815 case ANI_DBGID_OFDM_LEVEL: 2816 dbglog_printf(timestamp, vap_id, 2817 "ANI UPDATE ofdm level %d firstep %d firstep_low %d cycpwr_thr %d self_corr_low %d", 2818 args[0], args[1], args[2], args[3], args[4]); 2819 break; 2820 case ANI_DBGID_CCK_LEVEL: 2821 dbglog_printf(timestamp, vap_id, 2822 "ANI UPDATE cck level %d firstep %d firstep_low %d mrc_cck %d", 2823 args[0], args[1], args[2], args[3]); 2824 break; 2825 case ANI_DBGID_CONTROL: 2826 dbglog_printf(timestamp, vap_id, 2827 "ANI CONTROL ofdmlevel %d ccklevel %d\n", 2828 args[0]); 2829 2830 break; 2831 case ANI_DBGID_OFDM_PARAMS: 2832 dbglog_printf(timestamp, vap_id, 2833 "ANI ofdm_control firstep %d cycpwr %d\n", 2834 args[0], args[1]); 2835 break; 2836 case ANI_DBGID_CCK_PARAMS: 2837 dbglog_printf(timestamp, vap_id, 2838 "ANI cck_control mrc_cck %d barker_threshold %d\n", 2839 args[0], args[1]); 2840 break; 2841 case ANI_DBGID_RESET: 2842 dbglog_printf(timestamp, vap_id, 2843 "ANI resetting resetflag %d resetCause %8x channel index %d", 2844 args[0], args[1], args[2]); 2845 break; 2846 case ANI_DBGID_SELF_CORR_LOW: 2847 dbglog_printf(timestamp, vap_id, "ANI self_corr_low %d", 2848 args[0]); 2849 break; 2850 case ANI_DBGID_FIRSTEP: 2851 dbglog_printf(timestamp, vap_id, 2852 "ANI firstep %d firstep_low %d", args[0], 2853 args[1]); 2854 break; 2855 case ANI_DBGID_MRC_CCK: 2856 dbglog_printf(timestamp, vap_id, "ANI mrc_cck %d", args[0]); 2857 break; 2858 case ANI_DBGID_CYCPWR: 2859 dbglog_printf(timestamp, vap_id, "ANI cypwr_thresh %d", 2860 args[0]); 2861 break; 2862 case ANI_DBGID_POLL_PERIOD: 2863 dbglog_printf(timestamp, vap_id, 2864 "ANI Configure poll period to %d", args[0]); 2865 break; 2866 case ANI_DBGID_LISTEN_PERIOD: 2867 dbglog_printf(timestamp, vap_id, 2868 "ANI Configure listen period to %d", args[0]); 2869 break; 2870 case ANI_DBGID_OFDM_LEVEL_CFG: 2871 dbglog_printf(timestamp, vap_id, 2872 "ANI Configure ofdm level to %d", args[0]); 2873 break; 2874 case ANI_DBGID_CCK_LEVEL_CFG: 2875 dbglog_printf(timestamp, vap_id, 2876 "ANI Configure cck level to %d", args[0]); 2877 break; 2878 default: 2879 dbglog_printf(timestamp, vap_id, "ANI arg1 %d arg2 %d arg3 %d", 2880 args[0], args[1], args[2]); 2881 break; 2882 } 2883 return true; 2884 } 2885 2886 static A_BOOL 2887 dbglog_ap_powersave_print_handler(uint32_t mod_id, 2888 uint16_t vap_id, 2889 uint32_t dbg_id, 2890 uint32_t timestamp, 2891 uint16_t numargs, uint32_t *args) 2892 { 2893 switch (dbg_id) { 2894 case AP_PS_DBGID_UPDATE_TIM: 2895 if (numargs == 2) { 2896 dbglog_printf(timestamp, vap_id, 2897 "AP PS: TIM update AID=%u %s", 2898 args[0], args[1] ? "set" : "clear"); 2899 } 2900 break; 2901 case AP_PS_DBGID_PEER_STATE_CHANGE: 2902 if (numargs == 2) { 2903 dbglog_printf(timestamp, vap_id, 2904 "AP PS: AID=%u power save %s", 2905 args[0], 2906 args[1] ? "enabled" : "disabled"); 2907 } 2908 break; 2909 case AP_PS_DBGID_PSPOLL: 2910 if (numargs == 3) { 2911 dbglog_printf(timestamp, vap_id, 2912 "AP PS: AID=%u pspoll response tid=%u flags=%x", 2913 args[0], args[1], args[2]); 2914 } 2915 break; 2916 case AP_PS_DBGID_PEER_CREATE: 2917 if (numargs == 1) { 2918 dbglog_printf(timestamp, vap_id, 2919 "AP PS: create peer AID=%u", args[0]); 2920 } 2921 break; 2922 case AP_PS_DBGID_PEER_DELETE: 2923 if (numargs == 1) { 2924 dbglog_printf(timestamp, vap_id, 2925 "AP PS: delete peer AID=%u", args[0]); 2926 } 2927 break; 2928 case AP_PS_DBGID_VDEV_CREATE: 2929 dbglog_printf(timestamp, vap_id, "AP PS: vdev create"); 2930 break; 2931 case AP_PS_DBGID_VDEV_DELETE: 2932 dbglog_printf(timestamp, vap_id, "AP PS: vdev delete"); 2933 break; 2934 case AP_PS_DBGID_SYNC_TIM: 2935 if (numargs == 3) { 2936 dbglog_printf(timestamp, vap_id, 2937 "AP PS: AID=%u advertised=%#x buffered=%#x", 2938 args[0], args[1], args[2]); 2939 } 2940 break; 2941 case AP_PS_DBGID_NEXT_RESPONSE: 2942 if (numargs == 4) { 2943 dbglog_printf(timestamp, vap_id, 2944 "AP PS: AID=%u select next response %s%s%s", 2945 args[0], args[1] ? "(usp active) " : "", 2946 args[2] ? "(pending usp) " : "", 2947 args[3] ? "(pending poll response)" : ""); 2948 } 2949 break; 2950 case AP_PS_DBGID_START_SP: 2951 if (numargs == 3) { 2952 dbglog_printf(timestamp, vap_id, 2953 "AP PS: AID=%u START SP tsf=%#x (%u)", 2954 args[0], args[1], args[2]); 2955 } 2956 break; 2957 case AP_PS_DBGID_COMPLETED_EOSP: 2958 if (numargs == 3) { 2959 dbglog_printf(timestamp, vap_id, 2960 "AP PS: AID=%u EOSP eosp_tsf=%#x trigger_tsf=%#x", 2961 args[0], args[1], args[2]); 2962 } 2963 break; 2964 case AP_PS_DBGID_TRIGGER: 2965 if (numargs == 4) { 2966 dbglog_printf(timestamp, vap_id, 2967 "AP PS: AID=%u TRIGGER tsf=%#x %s%s", 2968 args[0], args[1], 2969 args[2] ? "(usp active) " : "", 2970 args[3] ? "(send_n in progress)" : ""); 2971 } 2972 break; 2973 case AP_PS_DBGID_DUPLICATE_TRIGGER: 2974 if (numargs == 4) { 2975 dbglog_printf(timestamp, vap_id, 2976 "AP PS: AID=%u DUP TRIGGER tsf=%#x seq=%u ac=%u", 2977 args[0], args[1], args[2], args[3]); 2978 } 2979 break; 2980 case AP_PS_DBGID_UAPSD_RESPONSE: 2981 if (numargs == 5) { 2982 dbglog_printf(timestamp, vap_id, 2983 "AP PS: AID=%u UAPSD response tid=%u, n_mpdu=%u flags=%#x max_sp=%u current_sp=%u", 2984 args[0], args[1], args[2], args[3], 2985 (args[4] >> 16) & 0xffff, 2986 args[4] & 0xffff); 2987 } 2988 break; 2989 case AP_PS_DBGID_SEND_COMPLETE: 2990 if (numargs == 5) { 2991 dbglog_printf(timestamp, vap_id, 2992 "AP PS: AID=%u SEND_COMPLETE fc=%#x qos=%#x %s%s", 2993 args[0], args[1], args[2], 2994 args[3] ? "(usp active) " : "", 2995 args[4] ? "(pending poll response)" : ""); 2996 } 2997 break; 2998 case AP_PS_DBGID_SEND_N_COMPLETE: 2999 if (numargs == 3) { 3000 dbglog_printf(timestamp, vap_id, 3001 "AP PS: AID=%u SEND_N_COMPLETE %s%s", 3002 args[0], 3003 args[1] ? "(usp active) " : "", 3004 args[2] ? "(pending poll response)" : ""); 3005 } 3006 break; 3007 case AP_PS_DBGID_DETECT_OUT_OF_SYNC_STA: 3008 if (numargs == 4) { 3009 dbglog_printf(timestamp, vap_id, 3010 "AP PS: AID=%u detected out-of-sync now=%u tx_waiting=%u txq_depth=%u", 3011 args[0], args[1], args[2], args[3]); 3012 } 3013 break; 3014 case AP_PS_DBGID_DELIVER_CAB: 3015 if (numargs == 4) { 3016 dbglog_printf(timestamp, vap_id, 3017 "AP PS: CAB %s n_mpdus=%u, flags=%x, extra=%u", 3018 (args[0] == 17) ? "MGMT" : "DATA", 3019 args[1], args[2], args[3]); 3020 } 3021 break; 3022 default: 3023 return false; 3024 } 3025 3026 return true; 3027 } 3028 3029 static A_BOOL 3030 dbglog_wal_print_handler(uint32_t mod_id, 3031 uint16_t vap_id, 3032 uint32_t dbg_id, 3033 uint32_t timestamp, uint16_t numargs, uint32_t *args) 3034 { 3035 static const char *const states[] = { 3036 "ACTIVE", 3037 "WAIT", 3038 "WAIT_FILTER", 3039 "PAUSE", 3040 "PAUSE_SEND_N", 3041 "BLOCK", 3042 }; 3043 3044 static const char *const events[] = { 3045 "PAUSE", 3046 "PAUSE_FILTER", 3047 "UNPAUSE", 3048 3049 "BLOCK", 3050 "BLOCK_FILTER", 3051 "UNBLOCK", 3052 3053 "HWQ_EMPTY", 3054 "ALLOW_N", 3055 }; 3056 3057 #define WAL_VDEV_TYPE(type) \ 3058 (type == 0 ? "AP" : \ 3059 (type == 1 ? "STA" : \ 3060 (type == 2 ? "IBSS" : \ 3061 (type == 2 ? "MONITOR" : \ 3062 "UNKNOWN")))) 3063 3064 #define WAL_SLEEP_STATE(state) \ 3065 (state == 1 ? "NETWORK SLEEP" : \ 3066 (state == 2 ? "AWAKE" : \ 3067 (state == 3 ? "SYSTEM SLEEP" : \ 3068 "UNKNOWN"))) 3069 3070 switch (dbg_id) { 3071 case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: 3072 dbglog_sm_print(timestamp, vap_id, numargs, args, "TID PAUSE", 3073 states, QDF_ARRAY_SIZE(states), events, 3074 QDF_ARRAY_SIZE(events)); 3075 break; 3076 case WAL_DBGID_SET_POWER_STATE: 3077 if (numargs == 3) { 3078 dbglog_printf(timestamp, vap_id, 3079 "WAL %s => %s, req_count=%u", 3080 WAL_SLEEP_STATE(args[0]), 3081 WAL_SLEEP_STATE(args[1]), args[2]); 3082 } 3083 break; 3084 case WAL_DBGID_CHANNEL_CHANGE_FORCE_RESET: 3085 if (numargs == 4) { 3086 dbglog_printf(timestamp, vap_id, 3087 "WAL channel change (force reset) freq=%u, flags=%u mode=%u rx_ok=%u tx_ok=%u", 3088 args[0] & 0x0000ffff, 3089 (args[0] & 0xffff0000) >> 16, args[1], 3090 args[2], args[3]); 3091 } 3092 break; 3093 case WAL_DBGID_CHANNEL_CHANGE: 3094 if (numargs == 2) { 3095 dbglog_printf(timestamp, vap_id, 3096 "WAL channel change freq=%u, mode=%u flags=%u rx_ok=1 tx_ok=1", 3097 args[0] & 0x0000ffff, 3098 (args[0] & 0xffff0000) >> 16, args[1]); 3099 } 3100 break; 3101 case WAL_DBGID_VDEV_START: 3102 if (numargs == 1) { 3103 dbglog_printf(timestamp, vap_id, "WAL %s vdev started", 3104 WAL_VDEV_TYPE(args[0])); 3105 } 3106 break; 3107 case WAL_DBGID_VDEV_STOP: 3108 dbglog_printf(timestamp, vap_id, "WAL %s vdev stopped", 3109 WAL_VDEV_TYPE(args[0])); 3110 break; 3111 case WAL_DBGID_VDEV_UP: 3112 dbglog_printf(timestamp, vap_id, "WAL %s vdev up, count=%u", 3113 WAL_VDEV_TYPE(args[0]), args[1]); 3114 break; 3115 case WAL_DBGID_VDEV_DOWN: 3116 dbglog_printf(timestamp, vap_id, "WAL %s vdev down, count=%u", 3117 WAL_VDEV_TYPE(args[0]), args[1]); 3118 break; 3119 case WAL_DBGID_TX_MGMT_DESCID_SEQ_TYPE_LEN: 3120 dbglog_printf(timestamp, vap_id, 3121 "WAL Tx Mgmt frame desc_id=0x%x, seq=0x%x, type=0x%x, len=0x%x islocal=0x%x", 3122 args[0], args[1], args[2], 3123 (args[3] & 0xffff0000) >> 16, 3124 args[3] & 0x0000ffff); 3125 break; 3126 case WAL_DBGID_TX_MGMT_COMP_DESCID_STATUS: 3127 dbglog_printf(timestamp, vap_id, 3128 "WAL Tx Mgmt frame completion desc_id=0x%x, status=0x%x, islocal=0x%x", 3129 args[0], args[1], args[2]); 3130 break; 3131 case WAL_DBGID_TX_DATA_MSDUID_SEQ_TYPE_LEN: 3132 dbglog_printf(timestamp, vap_id, 3133 "WAL Tx Data frame msdu_id=0x%x, seq=0x%x, type=0x%x, len=0x%x", 3134 args[0], args[1], args[2], args[3]); 3135 break; 3136 case WAL_DBGID_TX_DATA_COMP_MSDUID_STATUS: 3137 dbglog_printf(timestamp, vap_id, 3138 "WAL Tx Data frame completion desc_id=0x%x, status=0x%x, seq=0x%x", 3139 args[0], args[1], args[2]); 3140 break; 3141 case WAL_DBGID_RESET_PCU_CYCLE_CNT: 3142 dbglog_printf(timestamp, vap_id, 3143 "WAL PCU cycle counter value at reset:%x", 3144 args[0]); 3145 break; 3146 case WAL_DBGID_TX_DISCARD: 3147 dbglog_printf(timestamp, vap_id, 3148 "WAL Tx enqueue discard msdu_id=0x%x", args[0]); 3149 break; 3150 case WAL_DBGID_SET_HW_CHAINMASK: 3151 dbglog_printf(timestamp, vap_id, 3152 "WAL_DBGID_SET_HW_CHAINMASK pdev=%d, txchain=0x%x, rxchain=0x%x", 3153 args[0], args[1], args[2]); 3154 break; 3155 case WAL_DBGID_SET_HW_CHAINMASK_TXRX_STOP_FAIL: 3156 dbglog_printf(timestamp, vap_id, 3157 "WAL_DBGID_SET_HW_CHAINMASK_TXRX_STOP_FAIL rxstop=%d, txstop=%d", 3158 args[0], args[1]); 3159 break; 3160 case WAL_DBGID_GET_HW_CHAINMASK: 3161 dbglog_printf(timestamp, vap_id, "WAL_DBGID_GET_HW_CHAINMASK " 3162 "txchain=0x%x, rxchain=0x%x", args[0], args[1]); 3163 break; 3164 case WAL_DBGID_SMPS_DISABLE: 3165 dbglog_printf(timestamp, vap_id, "WAL_DBGID_SMPS_DISABLE"); 3166 break; 3167 case WAL_DBGID_SMPS_ENABLE_HW_CNTRL: 3168 dbglog_printf(timestamp, vap_id, 3169 "WAL_DBGID_SMPS_ENABLE_HW_CNTRL low_pwr_mask=0x%x, high_pwr_mask=0x%x", 3170 args[0], args[1]); 3171 break; 3172 case WAL_DBGID_SMPS_SWSEL_CHAINMASK: 3173 dbglog_printf(timestamp, vap_id, 3174 "WAL_DBGID_SMPS_SWSEL_CHAINMASK low_pwr=0x%x, chain_mask=0x%x", 3175 args[0], args[1]); 3176 break; 3177 default: 3178 return false; 3179 } 3180 3181 return true; 3182 } 3183 3184 static A_BOOL 3185 dbglog_scan_print_handler(uint32_t mod_id, 3186 uint16_t vap_id, 3187 uint32_t dbg_id, 3188 uint32_t timestamp, uint16_t numargs, uint32_t *args) 3189 { 3190 static const char *const states[] = { 3191 "IDLE", 3192 "BSSCHAN", 3193 "WAIT_FOREIGN_CHAN", 3194 "FOREIGN_CHANNEL", 3195 "TERMINATING" 3196 }; 3197 3198 static const char *const events[] = { 3199 "REQ", 3200 "STOP", 3201 "BSSCHAN", 3202 "FOREIGN_CHAN", 3203 "CHECK_ACTIVITY", 3204 "REST_TIME_EXPIRE", 3205 "DWELL_TIME_EXPIRE", 3206 "PROBE_TIME_EXPIRE", 3207 }; 3208 3209 switch (dbg_id) { 3210 case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: 3211 dbglog_sm_print(timestamp, vap_id, numargs, args, "SCAN", 3212 states, QDF_ARRAY_SIZE(states), events, 3213 QDF_ARRAY_SIZE(events)); 3214 break; 3215 default: 3216 return false; 3217 } 3218 3219 return true; 3220 } 3221 3222 static 3223 A_BOOL dbglog_coex_print_handler(uint32_t mod_id, 3224 uint16_t vap_id, 3225 uint32_t dbg_id, 3226 uint32_t timestamp, 3227 uint16_t numargs, uint32_t *args) 3228 { 3229 uint8_t i; 3230 char *dbg_id_str; 3231 3232 static const char *const wlan_rx_xput_status[] = { 3233 "WLAN_XPUT_NORMAL", 3234 "WLAN_XPUT_UNDER_THRESH", 3235 "WLAN_XPUT_CRITICAL", 3236 "WLAN_XPUT_RECOVERY_TIMEOUT", 3237 }; 3238 3239 static const char *const coex_sched_req[] = { 3240 "SCHED_REQ_NEXT", 3241 "SCHED_REQ_BT", 3242 "SCHED_REQ_WLAN", 3243 "SCHED_REQ_POSTPAUSE", 3244 "SCHED_REQ_UNPAUSE", 3245 }; 3246 3247 static const char *const coex_sched_type[] = { 3248 "SCHED_NONE", 3249 "SCHED_WLAN", 3250 "SCHED_BT", 3251 "SCHED_WLAN_PAUSE", 3252 "SCHED_WLAN_POSTPAUSE", 3253 "SCHED_WLAN_UNPAUSE", 3254 "COEX_SCHED_MWS", 3255 }; 3256 3257 static const char *const coex_trf_mgmt_type[] = { 3258 "TRF_MGMT_FREERUN", 3259 "TRF_MGMT_SHAPE_PM", 3260 "TRF_MGMT_SHAPE_PSP", 3261 "TRF_MGMT_SHAPE_S_CTS", 3262 "TRF_MGMT_SHAPE_OCS", 3263 "TRF_MGMT_SHAPE_FIXED_TIME", 3264 "TRF_MGMT_SHAPE_NOA", 3265 "TRF_MGMT_SHAPE_OCS_CRITICAL", 3266 "TRF_MGMT_NONE", 3267 }; 3268 3269 static const char *const coex_system_status[] = { 3270 "ALL_OFF", 3271 "BTCOEX_NOT_REQD", 3272 "WLAN_IS_IDLE", 3273 "EXECUTE_SCHEME", 3274 "BT_FULL_CONCURRENCY", 3275 "WLAN_SLEEPING", 3276 "WLAN_IS_PAUSED", 3277 "WAIT_FOR_NEXT_ACTION", 3278 "SOC_WAKE", 3279 }; 3280 3281 static const char *const wlan_rssi_type[] = { 3282 "LOW_RSSI", 3283 "MID_RSSI", 3284 "HI_RSSI", 3285 "INVALID_RSSI", 3286 }; 3287 3288 static const char *const coex_bt_scheme[] = { 3289 "IDLE_CTRL", 3290 "ACTIVE_ASYNC_CTRL", 3291 "PASSIVE_SYNC_CTRL", 3292 "ACTIVE_SYNC_CTRL", 3293 "DEFAULT_CTRL", 3294 "CONCURRENCY_CTRL", 3295 }; 3296 3297 static const char *const wal_peer_rx_rate_stats_event_sent[] = { 3298 "PR_RX_EVT_SENT_NONE", 3299 "PR_RX_EVT_SENT_LOWER", 3300 "PR_RX_EVT_SENT_UPPER", 3301 }; 3302 3303 static const char *const wlan_psp_stimulus[] = { 3304 "ENTRY", 3305 "EXIT", 3306 "PS_READY", 3307 "PS_NOT_READY", 3308 "RX_MORE_DATA_RCVD", 3309 "RX_NO_MORE_DATA_RCVD", 3310 "TX_DATA_COMPLT", 3311 "TX_COMPLT", 3312 "TIM_SET", 3313 "REQ", 3314 "DONE_SUCCESS", 3315 "DONE_NO_PS_POLL_ACK", 3316 "DONE_RESPONSE_TMO", 3317 "DONE_DROPPED", 3318 "DONE_FILTERED", 3319 "WLAN_START", 3320 "NONWLAN_START", 3321 "NONWLAN_INTVL_UPDATE", 3322 "NULL_TX", 3323 "NULL_TX_COMPLT", 3324 "BMISS_FIRST", 3325 "NULL_TX_FAIL", 3326 "RX_NO_MORE_DATA_DATAFRM", 3327 }; 3328 3329 static const char *const coex_pspoll_state[] = { 3330 "STATE_DISABLED", 3331 "STATE_NOT_READY", 3332 "STATE_ENABLED", 3333 "STATE_READY", 3334 "STATE_TX_STATUS", 3335 "STATE_RX_STATUS", 3336 }; 3337 3338 static const char *const coex_scheduler_interval[] = { 3339 "COEX_SCHED_NONWLAN_INT", 3340 "COEX_SCHED_WLAN_INT", 3341 }; 3342 3343 static const char *const wlan_weight[] = { 3344 "BT_COEX_BASE", 3345 "BT_COEX_LOW", 3346 "BT_COEX_MID", 3347 "BT_COEX_MID_NONSYNC", 3348 "BT_COEX_HI_NONVOICE", 3349 "BT_COEX_HI", 3350 "BT_COEX_CRITICAL", 3351 }; 3352 3353 static const char *const wlan_power_state[] = { 3354 "SLEEP", 3355 "AWAKE", 3356 "FULL_SLEEP", 3357 }; 3358 3359 static const char *const coex_psp_error_type[] = { 3360 "DISABLED_STATE", 3361 "VDEV_NULL", 3362 "COEX_PSP_ENTRY", 3363 "ZERO_INTERVAL", 3364 "COEX_PSP_EXIT", 3365 "READY_DISABLED", 3366 "READY_NOT_DISABLED", 3367 "POLL_PKT_DROPPED", 3368 "SET_TIMER_PARAM", 3369 }; 3370 3371 static const char *const wlan_phymode[] = { 3372 "A", 3373 "G", 3374 "B", 3375 "G_ONLY", 3376 "NA_HT20", 3377 "NG_HT20", 3378 "NA_HT40", 3379 "NG_HT40", 3380 "AC_VHT20", 3381 "AC_VHT40", 3382 "AC_VHT80", 3383 "AC_VHT20_2G", 3384 "AC_VHT40_2G", 3385 "AC_VHT80_2G", 3386 "UNKNOWN", 3387 }; 3388 3389 static const char *const wlan_curr_band[] = { 3390 "2G", 3391 "5G", 3392 }; 3393 3394 dbg_id_str = dbglog_get_msg(mod_id, dbg_id); 3395 3396 switch (dbg_id) { 3397 case COEX_SYSTEM_UPDATE: 3398 if (numargs == 1 && args[0] < 9) { 3399 dbglog_printf(timestamp, vap_id, "%s: %s", dbg_id_str, 3400 coex_system_status[args[0]]); 3401 } else if (numargs >= 5 && args[0] < 9 && args[2] < 9) { 3402 dbglog_printf(timestamp, vap_id, 3403 "%s: %s, WlanSysState(0x%x), %s, NumChains(%u), AggrLimit(%u)", 3404 dbg_id_str, coex_system_status[args[0]], 3405 args[1], coex_trf_mgmt_type[args[2]], 3406 args[3], args[4]); 3407 } else { 3408 return false; 3409 } 3410 break; 3411 case COEX_SCHED_START: 3412 if (numargs >= 5 && args[0] < 5 && args[2] < 9 && args[3] < 4 3413 && args[4] < 4) { 3414 if (args[1] == 0xffffffff) { 3415 dbglog_printf(timestamp, vap_id, 3416 "%s: %s, DETERMINE_DURATION, %s, %s, %s", 3417 dbg_id_str, 3418 coex_sched_req[args[0]], 3419 coex_trf_mgmt_type[args[2]], 3420 wlan_rx_xput_status[args[3]], 3421 wlan_rssi_type[args[4]]); 3422 } else { 3423 dbglog_printf(timestamp, vap_id, 3424 "%s: %s, IntvlDur(%u), %s, %s, %s", 3425 dbg_id_str, 3426 coex_sched_req[args[0]], args[1], 3427 coex_trf_mgmt_type[args[2]], 3428 wlan_rx_xput_status[args[3]], 3429 wlan_rssi_type[args[4]]); 3430 } 3431 } else { 3432 return false; 3433 } 3434 break; 3435 case COEX_SCHED_RESULT: 3436 if (numargs >= 5 && args[0] < 5 && args[1] < 9 && args[2] < 9) { 3437 dbglog_printf(timestamp, vap_id, 3438 "%s: %s, %s, %s, CoexMgrPolicy(%u), IdleOverride(%u)", 3439 dbg_id_str, coex_sched_req[args[0]], 3440 coex_trf_mgmt_type[args[1]], 3441 coex_trf_mgmt_type[args[2]], args[3], 3442 args[4]); 3443 } else { 3444 return false; 3445 } 3446 break; 3447 case COEX_BT_SCHEME: 3448 if (numargs >= 1 && args[0] < 6) { 3449 dbglog_printf(timestamp, vap_id, "%s: %s", dbg_id_str, 3450 coex_bt_scheme[args[0]]); 3451 } else { 3452 return false; 3453 } 3454 break; 3455 case COEX_TRF_FREERUN: 3456 if (numargs >= 5 && args[0] < 7) { 3457 dbglog_printf(timestamp, vap_id, 3458 "%s: %s, AllocatedBtIntvls(%u), BtIntvlCnt(%u), AllocatedWlanIntvls(%u), WlanIntvlCnt(%u)", 3459 dbg_id_str, coex_sched_type[args[0]], 3460 args[1], args[2], args[3], args[4]); 3461 } else { 3462 return false; 3463 } 3464 break; 3465 case COEX_TRF_SHAPE_PM: /* used by ocs now */ 3466 if (numargs >= 3) { 3467 dbglog_printf(timestamp, vap_id, 3468 "%s: IntvlLength(%u), BtDuration(%u), WlanDuration(%u)", 3469 dbg_id_str, args[0], args[1], args[2]); 3470 } else { 3471 return false; 3472 } 3473 break; 3474 case COEX_SYSTEM_MONITOR: 3475 if (numargs >= 5 && args[1] < 4 && args[4] < 4) { 3476 dbglog_printf(timestamp, vap_id, 3477 "%s: WlanRxCritical(%u), %s, MinDirectRxRate(%u), MonitorActiveNum(%u), %s", 3478 dbg_id_str, args[0], 3479 wlan_rx_xput_status[args[1]], args[2], 3480 args[3], wlan_rssi_type[args[4]]); 3481 } else { 3482 return false; 3483 } 3484 break; 3485 case COEX_RX_RATE: 3486 if (numargs >= 5 && args[4] < 3) { 3487 dbglog_printf(timestamp, vap_id, 3488 "%s: NumUnderThreshPeers(%u), MinDirectRate(%u), LastRateSample(%u), DeltaT(%u), %s", 3489 dbg_id_str, args[0], args[1], args[2], 3490 args[3], 3491 wal_peer_rx_rate_stats_event_sent[args 3492 [4]]); 3493 } else { 3494 return false; 3495 } 3496 break; 3497 case COEX_WLAN_INTERVAL_START: 3498 if (numargs >= 5) { 3499 dbglog_printf(timestamp, vap_id, 3500 "%s: WlanIntvlCnt(%u), Duration(%u), Weight(%u), BaseIdleOverride(%u), WeightMat[0](0x%x)", 3501 dbg_id_str, args[0], args[1], args[2], 3502 args[3], args[4]); 3503 } else { 3504 return false; 3505 } 3506 break; 3507 case COEX_WLAN_POSTPAUSE_INTERVAL_START: 3508 if (numargs >= 4) { 3509 dbglog_printf(timestamp, vap_id, 3510 "%s: WlanPostPauseIntvlCnt(%u), XputMonitorActiveNum(%u), Duration(%u), Weight(%u)", 3511 dbg_id_str, args[0], args[1], args[2], 3512 args[3]); 3513 } else { 3514 return false; 3515 } 3516 break; 3517 case COEX_BT_INTERVAL_START: 3518 if (numargs >= 5) { 3519 dbglog_printf(timestamp, vap_id, 3520 "%s: BtIntvlCnt(%u), Duration(%u), Weight(%u), BaseIdleOverride(%u), WeightMat[0](0x%x), ", 3521 dbg_id_str, args[0], args[1], args[2], 3522 args[3], args[4]); 3523 } else { 3524 return false; 3525 } 3526 break; 3527 case COEX_POWER_CHANGE: 3528 if (numargs >= 3 && args[1] < 3 && args[2] < 3) { 3529 dbglog_printf(timestamp, vap_id, 3530 "%s: Event(0x%x) %s->%s", dbg_id_str, 3531 args[0], wlan_power_state[args[1]], 3532 wlan_power_state[args[2]]); 3533 } else { 3534 return false; 3535 } 3536 break; 3537 case COEX_CHANNEL_CHANGE: 3538 if (numargs >= 5 && args[3] < 2 && args[4] < 15) { 3539 dbglog_printf(timestamp, vap_id, 3540 "%s: %uMhz->%uMhz, WlanSysState(0x%x), CurrBand(%s), PhyMode(%s)", 3541 dbg_id_str, args[0], args[1], args[2], 3542 wlan_curr_band[args[3]], 3543 wlan_phymode[args[4]]); 3544 } else { 3545 return false; 3546 } 3547 break; 3548 case COEX_PSP_MGR_ENTER: 3549 if (numargs >= 5 && args[0] < 23 && 3550 args[1] < 6 && args[3] < 2) { 3551 dbglog_printf(timestamp, vap_id, 3552 "%s: %s, %s, PsPollAvg(%u), %s, CurrT(%u)", 3553 dbg_id_str, wlan_psp_stimulus[args[0]], 3554 coex_pspoll_state[args[1]], args[2], 3555 coex_scheduler_interval[args[3]], 3556 args[4]); 3557 } else { 3558 return false; 3559 } 3560 break; 3561 /* Translate following into decimal */ 3562 case COEX_SINGLECHAIN_DBG_1: 3563 case COEX_SINGLECHAIN_DBG_2: 3564 case COEX_SINGLECHAIN_DBG_3: 3565 case COEX_MULTICHAIN_DBG_1: 3566 case COEX_MULTICHAIN_DBG_2: 3567 case COEX_MULTICHAIN_DBG_3: 3568 case BTCOEX_DBG_MCI_1: 3569 case BTCOEX_DBG_MCI_2: 3570 case BTCOEX_DBG_MCI_3: 3571 case BTCOEX_DBG_MCI_4: 3572 case BTCOEX_DBG_MCI_5: 3573 case BTCOEX_DBG_MCI_6: 3574 case BTCOEX_DBG_MCI_7: 3575 case BTCOEX_DBG_MCI_8: 3576 case BTCOEX_DBG_MCI_9: 3577 case BTCOEX_DBG_MCI_10: 3578 3579 if (numargs > 0) { 3580 dbglog_printf_no_line_break(timestamp, vap_id, "%s: %u", 3581 dbg_id_str, args[0]); 3582 for (i = 1; i < numargs; i++) 3583 printk("%u", args[i]); 3584 printk("\n"); 3585 } else { 3586 return false; 3587 } 3588 break; 3589 case COEX_LinkID: 3590 if (numargs >= 4) { 3591 if (args[0]) { /* Add profile */ 3592 dbglog_printf(timestamp, vap_id, 3593 "%s Alloc: LocalID(%u), RemoteID(%u), MinFreeLocalID(%u)", 3594 dbg_id_str, args[1], args[2], 3595 args[3]); 3596 } else { /* Remove profile */ 3597 dbglog_printf(timestamp, vap_id, 3598 "%s Dealloc: LocalID(%u), RemoteID(%u), MinFreeLocalID(%u)", 3599 dbg_id_str, args[1], args[2], 3600 args[3]); 3601 } 3602 } else { 3603 return false; 3604 } 3605 break; 3606 case COEX_PSP_MGR_RESULT: 3607 if (numargs >= 5 && args[0] < 6) { 3608 dbglog_printf(timestamp, vap_id, 3609 "%s: %s, PsPollAvg(%u), EstimationOverrun(%u), EstimationUnderun(%u), NotReadyErr(%u)", 3610 dbg_id_str, coex_pspoll_state[args[0]], 3611 args[1], args[2], args[3], args[4]); 3612 } else { 3613 return false; 3614 } 3615 break; 3616 case COEX_TRF_SHAPE_PSP: 3617 if (numargs >= 5 && args[0] < 7 && args[1] < 7) { 3618 dbglog_printf(timestamp, vap_id, 3619 "%s: %s, %s, Dur(%u), BtTriggerRecvd(%u), PspWlanCritical(%u)", 3620 dbg_id_str, coex_sched_type[args[0]], 3621 wlan_weight[args[1]], args[2], args[3], 3622 args[4]); 3623 } else { 3624 return false; 3625 } 3626 break; 3627 case COEX_PSP_SPEC_POLL: 3628 if (numargs >= 5) { 3629 dbglog_printf(timestamp, vap_id, 3630 "%s: PsPollSpecEna(%u), Count(%u), NextTS(%u), AllowSpecPsPollTx(%u), Intvl(%u)", 3631 dbg_id_str, args[0], args[1], args[2], 3632 args[3], args[4]); 3633 } else { 3634 return false; 3635 } 3636 break; 3637 case COEX_PSP_READY_STATE: 3638 if (numargs >= 5) { 3639 dbglog_printf(timestamp, vap_id, 3640 "%s: T2NonWlan(%u), CoexSchedulerEndTS(%u), MoreData(%u), PSPRespExpectedTS(%u), NonWlanIdleT(%u)", 3641 dbg_id_str, args[0], args[1], args[2], 3642 args[3], args[4]); 3643 } else { 3644 return false; 3645 } 3646 break; 3647 case COEX_PSP_NONWLAN_INTERVAL: 3648 if (numargs >= 4) { 3649 dbglog_printf(timestamp, vap_id, 3650 "%s: NonWlanBaseIntvl(%u), NonWlanIdleT(%u), PSPSpecIntvl(%u), ApRespTimeout(%u)", 3651 dbg_id_str, args[0], args[1], args[2], 3652 args[3]); 3653 } else { 3654 return false; 3655 } 3656 break; 3657 case COEX_PSP_ERROR: 3658 if (numargs >= 1 && args[0] < 9) { 3659 dbglog_printf_no_line_break(timestamp, vap_id, "%s: %s", 3660 dbg_id_str, 3661 coex_psp_error_type[args 3662 [0]]); 3663 for (i = 1; i < numargs; i++) { 3664 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 3665 (", %u", args[i])); 3666 } 3667 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("\n")); 3668 } else { 3669 return false; 3670 } 3671 break; 3672 case COEX_PSP_STAT_1: 3673 if (numargs >= 5) { 3674 dbglog_printf(timestamp, vap_id, 3675 "%s: ApResp0(%u), ApResp1(%u), ApResp2(%u), ApResp3(%u), ApResp4(%u)", 3676 dbg_id_str, args[0], args[1], args[2], 3677 args[3], args[4]); 3678 } else { 3679 return false; 3680 } 3681 break; 3682 case COEX_PSP_STAT_2: 3683 if (numargs >= 5) { 3684 dbglog_printf(timestamp, vap_id, 3685 "%s: DataPt(%u), Max(%u), NextApRespIndex(%u), NumOfValidDataPts(%u), PsPollAvg(%u)", 3686 dbg_id_str, args[0], args[1], args[2], 3687 args[3], args[4]); 3688 } else { 3689 return false; 3690 } 3691 break; 3692 case COEX_PSP_RX_STATUS_STATE_1: 3693 if (numargs >= 5) { 3694 if (args[2]) { 3695 dbglog_printf(timestamp, vap_id, 3696 "%s: RsExpectedTS(%u), RespActualTS(%u), Overrun, RsOverrunT(%u), RsRxDur(%u)", 3697 dbg_id_str, args[0], args[1], 3698 args[3], args[4]); 3699 } else { 3700 dbglog_printf(timestamp, vap_id, 3701 "%s: RsExpectedTS(%u), RespActualTS(%u), Underrun, RsUnderrunT(%u), RsRxDur(%u)", 3702 dbg_id_str, args[0], args[1], 3703 args[3], args[4]); 3704 } 3705 } else { 3706 return false; 3707 } 3708 break; 3709 default: 3710 return false; 3711 } 3712 3713 return true; 3714 } 3715 3716 static A_BOOL 3717 dbglog_beacon_print_handler(uint32_t mod_id, 3718 uint16_t vap_id, 3719 uint32_t dbg_id, 3720 uint32_t timestamp, 3721 uint16_t numargs, uint32_t *args) 3722 { 3723 static const char *const states[] = { 3724 "INIT", 3725 "ADJUST_START", 3726 "ADJUSTING", 3727 "ADJUST_HOLD", 3728 }; 3729 3730 static const char *const events[] = { 3731 "ADJUST_START", 3732 "ADJUST_RESTART", 3733 "ADJUST_STOP", 3734 "ADJUST_PAUSE", 3735 "ADJUST_UNPAUSE", 3736 "ADJUST_INC_SLOP_STEP", 3737 "ADJUST_HOLD", 3738 "ADJUST_HOLD_TIME_OUT", 3739 }; 3740 3741 switch (dbg_id) { 3742 case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: 3743 dbglog_sm_print(timestamp, vap_id, numargs, args, "EARLY_RX", 3744 states, QDF_ARRAY_SIZE(states), events, 3745 QDF_ARRAY_SIZE(events)); 3746 break; 3747 case BEACON_EVENT_EARLY_RX_BMISS_STATUS: 3748 if (numargs == 3) { 3749 dbglog_printf(timestamp, vap_id, 3750 "early_rx bmiss status:rcv=%d total=%d miss=%d", 3751 args[0], args[1], args[2]); 3752 } 3753 break; 3754 case BEACON_EVENT_EARLY_RX_SLEEP_SLOP: 3755 if (numargs == 1) { 3756 dbglog_printf(timestamp, vap_id, 3757 "early_rx update sleep_slop:%d", args[0]); 3758 } 3759 break; 3760 case BEACON_EVENT_EARLY_RX_CONT_BMISS_TIMEOUT: 3761 if (numargs == 1) { 3762 dbglog_printf(timestamp, vap_id, 3763 "early_rx cont bmiss timeout,update sleep_slop:%d", 3764 args[0]); 3765 } 3766 break; 3767 case BEACON_EVENT_EARLY_RX_PAUSE_SKIP_BCN_NUM: 3768 if (numargs == 1) { 3769 dbglog_printf(timestamp, vap_id, 3770 "early_rx skip bcn num:%d", args[0]); 3771 } 3772 break; 3773 case BEACON_EVENT_EARLY_RX_CLK_DRIFT: 3774 if (numargs == 1) { 3775 dbglog_printf(timestamp, vap_id, 3776 "early_rx clk drift:%d", args[0]); 3777 } 3778 break; 3779 case BEACON_EVENT_EARLY_RX_AP_DRIFT: 3780 if (numargs == 1) { 3781 dbglog_printf(timestamp, vap_id, 3782 "early_rx ap drift:%d", args[0]); 3783 } 3784 break; 3785 case BEACON_EVENT_EARLY_RX_BCN_TYPE: 3786 if (numargs == 1) { 3787 dbglog_printf(timestamp, vap_id, 3788 "early_rx bcn type:%d", args[0]); 3789 } 3790 break; 3791 default: 3792 return false; 3793 } 3794 3795 return true; 3796 } 3797 3798 static A_BOOL 3799 dbglog_data_txrx_print_handler(uint32_t mod_id, 3800 uint16_t vap_id, 3801 uint32_t dbg_id, 3802 uint32_t timestamp, 3803 uint16_t numargs, uint32_t *args) 3804 { 3805 switch (dbg_id) { 3806 case DATA_TXRX_DBGID_RX_DATA_SEQ_LEN_INFO: 3807 dbglog_printf(timestamp, vap_id, 3808 "DATA RX seq=0x%x, len=0x%x, stored=0x%x, duperr=0x%x", 3809 args[0], args[1], (args[2] & 0xffff0000) >> 16, 3810 args[2] & 0x0000ffff); 3811 break; 3812 default: 3813 return false; 3814 } 3815 3816 return true; 3817 } 3818 3819 static 3820 A_BOOL dbglog_smps_print_handler(uint32_t mod_id, 3821 uint16_t vap_id, 3822 uint32_t dbg_id, 3823 uint32_t timestamp, 3824 uint16_t numargs, uint32_t *args) 3825 { 3826 static const char *const states[] = { 3827 "S_INACTIVE", 3828 "S_STATIC", 3829 "S_DYNAMIC", 3830 "S_STALLED", 3831 "S_INACTIVE_WAIT", 3832 "S_STATIC_WAIT", 3833 "S_DYNAMIC_WAIT", 3834 }; 3835 3836 static const char *const events[] = { 3837 "E_STOP", 3838 "E_STOP_COMPL", 3839 "E_START", 3840 "E_STATIC", 3841 "E_STATIC_COMPL", 3842 "E_DYNAMIC", 3843 "E_DYNAMIC_COMPL", 3844 "E_STALL", 3845 "E_RSSI_ABOVE_THRESH", 3846 "E_RSSI_BELOW_THRESH", 3847 "E_FORCED_NONE", 3848 }; 3849 switch (dbg_id) { 3850 case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: 3851 dbglog_sm_print(timestamp, vap_id, numargs, args, "STA_SMPS SM", 3852 states, QDF_ARRAY_SIZE(states), events, 3853 QDF_ARRAY_SIZE(events)); 3854 break; 3855 case STA_SMPS_DBGID_CREATE_PDEV_INSTANCE: 3856 dbglog_printf(timestamp, vap_id, "STA_SMPS Create PDEV ctx %#x", 3857 args[0]); 3858 break; 3859 case STA_SMPS_DBGID_CREATE_VIRTUAL_CHAN_INSTANCE: 3860 dbglog_printf(timestamp, vap_id, 3861 "STA_SMPS Create Virtual Chan ctx %#x", args[0]); 3862 break; 3863 case STA_SMPS_DBGID_DELETE_VIRTUAL_CHAN_INSTANCE: 3864 dbglog_printf(timestamp, vap_id, 3865 "STA_SMPS Delete Virtual Chan ctx %#x", args[0]); 3866 break; 3867 case STA_SMPS_DBGID_CREATE_STA_INSTANCE: 3868 dbglog_printf(timestamp, vap_id, "STA_SMPS Create STA ctx %#x", 3869 args[0]); 3870 break; 3871 case STA_SMPS_DBGID_DELETE_STA_INSTANCE: 3872 dbglog_printf(timestamp, vap_id, "STA_SMPS Delete STA ctx %#x", 3873 args[0]); 3874 break; 3875 case STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_START: 3876 break; 3877 case STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_STOP: 3878 break; 3879 case STA_SMPS_DBGID_SEND_SMPS_ACTION_FRAME: 3880 dbglog_printf(timestamp, vap_id, 3881 "STA_SMPS STA %#x Signal SMPS mode as %s; cb_flags %#x", 3882 args[0], 3883 (args[1] == 3884 0 ? "DISABLED" : (args[1] == 3885 0x1 ? "STATIC" : (args[1] == 3886 0x3 ? 3887 "DYNAMIC" : 3888 "UNKNOWN"))), 3889 args[2]); 3890 break; 3891 case STA_SMPS_DBGID_DTIM_EBT_EVENT_CHMASK_UPDATE: 3892 dbglog_printf(timestamp, vap_id, 3893 "STA_SMPS_DBGID_DTIM_EBT_EVENT_CHMASK_UPDATE"); 3894 break; 3895 case STA_SMPS_DBGID_DTIM_CHMASK_UPDATE: 3896 dbglog_printf(timestamp, vap_id, 3897 "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE tx_mask %#x rx_mask %#x arb_dtim_mask %#x", 3898 args[0], args[1], args[2]); 3899 break; 3900 case STA_SMPS_DBGID_DTIM_BEACON_EVENT_CHMASK_UPDATE: 3901 dbglog_printf(timestamp, vap_id, 3902 "STA_SMPS_DBGID_DTIM_BEACON_EVENT_CHMASK_UPDATE"); 3903 break; 3904 case STA_SMPS_DBGID_DTIM_POWER_STATE_CHANGE: 3905 dbglog_printf(timestamp, vap_id, 3906 "STA_SMPS_DBGID_DTIM_POWER_STATE_CHANGE cur_pwr_state %s new_pwr_state %s", 3907 (args[0] == 3908 0x1 ? "SLEEP" : (args[0] == 3909 0x2 ? "AWAKE" : (args[0] == 3910 0x3 ? 3911 "FULL_SLEEP" : 3912 "UNKNOWN"))), 3913 (args[1] == 3914 0x1 ? "SLEEP" : (args[1] == 3915 0x2 ? "AWAKE" : (args[1] == 3916 0x3 ? 3917 "FULL_SLEEP" : 3918 "UNKNOWN")))); 3919 break; 3920 case STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_SLEEP: 3921 dbglog_printf(timestamp, vap_id, 3922 "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_SLEEP tx_mask %#x rx_mask %#x orig_rx %#x dtim_rx %#x", 3923 args[0], args[1], args[2], args[3]); 3924 break; 3925 case STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_AWAKE: 3926 dbglog_printf(timestamp, vap_id, 3927 "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_AWAKE tx_mask %#x rx_mask %#x orig_rx %#x", 3928 args[0], args[1], args[2]); 3929 break; 3930 default: 3931 dbglog_printf(timestamp, vap_id, "STA_SMPS: UNKNOWN DBGID!"); 3932 return false; 3933 } 3934 3935 return true; 3936 } 3937 3938 static A_BOOL 3939 dbglog_p2p_print_handler(uint32_t mod_id, 3940 uint16_t vap_id, 3941 uint32_t dbg_id, 3942 uint32_t timestamp, uint16_t numargs, uint32_t *args) 3943 { 3944 static const char *const states[] = { 3945 "ACTIVE", 3946 "DOZE", 3947 "TX_BCN", 3948 "CTWIN", 3949 "OPPPS", 3950 }; 3951 3952 static const char *const events[] = { 3953 "ONESHOT_NOA", 3954 "CTWINDOW", 3955 "PERIODIC_NOA", 3956 "IDLE", 3957 "NOA_CHANGED", 3958 "TBTT", 3959 "TX_BCN_CMP", 3960 "OPPPS_OK", 3961 "OPPPS_CHANGED", 3962 }; 3963 3964 switch (dbg_id) { 3965 case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: 3966 dbglog_sm_print(timestamp, vap_id, numargs, args, "P2P GO PS", 3967 states, QDF_ARRAY_SIZE(states), events, 3968 QDF_ARRAY_SIZE(events)); 3969 break; 3970 default: 3971 return false; 3972 } 3973 3974 return true; 3975 } 3976 3977 static A_BOOL 3978 dbglog_pcielp_print_handler(uint32_t mod_id, 3979 uint16_t vap_id, 3980 uint32_t dbg_id, 3981 uint32_t timestamp, 3982 uint16_t numargs, uint32_t *args) 3983 { 3984 static const char *const states[] = { 3985 "STOP", 3986 "TX", 3987 "RX", 3988 "SLEEP", 3989 "SUSPEND", 3990 }; 3991 3992 static const char *const events[] = { 3993 "VDEV_UP", 3994 "ALL_VDEV_DOWN", 3995 "AWAKE", 3996 "SLEEP", 3997 "TX_ACTIVITY", 3998 "TX_INACTIVITY", 3999 "TX_AC_CHANGE", 4000 "SUSPEND", 4001 "RESUME", 4002 }; 4003 4004 switch (dbg_id) { 4005 case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG: 4006 dbglog_sm_print(timestamp, vap_id, numargs, args, "PCIELP", 4007 states, QDF_ARRAY_SIZE(states), events, 4008 QDF_ARRAY_SIZE(events)); 4009 break; 4010 default: 4011 return false; 4012 } 4013 4014 return true; 4015 } 4016 4017 #ifdef WLAN_OPEN_SOURCE 4018 static int dbglog_block_open(struct inode *inode, struct file *file) 4019 { 4020 struct fwdebug *fwlog = inode->i_private; 4021 4022 if (fwlog->fwlog_open) 4023 return -EBUSY; 4024 4025 fwlog->fwlog_open = true; 4026 4027 file->private_data = inode->i_private; 4028 return 0; 4029 } 4030 4031 static int dbglog_block_release(struct inode *inode, struct file *file) 4032 { 4033 struct fwdebug *fwlog = inode->i_private; 4034 4035 fwlog->fwlog_open = false; 4036 4037 return 0; 4038 } 4039 4040 static ssize_t dbglog_block_read(struct file *file, 4041 char __user *user_buf, 4042 size_t count, loff_t *ppos) 4043 { 4044 struct fwdebug *fwlog = file->private_data; 4045 struct sk_buff *skb; 4046 ssize_t ret_cnt; 4047 size_t len = 0, not_copied; 4048 char *buf; 4049 int ret; 4050 4051 buf = vmalloc(count); 4052 if (!buf) 4053 return -ENOMEM; 4054 4055 spin_lock_bh(&fwlog->fwlog_queue.lock); 4056 4057 if (skb_queue_len(&fwlog->fwlog_queue) == 0) { 4058 /* we must init under queue lock */ 4059 init_completion(&fwlog->fwlog_completion); 4060 4061 spin_unlock_bh(&fwlog->fwlog_queue.lock); 4062 4063 ret = 4064 wait_for_completion_interruptible(&fwlog->fwlog_completion); 4065 if (ret == -ERESTARTSYS) { 4066 vfree(buf); 4067 return ret; 4068 } 4069 4070 spin_lock_bh(&fwlog->fwlog_queue.lock); 4071 } 4072 4073 while ((skb = __skb_dequeue(&fwlog->fwlog_queue))) { 4074 if (skb->len > count - len) { 4075 /* not enough space, put skb back and leave */ 4076 __skb_queue_head(&fwlog->fwlog_queue, skb); 4077 break; 4078 } 4079 4080 memcpy(buf + len, skb->data, skb->len); 4081 len += skb->len; 4082 4083 kfree_skb(skb); 4084 } 4085 4086 spin_unlock_bh(&fwlog->fwlog_queue.lock); 4087 4088 /* FIXME: what to do if len == 0? */ 4089 not_copied = copy_to_user(user_buf, buf, len); 4090 if (not_copied != 0) { 4091 ret_cnt = -EFAULT; 4092 goto out; 4093 } 4094 4095 *ppos = *ppos + len; 4096 4097 ret_cnt = len; 4098 4099 out: 4100 vfree(buf); 4101 4102 return ret_cnt; 4103 } 4104 4105 static const struct file_operations fops_dbglog_block = { 4106 .open = dbglog_block_open, 4107 .release = dbglog_block_release, 4108 .read = dbglog_block_read, 4109 .owner = THIS_MODULE, 4110 .llseek = default_llseek, 4111 }; 4112 4113 #ifdef WLAN_DEBUGFS 4114 4115 static void dbglog_debugfs_init(wmi_unified_t wmi_handle) 4116 { 4117 4118 wmi_handle->debugfs_phy = debugfs_create_dir(CLD_DEBUGFS_DIR, NULL); 4119 if (!wmi_handle->debugfs_phy) { 4120 qdf_print("Failed to create WMI debug fs"); 4121 return; 4122 } 4123 4124 debugfs_create_file(DEBUGFS_BLOCK_NAME, 0400, 4125 wmi_handle->debugfs_phy, &wmi_handle->dbglog, 4126 &fops_dbglog_block); 4127 4128 return; 4129 } 4130 4131 static void dbglog_debugfs_remove(wmi_unified_t wmi_handle) 4132 { 4133 debugfs_remove_recursive(wmi_handle->debugfs_phy); 4134 } 4135 4136 #else 4137 4138 static void dbglog_debugfs_init(wmi_unified_t wmi_handle) 4139 { 4140 } 4141 4142 static void dbglog_debugfs_remove(wmi_unified_t wmi_handle) 4143 { 4144 } 4145 4146 #endif /* End of WLAN_DEBUGFS */ 4147 4148 #endif /* WLAN_OPEN_SOURCE */ 4149 4150 /** 4151 * cnss_diag_handle_crash_inject() - API to handle crash inject command 4152 * @slot: pointer to struct dbglog_slot 4153 * 4154 * API to handle CNSS diag crash inject command 4155 * 4156 * Return: None 4157 */ 4158 static void cnss_diag_handle_crash_inject(struct dbglog_slot *slot) 4159 { 4160 switch (slot->diag_type) { 4161 case DIAG_TYPE_CRASH_INJECT: 4162 if (slot->length != 2) { 4163 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 4164 ("crash_inject cmd error\n")); 4165 return; 4166 } 4167 4168 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 4169 ("%s : DIAG_TYPE_CRASH_INJECT: %d %d\n", 4170 __func__, slot->payload[0], 4171 slot->payload[1])); 4172 if (!tgt_assert_enable) { 4173 AR_DEBUG_PRINTF(ATH_DEBUG_INFO, 4174 ("%s: tgt Assert Disabled\n", 4175 __func__)); 4176 return; 4177 } 4178 wma_cli_set2_command(0, (int)GEN_PARAM_CRASH_INJECT, 4179 slot->payload[0], 4180 slot->payload[1], GEN_CMD); 4181 break; 4182 default: 4183 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Unknown cmd[%d] error\n", 4184 slot->diag_type)); 4185 break; 4186 } 4187 } 4188 4189 #ifdef CNSS_GENL 4190 /** 4191 * cnss_diag_cmd_handler() - API to handle CNSS diag command 4192 * @data: Data received 4193 * @data_len: length of the data received 4194 * @ctx: Pointer to stored context 4195 * @pid: Process ID 4196 * 4197 * API to handle CNSS diag commands from user space 4198 * 4199 * Return: None 4200 */ 4201 static void cnss_diag_cmd_handler(const void *data, int data_len, 4202 void *ctx, int pid) 4203 { 4204 struct dbglog_slot *slot = NULL; 4205 struct nlattr *tb[QCA_WLAN_VENDOR_ATTR_MAX + 1]; 4206 4207 /* 4208 * audit note: it is ok to pass a NULL policy here since a 4209 * length check on the data is added later already 4210 */ 4211 if (wlan_cfg80211_nla_parse(tb, CLD80211_ATTR_MAX, 4212 data, data_len, NULL)) { 4213 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("%s: nla parse fails\n", 4214 __func__)); 4215 return; 4216 } 4217 4218 if (!tb[CLD80211_ATTR_DATA]) { 4219 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("%s: attr VENDOR_DATA fails\n", 4220 __func__)); 4221 return; 4222 } 4223 4224 if (nla_len(tb[CLD80211_ATTR_DATA]) != sizeof(struct dbglog_slot)) { 4225 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("%s: attr length check fails\n", 4226 __func__)); 4227 return; 4228 } 4229 slot = (struct dbglog_slot *)nla_data(tb[CLD80211_ATTR_DATA]); 4230 4231 if (!slot) { 4232 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("%s: data NULL\n", __func__)); 4233 return; 4234 } 4235 4236 cnss_diag_handle_crash_inject(slot); 4237 return; 4238 } 4239 4240 /** 4241 * cnss_diag_activate_service() - API to register CNSS diag cmd handler 4242 * 4243 * API to register the CNSS diag command handler using new genl infra. 4244 * Return type is zero to match with legacy prototype 4245 * 4246 * Return: 0 4247 */ 4248 int cnss_diag_activate_service(void) 4249 { 4250 register_cld_cmd_cb(WLAN_NL_MSG_CNSS_DIAG, cnss_diag_cmd_handler, NULL); 4251 return 0; 4252 } 4253 4254 #else 4255 4256 /** 4257 * brief cnss_diag_msg_callback() - Call back invoked by netlink service 4258 * 4259 * This function gets invoked by netlink service when a message is recevied 4260 * from the cnss-diag application in user-space. 4261 * 4262 * param - 4263 * - skb - skb with netlink message 4264 * 4265 * return - 0 for success, non zero for failure 4266 */ 4267 static int cnss_diag_msg_callback(struct sk_buff *skb) 4268 { 4269 struct nlmsghdr *nlh; 4270 uint8_t *msg; 4271 4272 nlh = (struct nlmsghdr *)skb->data; 4273 if (!nlh) { 4274 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 4275 ("%s: Netlink header null\n", __func__)); 4276 return A_ERROR; 4277 } 4278 4279 msg = NLMSG_DATA(nlh); 4280 cnss_diag_handle_crash_inject((struct dbglog_slot *)msg); 4281 4282 return 0; 4283 } 4284 4285 /** 4286 * brief cnss_diag_activate_service() - Activate cnss_diag message handler 4287 * 4288 * This function registers a handler to receive netlink message from 4289 * an cnss-diag application process. 4290 * 4291 * param - 4292 * - None 4293 * 4294 * return - 0 for success, non zero for failure 4295 */ 4296 int cnss_diag_activate_service(void) 4297 { 4298 int ret = 0; 4299 4300 /* Register the msg handler for msgs addressed to WLAN_NL_MSG_OEM */ 4301 ret = nl_srv_register(WLAN_NL_MSG_CNSS_DIAG, cnss_diag_msg_callback); 4302 if (ret) { 4303 AR_DEBUG_PRINTF(ATH_DEBUG_ERR, 4304 ("CNSS-DIAG Registration failed")); 4305 return ret; 4306 } 4307 return 0; 4308 } 4309 #endif 4310 4311 static A_BOOL 4312 dbglog_wow_print_handler(uint32_t mod_id, 4313 uint16_t vap_id, 4314 uint32_t dbg_id, 4315 uint32_t timestamp, uint16_t numargs, uint32_t *args) 4316 { 4317 4318 switch (dbg_id) { 4319 case WOW_NS_OFLD_ENABLE: 4320 if (4 == numargs) { 4321 dbglog_printf(timestamp, vap_id, 4322 "Enable NS offload, for sender %02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", 4323 *(uint8_t *) &args[0], 4324 *((uint8_t *) &args[0] + 1), 4325 *((uint8_t *) &args[0] + 2), 4326 *((uint8_t *) &args[0] + 3), 4327 *(uint8_t *) &args[1], 4328 *((uint8_t *) &args[1] + 1), 4329 *((uint8_t *) &args[1] + 2), 4330 *((uint8_t *) &args[1] + 3), 4331 *(uint8_t *) &args[2], 4332 *((uint8_t *) &args[2] + 1), 4333 *((uint8_t *) &args[2] + 2), 4334 *((uint8_t *) &args[2] + 3), 4335 *(uint8_t *) &args[3], 4336 *((uint8_t *) &args[3] + 1), 4337 *((uint8_t *) &args[3] + 2), 4338 *((uint8_t *) &args[3] + 3)); 4339 } else { 4340 return false; 4341 } 4342 break; 4343 case WOW_ARP_OFLD_ENABLE: 4344 if (1 == numargs) { 4345 dbglog_printf(timestamp, vap_id, 4346 "Enable ARP offload, for sender %d.%d.%d.%d", 4347 *(uint8_t *) args, 4348 *((uint8_t *) args + 1), 4349 *((uint8_t *) args + 2), 4350 *((uint8_t *) args + 3)); 4351 } else { 4352 return false; 4353 } 4354 break; 4355 case WOW_NS_ARP_OFLD_DISABLE: 4356 if (0 == numargs) { 4357 dbglog_printf(timestamp, vap_id, 4358 "disable NS/ARP offload"); 4359 } else { 4360 return false; 4361 } 4362 break; 4363 case WOW_NS_RECEIVED: 4364 if (4 == numargs) { 4365 dbglog_printf(timestamp, vap_id, 4366 "NS requested from %02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", 4367 *(uint8_t *) &args[0], 4368 *((uint8_t *) &args[0] + 1), 4369 *((uint8_t *) &args[0] + 2), 4370 *((uint8_t *) &args[0] + 3), 4371 *(uint8_t *) &args[1], 4372 *((uint8_t *) &args[1] + 1), 4373 *((uint8_t *) &args[1] + 2), 4374 *((uint8_t *) &args[1] + 3), 4375 *(uint8_t *) &args[2], 4376 *((uint8_t *) &args[2] + 1), 4377 *((uint8_t *) &args[2] + 2), 4378 *((uint8_t *) &args[2] + 3), 4379 *(uint8_t *) &args[3], 4380 *((uint8_t *) &args[3] + 1), 4381 *((uint8_t *) &args[3] + 2), 4382 *((uint8_t *) &args[3] + 3)); 4383 } else { 4384 return false; 4385 } 4386 break; 4387 case WOW_NS_REPLIED: 4388 if (4 == numargs) { 4389 dbglog_printf(timestamp, vap_id, 4390 "NS replied to %02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x", 4391 *(uint8_t *) &args[0], 4392 *((uint8_t *) &args[0] + 1), 4393 *((uint8_t *) &args[0] + 2), 4394 *((uint8_t *) &args[0] + 3), 4395 *(uint8_t *) &args[1], 4396 *((uint8_t *) &args[1] + 1), 4397 *((uint8_t *) &args[1] + 2), 4398 *((uint8_t *) &args[1] + 3), 4399 *(uint8_t *) &args[2], 4400 *((uint8_t *) &args[2] + 1), 4401 *((uint8_t *) &args[2] + 2), 4402 *((uint8_t *) &args[2] + 3), 4403 *(uint8_t *) &args[3], 4404 *((uint8_t *) &args[3] + 1), 4405 *((uint8_t *) &args[3] + 2), 4406 *((uint8_t *) &args[3] + 3)); 4407 } else { 4408 return false; 4409 } 4410 break; 4411 case WOW_ARP_RECEIVED: 4412 if (1 == numargs) { 4413 dbglog_printf(timestamp, vap_id, 4414 "ARP requested from %d.%d.%d.%d", 4415 *(uint8_t *) args, 4416 *((uint8_t *) args + 1), 4417 *((uint8_t *) args + 2), 4418 *((uint8_t *) args + 3)); 4419 } else { 4420 return false; 4421 } 4422 break; 4423 break; 4424 case WOW_ARP_REPLIED: 4425 if (1 == numargs) { 4426 dbglog_printf(timestamp, vap_id, 4427 "ARP replied to %d.%d.%d.%d", 4428 *(uint8_t *) args, 4429 *((uint8_t *) args + 1), 4430 *((uint8_t *) args + 2), 4431 *((uint8_t *) args + 3)); 4432 } else { 4433 return false; 4434 } 4435 break; 4436 default: 4437 return false; 4438 } 4439 4440 return true; 4441 } 4442 4443 int dbglog_parser_type_init(wmi_unified_t wmi_handle, int type) 4444 { 4445 if (type >= DBGLOG_PROCESS_MAX) 4446 return A_ERROR; 4447 4448 dbglog_process_type = type; 4449 gprint_limiter = false; 4450 4451 return A_OK; 4452 } 4453 4454 int dbglog_init(wmi_unified_t wmi_handle) 4455 { 4456 int res = 0; 4457 4458 OS_MEMSET(mod_print, 0, sizeof(mod_print)); 4459 4460 dbglog_reg_modprint(WLAN_MODULE_STA_PWRSAVE, 4461 dbglog_sta_powersave_print_handler); 4462 dbglog_reg_modprint(WLAN_MODULE_AP_PWRSAVE, 4463 dbglog_ap_powersave_print_handler); 4464 dbglog_reg_modprint(WLAN_MODULE_WAL, dbglog_wal_print_handler); 4465 dbglog_reg_modprint(WLAN_MODULE_SCAN, dbglog_scan_print_handler); 4466 dbglog_reg_modprint(WLAN_MODULE_RATECTRL, 4467 dbglog_ratectrl_print_handler); 4468 dbglog_reg_modprint(WLAN_MODULE_ANI, dbglog_ani_print_handler); 4469 dbglog_reg_modprint(WLAN_MODULE_COEX, dbglog_coex_print_handler); 4470 dbglog_reg_modprint(WLAN_MODULE_BEACON, dbglog_beacon_print_handler); 4471 dbglog_reg_modprint(WLAN_MODULE_WOW, dbglog_wow_print_handler); 4472 dbglog_reg_modprint(WLAN_MODULE_DATA_TXRX, 4473 dbglog_data_txrx_print_handler); 4474 dbglog_reg_modprint(WLAN_MODULE_STA_SMPS, dbglog_smps_print_handler); 4475 dbglog_reg_modprint(WLAN_MODULE_P2P, dbglog_p2p_print_handler); 4476 dbglog_reg_modprint(WLAN_MODULE_PCIELP, dbglog_pcielp_print_handler); 4477 dbglog_reg_modprint(WLAN_MODULE_IBSS_PWRSAVE, 4478 dbglog_ibss_powersave_print_handler); 4479 tgt_assert_enable = wmi_handle->tgt_force_assert_enable; 4480 4481 /* Register handler for F3 or debug messages */ 4482 res = 4483 wmi_unified_register_event_handler(wmi_handle, 4484 wmi_dbg_msg_event_id, 4485 dbglog_parse_debug_logs, 4486 WMA_RX_WORK_CTX); 4487 if (res != 0) 4488 return res; 4489 4490 /* Register handler for FW diag events */ 4491 res = wmi_unified_register_event_handler(wmi_handle, 4492 wmi_diag_container_event_id, 4493 fw_diag_data_event_handler, 4494 WMA_RX_WORK_CTX); 4495 if (res != 0) 4496 return res; 4497 4498 /* Register handler for new FW diag Event, LOG, MSG combined */ 4499 res = wmi_unified_register_event_handler(wmi_handle, wmi_diag_event_id, 4500 diag_fw_handler, 4501 WMA_RX_WORK_CTX); 4502 if (res != 0) 4503 return res; 4504 4505 #ifdef WLAN_OPEN_SOURCE 4506 /* Initialize the fw debug log queue */ 4507 skb_queue_head_init(&wmi_handle->dbglog.fwlog_queue); 4508 init_completion(&wmi_handle->dbglog.fwlog_completion); 4509 4510 /* Initialize debugfs */ 4511 dbglog_debugfs_init(wmi_handle); 4512 #endif /* WLAN_OPEN_SOURCE */ 4513 4514 return res; 4515 } 4516 4517 int dbglog_deinit(wmi_unified_t wmi_handle) 4518 { 4519 int res = 0; 4520 4521 #ifdef WLAN_OPEN_SOURCE 4522 /* DeInitialize the fw debug log queue */ 4523 skb_queue_purge(&wmi_handle->dbglog.fwlog_queue); 4524 complete(&wmi_handle->dbglog.fwlog_completion); 4525 4526 /* Deinitialize the debugfs */ 4527 dbglog_debugfs_remove(wmi_handle); 4528 #endif /* WLAN_OPEN_SOURCE */ 4529 tgt_assert_enable = 0; 4530 res = 4531 wmi_unified_unregister_event_handler(wmi_handle, 4532 wmi_dbg_msg_event_id); 4533 if (res != 0) 4534 return res; 4535 4536 return res; 4537 } 4538