dbglog_host.c 120 KB

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  1. /*
  2. * Copyright (c) 2013-2020 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. /* Host Debug log implementation */
  19. #include "athdefs.h"
  20. #include "a_types.h"
  21. #include "dbglog_host.h"
  22. #include "wmi.h"
  23. #include "wmi_unified_api.h"
  24. #include "wma.h"
  25. #include "ol_defines.h"
  26. #include <wlan_nlink_srv.h>
  27. #include "host_diag_core_event.h"
  28. #include "qwlan_version.h"
  29. #include <net/sock.h>
  30. #include <linux/netlink.h>
  31. #include <linux/vmalloc.h>
  32. #ifdef WLAN_OPEN_SOURCE
  33. #include <linux/debugfs.h>
  34. #endif /* WLAN_OPEN_SOURCE */
  35. #include "wmi_unified_priv.h"
  36. #ifdef CNSS_GENL
  37. #include <net/cnss_nl.h>
  38. #include "wlan_cfg80211.h"
  39. #endif
  40. #ifdef MULTI_IF_NAME
  41. #define CLD_DEBUGFS_DIR "cld" MULTI_IF_NAME
  42. #else
  43. #define CLD_DEBUGFS_DIR "cld"
  44. #endif
  45. #define DEBUGFS_BLOCK_NAME "dbglog_block"
  46. #define ATH_MODULE_NAME fwlog
  47. #include <a_debug.h>
  48. #define FWLOG_DEBUG ATH_DEBUG_MAKE_MODULE_MASK(0)
  49. static int get_version;
  50. static int gprint_limiter;
  51. static bool tgt_assert_enable;
  52. #ifdef WLAN_DEBUG
  53. static ATH_DEBUG_MASK_DESCRIPTION g_fwlog_debug_description[] = {
  54. {FWLOG_DEBUG, "fwlog"},
  55. };
  56. ATH_DEBUG_INSTANTIATE_MODULE_VAR(fwlog,
  57. "fwlog",
  58. "Firmware Debug Log",
  59. ATH_DEBUG_MASK_DEFAULTS | ATH_DEBUG_INFO |
  60. ATH_DEBUG_ERR,
  61. ATH_DEBUG_DESCRIPTION_COUNT
  62. (g_fwlog_debug_description),
  63. g_fwlog_debug_description);
  64. #endif
  65. module_dbg_print mod_print[WLAN_MODULE_ID_MAX];
  66. uint32_t dbglog_process_type = DBGLOG_PROCESS_NET_RAW;
  67. static const char *dbglog_get_module_str(uint32_t module_id)
  68. {
  69. switch (module_id) {
  70. case WLAN_MODULE_INF:
  71. return "INF";
  72. case WLAN_MODULE_WMI:
  73. return "WMI";
  74. case WLAN_MODULE_STA_PWRSAVE:
  75. return "STA PS";
  76. case WLAN_MODULE_WHAL:
  77. return "WHAL";
  78. case WLAN_MODULE_COEX:
  79. return "COEX";
  80. case WLAN_MODULE_ROAM:
  81. return "ROAM";
  82. case WLAN_MODULE_RESMGR_CHAN_MANAGER:
  83. return "CHANMGR";
  84. case WLAN_MODULE_RESMGR:
  85. return "RESMGR";
  86. case WLAN_MODULE_VDEV_MGR:
  87. return "VDEV";
  88. case WLAN_MODULE_SCAN:
  89. return "SCAN";
  90. case WLAN_MODULE_RATECTRL:
  91. return "RC";
  92. case WLAN_MODULE_AP_PWRSAVE:
  93. return "AP PS";
  94. case WLAN_MODULE_BLOCKACK:
  95. return "BA";
  96. case WLAN_MODULE_MGMT_TXRX:
  97. return "MGMT";
  98. case WLAN_MODULE_DATA_TXRX:
  99. return "DATA";
  100. case WLAN_MODULE_HTT:
  101. return "HTT";
  102. case WLAN_MODULE_HOST:
  103. return "HOST";
  104. case WLAN_MODULE_BEACON:
  105. return "BEACON";
  106. case WLAN_MODULE_OFFLOAD:
  107. return "OFFLOAD";
  108. case WLAN_MODULE_WAL:
  109. return "WAL";
  110. case WAL_MODULE_DE:
  111. return "DE";
  112. case WLAN_MODULE_PCIELP:
  113. return "PCIELP";
  114. case WLAN_MODULE_RTT:
  115. return "RTT";
  116. case WLAN_MODULE_DCS:
  117. return "DCS";
  118. case WLAN_MODULE_CACHEMGR:
  119. return "CACHEMGR";
  120. case WLAN_MODULE_ANI:
  121. return "ANI";
  122. case WLAN_MODULE_TEST:
  123. return "TESTPOINT";
  124. case WLAN_MODULE_STA_SMPS:
  125. return "STA_SMPS";
  126. case WLAN_MODULE_TDLS:
  127. return "TDLS";
  128. case WLAN_MODULE_P2P:
  129. return "P2P";
  130. case WLAN_MODULE_WOW:
  131. return "WoW";
  132. case WLAN_MODULE_IBSS_PWRSAVE:
  133. return "IBSS PS";
  134. case WLAN_MODULE_EXTSCAN:
  135. return "ExtScan";
  136. case WLAN_MODULE_UNIT_TEST:
  137. return "UNIT_TEST";
  138. case WLAN_MODULE_MLME:
  139. return "MLME";
  140. case WLAN_MODULE_SUPPL:
  141. return "SUPPLICANT";
  142. default:
  143. return "UNKNOWN";
  144. }
  145. }
  146. char *DBG_MSG_ARR[WLAN_MODULE_ID_MAX][MAX_DBG_MSGS] = {
  147. {
  148. "INF_MSG_START",
  149. "INF_ASSERTION_FAILED",
  150. "INF_TARGET_ID",
  151. "INF_MSG_END"
  152. },
  153. {
  154. "WMI_DBGID_DEFINITION_START",
  155. "WMI_CMD_RX_XTND_PKT_TOO_SHORT",
  156. "WMI_EXTENDED_CMD_NOT_HANDLED",
  157. "WMI_CMD_RX_PKT_TOO_SHORT",
  158. "WMI_CALLING_WMI_EXTENSION_FN",
  159. "WMI_CMD_NOT_HANDLED",
  160. "WMI_IN_SYNC",
  161. "WMI_TARGET_WMI_SYNC_CMD",
  162. "WMI_SET_SNR_THRESHOLD_PARAMS",
  163. "WMI_SET_RSSI_THRESHOLD_PARAMS",
  164. "WMI_SET_LQ_THRESHOLD_PARAMS",
  165. "WMI_TARGET_CREATE_PSTREAM_CMD",
  166. "WMI_WI_DTM_INUSE",
  167. "WMI_TARGET_DELETE_PSTREAM_CMD",
  168. "WMI_TARGET_IMPLICIT_DELETE_PSTREAM_CMD",
  169. "WMI_TARGET_GET_BIT_RATE_CMD",
  170. "WMI_GET_RATE_MASK_CMD_FIX_RATE_MASK_IS",
  171. "WMI_TARGET_GET_AVAILABLE_CHANNELS_CMD",
  172. "WMI_TARGET_GET_TX_PWR_CMD",
  173. "WMI_FREE_EVBUF_WMIBUF",
  174. "WMI_FREE_EVBUF_DATABUF",
  175. "WMI_FREE_EVBUF_BADFLAG",
  176. "WMI_HTC_RX_ERROR_DATA_PACKET",
  177. "WMI_HTC_RX_SYNC_PAUSING_FOR_MBOX",
  178. "WMI_INCORRECT_WMI_DATA_HDR_DROPPING_PKT",
  179. "WMI_SENDING_READY_EVENT",
  180. "WMI_SETPOWER_MDOE_TO_MAXPERF",
  181. "WMI_SETPOWER_MDOE_TO_REC",
  182. "WMI_BSSINFO_EVENT_FROM",
  183. "WMI_TARGET_GET_STATS_CMD",
  184. "WMI_SENDING_SCAN_COMPLETE_EVENT",
  185. "WMI_SENDING_RSSI_INDB_THRESHOLD_EVENT ",
  186. "WMI_SENDING_RSSI_INDBM_THRESHOLD_EVENT",
  187. "WMI_SENDING_LINK_QUALITY_THRESHOLD_EVENT",
  188. "WMI_SENDING_ERROR_REPORT_EVENT",
  189. "WMI_SENDING_CAC_EVENT",
  190. "WMI_TARGET_GET_ROAM_TABLE_CMD",
  191. "WMI_TARGET_GET_ROAM_DATA_CMD",
  192. "WMI_SENDING_GPIO_INTR_EVENT",
  193. "WMI_SENDING_GPIO_ACK_EVENT",
  194. "WMI_SENDING_GPIO_DATA_EVENT",
  195. "WMI_CMD_RX",
  196. "WMI_CMD_RX_XTND",
  197. "WMI_EVENT_SEND",
  198. "WMI_EVENT_SEND_XTND",
  199. "WMI_CMD_PARAMS_DUMP_START",
  200. "WMI_CMD_PARAMS_DUMP_END",
  201. "WMI_CMD_PARAMS",
  202. "WMI_EVENT_ALLOC_FAILURE",
  203. "WMI_DBGID_DCS_PARAM_CMD",
  204. "WMI_SEND_EVENT_WRONG_TLV",
  205. "WMI_SEND_EVENT_NO_TLV_DEF",
  206. "WMI_DBGID_DEFNITION_END",
  207. },
  208. {
  209. "PS_STA_DEFINITION_START",
  210. "PS_STA_PM_ARB_REQUEST",
  211. "PS_STA_DELIVER_EVENT",
  212. "PS_STA_PSPOLL_SEQ_DONE",
  213. "PS_STA_COEX_MODE",
  214. "PS_STA_PSPOLL_ALLOW",
  215. "PS_STA_SET_PARAM",
  216. "PS_STA_SPECPOLL_TIMER_STARTED",
  217. "PS_STA_SPECPOLL_TIMER_STOPPED",
  218. },
  219. {
  220. "WHAL_DBGID_DEFINITION_START",
  221. "WHAL_ERROR_ANI_CONTROL",
  222. "WHAL_ERROR_CHIP_TEST1",
  223. "WHAL_ERROR_CHIP_TEST2",
  224. "WHAL_ERROR_EEPROM_CHECKSUM",
  225. "WHAL_ERROR_EEPROM_MACADDR",
  226. "WHAL_ERROR_INTERRUPT_HIU",
  227. "WHAL_ERROR_KEYCACHE_RESET",
  228. "WHAL_ERROR_KEYCACHE_SET",
  229. "WHAL_ERROR_KEYCACHE_TYPE",
  230. "WHAL_ERROR_KEYCACHE_TKIPENTRY",
  231. "WHAL_ERROR_KEYCACHE_WEPLENGTH",
  232. "WHAL_ERROR_PHY_INVALID_CHANNEL",
  233. "WHAL_ERROR_POWER_AWAKE",
  234. "WHAL_ERROR_POWER_SET",
  235. "WHAL_ERROR_RECV_STOPDMA",
  236. "WHAL_ERROR_RECV_STOPPCU",
  237. "WHAL_ERROR_RESET_CHANNF1",
  238. "WHAL_ERROR_RESET_CHANNF2",
  239. "WHAL_ERROR_RESET_PM",
  240. "WHAL_ERROR_RESET_OFFSETCAL",
  241. "WHAL_ERROR_RESET_RFGRANT",
  242. "WHAL_ERROR_RESET_RXFRAME",
  243. "WHAL_ERROR_RESET_STOPDMA",
  244. "WHAL_ERROR_RESET_ERRID",
  245. "WHAL_ERROR_RESET_ADCDCCAL1",
  246. "WHAL_ERROR_RESET_ADCDCCAL2",
  247. "WHAL_ERROR_RESET_TXIQCAL",
  248. "WHAL_ERROR_RESET_RXIQCAL",
  249. "WHAL_ERROR_RESET_CARRIERLEAK",
  250. "WHAL_ERROR_XMIT_COMPUTE",
  251. "WHAL_ERROR_XMIT_NOQUEUE",
  252. "WHAL_ERROR_XMIT_ACTIVEQUEUE",
  253. "WHAL_ERROR_XMIT_BADTYPE",
  254. "WHAL_ERROR_XMIT_STOPDMA",
  255. "WHAL_ERROR_INTERRUPT_BB_PANIC",
  256. "WHAL_ERROR_PAPRD_MAXGAIN_ABOVE_WINDOW",
  257. "WHAL_ERROR_QCU_HW_PAUSE_MISMATCH",
  258. "WHAL_DBGID_DEFINITION_END",
  259. },
  260. {
  261. "COEX_DEBUGID_START",
  262. "BTCOEX_DBG_MCI_1",
  263. "BTCOEX_DBG_MCI_2",
  264. "BTCOEX_DBG_MCI_3",
  265. "BTCOEX_DBG_MCI_4",
  266. "BTCOEX_DBG_MCI_5",
  267. "BTCOEX_DBG_MCI_6",
  268. "BTCOEX_DBG_MCI_7",
  269. "BTCOEX_DBG_MCI_8",
  270. "BTCOEX_DBG_MCI_9",
  271. "BTCOEX_DBG_MCI_10",
  272. "COEX_WAL_BTCOEX_INIT",
  273. "COEX_WAL_PAUSE",
  274. "COEX_WAL_RESUME",
  275. "COEX_UPDATE_AFH",
  276. "COEX_HWQ_EMPTY_CB",
  277. "COEX_MCI_TIMER_HANDLER",
  278. "COEX_MCI_RECOVER",
  279. "ERROR_COEX_MCI_ISR",
  280. "ERROR_COEX_MCI_GPM",
  281. "COEX_ProfileType",
  282. "COEX_LinkID",
  283. "COEX_LinkState",
  284. "COEX_LinkRole",
  285. "COEX_LinkRate",
  286. "COEX_VoiceType",
  287. "COEX_TInterval",
  288. "COEX_WRetrx",
  289. "COEX_Attempts",
  290. "COEX_PerformanceState",
  291. "COEX_LinkType",
  292. "COEX_RX_MCI_GPM_VERSION_QUERY",
  293. "COEX_RX_MCI_GPM_VERSION_RESPONSE",
  294. "COEX_RX_MCI_GPM_STATUS_QUERY",
  295. "COEX_STATE_WLAN_VDEV_DOWN",
  296. "COEX_STATE_WLAN_VDEV_START",
  297. "COEX_STATE_WLAN_VDEV_CONNECTED",
  298. "COEX_STATE_WLAN_VDEV_SCAN_STARTED",
  299. "COEX_STATE_WLAN_VDEV_SCAN_END",
  300. "COEX_STATE_WLAN_DEFAULT",
  301. "COEX_CHANNEL_CHANGE",
  302. "COEX_POWER_CHANGE",
  303. "COEX_CONFIG_MGR",
  304. "COEX_TX_MCI_GPM_BT_CAL_REQ",
  305. "COEX_TX_MCI_GPM_BT_CAL_GRANT",
  306. "COEX_TX_MCI_GPM_BT_CAL_DONE",
  307. "COEX_TX_MCI_GPM_WLAN_CAL_REQ",
  308. "COEX_TX_MCI_GPM_WLAN_CAL_GRANT",
  309. "COEX_TX_MCI_GPM_WLAN_CAL_DONE",
  310. "COEX_TX_MCI_GPM_BT_DEBUG",
  311. "COEX_TX_MCI_GPM_VERSION_QUERY",
  312. "COEX_TX_MCI_GPM_VERSION_RESPONSE",
  313. "COEX_TX_MCI_GPM_STATUS_QUERY",
  314. "COEX_TX_MCI_GPM_HALT_BT_GPM",
  315. "COEX_TX_MCI_GPM_WLAN_CHANNELS",
  316. "COEX_TX_MCI_GPM_BT_PROFILE_INFO",
  317. "COEX_TX_MCI_GPM_BT_STATUS_UPDATE",
  318. "COEX_TX_MCI_GPM_BT_UPDATE_FLAGS",
  319. "COEX_TX_MCI_GPM_UNKNOWN",
  320. "COEX_TX_MCI_SYS_WAKING",
  321. "COEX_TX_MCI_LNA_TAKE",
  322. "COEX_TX_MCI_LNA_TRANS",
  323. "COEX_TX_MCI_SYS_SLEEPING",
  324. "COEX_TX_MCI_REQ_WAKE",
  325. "COEX_TX_MCI_REMOTE_RESET",
  326. "COEX_TX_MCI_TYPE_UNKNOWN",
  327. "COEX_WHAL_MCI_RESET",
  328. "COEX_POLL_BT_CAL_DONE_TIMEOUT",
  329. "COEX_WHAL_PAUSE",
  330. "COEX_RX_MCI_GPM_BT_CAL_REQ",
  331. "COEX_RX_MCI_GPM_BT_CAL_DONE",
  332. "COEX_RX_MCI_GPM_BT_CAL_GRANT",
  333. "COEX_WLAN_CAL_START",
  334. "COEX_WLAN_CAL_RESULT",
  335. "COEX_BtMciState",
  336. "COEX_BtCalState",
  337. "COEX_WlanCalState",
  338. "COEX_RxReqWakeCount",
  339. "COEX_RxRemoteResetCount",
  340. "COEX_RESTART_CAL",
  341. "COEX_SENDMSG_QUEUE",
  342. "COEX_RESETSEQ_LNAINFO_TIMEOUT",
  343. "COEX_MCI_ISR_IntRaw",
  344. "COEX_MCI_ISR_Int1Raw",
  345. "COEX_MCI_ISR_RxMsgRaw",
  346. "COEX_WHAL_COEX_RESET",
  347. "COEX_WAL_COEX_INIT",
  348. "COEX_TXRX_CNT_LIMIT_ISR",
  349. "COEX_CH_BUSY",
  350. "COEX_REASSESS_WLAN_STATE",
  351. "COEX_BTCOEX_WLAN_STATE_UPDATE",
  352. "COEX_BT_NUM_OF_PROFILES",
  353. "COEX_BT_NUM_OF_HID_PROFILES",
  354. "COEX_BT_NUM_OF_ACL_PROFILES",
  355. "COEX_BT_NUM_OF_HI_ACL_PROFILES",
  356. "COEX_BT_NUM_OF_VOICE_PROFILES",
  357. "COEX_WLAN_AGGR_LIMIT",
  358. "COEX_BT_LOW_PRIO_BUDGET",
  359. "COEX_BT_HI_PRIO_BUDGET",
  360. "COEX_BT_IDLE_TIME",
  361. "COEX_SET_COEX_WEIGHT",
  362. "COEX_WLAN_WEIGHT_GROUP",
  363. "COEX_BT_WEIGHT_GROUP",
  364. "COEX_BT_INTERVAL_ALLOC",
  365. "COEX_BT_SCHEME",
  366. "COEX_BT_MGR",
  367. "COEX_BT_SM_ERROR",
  368. "COEX_SYSTEM_UPDATE",
  369. "COEX_LOW_PRIO_LIMIT",
  370. "COEX_HI_PRIO_LIMIT",
  371. "COEX_BT_INTERVAL_START",
  372. "COEX_WLAN_INTERVAL_START",
  373. "COEX_NON_LINK_BUDGET",
  374. "COEX_CONTENTION_MSG",
  375. "COEX_SET_NSS",
  376. "COEX_SELF_GEN_MASK",
  377. "COEX_PROFILE_ERROR",
  378. "COEX_WLAN_INIT",
  379. "COEX_BEACON_MISS",
  380. "COEX_BEACON_OK",
  381. "COEX_BTCOEX_SCAN_ACTIVITY",
  382. "COEX_SCAN_ACTIVITY",
  383. "COEX_FORCE_QUIETTIME",
  384. "COEX_BT_MGR_QUIETTIME",
  385. "COEX_BT_INACTIVITY_TRIGGER",
  386. "COEX_BT_INACTIVITY_REPORTED",
  387. "COEX_TX_MCI_GPM_WLAN_PRIO",
  388. "COEX_TX_MCI_GPM_BT_PAUSE_PROFILE",
  389. "COEX_TX_MCI_GPM_WLAN_SET_ACL_INACTIVITY",
  390. "COEX_RX_MCI_GPM_BT_ACL_INACTIVITY_REPORT",
  391. "COEX_GENERIC_ERROR",
  392. "COEX_RX_RATE_THRESHOLD",
  393. "COEX_RSSI",
  394. "COEX_WLAN_VDEV_NOTIF_START", /* 133 */
  395. "COEX_WLAN_VDEV_NOTIF_UP", /* 134 */
  396. "COEX_WLAN_VDEV_NOTIF_DOWN", /* 135 */
  397. "COEX_WLAN_VDEV_NOTIF_STOP", /* 136 */
  398. "COEX_WLAN_VDEV_NOTIF_ADD_PEER", /* 137 */
  399. "COEX_WLAN_VDEV_NOTIF_DELETE_PEER", /* 138 */
  400. "COEX_WLAN_VDEV_NOTIF_CONNECTED_PEER", /* 139 */
  401. "COEX_WLAN_VDEV_NOTIF_PAUSE", /* 140 */
  402. "COEX_WLAN_VDEV_NOTIF_UNPAUSED", /* 141 */
  403. "COEX_STATE_WLAN_VDEV_PEER_ADD", /* 142 */
  404. "COEX_STATE_WLAN_VDEV_CONNECTED_PEER", /* 143 */
  405. "COEX_STATE_WLAN_VDEV_DELETE_PEER", /* 144 */
  406. "COEX_STATE_WLAN_VDEV_PAUSE", /* 145 */
  407. "COEX_STATE_WLAN_VDEV_UNPAUSED", /* 146 */
  408. "COEX_SCAN_CALLBACK", /* 147 */
  409. "COEX_RC_SET_CHAINMASK", /* 148 */
  410. "COEX_TX_MCI_GPM_WLAN_SET_BT_RXSS_THRES", /* 149 */
  411. "COEX_TX_MCI_GPM_BT_RXSS_THRES_QUERY", /* 150 */
  412. "COEX_BT_RXSS_THRES", /* 151 */
  413. "COEX_BT_PROFILE_ADD_RMV", /* 152 */
  414. "COEX_BT_SCHED_INFO", /* 153 */
  415. "COEX_TRF_MGMT", /* 154 */
  416. "COEX_SCHED_START", /* 155 */
  417. "COEX_SCHED_RESULT", /* 156 */
  418. "COEX_SCHED_ERROR", /* 157 */
  419. "COEX_SCHED_PRE_OP", /* 158 */
  420. "COEX_SCHED_POST_OP", /* 159 */
  421. "COEX_RX_RATE", /* 160 */
  422. "COEX_ACK_PRIORITY", /* 161 */
  423. "COEX_STATE_WLAN_VDEV_UP", /* 162 */
  424. "COEX_STATE_WLAN_VDEV_PEER_UPDATE", /* 163 */
  425. "COEX_STATE_WLAN_VDEV_STOP", /* 164 */
  426. "COEX_WLAN_PAUSE_PEER", /* 165 */
  427. "COEX_WLAN_UNPAUSE_PEER", /* 166 */
  428. "COEX_WLAN_PAUSE_INTERVAL_START", /* 167 */
  429. "COEX_WLAN_POSTPAUSE_INTERVAL_START", /* 168 */
  430. "COEX_TRF_FREERUN", /* 169 */
  431. "COEX_TRF_SHAPE_PM", /* 170 */
  432. "COEX_TRF_SHAPE_PSP", /* 171 */
  433. "COEX_TRF_SHAPE_S_CTS", /* 172 */
  434. "COEX_CHAIN_CONFIG", /* 173 */
  435. "COEX_SYSTEM_MONITOR", /* 174 */
  436. "COEX_SINGLECHAIN_INIT", /* 175 */
  437. "COEX_MULTICHAIN_INIT", /* 176 */
  438. "COEX_SINGLECHAIN_DBG_1", /* 177 */
  439. "COEX_SINGLECHAIN_DBG_2", /* 178 */
  440. "COEX_SINGLECHAIN_DBG_3", /* 179 */
  441. "COEX_MULTICHAIN_DBG_1", /* 180 */
  442. "COEX_MULTICHAIN_DBG_2", /* 181 */
  443. "COEX_MULTICHAIN_DBG_3", /* 182 */
  444. "COEX_PSP_TX_CB", /* 183 */
  445. "COEX_PSP_RX_CB", /* 184 */
  446. "COEX_PSP_STAT_1", /* 185 */
  447. "COEX_PSP_SPEC_POLL", /* 186 */
  448. "COEX_PSP_READY_STATE", /* 187 */
  449. "COEX_PSP_TX_STATUS_STATE", /* 188 */
  450. "COEX_PSP_RX_STATUS_STATE_1", /* 189 */
  451. "COEX_PSP_NOT_READY_STATE", /* 190 */
  452. "COEX_PSP_DISABLED_STATE", /* 191 */
  453. "COEX_PSP_ENABLED_STATE", /* 192 */
  454. "COEX_PSP_SEND_PSPOLL", /* 193 */
  455. "COEX_PSP_MGR_ENTER", /* 194 */
  456. "COEX_PSP_MGR_RESULT", /* 195 */
  457. "COEX_PSP_NONWLAN_INTERVAL", /* 196 */
  458. "COEX_PSP_STAT_2", /* 197 */
  459. "COEX_PSP_RX_STATUS_STATE_2", /* 198 */
  460. "COEX_PSP_ERROR", /* 199 */
  461. "COEX_T2BT", /* 200 */
  462. "COEX_BT_DURATION", /* 201 */
  463. "COEX_TX_MCI_GPM_WLAN_SCHED_INFO_TRIG", /* 202 */
  464. "COEX_TX_MCI_GPM_WLAN_SCHED_INFO_TRIG_RSP", /* 203 */
  465. "COEX_TX_MCI_GPM_SCAN_OP", /* 204 */
  466. "COEX_TX_MCI_GPM_BT_PAUSE_GPM_TX", /* 205 */
  467. "COEX_CTS2S_SEND", /* 206 */
  468. "COEX_CTS2S_RESULT", /* 207 */
  469. "COEX_ENTER_OCS", /* 208 */
  470. "COEX_EXIT_OCS", /* 209 */
  471. "COEX_UPDATE_OCS", /* 210 */
  472. "COEX_STATUS_OCS", /* 211 */
  473. "COEX_STATS_BT", /* 212 */
  474. "COEX_MWS_WLAN_INIT",
  475. "COEX_MWS_WBTMR_SYNC",
  476. "COEX_MWS_TYPE2_RX",
  477. "COEX_MWS_TYPE2_TX",
  478. "COEX_MWS_WLAN_CHAVD",
  479. "COEX_MWS_WLAN_CHAVD_INSERT",
  480. "COEX_MWS_WLAN_CHAVD_MERGE",
  481. "COEX_MWS_WLAN_CHAVD_RPT",
  482. "COEX_MWS_CP_MSG_SEND",
  483. "COEX_MWS_CP_ESCAPE",
  484. "COEX_MWS_CP_UNFRAME",
  485. "COEX_MWS_CP_SYNC_UPDATE",
  486. "COEX_MWS_CP_SYNC",
  487. "COEX_MWS_CP_WLAN_STATE_IND",
  488. "COEX_MWS_CP_SYNCRESP_TIMEOUT",
  489. "COEX_MWS_SCHEME_UPDATE",
  490. "COEX_MWS_WLAN_EVENT",
  491. "COEX_MWS_UART_UNESCAPE",
  492. "COEX_MWS_UART_ENCODE_SEND",
  493. "COEX_MWS_UART_RECV_DECODE",
  494. "COEX_MWS_UL_HDL",
  495. "COEX_MWS_REMOTE_EVENT",
  496. "COEX_MWS_OTHER",
  497. "COEX_MWS_ERROR",
  498. "COEX_MWS_ANT_DIVERSITY", /* 237 */
  499. "COEX_P2P_GO",
  500. "COEX_P2P_CLIENT",
  501. "COEX_SCC_1",
  502. "COEX_SCC_2",
  503. "COEX_MCC_1",
  504. "COEX_MCC_2",
  505. "COEX_TRF_SHAPE_NOA",
  506. "COEX_NOA_ONESHOT",
  507. "COEX_NOA_PERIODIC",
  508. "COEX_LE_1",
  509. "COEX_LE_2",
  510. "COEX_ANT_1",
  511. "COEX_ANT_2",
  512. "COEX_ENTER_NOA",
  513. "COEX_EXIT_NOA",
  514. "COEX_BT_SCAN_PROTECT", /* 253 */
  515. "COEX_DEBUG_ID_END" /* 254 */
  516. },
  517. {
  518. "ROAM_DBGID_DEFINITION_START",
  519. "ROAM_MODULE_INIT",
  520. "ROAM_DEV_START",
  521. "ROAM_CONFIG_RSSI_THRESH",
  522. "ROAM_CONFIG_SCAN_PERIOD",
  523. "ROAM_CONFIG_AP_PROFILE",
  524. "ROAM_CONFIG_CHAN_LIST",
  525. "ROAM_CONFIG_SCAN_PARAMS",
  526. "ROAM_CONFIG_RSSI_CHANGE",
  527. "ROAM_SCAN_TIMER_START",
  528. "ROAM_SCAN_TIMER_EXPIRE",
  529. "ROAM_SCAN_TIMER_STOP",
  530. "ROAM_SCAN_STARTED",
  531. "ROAM_SCAN_COMPLETE",
  532. "ROAM_SCAN_CANCELLED",
  533. "ROAM_CANDIDATE_FOUND",
  534. "ROAM_RSSI_ACTIVE_SCAN",
  535. "ROAM_RSSI_ACTIVE_ROAM",
  536. "ROAM_RSSI_GOOD",
  537. "ROAM_BMISS_FIRST_RECV",
  538. "ROAM_DEV_STOP",
  539. "ROAM_FW_OFFLOAD_ENABLE",
  540. "ROAM_CANDIDATE_SSID_MATCH",
  541. "ROAM_CANDIDATE_SECURITY_MATCH",
  542. "ROAM_LOW_RSSI_INTERRUPT",
  543. "ROAM_HIGH_RSSI_INTERRUPT",
  544. "ROAM_SCAN_REQUESTED",
  545. "ROAM_BETTER_CANDIDATE_FOUND",
  546. "ROAM_BETTER_AP_EVENT",
  547. "ROAM_CANCEL_LOW_PRIO_SCAN",
  548. "ROAM_FINAL_BMISS_RECVD",
  549. "ROAM_CONFIG_SCAN_MODE",
  550. "ROAM_BMISS_FINAL_SCAN_ENABLE",
  551. "ROAM_SUITABLE_AP_EVENT",
  552. "ROAM_RSN_IE_PARSE_ERROR",
  553. "ROAM_WPA_IE_PARSE_ERROR",
  554. "ROAM_SCAN_CMD_FROM_HOST",
  555. "ROAM_HO_SORT_CANDIDATE",
  556. "ROAM_HO_SAVE_CANDIDATE",
  557. "ROAM_HO_GET_CANDIDATE",
  558. "ROAM_HO_OFFLOAD_SET_PARAM",
  559. "ROAM_HO_SM",
  560. "ROAM_HO_HTT_SAVED",
  561. "ROAM_HO_SYNC_START",
  562. "ROAM_HO_START",
  563. "ROAM_HO_COMPLETE",
  564. "ROAM_HO_STOP",
  565. "ROAM_HO_HTT_FORWARD",
  566. "ROAM_DBGID_DEFINITION_END"
  567. },
  568. {
  569. "RESMGR_CHMGR_DEFINITION_START",
  570. "RESMGR_CHMGR_PAUSE_COMPLETE",
  571. "RESMGR_CHMGR_CHANNEL_CHANGE",
  572. "RESMGR_CHMGR_RESUME_COMPLETE",
  573. "RESMGR_CHMGR_VDEV_PAUSE",
  574. "RESMGR_CHMGR_VDEV_UNPAUSE",
  575. "RESMGR_CHMGR_CTS2S_TX_COMP",
  576. "RESMGR_CHMGR_CFEND_TX_COMP",
  577. "RESMGR_CHMGR_DEFINITION_END"
  578. },
  579. {
  580. "RESMGR_DEFINITION_START",
  581. "RESMGR_OCS_ALLOCRAM_SIZE",
  582. "RESMGR_OCS_RESOURCES",
  583. "RESMGR_LINK_CREATE",
  584. "RESMGR_LINK_DELETE",
  585. "RESMGR_OCS_CHREQ_CREATE",
  586. "RESMGR_OCS_CHREQ_DELETE",
  587. "RESMGR_OCS_CHREQ_START",
  588. "RESMGR_OCS_CHREQ_STOP",
  589. "RESMGR_OCS_SCHEDULER_INVOKED",
  590. "RESMGR_OCS_CHREQ_GRANT",
  591. "RESMGR_OCS_CHREQ_COMPLETE",
  592. "RESMGR_OCS_NEXT_TSFTIME",
  593. "RESMGR_OCS_TSF_TIMEOUT_US",
  594. "RESMGR_OCS_CURR_CAT_WINDOW",
  595. "RESMGR_OCS_CURR_CAT_WINDOW_REQ",
  596. "RESMGR_OCS_CURR_CAT_WINDOW_TIMESLOT",
  597. "RESMGR_OCS_CHREQ_RESTART",
  598. "RESMGR_OCS_CLEANUP_CH_ALLOCATORS",
  599. "RESMGR_OCS_PURGE_CHREQ",
  600. "RESMGR_OCS_CH_ALLOCATOR_FREE",
  601. "RESMGR_OCS_RECOMPUTE_SCHEDULE",
  602. "RESMGR_OCS_NEW_CAT_WINDOW_REQ",
  603. "RESMGR_OCS_NEW_CAT_WINDOW_TIMESLOT",
  604. "RESMGR_OCS_CUR_CH_ALLOC",
  605. "RESMGR_OCS_WIN_CH_ALLOC",
  606. "RESMGR_OCS_SCHED_CH_CHANGE",
  607. "RESMGR_OCS_CONSTRUCT_CAT_WIN",
  608. "RESMGR_OCS_CHREQ_PREEMPTED",
  609. "RESMGR_OCS_CH_SWITCH_REQ",
  610. "RESMGR_OCS_CHANNEL_SWITCHED",
  611. "RESMGR_OCS_CLEANUP_STALE_REQS",
  612. "RESMGR_OCS_CHREQ_UPDATE",
  613. "RESMGR_OCS_REG_NOA_NOTIF",
  614. "RESMGR_OCS_DEREG_NOA_NOTIF",
  615. "RESMGR_OCS_GEN_PERIODIC_NOA",
  616. "RESMGR_OCS_RECAL_QUOTAS",
  617. "RESMGR_OCS_GRANTED_QUOTA_STATS",
  618. "RESMGR_OCS_ALLOCATED_QUOTA_STATS",
  619. "RESMGR_OCS_REQ_QUOTA_STATS",
  620. "RESMGR_OCS_TRACKING_TIME_FIRED",
  621. "RESMGR_VC_ARBITRATE_ATTRIBUTES",
  622. "RESMGR_OCS_LATENCY_STRICT_TIME_SLOT",
  623. "RESMGR_OCS_CURR_TSF",
  624. "RESMGR_OCS_QUOTA_REM",
  625. "RESMGR_OCS_LATENCY_CASE_NO",
  626. "RESMGR_OCS_WIN_CAT_DUR",
  627. "RESMGR_VC_UPDATE_CUR_VC",
  628. "RESMGR_VC_REG_UNREG_LINK",
  629. "RESMGR_VC_PRINT_LINK",
  630. "RESMGR_OCS_MISS_TOLERANCE",
  631. "RESMGR_DYN_SCH_ALLOCRAM_SIZE",
  632. "RESMGR_DYN_SCH_ENABLE",
  633. "RESMGR_DYN_SCH_ACTIVE",
  634. "RESMGR_DYN_SCH_CH_STATS_START",
  635. "RESMGR_DYN_SCH_CH_SX_STATS",
  636. "RESMGR_DYN_SCH_TOT_UTIL_PER",
  637. "RESMGR_DYN_SCH_HOME_CH_QUOTA",
  638. "RESMGR_OCS_REG_RECAL_QUOTA_NOTIF",
  639. "RESMGR_OCS_DEREG_RECAL_QUOTA_NOTIF",
  640. "RESMGR_DEFINITION_END"
  641. },
  642. {
  643. "VDEV_MGR_DEBID_DEFINITION_START", /* vdev Mgr */
  644. "VDEV_MGR_FIRST_BEACON_MISS_DETECTED",
  645. "VDEV_MGR_FINAL_BEACON_MISS_DETECTED",
  646. "VDEV_MGR_BEACON_IN_SYNC",
  647. "VDEV_MGR_AP_KEEPALIVE_IDLE",
  648. "VDEV_MGR_AP_KEEPALIVE_INACTIVE",
  649. "VDEV_MGR_AP_KEEPALIVE_UNRESPONSIVE",
  650. "VDEV_MGR_AP_TBTT_CONFIG",
  651. "VDEV_MGR_FIRST_BCN_RECEIVED",
  652. "VDEV_MGR_VDEV_START",
  653. "VDEV_MGR_VDEV_UP",
  654. "VDEV_MGR_PEER_AUTHORIZED",
  655. "VDEV_MGR_OCS_HP_LP_REQ_POSTED",
  656. "VDEV_MGR_VDEV_START_OCS_HP_REQ_COMPLETE",
  657. "VDEV_MGR_VDEV_START_OCS_HP_REQ_STOP",
  658. "VDEV_MGR_HP_START_TIME",
  659. "VDEV_MGR_VDEV_PAUSE_DELAY_UPDATE",
  660. "VDEV_MGR_VDEV_PAUSE_FAIL",
  661. "VDEV_MGR_GEN_PERIODIC_NOA",
  662. "VDEV_MGR_OFF_CHAN_GO_CH_REQ_SETUP",
  663. "VDEV_MGR_DEFINITION_END",
  664. },
  665. {
  666. "SCAN_START_COMMAND_FAILED", /* scan */
  667. "SCAN_STOP_COMMAND_FAILED",
  668. "SCAN_EVENT_SEND_FAILED",
  669. "SCAN_ENGINE_START",
  670. "SCAN_ENGINE_CANCEL_COMMAND",
  671. "SCAN_ENGINE_STOP_DUE_TO_TIMEOUT",
  672. "SCAN_EVENT_SEND_TO_HOST",
  673. "SCAN_FWLOG_EVENT_ADD",
  674. "SCAN_FWLOG_EVENT_REM",
  675. "SCAN_FWLOG_EVENT_PREEMPTED",
  676. "SCAN_FWLOG_EVENT_RESTARTED",
  677. "SCAN_FWLOG_EVENT_COMPLETED",
  678. },
  679. {
  680. "RATECTRL_DBGID_DEFINITION_START", /* Rate ctrl */
  681. "RATECTRL_DBGID_ASSOC",
  682. "RATECTRL_DBGID_NSS_CHANGE",
  683. "RATECTRL_DBGID_CHAINMASK_ERR",
  684. "RATECTRL_DBGID_UNEXPECTED_FRAME",
  685. "RATECTRL_DBGID_WAL_RCQUERY",
  686. "RATECTRL_DBGID_WAL_RCUPDATE",
  687. "RATECTRL_DBGID_GTX_UPDATE",
  688. "RATECTRL_DBGID_DEFINITION_END"
  689. },
  690. {
  691. "AP_PS_DBGID_DEFINITION_START",
  692. "AP_PS_DBGID_UPDATE_TIM",
  693. "AP_PS_DBGID_PEER_STATE_CHANGE",
  694. "AP_PS_DBGID_PSPOLL",
  695. "AP_PS_DBGID_PEER_CREATE",
  696. "AP_PS_DBGID_PEER_DELETE",
  697. "AP_PS_DBGID_VDEV_CREATE",
  698. "AP_PS_DBGID_VDEV_DELETE",
  699. "AP_PS_DBGID_SYNC_TIM",
  700. "AP_PS_DBGID_NEXT_RESPONSE",
  701. "AP_PS_DBGID_START_SP",
  702. "AP_PS_DBGID_COMPLETED_EOSP",
  703. "AP_PS_DBGID_TRIGGER",
  704. "AP_PS_DBGID_DUPLICATE_TRIGGER",
  705. "AP_PS_DBGID_UAPSD_RESPONSE",
  706. "AP_PS_DBGID_SEND_COMPLETE",
  707. "AP_PS_DBGID_SEND_N_COMPLETE",
  708. "AP_PS_DBGID_DETECT_OUT_OF_SYNC_STA",
  709. "AP_PS_DBGID_DELIVER_CAB",
  710. },
  711. {
  712. "" /* Block Ack */
  713. },
  714. /* Mgmt TxRx */
  715. {
  716. "MGMT_TXRX_DBGID_DEFINITION_START",
  717. "MGMT_TXRX_FORWARD_TO_HOST",
  718. "MGMT_TXRX_DBGID_DEFINITION_END",
  719. },
  720. { /* Data TxRx */
  721. "DATA_TXRX_DBGID_DEFINITION_START",
  722. "DATA_TXRX_DBGID_RX_DATA_SEQ_LEN_INFO",
  723. "DATA_TXRX_DBGID_DEFINITION_END",
  724. },
  725. {"" /* HTT */
  726. },
  727. {"" /* HOST */
  728. },
  729. {"" /* BEACON */
  730. "BEACON_EVENT_SWBA_SEND_FAILED",
  731. "BEACON_EVENT_EARLY_RX_BMISS_STATUS",
  732. "BEACON_EVENT_EARLY_RX_SLEEP_SLOP",
  733. "BEACON_EVENT_EARLY_RX_CONT_BMISS_TIMEOUT",
  734. "BEACON_EVENT_EARLY_RX_PAUSE_SKIP_BCN_NUM",
  735. "BEACON_EVENT_EARLY_RX_CLK_DRIFT",
  736. "BEACON_EVENT_EARLY_RX_AP_DRIFT",
  737. "BEACON_EVENT_EARLY_RX_BCN_TYPE",},
  738. { /* Offload Mgr */
  739. "OFFLOAD_MGR_DBGID_DEFINITION_START",
  740. "OFFLOADMGR_REGISTER_OFFLOAD",
  741. "OFFLOADMGR_DEREGISTER_OFFLOAD",
  742. "OFFLOADMGR_NO_REG_DATA_HANDLERS",
  743. "OFFLOADMGR_NO_REG_EVENT_HANDLERS",
  744. "OFFLOADMGR_REG_OFFLOAD_FAILED",
  745. "OFFLOADMGR_DBGID_DEFINITION_END",
  746. },
  747. {
  748. "WAL_DBGID_DEFINITION_START",
  749. "WAL_DBGID_FAST_WAKE_REQUEST",
  750. "WAL_DBGID_FAST_WAKE_RELEASE",
  751. "WAL_DBGID_SET_POWER_STATE",
  752. "WAL_DBGID_MISSING",
  753. "WAL_DBGID_CHANNEL_CHANGE_FORCE_RESET",
  754. "WAL_DBGID_CHANNEL_CHANGE",
  755. "WAL_DBGID_VDEV_START",
  756. "WAL_DBGID_VDEV_STOP",
  757. "WAL_DBGID_VDEV_UP",
  758. "WAL_DBGID_VDEV_DOWN",
  759. "WAL_DBGID_SW_WDOG_RESET",
  760. "WAL_DBGID_TX_SCH_REGISTER_TIDQ",
  761. "WAL_DBGID_TX_SCH_UNREGISTER_TIDQ",
  762. "WAL_DBGID_TX_SCH_TICKLE_TIDQ",
  763. "WAL_DBGID_XCESS_FAILURES",
  764. "WAL_DBGID_AST_ADD_WDS_ENTRY",
  765. "WAL_DBGID_AST_DEL_WDS_ENTRY",
  766. "WAL_DBGID_AST_WDS_ENTRY_PEER_CHG",
  767. "WAL_DBGID_AST_WDS_SRC_LEARN_FAIL",
  768. "WAL_DBGID_STA_KICKOUT",
  769. "WAL_DBGID_BAR_TX_FAIL",
  770. "WAL_DBGID_BAR_ALLOC_FAIL",
  771. "WAL_DBGID_LOCAL_DATA_TX_FAIL",
  772. "WAL_DBGID_SECURITY_PM4_QUEUED",
  773. "WAL_DBGID_SECURITY_GM1_QUEUED",
  774. "WAL_DBGID_SECURITY_PM4_SENT",
  775. "WAL_DBGID_SECURITY_ALLOW_DATA",
  776. "WAL_DBGID_SECURITY_UCAST_KEY_SET",
  777. "WAL_DBGID_SECURITY_MCAST_KEY_SET",
  778. "WAL_DBGID_SECURITY_ENCR_EN",
  779. "WAL_DBGID_BB_WDOG_TRIGGERED",
  780. "WAL_DBGID_RX_LOCAL_BUFS_LWM",
  781. "WAL_DBGID_RX_LOCAL_DROP_LARGE_MGMT",
  782. "WAL_DBGID_VHT_ILLEGAL_RATE_PHY_ERR_DETECTED",
  783. "WAL_DBGID_DEV_RESET",
  784. "WAL_DBGID_TX_BA_SETUP",
  785. "WAL_DBGID_RX_BA_SETUP",
  786. "WAL_DBGID_DEV_TX_TIMEOUT",
  787. "WAL_DBGID_DEV_RX_TIMEOUT",
  788. "WAL_DBGID_STA_VDEV_XRETRY",
  789. "WAL_DBGID_DCS",
  790. "WAL_DBGID_MGMT_TX_FAIL",
  791. "WAL_DBGID_SET_M4_SENT_MANUALLY",
  792. "WAL_DBGID_PROCESS_4_WAY_HANDSHAKE",
  793. "WAL_DBGID_WAL_CHANNEL_CHANGE_START",
  794. "WAL_DBGID_WAL_CHANNEL_CHANGE_COMPLETE",
  795. "WAL_DBGID_WHAL_CHANNEL_CHANGE_START",
  796. "WAL_DBGID_WHAL_CHANNEL_CHANGE_COMPLETE",
  797. "WAL_DBGID_TX_MGMT_DESCID_SEQ_TYPE_LEN",
  798. "WAL_DBGID_TX_DATA_MSDUID_SEQ_TYPE_LEN",
  799. "WAL_DBGID_TX_DISCARD",
  800. "WAL_DBGID_TX_MGMT_COMP_DESCID_STATUS",
  801. "WAL_DBGID_TX_DATA_COMP_MSDUID_STATUS",
  802. "WAL_DBGID_RESET_PCU_CYCLE_CNT",
  803. "WAL_DBGID_SETUP_RSSI_INTERRUPTS",
  804. "WAL_DBGID_BRSSI_CONFIG",
  805. "WAL_DBGID_CURRENT_BRSSI_AVE",
  806. "WAL_DBGID_BCN_TX_COMP",
  807. "WAL_DBGID_SET_HW_CHAINMASK",
  808. "WAL_DBGID_SET_HW_CHAINMASK_TXRX_STOP_FAIL",
  809. "WAL_DBGID_GET_HW_CHAINMASK",
  810. "WAL_DBGID_SMPS_DISABLE",
  811. "WAL_DBGID_SMPS_ENABLE_HW_CNTRL",
  812. "WAL_DBGID_SMPS_SWSEL_CHAINMASK",
  813. "WAL_DBGID_DEFINITION_END",
  814. },
  815. {
  816. "" /* DE */
  817. },
  818. {
  819. "" /* pcie lp */
  820. },
  821. {
  822. /* RTT */
  823. "RTT_CALL_FLOW",
  824. "RTT_REQ_SUB_TYPE",
  825. "RTT_MEAS_REQ_HEAD",
  826. "RTT_MEAS_REQ_BODY",
  827. "",
  828. "",
  829. "RTT_INIT_GLOBAL_STATE",
  830. "",
  831. "RTT_REPORT",
  832. "",
  833. "RTT_ERROR_REPORT",
  834. "RTT_TIMER_STOP",
  835. "RTT_SEND_TM_FRAME",
  836. "RTT_V3_RESP_CNT",
  837. "RTT_V3_RESP_FINISH",
  838. "RTT_CHANNEL_SWITCH_REQ",
  839. "RTT_CHANNEL_SWITCH_GRANT",
  840. "RTT_CHANNEL_SWITCH_COMPLETE",
  841. "RTT_CHANNEL_SWITCH_PREEMPT",
  842. "RTT_CHANNEL_SWITCH_STOP",
  843. "RTT_TIMER_START",
  844. },
  845. { /* RESOURCE */
  846. "RESOURCE_DBGID_DEFINITION_START",
  847. "RESOURCE_PEER_ALLOC",
  848. "RESOURCE_PEER_FREE",
  849. "RESOURCE_PEER_ALLOC_WAL_PEER",
  850. "RESOURCE_PEER_NBRHOOD_MGMT_ALLOC",
  851. "RESOURCE_PEER_NBRHOOD_MGMT_INFO,RESOURCE_DBGID_DEFINITION_END",
  852. },
  853. { /* DCS */
  854. "WLAN_DCS_DBGID_INIT",
  855. "WLAN_DCS_DBGID_WMI_CWINT",
  856. "WLAN_DCS_DBGID_TIMER",
  857. "WLAN_DCS_DBGID_CMDG",
  858. "WLAN_DCS_DBGID_CMDS",
  859. "WLAN_DCS_DBGID_DINIT"
  860. },
  861. { /* CACHEMGR */
  862. ""
  863. },
  864. { /* ANI */
  865. "ANI_DBGID_POLL",
  866. "ANI_DBGID_CONTROL",
  867. "ANI_DBGID_OFDM_PARAMS",
  868. "ANI_DBGID_CCK_PARAMS",
  869. "ANI_DBGID_RESET",
  870. "ANI_DBGID_RESTART",
  871. "ANI_DBGID_OFDM_LEVEL",
  872. "ANI_DBGID_CCK_LEVEL",
  873. "ANI_DBGID_FIRSTEP",
  874. "ANI_DBGID_CYCPWR",
  875. "ANI_DBGID_MRC_CCK",
  876. "ANI_DBGID_SELF_CORR_LOW",
  877. "ANI_DBGID_ENABLE",
  878. "ANI_DBGID_CURRENT_LEVEL",
  879. "ANI_DBGID_POLL_PERIOD",
  880. "ANI_DBGID_LISTEN_PERIOD",
  881. "ANI_DBGID_OFDM_LEVEL_CFG",
  882. "ANI_DBGID_CCK_LEVEL_CFG"
  883. },
  884. {
  885. "P2P_DBGID_DEFINITION_START",
  886. "P2P_DEV_REGISTER",
  887. "P2P_HANDLE_NOA",
  888. "P2P_UPDATE_SCHEDULE_OPPS",
  889. "P2P_UPDATE_SCHEDULE",
  890. "P2P_UPDATE_START_TIME",
  891. "P2P_UPDATE_START_TIME_DIFF_TSF32",
  892. "P2P_UPDATE_START_TIME_FINAL",
  893. "P2P_SETUP_SCHEDULE_TIMER",
  894. "P2P_PROCESS_SCHEDULE_AFTER_CALC",
  895. "P2P_PROCESS_SCHEDULE_STARTED_TIMER",
  896. "P2P_CALC_SCHEDULES_FIRST_CALL_ALL_NEXT_EVENT",
  897. "P2P_CALC_SCHEDULES_FIRST_VALUE",
  898. "P2P_CALC_SCHEDULES_EARLIEST_NEXT_EVENT",
  899. "P2P_CALC_SCHEDULES_SANITY_COUNT",
  900. "P2P_CALC_SCHEDULES_CALL_ALL_NEXT_EVENT_FROM_WHILE_LOOP",
  901. "P2P_CALC_SCHEDULES_TIMEOUT_1",
  902. "P2P_CALC_SCHEDULES_TIMEOUT_2",
  903. "P2P_FIND_ALL_NEXT_EVENTS_REQ_EXPIRED",
  904. "P2P_FIND_ALL_NEXT_EVENTS_REQ_ACTIVE",
  905. "P2P_FIND_NEXT_EVENT_REQ_NOT_STARTED",
  906. "P2P_FIND_NEXT_EVENT_REQ_COMPLETE_NON_PERIODIC",
  907. "P2P_FIND_NEXT_EVENT_IN_MID_OF_NOA",
  908. "P2P_FIND_NEXT_EVENT_REQ_COMPLETE",
  909. "P2P_SCHEDULE_TIMEOUT",
  910. "P2P_CALC_SCHEDULES_ENTER",
  911. "P2P_PROCESS_SCHEDULE_ENTER",
  912. "P2P_FIND_ALL_NEXT_EVENTS_INDIVIDUAL_REQ_AFTER_CHANGE",
  913. "P2P_FIND_ALL_NEXT_EVENTS_INDIVIDUAL_REQ_BEFORE_CHANGE",
  914. "P2P_FIND_ALL_NEXT_EVENTS_ENTER",
  915. "P2P_FIND_NEXT_EVENT_ENTER",
  916. "P2P_NOA_GO_PRESENT",
  917. "P2P_NOA_GO_ABSENT",
  918. "P2P_GO_NOA_NOTIF",
  919. "P2P_GO_TBTT_OFFSET",
  920. "P2P_GO_GET_NOA_INFO",
  921. "P2P_GO_ADD_ONE_SHOT_NOA",
  922. "P2P_GO_GET_NOA_IE",
  923. "P2P_GO_BCN_TX_COMP",
  924. "P2P_DBGID_DEFINITION_END",
  925. },
  926. {
  927. "CSA_DBGID_DEFINITION_START",
  928. "CSA_OFFLOAD_POOL_INIT",
  929. "CSA_OFFLOAD_REGISTER_VDEV",
  930. "CSA_OFFLOAD_DEREGISTER_VDEV",
  931. "CSA_DEREGISTER_VDEV_ERROR",
  932. "CSA_OFFLOAD_BEACON_RECEIVED",
  933. "CSA_OFFLOAD_BEACON_CSA_RECV",
  934. "CSA_OFFLOAD_CSA_RECV_ERROR_IE",
  935. "CSA_OFFLOAD_CSA_TIMER_ERROR",
  936. "CSA_OFFLOAD_CSA_TIMER_EXP",
  937. "CSA_OFFLOAD_WMI_EVENT_ERROR",
  938. "CSA_OFFLOAD_WMI_EVENT_SENT",
  939. "CSA_OFFLOAD_WMI_CHANSWITCH_RECV",
  940. "CSA_DBGID_DEFINITION_END",
  941. },
  942. { /* NLO offload */
  943. ""
  944. },
  945. {
  946. "WLAN_CHATTER_DBGID_DEFINITION_START",
  947. "WLAN_CHATTER_ENTER",
  948. "WLAN_CHATTER_EXIT",
  949. "WLAN_CHATTER_FILTER_HIT",
  950. "WLAN_CHATTER_FILTER_MISS",
  951. "WLAN_CHATTER_FILTER_FULL",
  952. "WLAN_CHATTER_FILTER_TM_ADJ",
  953. "WLAN_CHATTER_BUFFER_FULL",
  954. "WLAN_CHATTER_TIMEOUT",
  955. "WLAN_CHATTER_DBGID_DEFINITION_END",
  956. },
  957. {
  958. "WOW_DBGID_DEFINITION_START",
  959. "WOW_ENABLE_CMDID",
  960. "WOW_RECV_DATA_PKT",
  961. "WOW_WAKE_HOST_DATA",
  962. "WOW_RECV_MGMT",
  963. "WOW_WAKE_HOST_MGMT",
  964. "WOW_RECV_EVENT",
  965. "WOW_WAKE_HOST_EVENT",
  966. "WOW_INIT",
  967. "WOW_RECV_MAGIC_PKT",
  968. "WOW_RECV_BITMAP_PATTERN",
  969. "WOW_AP_VDEV_DISALLOW",
  970. "WOW_STA_VDEV_DISALLOW",
  971. "WOW_P2PGO_VDEV_DISALLOW",
  972. "WOW_NS_OFLD_ENABLE",
  973. "WOW_ARP_OFLD_ENABLE",
  974. "WOW_NS_ARP_OFLD_DISABLE",
  975. "WOW_NS_RECEIVED",
  976. "WOW_NS_REPLIED",
  977. "WOW_ARP_RECEIVED",
  978. "WOW_ARP_REPLIED",
  979. "WOW_DBGID_DEFINITION_END",
  980. },
  981. { /* WAL VDEV */
  982. ""
  983. },
  984. { /* WAL PDEV */
  985. ""
  986. },
  987. { /* TEST */
  988. "TP_CHANGE_CHANNEL",
  989. "TP_LOCAL_SEND",
  990. },
  991. { /* STA SMPS */
  992. "STA_SMPS_DBGID_DEFINITION_START",
  993. "STA_SMPS_DBGID_CREATE_PDEV_INSTANCE",
  994. "STA_SMPS_DBGID_CREATE_VIRTUAL_CHAN_INSTANCE",
  995. "STA_SMPS_DBGID_DELETE_VIRTUAL_CHAN_INSTANCE",
  996. "STA_SMPS_DBGID_CREATE_STA_INSTANCE",
  997. "STA_SMPS_DBGID_DELETE_STA_INSTANCE",
  998. "STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_START",
  999. "STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_STOP",
  1000. "STA_SMPS_DBGID_SEND_SMPS_ACTION_FRAME",
  1001. "STA_SMPS_DBGID_HOST_FORCED_MODE",
  1002. "STA_SMPS_DBGID_FW_FORCED_MODE",
  1003. "STA_SMPS_DBGID_RSSI_THRESHOLD_CROSSED",
  1004. "STA_SMPS_DBGID_SMPS_ACTION_FRAME_COMPLETION",
  1005. "STA_SMPS_DBGID_DTIM_EBT_EVENT_CHMASK_UPDATE",
  1006. "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE",
  1007. "STA_SMPS_DBGID_DTIM_BEACON_EVENT_CHMASK_UPDATE",
  1008. "STA_SMPS_DBGID_DTIM_POWER_STATE_CHANGE",
  1009. "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_SLEEP",
  1010. "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_AWAKE",
  1011. "SMPS_DBGID_DEFINITION_END",
  1012. },
  1013. { /* SWBMISS */
  1014. "SWBMISS_DBGID_DEFINITION_START",
  1015. "SWBMISS_ENABLED",
  1016. "SWBMISS_DISABLED",
  1017. "SWBMISS_DBGID_DEFINITION_END",
  1018. },
  1019. { /* WMMAC */
  1020. ""
  1021. },
  1022. { /* TDLS */
  1023. "TDLS_DBGID_DEFINITION_START",
  1024. "TDLS_DBGID_VDEV_CREATE",
  1025. "TDLS_DBGID_VDEV_DELETE",
  1026. "TDLS_DBGID_ENABLED_PASSIVE",
  1027. "TDLS_DBGID_ENABLED_ACTIVE",
  1028. "TDLS_DBGID_DISABLED",
  1029. "TDLS_DBGID_CONNTRACK_TIMER",
  1030. "TDLS_DBGID_WAL_SET",
  1031. "TDLS_DBGID_WAL_GET",
  1032. "TDLS_DBGID_WAL_PEER_UPDATE_SET",
  1033. "TDLS_DBGID_WAL_PEER_UPDATE_EVT",
  1034. "TDLS_DBGID_WAL_VDEV_CREATE",
  1035. "TDLS_DBGID_WAL_VDEV_DELETE",
  1036. "TDLS_DBGID_WLAN_EVENT",
  1037. "TDLS_DBGID_WLAN_PEER_UPDATE_SET",
  1038. "TDLS_DBGID_PEER_EVT_DRP_THRESH",
  1039. "TDLS_DBGID_PEER_EVT_DRP_RATE",
  1040. "TDLS_DBGID_PEER_EVT_DRP_RSSI",
  1041. "TDLS_DBGID_PEER_EVT_DISCOVER",
  1042. "TDLS_DBGID_PEER_EVT_DELETE",
  1043. "TDLS_DBGID_PEER_CAP_UPDATE",
  1044. "TDLS_DBGID_UAPSD_SEND_PTI_FRAME",
  1045. "TDLS_DBGID_UAPSD_SEND_PTI_FRAME2PEER",
  1046. "TDLS_DBGID_UAPSD_START_PTR_TIMER",
  1047. "TDLS_DBGID_UAPSD_CANCEL_PTR_TIMER",
  1048. "TDLS_DBGID_UAPSD_PTR_TIMER_TIMEOUT",
  1049. "TDLS_DBGID_UAPSD_STA_PS_EVENT_HANDLER",
  1050. "TDLS_DBGID_UAPSD_PEER_EVENT_HANDLER",
  1051. "TDLS_DBGID_UAPSD_PS_DEFAULT_SETTINGS",
  1052. "TDLS_DBGID_UAPSD_GENERIC",
  1053. },
  1054. { /* HB */
  1055. "WLAN_HB_DBGID_DEFINITION_START",
  1056. "WLAN_HB_DBGID_INIT",
  1057. "WLAN_HB_DBGID_TCP_GET_TXBUF_FAIL",
  1058. "WLAN_HB_DBGID_TCP_SEND_FAIL",
  1059. "WLAN_HB_DBGID_BSS_PEER_NULL",
  1060. "WLAN_HB_DBGID_UDP_GET_TXBUF_FAIL",
  1061. "WLAN_HB_DBGID_UDP_SEND_FAIL",
  1062. "WLAN_HB_DBGID_WMI_CMD_INVALID_PARAM",
  1063. "WLAN_HB_DBGID_WMI_CMD_INVALID_OP",
  1064. "WLAN_HB_DBGID_WOW_NOT_ENTERED",
  1065. "WLAN_HB_DBGID_ALLOC_SESS_FAIL",
  1066. "WLAN_HB_DBGID_CTX_NULL",
  1067. "WLAN_HB_DBGID_CHKSUM_ERR",
  1068. "WLAN_HB_DBGID_UDP_TX",
  1069. "WLAN_HB_DBGID_TCP_TX",
  1070. "WLAN_HB_DBGID_DEFINITION_END",
  1071. },
  1072. { /* TXBF */
  1073. "TXBFEE_DBGID_START",
  1074. "TXBFEE_DBGID_NDPA_RECEIVED",
  1075. "TXBFEE_DBGID_HOST_CONFIG_TXBFEE_TYPE",
  1076. "TXBFER_DBGID_SEND_NDPA",
  1077. "TXBFER_DBGID_GET_NDPA_BUF_FAIL",
  1078. "TXBFER_DBGID_SEND_NDPA_FAIL",
  1079. "TXBFER_DBGID_GET_NDP_BUF_FAIL",
  1080. "TXBFER_DBGID_SEND_NDP_FAIL",
  1081. "TXBFER_DBGID_GET_BRPOLL_BUF_FAIL",
  1082. "TXBFER_DBGID_SEND_BRPOLL_FAIL",
  1083. "TXBFER_DBGID_HOST_CONFIG_CMDID",
  1084. "TXBFEE_DBGID_HOST_CONFIG_CMDID",
  1085. "TXBFEE_DBGID_ENABLED_ENABLED_UPLOAD_H",
  1086. "TXBFEE_DBGID_UPLOADH_CV_TAG",
  1087. "TXBFEE_DBGID_UPLOADH_H_TAG",
  1088. "TXBFEE_DBGID_CAPTUREH_RECEIVED",
  1089. "TXBFEE_DBGID_PACKET_IS_STEERED",
  1090. "TXBFEE_UPLOADH_EVENT_ALLOC_MEM_FAIL",
  1091. "TXBFEE_DBGID_END",
  1092. },
  1093. { /*BATCH SCAN */
  1094. },
  1095. { /*THERMAL MGR */
  1096. "THERMAL_MGR_DBGID_DEFINITION_START",
  1097. "THERMAL_MGR_NEW_THRESH",
  1098. "THERMAL_MGR_THRESH_CROSSED",
  1099. "THERMAL_MGR_DBGID_DEFINITION END",
  1100. },
  1101. { /* WLAN_MODULE_PHYERR_DFS */
  1102. ""
  1103. },
  1104. {
  1105. /* WLAN_MODULE_RMC */
  1106. "RMC_DBGID_DEFINITION_START",
  1107. "RMC_CREATE_INSTANCE",
  1108. "RMC_DELETE_INSTANCE",
  1109. "RMC_LDR_SEL",
  1110. "RMC_NO_LDR",
  1111. "RMC_LDR_NOT_SEL",
  1112. "RMC_LDR_INF_SENT",
  1113. "RMC_PEER_ADD",
  1114. "RMC_PEER_DELETE",
  1115. "RMC_PEER_UNKNOWN",
  1116. "RMC_SET_MODE",
  1117. "RMC_SET_ACTION_PERIOD",
  1118. "RMC_ACRION_FRAME_RX",
  1119. "RMC_DBGID_DEFINITION_END",
  1120. },
  1121. {
  1122. /* WLAN_MODULE_STATS */
  1123. "WLAN_STATS_DBGID_DEFINITION_START",
  1124. "WLAN_STATS_DBGID_EST_LINKSPEED_VDEV_EN_DIS",
  1125. "WLAN_STATS_DBGID_EST_LINKSPEED_CHAN_TIME_START",
  1126. "WLAN_STATS_DBGID_EST_LINKSPEED_CHAN_TIME_END",
  1127. "WLAN_STATS_DBGID_EST_LINKSPEED_CALC",
  1128. "WLAN_STATS_DBGID_EST_LINKSPEED_UPDATE_HOME_CHAN",
  1129. "WLAN_STATS_DBGID_DEFINITION_END",
  1130. },
  1131. {
  1132. /* WLAN_MODULE_NAN */
  1133. },
  1134. {
  1135. /* WLAN_MODULE_IBSS_PWRSAVE */
  1136. "IBSS_PS_DBGID_DEFINITION_START",
  1137. "IBSS_PS_DBGID_PEER_CREATE",
  1138. "IBSS_PS_DBGID_PEER_DELETE",
  1139. "IBSS_PS_DBGID_VDEV_CREATE",
  1140. "IBSS_PS_DBGID_VDEV_DELETE",
  1141. "IBSS_PS_DBGID_VDEV_EVENT",
  1142. "IBSS_PS_DBGID_PEER_EVENT",
  1143. "IBSS_PS_DBGID_DELIVER_CAB",
  1144. "IBSS_PS_DBGID_DELIVER_UC_DATA",
  1145. "IBSS_PS_DBGID_DELIVER_UC_DATA_ERROR",
  1146. "IBSS_PS_DBGID_UC_INACTIVITY_TMR_RESTART",
  1147. "IBSS_PS_DBGID_MC_INACTIVITY_TMR_RESTART",
  1148. "IBSS_PS_DBGID_NULL_TX_COMPLETION",
  1149. "IBSS_PS_DBGID_ATIM_TIMER_START",
  1150. "IBSS_PS_DBGID_UC_ATIM_SEND",
  1151. "IBSS_PS_DBGID_BC_ATIM_SEND",
  1152. "IBSS_PS_DBGID_UC_TIMEOUT",
  1153. "IBSS_PS_DBGID_PWR_COLLAPSE_ALLOWED",
  1154. "IBSS_PS_DBGID_PWR_COLLAPSE_NOT_ALLOWED",
  1155. "IBSS_PS_DBGID_SET_PARAM",
  1156. "IBSS_PS_DBGID_HOST_TX_PAUSE",
  1157. "IBSS_PS_DBGID_HOST_TX_UNPAUSE",
  1158. "IBSS_PS_DBGID_PS_DESC_BIN_HWM",
  1159. "IBSS_PS_DBGID_PS_DESC_BIN_LWM",
  1160. "IBSS_PS_DBGID_PS_KICKOUT_PEER",
  1161. "IBSS_PS_DBGID_SET_PEER_PARAM",
  1162. "IBSS_PS_DBGID_BCN_ATIM_WIN_MISMATCH",
  1163. "IBSS_PS_DBGID_RX_CHAINMASK_CHANGE",
  1164. },
  1165. {
  1166. /* HIF UART Interface DBGIDs */
  1167. "HIF_UART_DBGID_START",
  1168. "HIF_UART_DBGID_POWER_STATE",
  1169. "HIF_UART_DBGID_TXRX_FLOW",
  1170. "HIF_UART_DBGID_TXRX_CTRL_CHAR",
  1171. "HIF_UART_DBGID_TXRX_BUF_DUMP",
  1172. },
  1173. {
  1174. /* LPI */
  1175. ""
  1176. },
  1177. {
  1178. /* EXTSCAN DBGIDs */
  1179. "EXTSCAN_START",
  1180. "EXTSCAN_STOP",
  1181. "EXTSCAN_CLEAR_ENTRY_CONTENT",
  1182. "EXTSCAN_GET_FREE_ENTRY_SUCCESS",
  1183. "EXTSCAN_GET_FREE_ENTRY_INCONSISTENT",
  1184. "EXTSCAN_GET_FREE_ENTRY_NO_MORE_ENTRIES",
  1185. "EXTSCAN_CREATE_ENTRY_SUCCESS",
  1186. "EXTSCAN_CREATE_ENTRY_ERROR",
  1187. "EXTSCAN_SEARCH_SCAN_ENTRY_QUEUE",
  1188. "EXTSCAN_SEARCH_SCAN_ENTRY_KEY_FOUND",
  1189. "EXTSCAN_SEARCH_SCAN_ENTRY_KEY_NOT_FOUND",
  1190. "EXTSCAN_ADD_ENTRY",
  1191. "EXTSCAN_BUCKET_SEND_OPERATION_EVENT",
  1192. "EXTSCAN_BUCKET_SEND_OPERATION_EVENT_FAILED",
  1193. "EXTSCAN_BUCKET_START_SCAN_CYCLE",
  1194. "EXTSCAN_BUCKET_PERIODIC_TIMER",
  1195. "EXTSCAN_SEND_START_STOP_EVENT",
  1196. "EXTSCAN_NOTIFY_WLAN_CHANGE",
  1197. "EXTSCAN_NOTIFY_WLAN_HOTLIST_MATCH",
  1198. "EXTSCAN_MAIN_RECEIVED_FRAME",
  1199. "EXTSCAN_MAIN_NO_SSID_IE",
  1200. "EXTSCAN_MAIN_MALFORMED_FRAME",
  1201. "EXTSCAN_FIND_BSSID_BY_REFERENCE",
  1202. "EXTSCAN_FIND_BSSID_BY_REFERENCE_ERROR",
  1203. "EXTSCAN_NOTIFY_TABLE_USAGE",
  1204. "EXTSCAN_FOUND_RSSI_ENTRY",
  1205. "EXTSCAN_BSSID_FOUND_RSSI_SAMPLE",
  1206. "EXTSCAN_BSSID_ADDED_RSSI_SAMPLE",
  1207. "EXTSCAN_BSSID_REPLACED_RSSI_SAMPLE",
  1208. "EXTSCAN_BSSID_TRANSFER_CURRENT_SAMPLES",
  1209. "EXTSCAN_BUCKET_PROCESS_SCAN_EVENT",
  1210. "EXTSCAN_BUCKET_CANNOT_FIND_BUCKET",
  1211. "EXTSCAN_START_SCAN_REQUEST_FAILED",
  1212. "EXTSCAN_BUCKET_STOP_CURRENT_SCANS",
  1213. "EXTSCAN_BUCKET_SCAN_STOP_REQUEST",
  1214. "EXTSCAN_BUCKET_PERIODIC_TIMER_ERROR",
  1215. "EXTSCAN_BUCKET_START_OPERATION",
  1216. "EXTSCAN_START_INTERNAL_ERROR",
  1217. "EXTSCAN_NOTIFY_HOTLIST_MATCH",
  1218. "EXTSCAN_CONFIG_HOTLIST_TABLE",
  1219. "EXTSCAN_CONFIG_WLAN_CHANGE_TABLE",
  1220. },
  1221. { /* UNIT_TEST */
  1222. "UNIT_TEST_GEN",
  1223. },
  1224. { /* MLME */
  1225. "MLME_DEBUG_CMN",
  1226. "MLME_IF",
  1227. "MLME_AUTH",
  1228. "MLME_REASSOC",
  1229. "MLME_DEAUTH",
  1230. "MLME_DISASSOC",
  1231. "MLME_ROAM",
  1232. "MLME_RETRY",
  1233. "MLME_TIMER",
  1234. "MLME_FRMPARSE",
  1235. },
  1236. { /*SUPPLICANT */
  1237. "SUPPL_INIT",
  1238. "SUPPL_RECV_EAPOL",
  1239. "SUPPL_RECV_EAPOL_TIMEOUT",
  1240. "SUPPL_SEND_EAPOL",
  1241. "SUPPL_MIC_MISMATCH",
  1242. "SUPPL_FINISH",
  1243. },
  1244. };
  1245. int dbglog_module_log_enable(wmi_unified_t wmi_handle, uint32_t mod_id,
  1246. bool isenable)
  1247. {
  1248. uint32_t val = 0;
  1249. if (mod_id > WLAN_MODULE_ID_MAX) {
  1250. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1251. ("dbglog_module_log_enable: Invalid module id %d\n",
  1252. mod_id));
  1253. return -EINVAL;
  1254. }
  1255. WMI_DBGLOG_SET_MODULE_ID(val, mod_id);
  1256. if (isenable) {
  1257. /* set it to global module level */
  1258. WMI_DBGLOG_SET_LOG_LEVEL(val, DBGLOG_INFO);
  1259. } else {
  1260. /* set it to ERROR level */
  1261. WMI_DBGLOG_SET_LOG_LEVEL(val, DBGLOG_ERR);
  1262. }
  1263. wma_config_debug_module_cmd(wmi_handle, WMI_DEBUG_LOG_PARAM_LOG_LEVEL,
  1264. val, NULL, 0);
  1265. return 0;
  1266. }
  1267. int dbglog_vap_log_enable(wmi_unified_t wmi_handle, uint16_t vap_id,
  1268. bool isenable)
  1269. {
  1270. if (vap_id > DBGLOG_MAX_VDEVID) {
  1271. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1272. ("dbglog_vap_log_enable:Invalid vap_id %d\n",
  1273. vap_id));
  1274. return -EINVAL;
  1275. }
  1276. wma_config_debug_module_cmd(wmi_handle,
  1277. isenable ? WMI_DEBUG_LOG_PARAM_VDEV_ENABLE :
  1278. WMI_DEBUG_LOG_PARAM_VDEV_DISABLE, vap_id,
  1279. NULL, 0);
  1280. return 0;
  1281. }
  1282. int dbglog_set_log_lvl(wmi_unified_t wmi_handle, DBGLOG_LOG_LVL log_lvl)
  1283. {
  1284. uint32_t val = 0;
  1285. if (log_lvl > DBGLOG_LVL_MAX) {
  1286. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1287. ("dbglog_set_log_lvl:Invalid log level %d\n",
  1288. log_lvl));
  1289. return -EINVAL;
  1290. }
  1291. WMI_DBGLOG_SET_MODULE_ID(val, WMI_DEBUG_LOG_MODULE_ALL);
  1292. WMI_DBGLOG_SET_LOG_LEVEL(val, log_lvl);
  1293. wma_config_debug_module_cmd(wmi_handle, WMI_DEBUG_LOG_PARAM_LOG_LEVEL,
  1294. val, NULL, 0);
  1295. return 0;
  1296. }
  1297. int dbglog_set_mod_log_lvl(wmi_unified_t wmi_handle, uint32_t mod_log_lvl)
  1298. {
  1299. /* set the global module level to log_lvl */
  1300. wma_config_debug_module_cmd(wmi_handle, WMI_DEBUG_LOG_PARAM_LOG_LEVEL,
  1301. mod_log_lvl, NULL, 0);
  1302. return 0;
  1303. }
  1304. int dbglog_set_mod_wow_log_lvl(wmi_unified_t wmi_handle, uint32_t mod_log_lvl)
  1305. {
  1306. /* set the global module level to log_lvl */
  1307. wma_config_debug_module_cmd(wmi_handle,
  1308. WMI_DEBUG_LOG_PARAM_WOW_MOD_ENABLE_BITMAP,
  1309. mod_log_lvl, NULL, 0);
  1310. return 0;
  1311. }
  1312. void
  1313. dbglog_set_vap_enable_bitmap(wmi_unified_t wmi_handle,
  1314. uint32_t vap_enable_bitmap)
  1315. {
  1316. wma_config_debug_module_cmd(wmi_handle,
  1317. WMI_DEBUG_LOG_PARAM_VDEV_ENABLE_BITMAP,
  1318. vap_enable_bitmap, NULL, 0);
  1319. }
  1320. void
  1321. dbglog_set_mod_enable_bitmap(wmi_unified_t wmi_handle, uint32_t log_level,
  1322. uint32_t *mod_enable_bitmap, uint32_t bitmap_len)
  1323. {
  1324. wma_config_debug_module_cmd(wmi_handle,
  1325. WMI_DEBUG_LOG_PARAM_MOD_ENABLE_BITMAP,
  1326. log_level, mod_enable_bitmap, bitmap_len);
  1327. }
  1328. int dbglog_report_enable(wmi_unified_t wmi_handle, bool isenable)
  1329. {
  1330. int bitmap[2] = { 0 };
  1331. if (isenable) {
  1332. /* set the vap enable bitmap */
  1333. dbglog_set_vap_enable_bitmap(wmi_handle, 0xFFFF);
  1334. bitmap[0] = 0xFFFFFFFF;
  1335. bitmap[1] = 0x1F;
  1336. /* set the module level bitmap */
  1337. dbglog_set_mod_enable_bitmap(wmi_handle, 0x0, bitmap, 2);
  1338. } else {
  1339. dbglog_set_vap_enable_bitmap(wmi_handle, bitmap[0]);
  1340. dbglog_set_mod_enable_bitmap(wmi_handle, DBGLOG_LVL_MAX, bitmap,
  1341. 2);
  1342. }
  1343. return 0;
  1344. }
  1345. static char *dbglog_get_msg(uint32_t moduleid, uint32_t debugid)
  1346. {
  1347. static char unknown_str[64];
  1348. if (moduleid < WLAN_MODULE_ID_MAX && debugid < MAX_DBG_MSGS) {
  1349. char *str = DBG_MSG_ARR[moduleid][debugid];
  1350. if (str && str[0] != '\0')
  1351. return str;
  1352. }
  1353. snprintf(unknown_str, sizeof(unknown_str),
  1354. "UNKNOWN %u:%u", moduleid, debugid);
  1355. return unknown_str;
  1356. }
  1357. static
  1358. void dbglog_printf(uint32_t timestamp, uint16_t vap_id, const char *fmt, ...)
  1359. {
  1360. char buf[128];
  1361. va_list ap;
  1362. if (vap_id < DBGLOG_MAX_VDEVID) {
  1363. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1364. (DBGLOG_PRINT_PREFIX "[%u] vap-%u ", timestamp,
  1365. vap_id));
  1366. } else {
  1367. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1368. (DBGLOG_PRINT_PREFIX "[%u] ", timestamp));
  1369. }
  1370. va_start(ap, fmt);
  1371. vsnprintf(buf, sizeof(buf), fmt, ap);
  1372. va_end(ap);
  1373. AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s\n", buf));
  1374. }
  1375. static void
  1376. dbglog_printf_no_line_break(uint32_t timestamp,
  1377. uint16_t vap_id, const char *fmt, ...)
  1378. {
  1379. char buf[128];
  1380. va_list ap;
  1381. if (vap_id < DBGLOG_MAX_VDEVID) {
  1382. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1383. (DBGLOG_PRINT_PREFIX "[%u] vap-%u ", timestamp,
  1384. vap_id));
  1385. } else {
  1386. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1387. (DBGLOG_PRINT_PREFIX "[%u] ", timestamp));
  1388. }
  1389. va_start(ap, fmt);
  1390. vsnprintf(buf, sizeof(buf), fmt, ap);
  1391. va_end(ap);
  1392. AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%s", buf));
  1393. }
  1394. #define USE_NUMERIC 0
  1395. static A_BOOL
  1396. dbglog_default_print_handler(uint32_t mod_id, uint16_t vap_id, uint32_t dbg_id,
  1397. uint32_t timestamp, uint16_t numargs,
  1398. uint32_t *args)
  1399. {
  1400. int i;
  1401. if (vap_id < DBGLOG_MAX_VDEVID) {
  1402. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1403. (DBGLOG_PRINT_PREFIX "[%u] vap-%u %s ( ",
  1404. timestamp, vap_id, dbglog_get_msg(mod_id,
  1405. dbg_id)));
  1406. } else {
  1407. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1408. (DBGLOG_PRINT_PREFIX "[%u] %s ( ", timestamp,
  1409. dbglog_get_msg(mod_id, dbg_id)));
  1410. }
  1411. for (i = 0; i < numargs; i++) {
  1412. #if USE_NUMERIC
  1413. AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%u", args[i]));
  1414. #else
  1415. AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("%#x", args[i]));
  1416. #endif
  1417. if ((i + 1) < numargs) {
  1418. AR_DEBUG_PRINTF(ATH_DEBUG_INFO, (", "));
  1419. }
  1420. }
  1421. AR_DEBUG_PRINTF(ATH_DEBUG_INFO, (" )\n"));
  1422. return true;
  1423. }
  1424. #define DBGLOG_PARSE_ARGS_STRING_LENGTH (DBGLOG_NUM_ARGS_MAX * 11 + 10)
  1425. static int dbglog_print_raw_data(uint32_t *buffer, uint32_t length)
  1426. {
  1427. uint32_t timestamp;
  1428. uint32_t debugid;
  1429. uint32_t moduleid;
  1430. uint16_t numargs, curArgs;
  1431. uint32_t count = 0, totalWriteLen, writeLen;
  1432. char parseArgsString[DBGLOG_PARSE_ARGS_STRING_LENGTH];
  1433. char *dbgidString;
  1434. while ((count + 1) < length) {
  1435. debugid = DBGLOG_GET_DBGID(buffer[count + 1]);
  1436. moduleid = DBGLOG_GET_MODULEID(buffer[count + 1]);
  1437. numargs = DBGLOG_GET_NUMARGS(buffer[count + 1]);
  1438. timestamp = DBGLOG_GET_TIME_STAMP(buffer[count]);
  1439. if (moduleid < WLAN_MODULE_ID_MAX && debugid < MAX_DBG_MSGS
  1440. && numargs <= DBGLOG_NUM_ARGS_MAX) {
  1441. OS_MEMZERO(parseArgsString, sizeof(parseArgsString));
  1442. totalWriteLen = 0;
  1443. if (!numargs || (count + numargs + 2 > length))
  1444. goto skip_args_processing;
  1445. for (curArgs = 0; curArgs < numargs; curArgs++) {
  1446. /*
  1447. * Using sprintf_s instead of sprintf,
  1448. * to avoid length overflow
  1449. */
  1450. writeLen =
  1451. snprintf(parseArgsString + totalWriteLen,
  1452. DBGLOG_PARSE_ARGS_STRING_LENGTH -
  1453. totalWriteLen, "%x ",
  1454. buffer[count + 2 + curArgs]);
  1455. totalWriteLen += writeLen;
  1456. }
  1457. skip_args_processing:
  1458. if (debugid < MAX_DBG_MSGS) {
  1459. dbgidString = DBG_MSG_ARR[moduleid][debugid];
  1460. if (dbgidString) {
  1461. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1462. ("fw:%s(%x %x):%s\n",
  1463. dbgidString, timestamp,
  1464. buffer[count + 1],
  1465. parseArgsString));
  1466. } else {
  1467. /* host need sync with FW id */
  1468. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1469. ("fw:%s:m:%x,id:%x(%x %x):%s\n",
  1470. "UNKNOWN", moduleid,
  1471. debugid, timestamp,
  1472. buffer[count + 1],
  1473. parseArgsString));
  1474. }
  1475. } else if (debugid ==
  1476. DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG) {
  1477. /* specific debugid */
  1478. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1479. ("fw:%s:m:%x,id:%x(%x %x):%s\n",
  1480. "DBGLOG_SM_MSG", moduleid,
  1481. debugid, timestamp,
  1482. buffer[count + 1],
  1483. parseArgsString));
  1484. } else {
  1485. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1486. ("fw:%s:m:%x,id:%x(%x %x):%s\n",
  1487. "UNKNOWN", moduleid, debugid,
  1488. timestamp, buffer[count + 1],
  1489. parseArgsString));
  1490. }
  1491. }
  1492. /* 32 bit Time stamp + 32 bit Dbg header */
  1493. count += numargs + 2;
  1494. }
  1495. return 0;
  1496. }
  1497. #ifdef WLAN_OPEN_SOURCE
  1498. static int
  1499. dbglog_debugfs_raw_data(wmi_unified_t wmi_handle, const uint8_t *buf,
  1500. uint32_t length, uint32_t dropped)
  1501. {
  1502. struct fwdebug *fwlog = (struct fwdebug *)&wmi_handle->dbglog;
  1503. struct dbglog_slot *slot;
  1504. struct sk_buff *skb;
  1505. size_t slot_len;
  1506. if (WARN_ON(length > ATH6KL_FWLOG_PAYLOAD_SIZE))
  1507. return -ENODEV;
  1508. slot_len = sizeof(*slot) + ATH6KL_FWLOG_PAYLOAD_SIZE;
  1509. skb = alloc_skb(slot_len, GFP_KERNEL);
  1510. if (!skb)
  1511. return -ENOMEM;
  1512. slot = (struct dbglog_slot *)skb_put(skb, slot_len);
  1513. slot->diag_type = (uint32_t) DIAG_TYPE_FW_DEBUG_MSG;
  1514. slot->timestamp = cpu_to_le32(jiffies);
  1515. slot->length = cpu_to_le32(length);
  1516. slot->dropped = cpu_to_le32(dropped);
  1517. memcpy(slot->payload, buf, length);
  1518. /* Need to pad each record to fixed length ATH6KL_FWLOG_PAYLOAD_SIZE */
  1519. memset(slot->payload + length, 0, ATH6KL_FWLOG_PAYLOAD_SIZE - length);
  1520. spin_lock(&fwlog->fwlog_queue.lock);
  1521. __skb_queue_tail(&fwlog->fwlog_queue, skb);
  1522. complete(&fwlog->fwlog_completion);
  1523. /* drop oldest entries */
  1524. while (skb_queue_len(&fwlog->fwlog_queue) > ATH6KL_FWLOG_MAX_ENTRIES) {
  1525. skb = __skb_dequeue(&fwlog->fwlog_queue);
  1526. kfree_skb(skb);
  1527. }
  1528. spin_unlock(&fwlog->fwlog_queue.lock);
  1529. return true;
  1530. }
  1531. #endif /* WLAN_OPEN_SOURCE */
  1532. /**
  1533. * nl_srv_bcast_fw_logs() - Wrapper func to send bcast msgs to FW logs mcast grp
  1534. * @skb: sk buffer pointer
  1535. *
  1536. * Sends the bcast message to FW logs multicast group with generic nl socket
  1537. * if CNSS_GENL is enabled. Else, use the legacy netlink socket to send.
  1538. *
  1539. * Return: zero on success, error code otherwise
  1540. */
  1541. static int nl_srv_bcast_fw_logs(struct sk_buff *skb)
  1542. {
  1543. #ifdef CNSS_GENL
  1544. return nl_srv_bcast(skb, CLD80211_MCGRP_FW_LOGS, WLAN_NL_MSG_CNSS_DIAG);
  1545. #else
  1546. return nl_srv_bcast(skb);
  1547. #endif
  1548. }
  1549. /**
  1550. * send_fw_diag_nl_data - pack the data from fw diag event handler
  1551. * @buffer: buffer of diag event
  1552. * @len: length of the diag event
  1553. * @event: the even type
  1554. *
  1555. * return: 0 if sent successfully, otherwise error code
  1556. */
  1557. static int send_fw_diag_nl_data(const uint8_t *buffer, uint32_t len,
  1558. uint32_t event_type)
  1559. {
  1560. struct sk_buff *skb_out;
  1561. struct nlmsghdr *nlh;
  1562. int res = 0;
  1563. tAniNlHdr *wnl;
  1564. int radio;
  1565. int msg_len;
  1566. if (WARN_ON(len > ATH6KL_FWLOG_PAYLOAD_SIZE))
  1567. return -ENODEV;
  1568. if (nl_srv_is_initialized() != 0)
  1569. return -EIO;
  1570. radio = cds_get_radio_index();
  1571. if (radio == -EINVAL)
  1572. return -EIO;
  1573. if (cds_is_multicast_logging()) {
  1574. msg_len = len + sizeof(radio);
  1575. skb_out = nlmsg_new(msg_len, GFP_KERNEL);
  1576. if (!skb_out) {
  1577. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1578. ("Failed to allocate new skb\n"));
  1579. return -ENOMEM;
  1580. }
  1581. nlh = nlmsg_put(skb_out, 0, 0, WLAN_NL_MSG_CNSS_DIAG, msg_len,
  1582. 0);
  1583. if (!nlh) {
  1584. kfree_skb(skb_out);
  1585. return -EMSGSIZE;
  1586. }
  1587. wnl = (tAniNlHdr *)nlh;
  1588. wnl->radio = radio;
  1589. /* data buffer offset from nlmsg_hdr + sizeof(int) radio */
  1590. memcpy(nlmsg_data(nlh) + sizeof(radio), buffer, len);
  1591. res = nl_srv_bcast_fw_logs(skb_out);
  1592. if ((res < 0) && (res != -ESRCH)) {
  1593. AR_DEBUG_PRINTF(ATH_DEBUG_RSVD1,
  1594. ("%s: nl_srv_bcast_fw_logs failed 0x%x\n",
  1595. __func__, res));
  1596. return res;
  1597. }
  1598. }
  1599. return res;
  1600. }
  1601. /**
  1602. * process_fw_diag_event_data() - process diag events and fw messages
  1603. * @datap: data to be processed
  1604. * @num_data: number of data chunks
  1605. *
  1606. * return: success
  1607. */
  1608. static int
  1609. process_fw_diag_event_data(uint8_t *datap, uint32_t num_data)
  1610. {
  1611. uint32_t diag_type;
  1612. uint32_t nl_data_len; /* diag hdr + payload */
  1613. uint32_t diag_data_len; /* each fw diag payload */
  1614. struct wlan_diag_data *diag_data;
  1615. while (num_data > 0) {
  1616. diag_data = (struct wlan_diag_data *)datap;
  1617. diag_type = WLAN_DIAG_0_TYPE_GET(diag_data->word0);
  1618. diag_data_len = WLAN_DIAG_0_LEN_GET(diag_data->word0);
  1619. /* Length of diag struct and len of payload */
  1620. nl_data_len = sizeof(struct wlan_diag_data) + diag_data_len;
  1621. if (nl_data_len > num_data) {
  1622. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1623. ("processed all the messages\n"));
  1624. return 0;
  1625. }
  1626. switch (diag_type) {
  1627. case DIAG_TYPE_FW_EVENT:
  1628. return send_fw_diag_nl_data(datap, nl_data_len,
  1629. diag_type);
  1630. break;
  1631. case DIAG_TYPE_FW_LOG:
  1632. return send_fw_diag_nl_data(datap, nl_data_len,
  1633. diag_type);
  1634. break;
  1635. }
  1636. /* Move to the next event and send to cnss-diag */
  1637. datap += nl_data_len;
  1638. num_data -= nl_data_len;
  1639. }
  1640. return 0;
  1641. }
  1642. static int
  1643. send_diag_netlink_data(const uint8_t *buffer, uint32_t len, uint32_t cmd)
  1644. {
  1645. struct sk_buff *skb_out;
  1646. struct nlmsghdr *nlh;
  1647. int res = 0;
  1648. struct dbglog_slot *slot;
  1649. size_t slot_len;
  1650. tAniNlHdr *wnl;
  1651. int radio;
  1652. if (WARN_ON(len > ATH6KL_FWLOG_PAYLOAD_SIZE))
  1653. return -ENODEV;
  1654. if (nl_srv_is_initialized() != 0)
  1655. return -EIO;
  1656. radio = cds_get_radio_index();
  1657. if (radio == -EINVAL)
  1658. return -EIO;
  1659. if (cds_is_multicast_logging()) {
  1660. slot_len = sizeof(*slot) + ATH6KL_FWLOG_PAYLOAD_SIZE +
  1661. sizeof(radio);
  1662. skb_out = nlmsg_new(slot_len, GFP_ATOMIC);
  1663. if (!skb_out) {
  1664. diag_err_rl("Failed to allocate new skb");
  1665. return A_ERROR;
  1666. }
  1667. nlh = nlmsg_put(skb_out, 0, 0, WLAN_NL_MSG_CNSS_DIAG,
  1668. slot_len, 0);
  1669. if (!nlh) {
  1670. kfree_skb(skb_out);
  1671. return -EMSGSIZE;
  1672. }
  1673. wnl = (tAniNlHdr *)nlh;
  1674. wnl->radio = radio;
  1675. /* data buffer offset from: nlmsg_hdr + sizeof(int) radio */
  1676. slot = (struct dbglog_slot *) (nlmsg_data(nlh) + sizeof(radio));
  1677. slot->diag_type = cmd;
  1678. slot->timestamp = cpu_to_le32(jiffies);
  1679. slot->length = cpu_to_le32(len);
  1680. /* Version mapped to get_version here */
  1681. slot->dropped = get_version;
  1682. memcpy(slot->payload, buffer, len);
  1683. /*
  1684. * Need to pad each record to fixed length
  1685. * ATH6KL_FWLOG_PAYLOAD_SIZE
  1686. */
  1687. memset(slot->payload + len, 0, ATH6KL_FWLOG_PAYLOAD_SIZE - len);
  1688. res = nl_srv_bcast_fw_logs(skb_out);
  1689. if ((res < 0) && (res != -ESRCH)) {
  1690. AR_DEBUG_PRINTF(ATH_DEBUG_RSVD1,
  1691. ("%s: nl_srv_bcast_fw_logs failed 0x%x\n",
  1692. __func__, res));
  1693. return res;
  1694. }
  1695. }
  1696. return res;
  1697. }
  1698. static int
  1699. dbglog_process_netlink_data(wmi_unified_t wmi_handle, const uint8_t *buffer,
  1700. uint32_t len, uint32_t dropped)
  1701. {
  1702. struct sk_buff *skb_out;
  1703. struct nlmsghdr *nlh;
  1704. int res = 0;
  1705. struct dbglog_slot *slot;
  1706. size_t slot_len;
  1707. tAniNlHdr *wnl;
  1708. int radio;
  1709. if (WARN_ON(len > ATH6KL_FWLOG_PAYLOAD_SIZE))
  1710. return -ENODEV;
  1711. if (nl_srv_is_initialized() != 0)
  1712. return -EIO;
  1713. radio = cds_get_radio_index();
  1714. if (radio == -EINVAL)
  1715. return -EIO;
  1716. if (cds_is_multicast_logging()) {
  1717. slot_len = sizeof(*slot) + ATH6KL_FWLOG_PAYLOAD_SIZE +
  1718. sizeof(radio);
  1719. skb_out = nlmsg_new(slot_len, GFP_KERNEL);
  1720. if (!skb_out) {
  1721. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1722. ("Failed to allocate new skb\n"));
  1723. return A_ERROR;
  1724. }
  1725. nlh = nlmsg_put(skb_out, 0, 0, WLAN_NL_MSG_CNSS_DIAG,
  1726. slot_len, 0);
  1727. if (!nlh) {
  1728. kfree_skb(skb_out);
  1729. return -EMSGSIZE;
  1730. }
  1731. wnl = (tAniNlHdr *)nlh;
  1732. wnl->radio = radio;
  1733. /* data buffer offset from: nlmsg_hdr + sizeof(int) radio */
  1734. slot = (struct dbglog_slot *) (nlmsg_data(nlh) + sizeof(radio));
  1735. slot->diag_type = (uint32_t) DIAG_TYPE_FW_DEBUG_MSG;
  1736. slot->timestamp = cpu_to_le32(jiffies);
  1737. slot->length = cpu_to_le32(len);
  1738. slot->dropped = cpu_to_le32(dropped);
  1739. memcpy(slot->payload, buffer, len);
  1740. /*
  1741. * Need to pad each record to fixed length
  1742. * ATH6KL_FWLOG_PAYLOAD_SIZE
  1743. */
  1744. memset(slot->payload + len, 0, ATH6KL_FWLOG_PAYLOAD_SIZE - len);
  1745. res = nl_srv_bcast_fw_logs(skb_out);
  1746. if ((res < 0) && (res != -ESRCH)) {
  1747. AR_DEBUG_PRINTF(ATH_DEBUG_RSVD1,
  1748. ("%s: nl_srv_bcast_fw_logs failed 0x%x\n",
  1749. __func__, res));
  1750. return res;
  1751. }
  1752. }
  1753. return res;
  1754. }
  1755. /*
  1756. * WMI diag data event handler, this function invoked as a CB
  1757. * when there DIAG_EVENT, DIAG_MSG, DIAG_DBG to be
  1758. * forwarded from the FW. This is the new implementation for
  1759. * replacement of fw_dbg and dbg messages
  1760. */
  1761. static int diag_fw_handler(ol_scn_t scn, uint8_t *data, uint32_t datalen)
  1762. {
  1763. tp_wma_handle wma = (tp_wma_handle) scn;
  1764. WMI_DIAG_EVENTID_param_tlvs *param_buf;
  1765. uint8_t *datap;
  1766. uint32_t len = 0;
  1767. uint32_t *buffer;
  1768. if (!wma) {
  1769. AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("NULL Pointer assigned\n"));
  1770. return A_ERROR;
  1771. }
  1772. /* when fw asser occurs,host can't use TLV format. */
  1773. if (wma->is_fw_assert) {
  1774. datap = data;
  1775. len = datalen;
  1776. wma->is_fw_assert = 0;
  1777. } else {
  1778. param_buf = (WMI_DIAG_EVENTID_param_tlvs *) data;
  1779. if (!param_buf) {
  1780. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1781. ("Get NULL point message from FW\n"));
  1782. return A_ERROR;
  1783. }
  1784. datap = param_buf->bufp;
  1785. len = param_buf->num_bufp;
  1786. if (!get_version) {
  1787. if (len < 2*(sizeof(uint32_t))) {
  1788. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1789. ("len is less than expected\n"));
  1790. return A_ERROR;
  1791. }
  1792. buffer = (uint32_t *) datap;
  1793. buffer++; /* skip offset */
  1794. if (WLAN_DIAG_TYPE_CONFIG == DIAG_GET_TYPE(*buffer)) {
  1795. if (len < 3*(sizeof(uint32_t))) {
  1796. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1797. ("len is less than expected\n"));
  1798. return A_ERROR;
  1799. }
  1800. buffer++; /* skip */
  1801. if (DIAG_VERSION_INFO == DIAG_GET_ID(*buffer)) {
  1802. if (len < 4*(sizeof(uint32_t))) {
  1803. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1804. ("len is less than expected\n"));
  1805. return A_ERROR;
  1806. }
  1807. buffer++; /* skip */
  1808. /* get payload */
  1809. get_version = *buffer;
  1810. }
  1811. }
  1812. }
  1813. }
  1814. if (dbglog_process_type == DBGLOG_PROCESS_PRINT_RAW) {
  1815. if (!gprint_limiter) {
  1816. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1817. ("NOT Supported only supports net link socket\n"));
  1818. gprint_limiter = true;
  1819. }
  1820. return 0;
  1821. }
  1822. if (dbglog_process_type == DBGLOG_PROCESS_NET_RAW) {
  1823. return send_diag_netlink_data((uint8_t *) datap,
  1824. len, DIAG_TYPE_FW_MSG);
  1825. }
  1826. #ifdef WLAN_OPEN_SOURCE
  1827. if (dbglog_process_type == DBGLOG_PROCESS_POOL_RAW) {
  1828. if (!gprint_limiter) {
  1829. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1830. ("NOT Supported only supports net link socket\n"));
  1831. gprint_limiter = true;
  1832. }
  1833. return 0;
  1834. }
  1835. #endif /* WLAN_OPEN_SOURCE */
  1836. if (!gprint_limiter) {
  1837. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1838. ("NOT Supported only supports net link socket\n"));
  1839. gprint_limiter = true;
  1840. }
  1841. /* Always returns zero */
  1842. return 0;
  1843. }
  1844. /*
  1845. * WMI diag data event handler, this function invoked as a CB
  1846. * when there DIAG_DATA to be forwarded from the FW.
  1847. */
  1848. static int
  1849. fw_diag_data_event_handler(ol_scn_t scn, uint8_t *data, uint32_t datalen)
  1850. {
  1851. WMI_DIAG_DATA_CONTAINER_EVENTID_param_tlvs *param_buf;
  1852. uint8_t *datap;
  1853. uint32_t num_data; /* Total events */
  1854. param_buf = (WMI_DIAG_DATA_CONTAINER_EVENTID_param_tlvs *) data;
  1855. if (!param_buf) {
  1856. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1857. ("Got NULL point message from FW\n"));
  1858. return A_ERROR;
  1859. }
  1860. num_data = param_buf->num_bufp;
  1861. datap = (uint8_t *) param_buf->bufp;
  1862. return process_fw_diag_event_data(datap, num_data);
  1863. }
  1864. int dbglog_parse_debug_logs(ol_scn_t scn, uint8_t *data, uint32_t datalen)
  1865. {
  1866. tp_wma_handle wma = (tp_wma_handle) scn;
  1867. uint32_t count;
  1868. uint32_t *buffer;
  1869. uint32_t timestamp;
  1870. uint32_t debugid;
  1871. uint32_t moduleid;
  1872. uint16_t vapid;
  1873. uint16_t numargs;
  1874. qdf_size_t length;
  1875. uint32_t dropped;
  1876. WMI_DEBUG_MESG_EVENTID_param_tlvs *param_buf;
  1877. uint8_t *datap;
  1878. uint32_t len;
  1879. if (!wma) {
  1880. AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("NULL Pointer assigned\n"));
  1881. return A_ERROR;
  1882. }
  1883. /*when fw asser occurs,host can't use TLV format. */
  1884. if (wma->is_fw_assert) {
  1885. datap = data;
  1886. len = datalen;
  1887. wma->is_fw_assert = 0;
  1888. } else {
  1889. param_buf = (WMI_DEBUG_MESG_EVENTID_param_tlvs *) data;
  1890. if (!param_buf) {
  1891. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  1892. ("Get NULL point message from FW\n"));
  1893. return A_ERROR;
  1894. }
  1895. datap = param_buf->bufp;
  1896. len = param_buf->num_bufp;
  1897. }
  1898. if (len < sizeof(dropped)) {
  1899. AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Invalid length\n"));
  1900. return A_ERROR;
  1901. }
  1902. dropped = *((uint32_t *) datap);
  1903. if (dropped > 0) {
  1904. AR_DEBUG_PRINTF(ATH_DEBUG_TRC,
  1905. ("%d log buffers are dropped\n", dropped));
  1906. }
  1907. datap += sizeof(dropped);
  1908. len -= sizeof(dropped);
  1909. count = 0;
  1910. buffer = (uint32_t *) datap;
  1911. length = (len >> 2);
  1912. if (dbglog_process_type == DBGLOG_PROCESS_PRINT_RAW)
  1913. return dbglog_print_raw_data(buffer, length);
  1914. if (dbglog_process_type == DBGLOG_PROCESS_NET_RAW) {
  1915. return dbglog_process_netlink_data((wmi_unified_t) wma->
  1916. wmi_handle,
  1917. (uint8_t *) buffer,
  1918. len, dropped);
  1919. }
  1920. #ifdef WLAN_OPEN_SOURCE
  1921. if (dbglog_process_type == DBGLOG_PROCESS_POOL_RAW) {
  1922. return dbglog_debugfs_raw_data((wmi_unified_t) wma->wmi_handle,
  1923. (uint8_t *) buffer, len,
  1924. dropped);
  1925. }
  1926. #endif /* WLAN_OPEN_SOURCE */
  1927. while ((count + 2) < length) {
  1928. timestamp = DBGLOG_GET_TIME_STAMP(buffer[count]);
  1929. debugid = DBGLOG_GET_DBGID(buffer[count + 1]);
  1930. moduleid = DBGLOG_GET_MODULEID(buffer[count + 1]);
  1931. vapid = DBGLOG_GET_VDEVID(buffer[count + 1]);
  1932. numargs = DBGLOG_GET_NUMARGS(buffer[count + 1]);
  1933. if ((count + 2 + numargs) > length)
  1934. return A_OK;
  1935. if (moduleid >= WLAN_MODULE_ID_MAX)
  1936. return A_OK;
  1937. if (!mod_print[moduleid]) {
  1938. /*
  1939. * No module specific log registered
  1940. * use the default handler
  1941. */
  1942. dbglog_default_print_handler(moduleid, vapid, debugid,
  1943. timestamp, numargs,
  1944. (((uint32_t *) buffer) +
  1945. 2 + count));
  1946. } else {
  1947. if (!(mod_print[moduleid](moduleid, vapid, debugid,
  1948. timestamp, numargs,
  1949. (((uint32_t *) buffer) +
  1950. 2 + count)))) {
  1951. /*
  1952. * The message is not handled
  1953. * by the module specific handler
  1954. */
  1955. dbglog_default_print_handler(moduleid, vapid,
  1956. debugid, timestamp,
  1957. numargs,
  1958. (((uint32_t *)
  1959. buffer) + 2 +
  1960. count));
  1961. }
  1962. }
  1963. /* 32 bit Time stamp + 32 bit Dbg header */
  1964. count += numargs + 2;
  1965. }
  1966. /* Always returns zero */
  1967. return A_OK;
  1968. }
  1969. void dbglog_reg_modprint(uint32_t mod_id, module_dbg_print printfn)
  1970. {
  1971. if (!mod_print[mod_id]) {
  1972. mod_print[mod_id] = printfn;
  1973. } else {
  1974. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  1975. ("module print is already registered for this module %d\n",
  1976. mod_id));
  1977. }
  1978. }
  1979. static void
  1980. dbglog_sm_print(uint32_t timestamp,
  1981. uint16_t vap_id,
  1982. uint16_t numargs,
  1983. uint32_t *args,
  1984. const char *module_prefix,
  1985. const char *const states[], uint32_t num_states,
  1986. const char *const events[], uint32_t num_events)
  1987. {
  1988. uint8_t type, arg1, arg2, arg3;
  1989. uint32_t extra, extra2, extra3;
  1990. if (numargs != 4)
  1991. return;
  1992. type = (args[0] >> 24) & 0xff;
  1993. arg1 = (args[0] >> 16) & 0xff;
  1994. arg2 = (args[0] >> 8) & 0xff;
  1995. arg3 = (args[0] >> 0) & 0xff;
  1996. extra = args[1];
  1997. extra2 = args[2];
  1998. extra3 = args[3];
  1999. switch (type) {
  2000. case 0: /* state transition */
  2001. if (arg1 < num_states && arg2 < num_states) {
  2002. dbglog_printf(timestamp, vap_id,
  2003. "%s: %s => %s (%#x, %#x, %#x)",
  2004. module_prefix, states[arg1], states[arg2],
  2005. extra, extra2, extra3);
  2006. } else {
  2007. dbglog_printf(timestamp, vap_id,
  2008. "%s: %u => %u (%#x, %#x, %#x)",
  2009. module_prefix, arg1, arg2, extra, extra2,
  2010. extra3);
  2011. }
  2012. break;
  2013. case 1: /* dispatch event */
  2014. if (arg1 < num_states && arg2 < num_events) {
  2015. dbglog_printf(timestamp, vap_id,
  2016. "%s: %s < %s (%#x, %#x, %#x)",
  2017. module_prefix, states[arg1], events[arg2],
  2018. extra, extra2, extra3);
  2019. } else {
  2020. dbglog_printf(timestamp, vap_id,
  2021. "%s: %u < %u (%#x, %#x, %#x)",
  2022. module_prefix, arg1, arg2, extra, extra2,
  2023. extra3);
  2024. }
  2025. break;
  2026. case 2: /* warning */
  2027. switch (arg1) {
  2028. case 0: /* unhandled event */
  2029. if (arg2 < num_states && arg3 < num_events) {
  2030. dbglog_printf(timestamp, vap_id,
  2031. "%s: unhandled event %s in state %s (%#x, %#x, %#x)",
  2032. module_prefix, events[arg3],
  2033. states[arg2], extra, extra2,
  2034. extra3);
  2035. } else {
  2036. dbglog_printf(timestamp, vap_id,
  2037. "%s: unhandled event %u in state %u (%#x, %#x, %#x)",
  2038. module_prefix, arg3, arg2, extra,
  2039. extra2, extra3);
  2040. }
  2041. break;
  2042. default:
  2043. break;
  2044. }
  2045. break;
  2046. }
  2047. }
  2048. static A_BOOL
  2049. dbglog_sta_powersave_print_handler(uint32_t mod_id,
  2050. uint16_t vap_id,
  2051. uint32_t dbg_id,
  2052. uint32_t timestamp,
  2053. uint16_t numargs, uint32_t *args)
  2054. {
  2055. static const char *const states[] = {
  2056. "IDLE",
  2057. "ACTIVE",
  2058. "SLEEP_TXQ_FLUSH",
  2059. "SLEEP_TX_SENT",
  2060. "PAUSE",
  2061. "SLEEP_DOZE",
  2062. "SLEEP_AWAKE",
  2063. "ACTIVE_TXQ_FLUSH",
  2064. "ACTIVE_TX_SENT",
  2065. "PAUSE_TXQ_FLUSH",
  2066. "PAUSE_TX_SENT",
  2067. "IDLE_TXQ_FLUSH",
  2068. "IDLE_TX_SENT",
  2069. };
  2070. static const char *const events[] = {
  2071. "START",
  2072. "STOP",
  2073. "PAUSE",
  2074. "UNPAUSE",
  2075. "TIM",
  2076. "DTIM",
  2077. "SEND_COMPLETE",
  2078. "PRE_SEND",
  2079. "RX",
  2080. "HWQ_EMPTY",
  2081. "PAUSE_TIMEOUT",
  2082. "TXRX_INACTIVITY_TIMEOUT",
  2083. "PSPOLL_TIMEOUT",
  2084. "UAPSD_TIMEOUT",
  2085. "DELAYED_SLEEP_TIMEOUT",
  2086. "SEND_N_COMPLETE",
  2087. "TIDQ_PAUSE_COMPLETE",
  2088. "SEND_PSPOLL",
  2089. "SEND_SPEC_PSPOLL",
  2090. };
  2091. switch (dbg_id) {
  2092. case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG:
  2093. dbglog_sm_print(timestamp, vap_id, numargs, args, "STA PS",
  2094. states, QDF_ARRAY_SIZE(states), events,
  2095. QDF_ARRAY_SIZE(events));
  2096. break;
  2097. case PS_STA_PM_ARB_REQUEST:
  2098. if (numargs == 4) {
  2099. dbglog_printf(timestamp, vap_id,
  2100. "PM ARB request flags=%x, last_time=%x %s: %s",
  2101. args[1], args[2],
  2102. dbglog_get_module_str(args[0]),
  2103. args[3] ? "SLEEP" : "WAKE");
  2104. }
  2105. break;
  2106. case PS_STA_DELIVER_EVENT:
  2107. if (numargs == 2) {
  2108. dbglog_printf(timestamp, vap_id, "STA PS: %s %s",
  2109. (args[0] == 0 ? "PAUSE_COMPLETE" :
  2110. (args[0] == 1 ? "UNPAUSE_COMPLETE" :
  2111. (args[0] == 2 ? "SLEEP" :
  2112. (args[0] ==
  2113. 3 ? "AWAKE" : "UNKNOWN")))),
  2114. (args[1] ==
  2115. 0 ? "SUCCESS" : (args[1] ==
  2116. 1 ? "TXQ_FLUSH_TIMEOUT"
  2117. : (args[1] ==
  2118. 2 ? "NO_ACK"
  2119. : (args[1] ==
  2120. 3 ?
  2121. "RX_LEAK_TIMEOUT"
  2122. : (args[1] ==
  2123. 4 ?
  2124. "PSPOLL_UAPSD_BUSY_TIMEOUT"
  2125. :
  2126. "UNKNOWN"))))));
  2127. }
  2128. break;
  2129. case PS_STA_PSPOLL_SEQ_DONE:
  2130. if (numargs == 5) {
  2131. dbglog_printf(timestamp, vap_id,
  2132. "STA PS poll: queue=%u comp=%u rsp=%u rsp_dur=%u fc=%x qos=%x %s",
  2133. args[0], args[1], args[2], args[3],
  2134. (args[4] >> 16) & 0xffff,
  2135. (args[4] >> 8) & 0xff,
  2136. (args[4] & 0xff) ==
  2137. 0 ? "SUCCESS" : (args[4] & 0xff) ==
  2138. 1 ? "NO_ACK" : (args[4] & 0xff) ==
  2139. 2 ? "DROPPED" : (args[4] & 0xff) ==
  2140. 3 ? "FILTERED" : (args[4] & 0xff) ==
  2141. 4 ? "RSP_TIMEOUT" : "UNKNOWN");
  2142. }
  2143. break;
  2144. case PS_STA_COEX_MODE:
  2145. if (numargs == 1) {
  2146. dbglog_printf(timestamp, vap_id, "STA PS COEX MODE %s",
  2147. args[0] ? "ENABLED" : "DISABLED");
  2148. }
  2149. break;
  2150. case PS_STA_PSPOLL_ALLOW:
  2151. if (numargs == 3) {
  2152. dbglog_printf(timestamp, vap_id,
  2153. "STA PS-Poll %s flags=%x time=%u",
  2154. args[0] ? "ALLOW" : "DISALLOW", args[1],
  2155. args[2]);
  2156. }
  2157. break;
  2158. case PS_STA_SET_PARAM:
  2159. if (numargs == 2) {
  2160. struct {
  2161. char *name;
  2162. int is_time_param;
  2163. } params[] = {
  2164. {
  2165. "MAX_SLEEP_ATTEMPTS", 0
  2166. }, {
  2167. "DELAYED_SLEEP", 1
  2168. }, {
  2169. "TXRX_INACTIVITY", 1
  2170. }, {
  2171. "MAX_TX_BEFORE_WAKE", 0
  2172. }, {
  2173. "UAPSD_TIMEOUT", 1
  2174. }, {
  2175. "UAPSD_CONFIG", 0
  2176. }, {
  2177. "PSPOLL_RESPONSE_TIMEOUT", 1
  2178. }, {
  2179. "MAX_PSPOLL_BEFORE_WAKE", 0
  2180. }, {
  2181. "RX_WAKE_POLICY", 0
  2182. }, {
  2183. "DELAYED_PAUSE_RX_LEAK", 1
  2184. }, {
  2185. "TXRX_INACTIVITY_BLOCKED_RETRY", 1
  2186. }, {
  2187. "SPEC_WAKE_INTERVAL", 1
  2188. }, {
  2189. "MAX_SPEC_NODATA_PSPOLL", 0
  2190. }, {
  2191. "ESTIMATED_PSPOLL_RESP_TIME", 1
  2192. }, {
  2193. "QPOWER_MAX_PSPOLL_BEFORE_WAKE", 0
  2194. }, {
  2195. "QPOWER_ENABLE", 0
  2196. },
  2197. };
  2198. uint32_t param = args[0];
  2199. uint32_t value = args[1];
  2200. if (param < QDF_ARRAY_SIZE(params)) {
  2201. if (params[param].is_time_param) {
  2202. dbglog_printf(timestamp, vap_id,
  2203. "STA PS SET_PARAM %s => %u (us)",
  2204. params[param].name,
  2205. value);
  2206. } else {
  2207. dbglog_printf(timestamp, vap_id,
  2208. "STA PS SET_PARAM %s => %#x",
  2209. params[param].name,
  2210. value);
  2211. }
  2212. } else {
  2213. dbglog_printf(timestamp, vap_id,
  2214. "STA PS SET_PARAM %x => %#x",
  2215. param, value);
  2216. }
  2217. }
  2218. break;
  2219. case PS_STA_SPECPOLL_TIMER_STARTED:
  2220. dbglog_printf(timestamp, vap_id,
  2221. "SPEC Poll Timer Started: Beacon time Remaining:%d wakeup interval:%d",
  2222. args[0], args[1]);
  2223. break;
  2224. case PS_STA_SPECPOLL_TIMER_STOPPED:
  2225. dbglog_printf(timestamp, vap_id, "SPEC Poll Timer Stopped");
  2226. break;
  2227. default:
  2228. return false;
  2229. }
  2230. return true;
  2231. }
  2232. /* IBSS PS sub modules */
  2233. enum wlan_ibss_ps_sub_module {
  2234. WLAN_IBSS_PS_SUB_MODULE_IBSS_NW_SM = 0,
  2235. WLAN_IBSS_PS_SUB_MODULE_IBSS_SELF_PS = 1,
  2236. WLAN_IBSS_PS_SUB_MODULE_IBSS_PEER_PS = 2,
  2237. WLAN_IBSS_PS_SUB_MODULE_MAX = 3,
  2238. };
  2239. #define WLAN_IBSS_PS_SUB_MODULE_OFFSET 0x1E
  2240. static A_BOOL
  2241. dbglog_ibss_powersave_print_handler(uint32_t mod_id,
  2242. uint16_t vap_id,
  2243. uint32_t dbg_id,
  2244. uint32_t timestamp,
  2245. uint16_t numargs, uint32_t *args)
  2246. {
  2247. static const char *const nw_states[] = {
  2248. "WAIT_FOR_TBTT",
  2249. "ATIM_WINDOW_PRE_BCN",
  2250. "ATIM_WINDOW_POST_BCN",
  2251. "OUT_OF_ATIM_WINDOW",
  2252. "PAUSE_PENDING",
  2253. "PAUSED",
  2254. };
  2255. static const char *const ps_states[] = {
  2256. "ACTIVE",
  2257. "SLEEP_TX_SEND",
  2258. "SLEEP_DOZE_PAUSE_PENDING",
  2259. "SLEEP_DOZE",
  2260. "SLEEP_AWAKE",
  2261. "ACTIVE_TX_SEND",
  2262. "PAUSE_TX_SEND",
  2263. "PAUSED",
  2264. };
  2265. static const char *const peer_ps_states[] = {
  2266. "ACTIVE",
  2267. "SLEEP_AWAKE",
  2268. "SLEEP_DOZE",
  2269. "PS_UNKNOWN",
  2270. };
  2271. static const char *const events[] = {
  2272. "START",
  2273. "STOP",
  2274. "SWBA",
  2275. "TBTT",
  2276. "TX_BCN_CMP",
  2277. "SEND_COMPLETE",
  2278. "SEND_N_COMPLETE",
  2279. "PRE_SEND",
  2280. "RX",
  2281. "UC_INACTIVITY_TIMEOUT",
  2282. "BC_INACTIVITY_TIMEOUT",
  2283. "ATIM_WINDOW_BEGIN",
  2284. "ATIM_WINDOW_END",
  2285. "HWQ_EMPTY",
  2286. "UC_ATIM_RCVD",
  2287. "TRAFFIC_EXCHANGE_DONE",
  2288. "POWER_SAVE_STATE_CHANGE",
  2289. "NEW_PEER_JOIN",
  2290. "IBSS_VDEV_PAUSE_REQUEST",
  2291. "IBSS_VDEV_PAUSE_RESPONSE",
  2292. "IBSS_VDEV_PAUSE_TIMEOUT",
  2293. "IBSS_VDEV_UNPAUSE_REQUEST",
  2294. "PS_STATE_CHANGE",
  2295. };
  2296. enum wlan_ibss_ps_sub_module sub_module;
  2297. switch (dbg_id) {
  2298. case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG:
  2299. sub_module = (args[1] >> WLAN_IBSS_PS_SUB_MODULE_OFFSET) & 0x3;
  2300. switch (sub_module) {
  2301. case WLAN_IBSS_PS_SUB_MODULE_IBSS_NW_SM:
  2302. dbglog_sm_print(timestamp, vap_id, numargs, args,
  2303. "IBSS PS NW", nw_states,
  2304. QDF_ARRAY_SIZE(nw_states), events,
  2305. QDF_ARRAY_SIZE(events));
  2306. break;
  2307. case WLAN_IBSS_PS_SUB_MODULE_IBSS_SELF_PS:
  2308. dbglog_sm_print(timestamp, vap_id, numargs, args,
  2309. "IBSS PS Self", ps_states,
  2310. QDF_ARRAY_SIZE(ps_states), events,
  2311. QDF_ARRAY_SIZE(events));
  2312. break;
  2313. case WLAN_IBSS_PS_SUB_MODULE_IBSS_PEER_PS:
  2314. dbglog_sm_print(timestamp, vap_id, numargs, args,
  2315. "IBSS PS Peer", peer_ps_states,
  2316. QDF_ARRAY_SIZE(peer_ps_states), events,
  2317. QDF_ARRAY_SIZE(events));
  2318. break;
  2319. default:
  2320. break;
  2321. }
  2322. break;
  2323. case IBSS_PS_DBGID_PEER_CREATE:
  2324. if (numargs == 2) {
  2325. dbglog_printf(timestamp, vap_id,
  2326. "IBSS PS: peer alloc failed for peer ID:%u",
  2327. args[0]);
  2328. } else if (numargs == 1) {
  2329. dbglog_printf(timestamp, vap_id,
  2330. "IBSS PS: create peer ID=%u", args[0]);
  2331. }
  2332. break;
  2333. case IBSS_PS_DBGID_PEER_DELETE:
  2334. if (numargs == 4) {
  2335. dbglog_printf(timestamp, vap_id,
  2336. "IBSS PS: delete peer ID=%u num_peers:%d num_sleeping_peers:%d ps_enabled_for_this_peer:%d",
  2337. args[0], args[1], args[2], args[3]);
  2338. }
  2339. break;
  2340. case IBSS_PS_DBGID_VDEV_CREATE:
  2341. if (numargs == 1) {
  2342. dbglog_printf(timestamp, vap_id,
  2343. "IBSS PS: vdev alloc failed", args[0]);
  2344. } else if (numargs == 0) {
  2345. dbglog_printf(timestamp, vap_id,
  2346. "IBSS PS: vdev created");
  2347. }
  2348. break;
  2349. case IBSS_PS_DBGID_VDEV_DELETE:
  2350. dbglog_printf(timestamp, vap_id, "IBSS PS: vdev deleted");
  2351. break;
  2352. case IBSS_PS_DBGID_VDEV_EVENT:
  2353. if (numargs == 1) {
  2354. if (args[0] == 5) {
  2355. dbglog_printf(timestamp, vap_id,
  2356. "IBSS PS: vdev event for peer add");
  2357. } else if (args[0] == 7) {
  2358. dbglog_printf(timestamp, vap_id,
  2359. "IBSS PS: vdev event for peer delete");
  2360. } else {
  2361. dbglog_printf(timestamp, vap_id,
  2362. "IBSS PS: vdev event %u",
  2363. args[0]);
  2364. }
  2365. }
  2366. break;
  2367. case IBSS_PS_DBGID_PEER_EVENT:
  2368. if (numargs == 4) {
  2369. if (args[0] == 0xFFFF) {
  2370. dbglog_printf(timestamp, vap_id,
  2371. "IBSS PS: pre_send for peer:%u peer_type:%u sm_event_mask:%0x",
  2372. args[1], args[3], args[2]);
  2373. } else if (args[0] == 0x20000) {
  2374. dbglog_printf(timestamp, vap_id,
  2375. "IBSS PS: send_complete for peer:%u peer_type:%u sm_event_mask:%0x",
  2376. args[1], args[3], args[2]);
  2377. } else if (args[0] == 0x10) {
  2378. dbglog_printf(timestamp, vap_id,
  2379. "IBSS PS: send_n_complete for peer:%u peer_type:%u sm_event_mask:%0x",
  2380. args[1], args[3], args[2]);
  2381. } else if (args[0] == 0x40) {
  2382. dbglog_printf(timestamp, vap_id,
  2383. "IBSS PS: rx event for peer:%u peer_type:%u sm_event_mask:%0x",
  2384. args[1], args[3], args[2]);
  2385. } else if (args[0] == 0x4) {
  2386. dbglog_printf(timestamp, vap_id,
  2387. "IBSS PS: hw_q_empty for peer:%u peer_type:%u sm_event_mask:%0x",
  2388. args[1], args[3], args[2]);
  2389. }
  2390. }
  2391. break;
  2392. case IBSS_PS_DBGID_DELIVER_CAB:
  2393. if (numargs == 4) {
  2394. dbglog_printf(timestamp, vap_id,
  2395. "IBSS PS: Deliver CAB n_mpdu:%d send_flags:%0x tid_cur:%d q_depth_for_other_tid:%d",
  2396. args[0], args[1], args[2], args[3]);
  2397. }
  2398. break;
  2399. case IBSS_PS_DBGID_DELIVER_UC_DATA:
  2400. if (numargs == 4) {
  2401. dbglog_printf(timestamp, vap_id,
  2402. "IBSS PS: Deliver UC data peer:%d tid:%d n_mpdu:%d send_flags:%0x",
  2403. args[0], args[1], args[2], args[3]);
  2404. }
  2405. break;
  2406. case IBSS_PS_DBGID_DELIVER_UC_DATA_ERROR:
  2407. if (numargs == 4) {
  2408. dbglog_printf(timestamp, vap_id,
  2409. "IBSS PS: Deliver UC data error peer:%d tid:%d allowed_tidmask:%0x, pending_tidmap:%0x",
  2410. args[0], args[1], args[2], args[3]);
  2411. }
  2412. break;
  2413. case IBSS_PS_DBGID_UC_INACTIVITY_TMR_RESTART:
  2414. if (numargs == 2) {
  2415. dbglog_printf(timestamp, vap_id,
  2416. "IBSS PS: UC timer restart peer:%d timer_val:%0x",
  2417. args[0], args[1]);
  2418. }
  2419. break;
  2420. case IBSS_PS_DBGID_MC_INACTIVITY_TMR_RESTART:
  2421. if (numargs == 1) {
  2422. dbglog_printf(timestamp, vap_id,
  2423. "IBSS PS: MC timer restart timer_val:%0x",
  2424. args[0]);
  2425. }
  2426. break;
  2427. case IBSS_PS_DBGID_NULL_TX_COMPLETION:
  2428. if (numargs == 3) {
  2429. dbglog_printf(timestamp, vap_id,
  2430. "IBSS PS: null tx completion peer:%d tx_completion_status:%d flags:%0x",
  2431. args[0], args[1], args[2]);
  2432. }
  2433. break;
  2434. case IBSS_PS_DBGID_ATIM_TIMER_START:
  2435. if (numargs == 4) {
  2436. dbglog_printf(timestamp, vap_id,
  2437. "IBSS PS: ATIM timer start tsf:%0x %0x tbtt:%0x %0x",
  2438. args[0], args[1], args[2], args[3]);
  2439. }
  2440. break;
  2441. case IBSS_PS_DBGID_UC_ATIM_SEND:
  2442. if (numargs == 2) {
  2443. dbglog_printf(timestamp, vap_id,
  2444. "IBSS PS: Send ATIM to peer:%d", args[1]);
  2445. } else if (numargs == 1) {
  2446. dbglog_printf(timestamp, vap_id,
  2447. "IBSS PS: no peers to send UC ATIM",
  2448. args[1]);
  2449. }
  2450. break;
  2451. case IBSS_PS_DBGID_BC_ATIM_SEND:
  2452. if (numargs == 2) {
  2453. dbglog_printf(timestamp, vap_id,
  2454. "IBSS PS: MC Data, num_of_peers:%d bc_atim_sent:%d",
  2455. args[1], args[0]);
  2456. }
  2457. break;
  2458. case IBSS_PS_DBGID_UC_TIMEOUT:
  2459. if (numargs == 2) {
  2460. dbglog_printf(timestamp, vap_id,
  2461. "IBSS PS: UC timeout for peer:%d send_null:%d",
  2462. args[0], args[1]);
  2463. }
  2464. break;
  2465. case IBSS_PS_DBGID_PWR_COLLAPSE_ALLOWED:
  2466. dbglog_printf(timestamp, vap_id,
  2467. "IBSS PS: allow power collapse");
  2468. break;
  2469. case IBSS_PS_DBGID_PWR_COLLAPSE_NOT_ALLOWED:
  2470. if (numargs == 0) {
  2471. dbglog_printf(timestamp, vap_id,
  2472. "IBSS PS: power collapse not allowed by INI");
  2473. } else if (numargs == 1) {
  2474. dbglog_printf(timestamp, vap_id,
  2475. "IBSS PS: power collapse not allowed since peer id:%d is not PS capable",
  2476. args[0]);
  2477. } else if (numargs == 2) {
  2478. dbglog_printf(timestamp, vap_id,
  2479. "IBSS PS: power collapse not allowed - no peers in NW");
  2480. } else if (numargs == 3) {
  2481. if (args[0] == 2) {
  2482. dbglog_printf(timestamp, vap_id,
  2483. "IBSS PS: power collapse not allowed, non-zero qdepth %d %d",
  2484. args[1], args[2]);
  2485. } else if (args[0] == 3) {
  2486. dbglog_printf(timestamp, vap_id,
  2487. "IBSS PS: power collapse not allowed by peer:%d peer_flags:%0x",
  2488. args[1], args[2]);
  2489. }
  2490. } else if (numargs == 5) {
  2491. dbglog_printf(timestamp, vap_id,
  2492. "IBSS PS: power collapse not allowed by state m/c nw_cur_state:%d nw_next_state:%d ps_cur_state:%d flags:%0x",
  2493. args[1], args[2], args[3], args[4]);
  2494. }
  2495. break;
  2496. case IBSS_PS_DBGID_SET_PARAM:
  2497. if (numargs == 2) {
  2498. dbglog_printf(timestamp, vap_id,
  2499. "IBSS PS: Set Param ID:%0x Value:%0x",
  2500. args[0], args[1]);
  2501. }
  2502. break;
  2503. case IBSS_PS_DBGID_HOST_TX_PAUSE:
  2504. if (numargs == 1) {
  2505. dbglog_printf(timestamp, vap_id,
  2506. "IBSS PS: Pausing host, vdev_map:%0x",
  2507. args[0]);
  2508. }
  2509. break;
  2510. case IBSS_PS_DBGID_HOST_TX_UNPAUSE:
  2511. if (numargs == 1) {
  2512. dbglog_printf(timestamp, vap_id,
  2513. "IBSS PS: Unpausing host, vdev_map:%0x",
  2514. args[0]);
  2515. }
  2516. break;
  2517. case IBSS_PS_DBGID_PS_DESC_BIN_LWM:
  2518. if (numargs == 1) {
  2519. dbglog_printf(timestamp, vap_id,
  2520. "IBSS PS: LWM, vdev_map:%0x", args[0]);
  2521. }
  2522. break;
  2523. case IBSS_PS_DBGID_PS_DESC_BIN_HWM:
  2524. if (numargs == 1) {
  2525. dbglog_printf(timestamp, vap_id,
  2526. "IBSS PS: HWM, vdev_map:%0x", args[0]);
  2527. }
  2528. break;
  2529. case IBSS_PS_DBGID_PS_KICKOUT_PEER:
  2530. if (numargs == 3) {
  2531. dbglog_printf(timestamp, vap_id,
  2532. "IBSS PS: Kickout peer id:%d atim_fail_cnt:%d status:%d",
  2533. args[0], args[1], args[2]);
  2534. }
  2535. break;
  2536. case IBSS_PS_DBGID_SET_PEER_PARAM:
  2537. if (numargs == 3) {
  2538. dbglog_printf(timestamp, vap_id,
  2539. "IBSS PS: Set Peer Id:%d Param ID:%0x Value:%0x",
  2540. args[0], args[1], args[2]);
  2541. }
  2542. break;
  2543. case IBSS_PS_DBGID_BCN_ATIM_WIN_MISMATCH:
  2544. if (numargs == 4) {
  2545. if (args[0] == 0xDEAD) {
  2546. dbglog_printf(timestamp, vap_id,
  2547. "IBSS PS: ATIM window length mismatch, our's:%d, peer id:%d, peer's:%d",
  2548. args[1], args[2], args[3]);
  2549. } else if (args[0] == 0xBEEF) {
  2550. dbglog_printf(timestamp, vap_id,
  2551. "IBSS PS: Peer ATIM window length changed, peer id:%d, peer recorded atim window:%d new atim window:%d",
  2552. args[1], args[2], args[3]);
  2553. }
  2554. }
  2555. break;
  2556. case IBSS_PS_DBGID_RX_CHAINMASK_CHANGE:
  2557. if (numargs == 2) {
  2558. if (args[1] == 0x1) {
  2559. dbglog_printf(timestamp, vap_id,
  2560. "IBSS PS: Voting for low power chainmask from :%d",
  2561. args[0]);
  2562. } else {
  2563. dbglog_printf(timestamp, vap_id,
  2564. "IBSS PS: Voting for high power chainmask from :%d",
  2565. args[0]);
  2566. }
  2567. }
  2568. break;
  2569. default:
  2570. return false;
  2571. }
  2572. return true;
  2573. }
  2574. static
  2575. A_BOOL dbglog_ratectrl_print_handler(uint32_t mod_id,
  2576. uint16_t vap_id,
  2577. uint32_t dbg_id,
  2578. uint32_t timestamp,
  2579. uint16_t numargs, uint32_t *args)
  2580. {
  2581. switch (dbg_id) {
  2582. case RATECTRL_DBGID_ASSOC:
  2583. dbglog_printf(timestamp, vap_id,
  2584. "RATE: ChainMask %d, phymode %d, ni_flags 0x%08x, vht_mcs_set 0x%04x, ht_mcs_set 0x%04x",
  2585. args[0], args[1], args[2], args[3], args[4]);
  2586. break;
  2587. case RATECTRL_DBGID_NSS_CHANGE:
  2588. dbglog_printf(timestamp, vap_id, "RATE: NEW NSS %d\n", args[0]);
  2589. break;
  2590. case RATECTRL_DBGID_CHAINMASK_ERR:
  2591. dbglog_printf(timestamp, vap_id,
  2592. "RATE: Chainmask ERR %d %d %d\n", args[0],
  2593. args[1], args[2]);
  2594. break;
  2595. case RATECTRL_DBGID_UNEXPECTED_FRAME:
  2596. dbglog_printf(timestamp, vap_id,
  2597. "RATE: WARN1: rate %d flags 0x%08x\n", args[0],
  2598. args[1]);
  2599. break;
  2600. case RATECTRL_DBGID_WAL_RCQUERY:
  2601. dbglog_printf(timestamp, vap_id,
  2602. "ratectrl_dbgid_wal_rcquery [rix1 %d rix2 %d rix3 %d proberix %d ppduflag 0x%x] ",
  2603. args[0], args[1], args[2], args[3], args[4]);
  2604. break;
  2605. case RATECTRL_DBGID_WAL_RCUPDATE:
  2606. dbglog_printf(timestamp, vap_id,
  2607. "ratectrl_dbgid_wal_rcupdate [numelems %d ppduflag 0x%x] ",
  2608. args[0], args[1]);
  2609. break;
  2610. case RATECTRL_DBGID_GTX_UPDATE:
  2611. {
  2612. switch (args[0]) {
  2613. case 255:
  2614. dbglog_printf(timestamp, vap_id,
  2615. "GtxInitPwrCfg [bw[last %d|cur %d] rtcode 0x%x tpc %d tpc_init_pwr_cfg %d] ",
  2616. args[1] >> 8, args[1] & 0xff,
  2617. args[2], args[3], args[4]);
  2618. break;
  2619. case 254:
  2620. dbglog_printf(timestamp, vap_id,
  2621. "gtx_cfg_addr [RTMask0@0x%x PERThreshold@0x%x gtxTPCMin@0x%x userGtxMask@0x%x] ",
  2622. args[1], args[2], args[3],
  2623. args[4]);
  2624. break;
  2625. default:
  2626. dbglog_printf(timestamp, vap_id,
  2627. "gtx_update [act %d bw %d rix 0x%x tpc %d per %d lastrssi %d] ",
  2628. args[0], args[1], args[2],
  2629. args[3], args[4], args[5]);
  2630. }
  2631. }
  2632. break;
  2633. }
  2634. return true;
  2635. }
  2636. static
  2637. A_BOOL dbglog_ani_print_handler(uint32_t mod_id,
  2638. uint16_t vap_id,
  2639. uint32_t dbg_id,
  2640. uint32_t timestamp,
  2641. uint16_t numargs, uint32_t *args)
  2642. {
  2643. switch (dbg_id) {
  2644. case ANI_DBGID_ENABLE:
  2645. dbglog_printf(timestamp, vap_id, "ANI Enable: %d", args[0]);
  2646. break;
  2647. case ANI_DBGID_POLL:
  2648. dbglog_printf(timestamp, vap_id,
  2649. "ANI POLLING: AccumListenTime %d ListenTime %d ofdmphyerr %d cckphyerr %d",
  2650. args[0], args[1], args[2], args[3]);
  2651. break;
  2652. case ANI_DBGID_RESTART:
  2653. dbglog_printf(timestamp, vap_id, "ANI Restart");
  2654. break;
  2655. case ANI_DBGID_CURRENT_LEVEL:
  2656. dbglog_printf(timestamp, vap_id,
  2657. "ANI CURRENT LEVEL ofdm level %d cck level %d",
  2658. args[0], args[1]);
  2659. break;
  2660. case ANI_DBGID_OFDM_LEVEL:
  2661. dbglog_printf(timestamp, vap_id,
  2662. "ANI UPDATE ofdm level %d firstep %d firstep_low %d cycpwr_thr %d self_corr_low %d",
  2663. args[0], args[1], args[2], args[3], args[4]);
  2664. break;
  2665. case ANI_DBGID_CCK_LEVEL:
  2666. dbglog_printf(timestamp, vap_id,
  2667. "ANI UPDATE cck level %d firstep %d firstep_low %d mrc_cck %d",
  2668. args[0], args[1], args[2], args[3]);
  2669. break;
  2670. case ANI_DBGID_CONTROL:
  2671. dbglog_printf(timestamp, vap_id,
  2672. "ANI CONTROL ofdmlevel %d ccklevel %d\n",
  2673. args[0]);
  2674. break;
  2675. case ANI_DBGID_OFDM_PARAMS:
  2676. dbglog_printf(timestamp, vap_id,
  2677. "ANI ofdm_control firstep %d cycpwr %d\n",
  2678. args[0], args[1]);
  2679. break;
  2680. case ANI_DBGID_CCK_PARAMS:
  2681. dbglog_printf(timestamp, vap_id,
  2682. "ANI cck_control mrc_cck %d barker_threshold %d\n",
  2683. args[0], args[1]);
  2684. break;
  2685. case ANI_DBGID_RESET:
  2686. dbglog_printf(timestamp, vap_id,
  2687. "ANI resetting resetflag %d resetCause %8x channel index %d",
  2688. args[0], args[1], args[2]);
  2689. break;
  2690. case ANI_DBGID_SELF_CORR_LOW:
  2691. dbglog_printf(timestamp, vap_id, "ANI self_corr_low %d",
  2692. args[0]);
  2693. break;
  2694. case ANI_DBGID_FIRSTEP:
  2695. dbglog_printf(timestamp, vap_id,
  2696. "ANI firstep %d firstep_low %d", args[0],
  2697. args[1]);
  2698. break;
  2699. case ANI_DBGID_MRC_CCK:
  2700. dbglog_printf(timestamp, vap_id, "ANI mrc_cck %d", args[0]);
  2701. break;
  2702. case ANI_DBGID_CYCPWR:
  2703. dbglog_printf(timestamp, vap_id, "ANI cypwr_thresh %d",
  2704. args[0]);
  2705. break;
  2706. case ANI_DBGID_POLL_PERIOD:
  2707. dbglog_printf(timestamp, vap_id,
  2708. "ANI Configure poll period to %d", args[0]);
  2709. break;
  2710. case ANI_DBGID_LISTEN_PERIOD:
  2711. dbglog_printf(timestamp, vap_id,
  2712. "ANI Configure listen period to %d", args[0]);
  2713. break;
  2714. case ANI_DBGID_OFDM_LEVEL_CFG:
  2715. dbglog_printf(timestamp, vap_id,
  2716. "ANI Configure ofdm level to %d", args[0]);
  2717. break;
  2718. case ANI_DBGID_CCK_LEVEL_CFG:
  2719. dbglog_printf(timestamp, vap_id,
  2720. "ANI Configure cck level to %d", args[0]);
  2721. break;
  2722. default:
  2723. dbglog_printf(timestamp, vap_id, "ANI arg1 %d arg2 %d arg3 %d",
  2724. args[0], args[1], args[2]);
  2725. break;
  2726. }
  2727. return true;
  2728. }
  2729. static A_BOOL
  2730. dbglog_ap_powersave_print_handler(uint32_t mod_id,
  2731. uint16_t vap_id,
  2732. uint32_t dbg_id,
  2733. uint32_t timestamp,
  2734. uint16_t numargs, uint32_t *args)
  2735. {
  2736. switch (dbg_id) {
  2737. case AP_PS_DBGID_UPDATE_TIM:
  2738. if (numargs == 2) {
  2739. dbglog_printf(timestamp, vap_id,
  2740. "AP PS: TIM update AID=%u %s",
  2741. args[0], args[1] ? "set" : "clear");
  2742. }
  2743. break;
  2744. case AP_PS_DBGID_PEER_STATE_CHANGE:
  2745. if (numargs == 2) {
  2746. dbglog_printf(timestamp, vap_id,
  2747. "AP PS: AID=%u power save %s",
  2748. args[0],
  2749. args[1] ? "enabled" : "disabled");
  2750. }
  2751. break;
  2752. case AP_PS_DBGID_PSPOLL:
  2753. if (numargs == 3) {
  2754. dbglog_printf(timestamp, vap_id,
  2755. "AP PS: AID=%u pspoll response tid=%u flags=%x",
  2756. args[0], args[1], args[2]);
  2757. }
  2758. break;
  2759. case AP_PS_DBGID_PEER_CREATE:
  2760. if (numargs == 1) {
  2761. dbglog_printf(timestamp, vap_id,
  2762. "AP PS: create peer AID=%u", args[0]);
  2763. }
  2764. break;
  2765. case AP_PS_DBGID_PEER_DELETE:
  2766. if (numargs == 1) {
  2767. dbglog_printf(timestamp, vap_id,
  2768. "AP PS: delete peer AID=%u", args[0]);
  2769. }
  2770. break;
  2771. case AP_PS_DBGID_VDEV_CREATE:
  2772. dbglog_printf(timestamp, vap_id, "AP PS: vdev create");
  2773. break;
  2774. case AP_PS_DBGID_VDEV_DELETE:
  2775. dbglog_printf(timestamp, vap_id, "AP PS: vdev delete");
  2776. break;
  2777. case AP_PS_DBGID_SYNC_TIM:
  2778. if (numargs == 3) {
  2779. dbglog_printf(timestamp, vap_id,
  2780. "AP PS: AID=%u advertised=%#x buffered=%#x",
  2781. args[0], args[1], args[2]);
  2782. }
  2783. break;
  2784. case AP_PS_DBGID_NEXT_RESPONSE:
  2785. if (numargs == 4) {
  2786. dbglog_printf(timestamp, vap_id,
  2787. "AP PS: AID=%u select next response %s%s%s",
  2788. args[0], args[1] ? "(usp active) " : "",
  2789. args[2] ? "(pending usp) " : "",
  2790. args[3] ? "(pending poll response)" : "");
  2791. }
  2792. break;
  2793. case AP_PS_DBGID_START_SP:
  2794. if (numargs == 3) {
  2795. dbglog_printf(timestamp, vap_id,
  2796. "AP PS: AID=%u START SP tsf=%#x (%u)",
  2797. args[0], args[1], args[2]);
  2798. }
  2799. break;
  2800. case AP_PS_DBGID_COMPLETED_EOSP:
  2801. if (numargs == 3) {
  2802. dbglog_printf(timestamp, vap_id,
  2803. "AP PS: AID=%u EOSP eosp_tsf=%#x trigger_tsf=%#x",
  2804. args[0], args[1], args[2]);
  2805. }
  2806. break;
  2807. case AP_PS_DBGID_TRIGGER:
  2808. if (numargs == 4) {
  2809. dbglog_printf(timestamp, vap_id,
  2810. "AP PS: AID=%u TRIGGER tsf=%#x %s%s",
  2811. args[0], args[1],
  2812. args[2] ? "(usp active) " : "",
  2813. args[3] ? "(send_n in progress)" : "");
  2814. }
  2815. break;
  2816. case AP_PS_DBGID_DUPLICATE_TRIGGER:
  2817. if (numargs == 4) {
  2818. dbglog_printf(timestamp, vap_id,
  2819. "AP PS: AID=%u DUP TRIGGER tsf=%#x seq=%u ac=%u",
  2820. args[0], args[1], args[2], args[3]);
  2821. }
  2822. break;
  2823. case AP_PS_DBGID_UAPSD_RESPONSE:
  2824. if (numargs == 5) {
  2825. dbglog_printf(timestamp, vap_id,
  2826. "AP PS: AID=%u UAPSD response tid=%u, n_mpdu=%u flags=%#x max_sp=%u current_sp=%u",
  2827. args[0], args[1], args[2], args[3],
  2828. (args[4] >> 16) & 0xffff,
  2829. args[4] & 0xffff);
  2830. }
  2831. break;
  2832. case AP_PS_DBGID_SEND_COMPLETE:
  2833. if (numargs == 5) {
  2834. dbglog_printf(timestamp, vap_id,
  2835. "AP PS: AID=%u SEND_COMPLETE fc=%#x qos=%#x %s%s",
  2836. args[0], args[1], args[2],
  2837. args[3] ? "(usp active) " : "",
  2838. args[4] ? "(pending poll response)" : "");
  2839. }
  2840. break;
  2841. case AP_PS_DBGID_SEND_N_COMPLETE:
  2842. if (numargs == 3) {
  2843. dbglog_printf(timestamp, vap_id,
  2844. "AP PS: AID=%u SEND_N_COMPLETE %s%s",
  2845. args[0],
  2846. args[1] ? "(usp active) " : "",
  2847. args[2] ? "(pending poll response)" : "");
  2848. }
  2849. break;
  2850. case AP_PS_DBGID_DETECT_OUT_OF_SYNC_STA:
  2851. if (numargs == 4) {
  2852. dbglog_printf(timestamp, vap_id,
  2853. "AP PS: AID=%u detected out-of-sync now=%u tx_waiting=%u txq_depth=%u",
  2854. args[0], args[1], args[2], args[3]);
  2855. }
  2856. break;
  2857. case AP_PS_DBGID_DELIVER_CAB:
  2858. if (numargs == 4) {
  2859. dbglog_printf(timestamp, vap_id,
  2860. "AP PS: CAB %s n_mpdus=%u, flags=%x, extra=%u",
  2861. (args[0] == 17) ? "MGMT" : "DATA",
  2862. args[1], args[2], args[3]);
  2863. }
  2864. break;
  2865. default:
  2866. return false;
  2867. }
  2868. return true;
  2869. }
  2870. static A_BOOL
  2871. dbglog_wal_print_handler(uint32_t mod_id,
  2872. uint16_t vap_id,
  2873. uint32_t dbg_id,
  2874. uint32_t timestamp, uint16_t numargs, uint32_t *args)
  2875. {
  2876. static const char *const states[] = {
  2877. "ACTIVE",
  2878. "WAIT",
  2879. "WAIT_FILTER",
  2880. "PAUSE",
  2881. "PAUSE_SEND_N",
  2882. "BLOCK",
  2883. };
  2884. static const char *const events[] = {
  2885. "PAUSE",
  2886. "PAUSE_FILTER",
  2887. "UNPAUSE",
  2888. "BLOCK",
  2889. "BLOCK_FILTER",
  2890. "UNBLOCK",
  2891. "HWQ_EMPTY",
  2892. "ALLOW_N",
  2893. };
  2894. #define WAL_VDEV_TYPE(type) \
  2895. (type == 0 ? "AP" : \
  2896. (type == 1 ? "STA" : \
  2897. (type == 2 ? "IBSS" : \
  2898. (type == 2 ? "MONITOR" : \
  2899. "UNKNOWN"))))
  2900. #define WAL_SLEEP_STATE(state) \
  2901. (state == 1 ? "NETWORK SLEEP" : \
  2902. (state == 2 ? "AWAKE" : \
  2903. (state == 3 ? "SYSTEM SLEEP" : \
  2904. "UNKNOWN")))
  2905. switch (dbg_id) {
  2906. case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG:
  2907. dbglog_sm_print(timestamp, vap_id, numargs, args, "TID PAUSE",
  2908. states, QDF_ARRAY_SIZE(states), events,
  2909. QDF_ARRAY_SIZE(events));
  2910. break;
  2911. case WAL_DBGID_SET_POWER_STATE:
  2912. if (numargs == 3) {
  2913. dbglog_printf(timestamp, vap_id,
  2914. "WAL %s => %s, req_count=%u",
  2915. WAL_SLEEP_STATE(args[0]),
  2916. WAL_SLEEP_STATE(args[1]), args[2]);
  2917. }
  2918. break;
  2919. case WAL_DBGID_CHANNEL_CHANGE_FORCE_RESET:
  2920. if (numargs == 4) {
  2921. dbglog_printf(timestamp, vap_id,
  2922. "WAL channel change (force reset) freq=%u, flags=%u mode=%u rx_ok=%u tx_ok=%u",
  2923. args[0] & 0x0000ffff,
  2924. (args[0] & 0xffff0000) >> 16, args[1],
  2925. args[2], args[3]);
  2926. }
  2927. break;
  2928. case WAL_DBGID_CHANNEL_CHANGE:
  2929. if (numargs == 2) {
  2930. dbglog_printf(timestamp, vap_id,
  2931. "WAL channel change freq=%u, mode=%u flags=%u rx_ok=1 tx_ok=1",
  2932. args[0] & 0x0000ffff,
  2933. (args[0] & 0xffff0000) >> 16, args[1]);
  2934. }
  2935. break;
  2936. case WAL_DBGID_VDEV_START:
  2937. if (numargs == 1) {
  2938. dbglog_printf(timestamp, vap_id, "WAL %s vdev started",
  2939. WAL_VDEV_TYPE(args[0]));
  2940. }
  2941. break;
  2942. case WAL_DBGID_VDEV_STOP:
  2943. dbglog_printf(timestamp, vap_id, "WAL %s vdev stopped",
  2944. WAL_VDEV_TYPE(args[0]));
  2945. break;
  2946. case WAL_DBGID_VDEV_UP:
  2947. dbglog_printf(timestamp, vap_id, "WAL %s vdev up, count=%u",
  2948. WAL_VDEV_TYPE(args[0]), args[1]);
  2949. break;
  2950. case WAL_DBGID_VDEV_DOWN:
  2951. dbglog_printf(timestamp, vap_id, "WAL %s vdev down, count=%u",
  2952. WAL_VDEV_TYPE(args[0]), args[1]);
  2953. break;
  2954. case WAL_DBGID_TX_MGMT_DESCID_SEQ_TYPE_LEN:
  2955. dbglog_printf(timestamp, vap_id,
  2956. "WAL Tx Mgmt frame desc_id=0x%x, seq=0x%x, type=0x%x, len=0x%x islocal=0x%x",
  2957. args[0], args[1], args[2],
  2958. (args[3] & 0xffff0000) >> 16,
  2959. args[3] & 0x0000ffff);
  2960. break;
  2961. case WAL_DBGID_TX_MGMT_COMP_DESCID_STATUS:
  2962. dbglog_printf(timestamp, vap_id,
  2963. "WAL Tx Mgmt frame completion desc_id=0x%x, status=0x%x, islocal=0x%x",
  2964. args[0], args[1], args[2]);
  2965. break;
  2966. case WAL_DBGID_TX_DATA_MSDUID_SEQ_TYPE_LEN:
  2967. dbglog_printf(timestamp, vap_id,
  2968. "WAL Tx Data frame msdu_id=0x%x, seq=0x%x, type=0x%x, len=0x%x",
  2969. args[0], args[1], args[2], args[3]);
  2970. break;
  2971. case WAL_DBGID_TX_DATA_COMP_MSDUID_STATUS:
  2972. dbglog_printf(timestamp, vap_id,
  2973. "WAL Tx Data frame completion desc_id=0x%x, status=0x%x, seq=0x%x",
  2974. args[0], args[1], args[2]);
  2975. break;
  2976. case WAL_DBGID_RESET_PCU_CYCLE_CNT:
  2977. dbglog_printf(timestamp, vap_id,
  2978. "WAL PCU cycle counter value at reset:%x",
  2979. args[0]);
  2980. break;
  2981. case WAL_DBGID_TX_DISCARD:
  2982. dbglog_printf(timestamp, vap_id,
  2983. "WAL Tx enqueue discard msdu_id=0x%x", args[0]);
  2984. break;
  2985. case WAL_DBGID_SET_HW_CHAINMASK:
  2986. dbglog_printf(timestamp, vap_id,
  2987. "WAL_DBGID_SET_HW_CHAINMASK pdev=%d, txchain=0x%x, rxchain=0x%x",
  2988. args[0], args[1], args[2]);
  2989. break;
  2990. case WAL_DBGID_SET_HW_CHAINMASK_TXRX_STOP_FAIL:
  2991. dbglog_printf(timestamp, vap_id,
  2992. "WAL_DBGID_SET_HW_CHAINMASK_TXRX_STOP_FAIL rxstop=%d, txstop=%d",
  2993. args[0], args[1]);
  2994. break;
  2995. case WAL_DBGID_GET_HW_CHAINMASK:
  2996. dbglog_printf(timestamp, vap_id, "WAL_DBGID_GET_HW_CHAINMASK "
  2997. "txchain=0x%x, rxchain=0x%x", args[0], args[1]);
  2998. break;
  2999. case WAL_DBGID_SMPS_DISABLE:
  3000. dbglog_printf(timestamp, vap_id, "WAL_DBGID_SMPS_DISABLE");
  3001. break;
  3002. case WAL_DBGID_SMPS_ENABLE_HW_CNTRL:
  3003. dbglog_printf(timestamp, vap_id,
  3004. "WAL_DBGID_SMPS_ENABLE_HW_CNTRL low_pwr_mask=0x%x, high_pwr_mask=0x%x",
  3005. args[0], args[1]);
  3006. break;
  3007. case WAL_DBGID_SMPS_SWSEL_CHAINMASK:
  3008. dbglog_printf(timestamp, vap_id,
  3009. "WAL_DBGID_SMPS_SWSEL_CHAINMASK low_pwr=0x%x, chain_mask=0x%x",
  3010. args[0], args[1]);
  3011. break;
  3012. default:
  3013. return false;
  3014. }
  3015. return true;
  3016. }
  3017. static A_BOOL
  3018. dbglog_scan_print_handler(uint32_t mod_id,
  3019. uint16_t vap_id,
  3020. uint32_t dbg_id,
  3021. uint32_t timestamp, uint16_t numargs, uint32_t *args)
  3022. {
  3023. static const char *const states[] = {
  3024. "IDLE",
  3025. "BSSCHAN",
  3026. "WAIT_FOREIGN_CHAN",
  3027. "FOREIGN_CHANNEL",
  3028. "TERMINATING"
  3029. };
  3030. static const char *const events[] = {
  3031. "REQ",
  3032. "STOP",
  3033. "BSSCHAN",
  3034. "FOREIGN_CHAN",
  3035. "CHECK_ACTIVITY",
  3036. "REST_TIME_EXPIRE",
  3037. "DWELL_TIME_EXPIRE",
  3038. "PROBE_TIME_EXPIRE",
  3039. };
  3040. switch (dbg_id) {
  3041. case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG:
  3042. dbglog_sm_print(timestamp, vap_id, numargs, args, "SCAN",
  3043. states, QDF_ARRAY_SIZE(states), events,
  3044. QDF_ARRAY_SIZE(events));
  3045. break;
  3046. default:
  3047. return false;
  3048. }
  3049. return true;
  3050. }
  3051. static
  3052. A_BOOL dbglog_coex_print_handler(uint32_t mod_id,
  3053. uint16_t vap_id,
  3054. uint32_t dbg_id,
  3055. uint32_t timestamp,
  3056. uint16_t numargs, uint32_t *args)
  3057. {
  3058. uint8_t i;
  3059. char *dbg_id_str;
  3060. static const char *const wlan_rx_xput_status[] = {
  3061. "WLAN_XPUT_NORMAL",
  3062. "WLAN_XPUT_UNDER_THRESH",
  3063. "WLAN_XPUT_CRITICAL",
  3064. "WLAN_XPUT_RECOVERY_TIMEOUT",
  3065. };
  3066. static const char *const coex_sched_req[] = {
  3067. "SCHED_REQ_NEXT",
  3068. "SCHED_REQ_BT",
  3069. "SCHED_REQ_WLAN",
  3070. "SCHED_REQ_POSTPAUSE",
  3071. "SCHED_REQ_UNPAUSE",
  3072. };
  3073. static const char *const coex_sched_type[] = {
  3074. "SCHED_NONE",
  3075. "SCHED_WLAN",
  3076. "SCHED_BT",
  3077. "SCHED_WLAN_PAUSE",
  3078. "SCHED_WLAN_POSTPAUSE",
  3079. "SCHED_WLAN_UNPAUSE",
  3080. "COEX_SCHED_MWS",
  3081. };
  3082. static const char *const coex_trf_mgmt_type[] = {
  3083. "TRF_MGMT_FREERUN",
  3084. "TRF_MGMT_SHAPE_PM",
  3085. "TRF_MGMT_SHAPE_PSP",
  3086. "TRF_MGMT_SHAPE_S_CTS",
  3087. "TRF_MGMT_SHAPE_OCS",
  3088. "TRF_MGMT_SHAPE_FIXED_TIME",
  3089. "TRF_MGMT_SHAPE_NOA",
  3090. "TRF_MGMT_SHAPE_OCS_CRITICAL",
  3091. "TRF_MGMT_NONE",
  3092. };
  3093. static const char *const coex_system_status[] = {
  3094. "ALL_OFF",
  3095. "BTCOEX_NOT_REQD",
  3096. "WLAN_IS_IDLE",
  3097. "EXECUTE_SCHEME",
  3098. "BT_FULL_CONCURRENCY",
  3099. "WLAN_SLEEPING",
  3100. "WLAN_IS_PAUSED",
  3101. "WAIT_FOR_NEXT_ACTION",
  3102. "SOC_WAKE",
  3103. };
  3104. static const char *const wlan_rssi_type[] = {
  3105. "LOW_RSSI",
  3106. "MID_RSSI",
  3107. "HI_RSSI",
  3108. "INVALID_RSSI",
  3109. };
  3110. static const char *const coex_bt_scheme[] = {
  3111. "IDLE_CTRL",
  3112. "ACTIVE_ASYNC_CTRL",
  3113. "PASSIVE_SYNC_CTRL",
  3114. "ACTIVE_SYNC_CTRL",
  3115. "DEFAULT_CTRL",
  3116. "CONCURRENCY_CTRL",
  3117. };
  3118. static const char *const wal_peer_rx_rate_stats_event_sent[] = {
  3119. "PR_RX_EVT_SENT_NONE",
  3120. "PR_RX_EVT_SENT_LOWER",
  3121. "PR_RX_EVT_SENT_UPPER",
  3122. };
  3123. static const char *const wlan_psp_stimulus[] = {
  3124. "ENTRY",
  3125. "EXIT",
  3126. "PS_READY",
  3127. "PS_NOT_READY",
  3128. "RX_MORE_DATA_RCVD",
  3129. "RX_NO_MORE_DATA_RCVD",
  3130. "TX_DATA_COMPLT",
  3131. "TX_COMPLT",
  3132. "TIM_SET",
  3133. "REQ",
  3134. "DONE_SUCCESS",
  3135. "DONE_NO_PS_POLL_ACK",
  3136. "DONE_RESPONSE_TMO",
  3137. "DONE_DROPPED",
  3138. "DONE_FILTERED",
  3139. "WLAN_START",
  3140. "NONWLAN_START",
  3141. "NONWLAN_INTVL_UPDATE",
  3142. "NULL_TX",
  3143. "NULL_TX_COMPLT",
  3144. "BMISS_FIRST",
  3145. "NULL_TX_FAIL",
  3146. "RX_NO_MORE_DATA_DATAFRM",
  3147. };
  3148. static const char *const coex_pspoll_state[] = {
  3149. "STATE_DISABLED",
  3150. "STATE_NOT_READY",
  3151. "STATE_ENABLED",
  3152. "STATE_READY",
  3153. "STATE_TX_STATUS",
  3154. "STATE_RX_STATUS",
  3155. };
  3156. static const char *const coex_scheduler_interval[] = {
  3157. "COEX_SCHED_NONWLAN_INT",
  3158. "COEX_SCHED_WLAN_INT",
  3159. };
  3160. static const char *const wlan_weight[] = {
  3161. "BT_COEX_BASE",
  3162. "BT_COEX_LOW",
  3163. "BT_COEX_MID",
  3164. "BT_COEX_MID_NONSYNC",
  3165. "BT_COEX_HI_NONVOICE",
  3166. "BT_COEX_HI",
  3167. "BT_COEX_CRITICAL",
  3168. };
  3169. static const char *const wlan_power_state[] = {
  3170. "SLEEP",
  3171. "AWAKE",
  3172. "FULL_SLEEP",
  3173. };
  3174. static const char *const coex_psp_error_type[] = {
  3175. "DISABLED_STATE",
  3176. "VDEV_NULL",
  3177. "COEX_PSP_ENTRY",
  3178. "ZERO_INTERVAL",
  3179. "COEX_PSP_EXIT",
  3180. "READY_DISABLED",
  3181. "READY_NOT_DISABLED",
  3182. "POLL_PKT_DROPPED",
  3183. "SET_TIMER_PARAM",
  3184. };
  3185. static const char *const wlan_phymode[] = {
  3186. "A",
  3187. "G",
  3188. "B",
  3189. "G_ONLY",
  3190. "NA_HT20",
  3191. "NG_HT20",
  3192. "NA_HT40",
  3193. "NG_HT40",
  3194. "AC_VHT20",
  3195. "AC_VHT40",
  3196. "AC_VHT80",
  3197. "AC_VHT20_2G",
  3198. "AC_VHT40_2G",
  3199. "AC_VHT80_2G",
  3200. "UNKNOWN",
  3201. };
  3202. static const char *const wlan_curr_band[] = {
  3203. "2G",
  3204. "5G",
  3205. };
  3206. dbg_id_str = dbglog_get_msg(mod_id, dbg_id);
  3207. switch (dbg_id) {
  3208. case COEX_SYSTEM_UPDATE:
  3209. if (numargs == 1 && args[0] < 9) {
  3210. dbglog_printf(timestamp, vap_id, "%s: %s", dbg_id_str,
  3211. coex_system_status[args[0]]);
  3212. } else if (numargs >= 5 && args[0] < 9 && args[2] < 9) {
  3213. dbglog_printf(timestamp, vap_id,
  3214. "%s: %s, WlanSysState(0x%x), %s, NumChains(%u), AggrLimit(%u)",
  3215. dbg_id_str, coex_system_status[args[0]],
  3216. args[1], coex_trf_mgmt_type[args[2]],
  3217. args[3], args[4]);
  3218. } else {
  3219. return false;
  3220. }
  3221. break;
  3222. case COEX_SCHED_START:
  3223. if (numargs >= 5 && args[0] < 5 && args[2] < 9 && args[3] < 4
  3224. && args[4] < 4) {
  3225. if (args[1] == 0xffffffff) {
  3226. dbglog_printf(timestamp, vap_id,
  3227. "%s: %s, DETERMINE_DURATION, %s, %s, %s",
  3228. dbg_id_str,
  3229. coex_sched_req[args[0]],
  3230. coex_trf_mgmt_type[args[2]],
  3231. wlan_rx_xput_status[args[3]],
  3232. wlan_rssi_type[args[4]]);
  3233. } else {
  3234. dbglog_printf(timestamp, vap_id,
  3235. "%s: %s, IntvlDur(%u), %s, %s, %s",
  3236. dbg_id_str,
  3237. coex_sched_req[args[0]], args[1],
  3238. coex_trf_mgmt_type[args[2]],
  3239. wlan_rx_xput_status[args[3]],
  3240. wlan_rssi_type[args[4]]);
  3241. }
  3242. } else {
  3243. return false;
  3244. }
  3245. break;
  3246. case COEX_SCHED_RESULT:
  3247. if (numargs >= 5 && args[0] < 5 && args[1] < 9 && args[2] < 9) {
  3248. dbglog_printf(timestamp, vap_id,
  3249. "%s: %s, %s, %s, CoexMgrPolicy(%u), IdleOverride(%u)",
  3250. dbg_id_str, coex_sched_req[args[0]],
  3251. coex_trf_mgmt_type[args[1]],
  3252. coex_trf_mgmt_type[args[2]], args[3],
  3253. args[4]);
  3254. } else {
  3255. return false;
  3256. }
  3257. break;
  3258. case COEX_BT_SCHEME:
  3259. if (numargs >= 1 && args[0] < 6) {
  3260. dbglog_printf(timestamp, vap_id, "%s: %s", dbg_id_str,
  3261. coex_bt_scheme[args[0]]);
  3262. } else {
  3263. return false;
  3264. }
  3265. break;
  3266. case COEX_TRF_FREERUN:
  3267. if (numargs >= 5 && args[0] < 7) {
  3268. dbglog_printf(timestamp, vap_id,
  3269. "%s: %s, AllocatedBtIntvls(%u), BtIntvlCnt(%u), AllocatedWlanIntvls(%u), WlanIntvlCnt(%u)",
  3270. dbg_id_str, coex_sched_type[args[0]],
  3271. args[1], args[2], args[3], args[4]);
  3272. } else {
  3273. return false;
  3274. }
  3275. break;
  3276. case COEX_TRF_SHAPE_PM: /* used by ocs now */
  3277. if (numargs >= 3) {
  3278. dbglog_printf(timestamp, vap_id,
  3279. "%s: IntvlLength(%u), BtDuration(%u), WlanDuration(%u)",
  3280. dbg_id_str, args[0], args[1], args[2]);
  3281. } else {
  3282. return false;
  3283. }
  3284. break;
  3285. case COEX_SYSTEM_MONITOR:
  3286. if (numargs >= 5 && args[1] < 4 && args[4] < 4) {
  3287. dbglog_printf(timestamp, vap_id,
  3288. "%s: WlanRxCritical(%u), %s, MinDirectRxRate(%u), MonitorActiveNum(%u), %s",
  3289. dbg_id_str, args[0],
  3290. wlan_rx_xput_status[args[1]], args[2],
  3291. args[3], wlan_rssi_type[args[4]]);
  3292. } else {
  3293. return false;
  3294. }
  3295. break;
  3296. case COEX_RX_RATE:
  3297. if (numargs >= 5 && args[4] < 3) {
  3298. dbglog_printf(timestamp, vap_id,
  3299. "%s: NumUnderThreshPeers(%u), MinDirectRate(%u), LastRateSample(%u), DeltaT(%u), %s",
  3300. dbg_id_str, args[0], args[1], args[2],
  3301. args[3],
  3302. wal_peer_rx_rate_stats_event_sent[args
  3303. [4]]);
  3304. } else {
  3305. return false;
  3306. }
  3307. break;
  3308. case COEX_WLAN_INTERVAL_START:
  3309. if (numargs >= 5) {
  3310. dbglog_printf(timestamp, vap_id,
  3311. "%s: WlanIntvlCnt(%u), Duration(%u), Weight(%u), BaseIdleOverride(%u), WeightMat[0](0x%x)",
  3312. dbg_id_str, args[0], args[1], args[2],
  3313. args[3], args[4]);
  3314. } else {
  3315. return false;
  3316. }
  3317. break;
  3318. case COEX_WLAN_POSTPAUSE_INTERVAL_START:
  3319. if (numargs >= 4) {
  3320. dbglog_printf(timestamp, vap_id,
  3321. "%s: WlanPostPauseIntvlCnt(%u), XputMonitorActiveNum(%u), Duration(%u), Weight(%u)",
  3322. dbg_id_str, args[0], args[1], args[2],
  3323. args[3]);
  3324. } else {
  3325. return false;
  3326. }
  3327. break;
  3328. case COEX_BT_INTERVAL_START:
  3329. if (numargs >= 5) {
  3330. dbglog_printf(timestamp, vap_id,
  3331. "%s: BtIntvlCnt(%u), Duration(%u), Weight(%u), BaseIdleOverride(%u), WeightMat[0](0x%x), ",
  3332. dbg_id_str, args[0], args[1], args[2],
  3333. args[3], args[4]);
  3334. } else {
  3335. return false;
  3336. }
  3337. break;
  3338. case COEX_POWER_CHANGE:
  3339. if (numargs >= 3 && args[1] < 3 && args[2] < 3) {
  3340. dbglog_printf(timestamp, vap_id,
  3341. "%s: Event(0x%x) %s->%s", dbg_id_str,
  3342. args[0], wlan_power_state[args[1]],
  3343. wlan_power_state[args[2]]);
  3344. } else {
  3345. return false;
  3346. }
  3347. break;
  3348. case COEX_CHANNEL_CHANGE:
  3349. if (numargs >= 5 && args[3] < 2 && args[4] < 15) {
  3350. dbglog_printf(timestamp, vap_id,
  3351. "%s: %uMhz->%uMhz, WlanSysState(0x%x), CurrBand(%s), PhyMode(%s)",
  3352. dbg_id_str, args[0], args[1], args[2],
  3353. wlan_curr_band[args[3]],
  3354. wlan_phymode[args[4]]);
  3355. } else {
  3356. return false;
  3357. }
  3358. break;
  3359. case COEX_PSP_MGR_ENTER:
  3360. if (numargs >= 5 && args[0] < 23 &&
  3361. args[1] < 6 && args[3] < 2) {
  3362. dbglog_printf(timestamp, vap_id,
  3363. "%s: %s, %s, PsPollAvg(%u), %s, CurrT(%u)",
  3364. dbg_id_str, wlan_psp_stimulus[args[0]],
  3365. coex_pspoll_state[args[1]], args[2],
  3366. coex_scheduler_interval[args[3]],
  3367. args[4]);
  3368. } else {
  3369. return false;
  3370. }
  3371. break;
  3372. /* Translate following into decimal */
  3373. case COEX_SINGLECHAIN_DBG_1:
  3374. case COEX_SINGLECHAIN_DBG_2:
  3375. case COEX_SINGLECHAIN_DBG_3:
  3376. case COEX_MULTICHAIN_DBG_1:
  3377. case COEX_MULTICHAIN_DBG_2:
  3378. case COEX_MULTICHAIN_DBG_3:
  3379. case BTCOEX_DBG_MCI_1:
  3380. case BTCOEX_DBG_MCI_2:
  3381. case BTCOEX_DBG_MCI_3:
  3382. case BTCOEX_DBG_MCI_4:
  3383. case BTCOEX_DBG_MCI_5:
  3384. case BTCOEX_DBG_MCI_6:
  3385. case BTCOEX_DBG_MCI_7:
  3386. case BTCOEX_DBG_MCI_8:
  3387. case BTCOEX_DBG_MCI_9:
  3388. case BTCOEX_DBG_MCI_10:
  3389. if (numargs > 0) {
  3390. dbglog_printf_no_line_break(timestamp, vap_id, "%s: %u",
  3391. dbg_id_str, args[0]);
  3392. for (i = 1; i < numargs; i++)
  3393. dbglog_printf_no_line_break(timestamp, vap_id,
  3394. "%u", args[i]);
  3395. dbglog_printf_no_line_break(timestamp, vap_id, "\n");
  3396. } else {
  3397. return false;
  3398. }
  3399. break;
  3400. case COEX_LinkID:
  3401. if (numargs >= 4) {
  3402. if (args[0]) { /* Add profile */
  3403. dbglog_printf(timestamp, vap_id,
  3404. "%s Alloc: LocalID(%u), RemoteID(%u), MinFreeLocalID(%u)",
  3405. dbg_id_str, args[1], args[2],
  3406. args[3]);
  3407. } else { /* Remove profile */
  3408. dbglog_printf(timestamp, vap_id,
  3409. "%s Dealloc: LocalID(%u), RemoteID(%u), MinFreeLocalID(%u)",
  3410. dbg_id_str, args[1], args[2],
  3411. args[3]);
  3412. }
  3413. } else {
  3414. return false;
  3415. }
  3416. break;
  3417. case COEX_PSP_MGR_RESULT:
  3418. if (numargs >= 5 && args[0] < 6) {
  3419. dbglog_printf(timestamp, vap_id,
  3420. "%s: %s, PsPollAvg(%u), EstimationOverrun(%u), EstimationUnderun(%u), NotReadyErr(%u)",
  3421. dbg_id_str, coex_pspoll_state[args[0]],
  3422. args[1], args[2], args[3], args[4]);
  3423. } else {
  3424. return false;
  3425. }
  3426. break;
  3427. case COEX_TRF_SHAPE_PSP:
  3428. if (numargs >= 5 && args[0] < 7 && args[1] < 7) {
  3429. dbglog_printf(timestamp, vap_id,
  3430. "%s: %s, %s, Dur(%u), BtTriggerRecvd(%u), PspWlanCritical(%u)",
  3431. dbg_id_str, coex_sched_type[args[0]],
  3432. wlan_weight[args[1]], args[2], args[3],
  3433. args[4]);
  3434. } else {
  3435. return false;
  3436. }
  3437. break;
  3438. case COEX_PSP_SPEC_POLL:
  3439. if (numargs >= 5) {
  3440. dbglog_printf(timestamp, vap_id,
  3441. "%s: PsPollSpecEna(%u), Count(%u), NextTS(%u), AllowSpecPsPollTx(%u), Intvl(%u)",
  3442. dbg_id_str, args[0], args[1], args[2],
  3443. args[3], args[4]);
  3444. } else {
  3445. return false;
  3446. }
  3447. break;
  3448. case COEX_PSP_READY_STATE:
  3449. if (numargs >= 5) {
  3450. dbglog_printf(timestamp, vap_id,
  3451. "%s: T2NonWlan(%u), CoexSchedulerEndTS(%u), MoreData(%u), PSPRespExpectedTS(%u), NonWlanIdleT(%u)",
  3452. dbg_id_str, args[0], args[1], args[2],
  3453. args[3], args[4]);
  3454. } else {
  3455. return false;
  3456. }
  3457. break;
  3458. case COEX_PSP_NONWLAN_INTERVAL:
  3459. if (numargs >= 4) {
  3460. dbglog_printf(timestamp, vap_id,
  3461. "%s: NonWlanBaseIntvl(%u), NonWlanIdleT(%u), PSPSpecIntvl(%u), ApRespTimeout(%u)",
  3462. dbg_id_str, args[0], args[1], args[2],
  3463. args[3]);
  3464. } else {
  3465. return false;
  3466. }
  3467. break;
  3468. case COEX_PSP_ERROR:
  3469. if (numargs >= 1 && args[0] < 9) {
  3470. dbglog_printf_no_line_break(timestamp, vap_id, "%s: %s",
  3471. dbg_id_str,
  3472. coex_psp_error_type[args
  3473. [0]]);
  3474. for (i = 1; i < numargs; i++) {
  3475. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  3476. (", %u", args[i]));
  3477. }
  3478. AR_DEBUG_PRINTF(ATH_DEBUG_INFO, ("\n"));
  3479. } else {
  3480. return false;
  3481. }
  3482. break;
  3483. case COEX_PSP_STAT_1:
  3484. if (numargs >= 5) {
  3485. dbglog_printf(timestamp, vap_id,
  3486. "%s: ApResp0(%u), ApResp1(%u), ApResp2(%u), ApResp3(%u), ApResp4(%u)",
  3487. dbg_id_str, args[0], args[1], args[2],
  3488. args[3], args[4]);
  3489. } else {
  3490. return false;
  3491. }
  3492. break;
  3493. case COEX_PSP_STAT_2:
  3494. if (numargs >= 5) {
  3495. dbglog_printf(timestamp, vap_id,
  3496. "%s: DataPt(%u), Max(%u), NextApRespIndex(%u), NumOfValidDataPts(%u), PsPollAvg(%u)",
  3497. dbg_id_str, args[0], args[1], args[2],
  3498. args[3], args[4]);
  3499. } else {
  3500. return false;
  3501. }
  3502. break;
  3503. case COEX_PSP_RX_STATUS_STATE_1:
  3504. if (numargs >= 5) {
  3505. if (args[2]) {
  3506. dbglog_printf(timestamp, vap_id,
  3507. "%s: RsExpectedTS(%u), RespActualTS(%u), Overrun, RsOverrunT(%u), RsRxDur(%u)",
  3508. dbg_id_str, args[0], args[1],
  3509. args[3], args[4]);
  3510. } else {
  3511. dbglog_printf(timestamp, vap_id,
  3512. "%s: RsExpectedTS(%u), RespActualTS(%u), Underrun, RsUnderrunT(%u), RsRxDur(%u)",
  3513. dbg_id_str, args[0], args[1],
  3514. args[3], args[4]);
  3515. }
  3516. } else {
  3517. return false;
  3518. }
  3519. break;
  3520. default:
  3521. return false;
  3522. }
  3523. return true;
  3524. }
  3525. static A_BOOL
  3526. dbglog_beacon_print_handler(uint32_t mod_id,
  3527. uint16_t vap_id,
  3528. uint32_t dbg_id,
  3529. uint32_t timestamp,
  3530. uint16_t numargs, uint32_t *args)
  3531. {
  3532. static const char *const states[] = {
  3533. "INIT",
  3534. "ADJUST_START",
  3535. "ADJUSTING",
  3536. "ADJUST_HOLD",
  3537. };
  3538. static const char *const events[] = {
  3539. "ADJUST_START",
  3540. "ADJUST_RESTART",
  3541. "ADJUST_STOP",
  3542. "ADJUST_PAUSE",
  3543. "ADJUST_UNPAUSE",
  3544. "ADJUST_INC_SLOP_STEP",
  3545. "ADJUST_HOLD",
  3546. "ADJUST_HOLD_TIME_OUT",
  3547. };
  3548. switch (dbg_id) {
  3549. case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG:
  3550. dbglog_sm_print(timestamp, vap_id, numargs, args, "EARLY_RX",
  3551. states, QDF_ARRAY_SIZE(states), events,
  3552. QDF_ARRAY_SIZE(events));
  3553. break;
  3554. case BEACON_EVENT_EARLY_RX_BMISS_STATUS:
  3555. if (numargs == 3) {
  3556. dbglog_printf(timestamp, vap_id,
  3557. "early_rx bmiss status:rcv=%d total=%d miss=%d",
  3558. args[0], args[1], args[2]);
  3559. }
  3560. break;
  3561. case BEACON_EVENT_EARLY_RX_SLEEP_SLOP:
  3562. if (numargs == 1) {
  3563. dbglog_printf(timestamp, vap_id,
  3564. "early_rx update sleep_slop:%d", args[0]);
  3565. }
  3566. break;
  3567. case BEACON_EVENT_EARLY_RX_CONT_BMISS_TIMEOUT:
  3568. if (numargs == 1) {
  3569. dbglog_printf(timestamp, vap_id,
  3570. "early_rx cont bmiss timeout,update sleep_slop:%d",
  3571. args[0]);
  3572. }
  3573. break;
  3574. case BEACON_EVENT_EARLY_RX_PAUSE_SKIP_BCN_NUM:
  3575. if (numargs == 1) {
  3576. dbglog_printf(timestamp, vap_id,
  3577. "early_rx skip bcn num:%d", args[0]);
  3578. }
  3579. break;
  3580. case BEACON_EVENT_EARLY_RX_CLK_DRIFT:
  3581. if (numargs == 1) {
  3582. dbglog_printf(timestamp, vap_id,
  3583. "early_rx clk drift:%d", args[0]);
  3584. }
  3585. break;
  3586. case BEACON_EVENT_EARLY_RX_AP_DRIFT:
  3587. if (numargs == 1) {
  3588. dbglog_printf(timestamp, vap_id,
  3589. "early_rx ap drift:%d", args[0]);
  3590. }
  3591. break;
  3592. case BEACON_EVENT_EARLY_RX_BCN_TYPE:
  3593. if (numargs == 1) {
  3594. dbglog_printf(timestamp, vap_id,
  3595. "early_rx bcn type:%d", args[0]);
  3596. }
  3597. break;
  3598. default:
  3599. return false;
  3600. }
  3601. return true;
  3602. }
  3603. static A_BOOL
  3604. dbglog_data_txrx_print_handler(uint32_t mod_id,
  3605. uint16_t vap_id,
  3606. uint32_t dbg_id,
  3607. uint32_t timestamp,
  3608. uint16_t numargs, uint32_t *args)
  3609. {
  3610. switch (dbg_id) {
  3611. case DATA_TXRX_DBGID_RX_DATA_SEQ_LEN_INFO:
  3612. dbglog_printf(timestamp, vap_id,
  3613. "DATA RX seq=0x%x, len=0x%x, stored=0x%x, duperr=0x%x",
  3614. args[0], args[1], (args[2] & 0xffff0000) >> 16,
  3615. args[2] & 0x0000ffff);
  3616. break;
  3617. default:
  3618. return false;
  3619. }
  3620. return true;
  3621. }
  3622. static
  3623. A_BOOL dbglog_smps_print_handler(uint32_t mod_id,
  3624. uint16_t vap_id,
  3625. uint32_t dbg_id,
  3626. uint32_t timestamp,
  3627. uint16_t numargs, uint32_t *args)
  3628. {
  3629. static const char *const states[] = {
  3630. "S_INACTIVE",
  3631. "S_STATIC",
  3632. "S_DYNAMIC",
  3633. "S_STALLED",
  3634. "S_INACTIVE_WAIT",
  3635. "S_STATIC_WAIT",
  3636. "S_DYNAMIC_WAIT",
  3637. };
  3638. static const char *const events[] = {
  3639. "E_STOP",
  3640. "E_STOP_COMPL",
  3641. "E_START",
  3642. "E_STATIC",
  3643. "E_STATIC_COMPL",
  3644. "E_DYNAMIC",
  3645. "E_DYNAMIC_COMPL",
  3646. "E_STALL",
  3647. "E_RSSI_ABOVE_THRESH",
  3648. "E_RSSI_BELOW_THRESH",
  3649. "E_FORCED_NONE",
  3650. };
  3651. switch (dbg_id) {
  3652. case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG:
  3653. dbglog_sm_print(timestamp, vap_id, numargs, args, "STA_SMPS SM",
  3654. states, QDF_ARRAY_SIZE(states), events,
  3655. QDF_ARRAY_SIZE(events));
  3656. break;
  3657. case STA_SMPS_DBGID_CREATE_PDEV_INSTANCE:
  3658. dbglog_printf(timestamp, vap_id, "STA_SMPS Create PDEV ctx %#x",
  3659. args[0]);
  3660. break;
  3661. case STA_SMPS_DBGID_CREATE_VIRTUAL_CHAN_INSTANCE:
  3662. dbglog_printf(timestamp, vap_id,
  3663. "STA_SMPS Create Virtual Chan ctx %#x", args[0]);
  3664. break;
  3665. case STA_SMPS_DBGID_DELETE_VIRTUAL_CHAN_INSTANCE:
  3666. dbglog_printf(timestamp, vap_id,
  3667. "STA_SMPS Delete Virtual Chan ctx %#x", args[0]);
  3668. break;
  3669. case STA_SMPS_DBGID_CREATE_STA_INSTANCE:
  3670. dbglog_printf(timestamp, vap_id, "STA_SMPS Create STA ctx %#x",
  3671. args[0]);
  3672. break;
  3673. case STA_SMPS_DBGID_DELETE_STA_INSTANCE:
  3674. dbglog_printf(timestamp, vap_id, "STA_SMPS Delete STA ctx %#x",
  3675. args[0]);
  3676. break;
  3677. case STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_START:
  3678. break;
  3679. case STA_SMPS_DBGID_VIRTUAL_CHAN_SMPS_STOP:
  3680. break;
  3681. case STA_SMPS_DBGID_SEND_SMPS_ACTION_FRAME:
  3682. dbglog_printf(timestamp, vap_id,
  3683. "STA_SMPS STA %#x Signal SMPS mode as %s; cb_flags %#x",
  3684. args[0],
  3685. (args[1] ==
  3686. 0 ? "DISABLED" : (args[1] ==
  3687. 0x1 ? "STATIC" : (args[1] ==
  3688. 0x3 ?
  3689. "DYNAMIC" :
  3690. "UNKNOWN"))),
  3691. args[2]);
  3692. break;
  3693. case STA_SMPS_DBGID_DTIM_EBT_EVENT_CHMASK_UPDATE:
  3694. dbglog_printf(timestamp, vap_id,
  3695. "STA_SMPS_DBGID_DTIM_EBT_EVENT_CHMASK_UPDATE");
  3696. break;
  3697. case STA_SMPS_DBGID_DTIM_CHMASK_UPDATE:
  3698. dbglog_printf(timestamp, vap_id,
  3699. "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE tx_mask %#x rx_mask %#x arb_dtim_mask %#x",
  3700. args[0], args[1], args[2]);
  3701. break;
  3702. case STA_SMPS_DBGID_DTIM_BEACON_EVENT_CHMASK_UPDATE:
  3703. dbglog_printf(timestamp, vap_id,
  3704. "STA_SMPS_DBGID_DTIM_BEACON_EVENT_CHMASK_UPDATE");
  3705. break;
  3706. case STA_SMPS_DBGID_DTIM_POWER_STATE_CHANGE:
  3707. dbglog_printf(timestamp, vap_id,
  3708. "STA_SMPS_DBGID_DTIM_POWER_STATE_CHANGE cur_pwr_state %s new_pwr_state %s",
  3709. (args[0] ==
  3710. 0x1 ? "SLEEP" : (args[0] ==
  3711. 0x2 ? "AWAKE" : (args[0] ==
  3712. 0x3 ?
  3713. "FULL_SLEEP" :
  3714. "UNKNOWN"))),
  3715. (args[1] ==
  3716. 0x1 ? "SLEEP" : (args[1] ==
  3717. 0x2 ? "AWAKE" : (args[1] ==
  3718. 0x3 ?
  3719. "FULL_SLEEP" :
  3720. "UNKNOWN"))));
  3721. break;
  3722. case STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_SLEEP:
  3723. dbglog_printf(timestamp, vap_id,
  3724. "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_SLEEP tx_mask %#x rx_mask %#x orig_rx %#x dtim_rx %#x",
  3725. args[0], args[1], args[2], args[3]);
  3726. break;
  3727. case STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_AWAKE:
  3728. dbglog_printf(timestamp, vap_id,
  3729. "STA_SMPS_DBGID_DTIM_CHMASK_UPDATE_AWAKE tx_mask %#x rx_mask %#x orig_rx %#x",
  3730. args[0], args[1], args[2]);
  3731. break;
  3732. default:
  3733. dbglog_printf(timestamp, vap_id, "STA_SMPS: UNKNOWN DBGID!");
  3734. return false;
  3735. }
  3736. return true;
  3737. }
  3738. static A_BOOL
  3739. dbglog_p2p_print_handler(uint32_t mod_id,
  3740. uint16_t vap_id,
  3741. uint32_t dbg_id,
  3742. uint32_t timestamp, uint16_t numargs, uint32_t *args)
  3743. {
  3744. static const char *const states[] = {
  3745. "ACTIVE",
  3746. "DOZE",
  3747. "TX_BCN",
  3748. "CTWIN",
  3749. "OPPPS",
  3750. };
  3751. static const char *const events[] = {
  3752. "ONESHOT_NOA",
  3753. "CTWINDOW",
  3754. "PERIODIC_NOA",
  3755. "IDLE",
  3756. "NOA_CHANGED",
  3757. "TBTT",
  3758. "TX_BCN_CMP",
  3759. "OPPPS_OK",
  3760. "OPPPS_CHANGED",
  3761. };
  3762. switch (dbg_id) {
  3763. case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG:
  3764. dbglog_sm_print(timestamp, vap_id, numargs, args, "P2P GO PS",
  3765. states, QDF_ARRAY_SIZE(states), events,
  3766. QDF_ARRAY_SIZE(events));
  3767. break;
  3768. default:
  3769. return false;
  3770. }
  3771. return true;
  3772. }
  3773. static A_BOOL
  3774. dbglog_pcielp_print_handler(uint32_t mod_id,
  3775. uint16_t vap_id,
  3776. uint32_t dbg_id,
  3777. uint32_t timestamp,
  3778. uint16_t numargs, uint32_t *args)
  3779. {
  3780. static const char *const states[] = {
  3781. "STOP",
  3782. "TX",
  3783. "RX",
  3784. "SLEEP",
  3785. "SUSPEND",
  3786. };
  3787. static const char *const events[] = {
  3788. "VDEV_UP",
  3789. "ALL_VDEV_DOWN",
  3790. "AWAKE",
  3791. "SLEEP",
  3792. "TX_ACTIVITY",
  3793. "TX_INACTIVITY",
  3794. "TX_AC_CHANGE",
  3795. "SUSPEND",
  3796. "RESUME",
  3797. };
  3798. switch (dbg_id) {
  3799. case DBGLOG_DBGID_SM_FRAMEWORK_PROXY_DBGLOG_MSG:
  3800. dbglog_sm_print(timestamp, vap_id, numargs, args, "PCIELP",
  3801. states, QDF_ARRAY_SIZE(states), events,
  3802. QDF_ARRAY_SIZE(events));
  3803. break;
  3804. default:
  3805. return false;
  3806. }
  3807. return true;
  3808. }
  3809. #ifdef WLAN_OPEN_SOURCE
  3810. static int dbglog_block_open(struct inode *inode, struct file *file)
  3811. {
  3812. struct fwdebug *fwlog = inode->i_private;
  3813. if (fwlog->fwlog_open)
  3814. return -EBUSY;
  3815. fwlog->fwlog_open = true;
  3816. file->private_data = inode->i_private;
  3817. return 0;
  3818. }
  3819. static int dbglog_block_release(struct inode *inode, struct file *file)
  3820. {
  3821. struct fwdebug *fwlog = inode->i_private;
  3822. fwlog->fwlog_open = false;
  3823. return 0;
  3824. }
  3825. static ssize_t dbglog_block_read(struct file *file,
  3826. char __user *user_buf,
  3827. size_t count, loff_t *ppos)
  3828. {
  3829. struct fwdebug *fwlog = file->private_data;
  3830. struct sk_buff *skb;
  3831. ssize_t ret_cnt;
  3832. size_t len = 0, not_copied;
  3833. char *buf;
  3834. int ret;
  3835. buf = vzalloc(count);
  3836. if (!buf)
  3837. return -ENOMEM;
  3838. spin_lock_bh(&fwlog->fwlog_queue.lock);
  3839. if (skb_queue_len(&fwlog->fwlog_queue) == 0) {
  3840. /* we must init under queue lock */
  3841. init_completion(&fwlog->fwlog_completion);
  3842. spin_unlock_bh(&fwlog->fwlog_queue.lock);
  3843. ret =
  3844. wait_for_completion_interruptible(&fwlog->fwlog_completion);
  3845. if (ret == -ERESTARTSYS) {
  3846. vfree(buf);
  3847. return ret;
  3848. }
  3849. spin_lock_bh(&fwlog->fwlog_queue.lock);
  3850. }
  3851. while ((skb = __skb_dequeue(&fwlog->fwlog_queue))) {
  3852. if (skb->len > count - len) {
  3853. /* not enough space, put skb back and leave */
  3854. __skb_queue_head(&fwlog->fwlog_queue, skb);
  3855. break;
  3856. }
  3857. memcpy(buf + len, skb->data, skb->len);
  3858. len += skb->len;
  3859. kfree_skb(skb);
  3860. }
  3861. spin_unlock_bh(&fwlog->fwlog_queue.lock);
  3862. /* FIXME: what to do if len == 0? */
  3863. not_copied = copy_to_user(user_buf, buf, len);
  3864. if (not_copied != 0) {
  3865. ret_cnt = -EFAULT;
  3866. goto out;
  3867. }
  3868. *ppos = *ppos + len;
  3869. ret_cnt = len;
  3870. out:
  3871. vfree(buf);
  3872. return ret_cnt;
  3873. }
  3874. static const struct file_operations fops_dbglog_block = {
  3875. .open = dbglog_block_open,
  3876. .release = dbglog_block_release,
  3877. .read = dbglog_block_read,
  3878. .owner = THIS_MODULE,
  3879. .llseek = default_llseek,
  3880. };
  3881. #ifdef WLAN_DEBUGFS
  3882. static void dbglog_debugfs_init(wmi_unified_t wmi_handle)
  3883. {
  3884. wmi_handle->debugfs_phy = debugfs_create_dir(CLD_DEBUGFS_DIR, NULL);
  3885. if (!wmi_handle->debugfs_phy) {
  3886. qdf_print("Failed to create WMI debug fs");
  3887. return;
  3888. }
  3889. debugfs_create_file(DEBUGFS_BLOCK_NAME, 0400,
  3890. wmi_handle->debugfs_phy, &wmi_handle->dbglog,
  3891. &fops_dbglog_block);
  3892. return;
  3893. }
  3894. static void dbglog_debugfs_remove(wmi_unified_t wmi_handle)
  3895. {
  3896. debugfs_remove_recursive(wmi_handle->debugfs_phy);
  3897. }
  3898. #else
  3899. static void dbglog_debugfs_init(wmi_unified_t wmi_handle)
  3900. {
  3901. }
  3902. static void dbglog_debugfs_remove(wmi_unified_t wmi_handle)
  3903. {
  3904. }
  3905. #endif /* End of WLAN_DEBUGFS */
  3906. #endif /* WLAN_OPEN_SOURCE */
  3907. /**
  3908. * cnss_diag_handle_crash_inject() - API to handle crash inject command
  3909. * @slot: pointer to struct dbglog_slot
  3910. *
  3911. * API to handle CNSS diag crash inject command
  3912. *
  3913. * Return: None
  3914. */
  3915. static void cnss_diag_handle_crash_inject(struct dbglog_slot *slot)
  3916. {
  3917. switch (slot->diag_type) {
  3918. case DIAG_TYPE_CRASH_INJECT:
  3919. if (slot->length != 2) {
  3920. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  3921. ("crash_inject cmd error\n"));
  3922. return;
  3923. }
  3924. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  3925. ("%s : DIAG_TYPE_CRASH_INJECT: %d %d\n",
  3926. __func__, slot->payload[0],
  3927. slot->payload[1]));
  3928. if (!tgt_assert_enable) {
  3929. AR_DEBUG_PRINTF(ATH_DEBUG_INFO,
  3930. ("%s: tgt Assert Disabled\n",
  3931. __func__));
  3932. return;
  3933. }
  3934. wma_cli_set2_command(0, (int)GEN_PARAM_CRASH_INJECT,
  3935. slot->payload[0],
  3936. slot->payload[1], GEN_CMD);
  3937. break;
  3938. default:
  3939. AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("Unknown cmd[%d] error\n",
  3940. slot->diag_type));
  3941. break;
  3942. }
  3943. }
  3944. #ifdef CNSS_GENL
  3945. /**
  3946. * cnss_diag_cmd_handler() - API to handle CNSS diag command
  3947. * @data: Data received
  3948. * @data_len: length of the data received
  3949. * @ctx: Pointer to stored context
  3950. * @pid: Process ID
  3951. *
  3952. * API to handle CNSS diag commands from user space
  3953. *
  3954. * Return: None
  3955. */
  3956. static void cnss_diag_cmd_handler(const void *data, int data_len,
  3957. void *ctx, int pid)
  3958. {
  3959. struct dbglog_slot *slot = NULL;
  3960. struct nlattr *tb[QCA_WLAN_VENDOR_ATTR_MAX + 1];
  3961. int len;
  3962. /*
  3963. * audit note: it is ok to pass a NULL policy here since a
  3964. * length check on the data is added later already
  3965. */
  3966. if (wlan_cfg80211_nla_parse(tb, CLD80211_ATTR_MAX,
  3967. data, data_len, NULL)) {
  3968. AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("%s: nla parse fails\n",
  3969. __func__));
  3970. return;
  3971. }
  3972. if (!tb[CLD80211_ATTR_DATA]) {
  3973. AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("%s: attr VENDOR_DATA fails\n",
  3974. __func__));
  3975. return;
  3976. }
  3977. len = nla_len(tb[CLD80211_ATTR_DATA]);
  3978. if (len < sizeof(struct dbglog_slot)) {
  3979. AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("%s: attr length less than sizeof(struct dbglog_slot)\n",
  3980. __func__));
  3981. return;
  3982. }
  3983. slot = (struct dbglog_slot *)nla_data(tb[CLD80211_ATTR_DATA]);
  3984. if (len != (sizeof(struct dbglog_slot) + (uint64_t) slot->length)) {
  3985. AR_DEBUG_PRINTF(ATH_DEBUG_ERR, ("%s: attr length check fails\n",
  3986. __func__));
  3987. return;
  3988. }
  3989. cnss_diag_handle_crash_inject(slot);
  3990. return;
  3991. }
  3992. int cnss_diag_activate_service(void)
  3993. {
  3994. register_cld_cmd_cb(WLAN_NL_MSG_CNSS_DIAG, cnss_diag_cmd_handler, NULL);
  3995. return 0;
  3996. }
  3997. int cnss_diag_deactivate_service(void)
  3998. {
  3999. deregister_cld_cmd_cb(WLAN_NL_MSG_CNSS_DIAG);
  4000. return 0;
  4001. }
  4002. #else
  4003. /**
  4004. * brief cnss_diag_msg_callback() - Call back invoked by netlink service
  4005. *
  4006. * This function gets invoked by netlink service when a message is recevied
  4007. * from the cnss-diag application in user-space.
  4008. *
  4009. * param -
  4010. * - skb - skb with netlink message
  4011. *
  4012. * return - 0 for success, non zero for failure
  4013. */
  4014. static int cnss_diag_msg_callback(struct sk_buff *skb)
  4015. {
  4016. struct nlmsghdr *nlh;
  4017. uint8_t *msg;
  4018. nlh = (struct nlmsghdr *)skb->data;
  4019. if (!nlh) {
  4020. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  4021. ("%s: Netlink header null\n", __func__));
  4022. return A_ERROR;
  4023. }
  4024. msg = NLMSG_DATA(nlh);
  4025. cnss_diag_handle_crash_inject((struct dbglog_slot *)msg);
  4026. return 0;
  4027. }
  4028. int cnss_diag_activate_service(void)
  4029. {
  4030. int ret;
  4031. /* Register the msg handler for msgs addressed to WLAN_NL_MSG_OEM */
  4032. ret = nl_srv_register(WLAN_NL_MSG_CNSS_DIAG, cnss_diag_msg_callback);
  4033. if (ret)
  4034. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  4035. ("CNSS-DIAG Registration failed"));
  4036. return ret;
  4037. }
  4038. int cnss_diag_deactivate_service(void)
  4039. {
  4040. int ret;
  4041. /*
  4042. * Deregister the msg handler for msgs addressed to
  4043. * WLAN_NL_MSG_CNSS_DIAG
  4044. */
  4045. ret = nl_srv_unregister(WLAN_NL_MSG_CNSS_DIAG, cnss_diag_msg_callback);
  4046. if (ret)
  4047. AR_DEBUG_PRINTF(ATH_DEBUG_ERR,
  4048. ("CNSS-DIAG Registration failed"));
  4049. return ret;
  4050. }
  4051. #endif
  4052. static A_BOOL
  4053. dbglog_wow_print_handler(uint32_t mod_id,
  4054. uint16_t vap_id,
  4055. uint32_t dbg_id,
  4056. uint32_t timestamp, uint16_t numargs, uint32_t *args)
  4057. {
  4058. switch (dbg_id) {
  4059. case WOW_NS_OFLD_ENABLE:
  4060. if (4 == numargs) {
  4061. dbglog_printf(timestamp, vap_id,
  4062. "Enable NS offload, for sender %02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x",
  4063. *(uint8_t *) &args[0],
  4064. *((uint8_t *) &args[0] + 1),
  4065. *((uint8_t *) &args[0] + 2),
  4066. *((uint8_t *) &args[0] + 3),
  4067. *(uint8_t *) &args[1],
  4068. *((uint8_t *) &args[1] + 1),
  4069. *((uint8_t *) &args[1] + 2),
  4070. *((uint8_t *) &args[1] + 3),
  4071. *(uint8_t *) &args[2],
  4072. *((uint8_t *) &args[2] + 1),
  4073. *((uint8_t *) &args[2] + 2),
  4074. *((uint8_t *) &args[2] + 3),
  4075. *(uint8_t *) &args[3],
  4076. *((uint8_t *) &args[3] + 1),
  4077. *((uint8_t *) &args[3] + 2),
  4078. *((uint8_t *) &args[3] + 3));
  4079. } else {
  4080. return false;
  4081. }
  4082. break;
  4083. case WOW_ARP_OFLD_ENABLE:
  4084. if (1 == numargs) {
  4085. dbglog_printf(timestamp, vap_id,
  4086. "Enable ARP offload, for sender %d.%d.%d.%d",
  4087. *(uint8_t *) args,
  4088. *((uint8_t *) args + 1),
  4089. *((uint8_t *) args + 2),
  4090. *((uint8_t *) args + 3));
  4091. } else {
  4092. return false;
  4093. }
  4094. break;
  4095. case WOW_NS_ARP_OFLD_DISABLE:
  4096. if (0 == numargs) {
  4097. dbglog_printf(timestamp, vap_id,
  4098. "disable NS/ARP offload");
  4099. } else {
  4100. return false;
  4101. }
  4102. break;
  4103. case WOW_NS_RECEIVED:
  4104. if (4 == numargs) {
  4105. dbglog_printf(timestamp, vap_id,
  4106. "NS requested from %02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x",
  4107. *(uint8_t *) &args[0],
  4108. *((uint8_t *) &args[0] + 1),
  4109. *((uint8_t *) &args[0] + 2),
  4110. *((uint8_t *) &args[0] + 3),
  4111. *(uint8_t *) &args[1],
  4112. *((uint8_t *) &args[1] + 1),
  4113. *((uint8_t *) &args[1] + 2),
  4114. *((uint8_t *) &args[1] + 3),
  4115. *(uint8_t *) &args[2],
  4116. *((uint8_t *) &args[2] + 1),
  4117. *((uint8_t *) &args[2] + 2),
  4118. *((uint8_t *) &args[2] + 3),
  4119. *(uint8_t *) &args[3],
  4120. *((uint8_t *) &args[3] + 1),
  4121. *((uint8_t *) &args[3] + 2),
  4122. *((uint8_t *) &args[3] + 3));
  4123. } else {
  4124. return false;
  4125. }
  4126. break;
  4127. case WOW_NS_REPLIED:
  4128. if (4 == numargs) {
  4129. dbglog_printf(timestamp, vap_id,
  4130. "NS replied to %02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x:%02x%02x",
  4131. *(uint8_t *) &args[0],
  4132. *((uint8_t *) &args[0] + 1),
  4133. *((uint8_t *) &args[0] + 2),
  4134. *((uint8_t *) &args[0] + 3),
  4135. *(uint8_t *) &args[1],
  4136. *((uint8_t *) &args[1] + 1),
  4137. *((uint8_t *) &args[1] + 2),
  4138. *((uint8_t *) &args[1] + 3),
  4139. *(uint8_t *) &args[2],
  4140. *((uint8_t *) &args[2] + 1),
  4141. *((uint8_t *) &args[2] + 2),
  4142. *((uint8_t *) &args[2] + 3),
  4143. *(uint8_t *) &args[3],
  4144. *((uint8_t *) &args[3] + 1),
  4145. *((uint8_t *) &args[3] + 2),
  4146. *((uint8_t *) &args[3] + 3));
  4147. } else {
  4148. return false;
  4149. }
  4150. break;
  4151. case WOW_ARP_RECEIVED:
  4152. if (1 == numargs) {
  4153. dbglog_printf(timestamp, vap_id,
  4154. "ARP requested from %d.%d.%d.%d",
  4155. *(uint8_t *) args,
  4156. *((uint8_t *) args + 1),
  4157. *((uint8_t *) args + 2),
  4158. *((uint8_t *) args + 3));
  4159. } else {
  4160. return false;
  4161. }
  4162. break;
  4163. break;
  4164. case WOW_ARP_REPLIED:
  4165. if (1 == numargs) {
  4166. dbglog_printf(timestamp, vap_id,
  4167. "ARP replied to %d.%d.%d.%d",
  4168. *(uint8_t *) args,
  4169. *((uint8_t *) args + 1),
  4170. *((uint8_t *) args + 2),
  4171. *((uint8_t *) args + 3));
  4172. } else {
  4173. return false;
  4174. }
  4175. break;
  4176. default:
  4177. return false;
  4178. }
  4179. return true;
  4180. }
  4181. int dbglog_parser_type_init(wmi_unified_t wmi_handle, int type)
  4182. {
  4183. if (type >= DBGLOG_PROCESS_MAX)
  4184. return A_ERROR;
  4185. dbglog_process_type = type;
  4186. gprint_limiter = false;
  4187. return A_OK;
  4188. }
  4189. int dbglog_init(wmi_unified_t wmi_handle)
  4190. {
  4191. QDF_STATUS res;
  4192. OS_MEMSET(mod_print, 0, sizeof(mod_print));
  4193. dbglog_reg_modprint(WLAN_MODULE_STA_PWRSAVE,
  4194. dbglog_sta_powersave_print_handler);
  4195. dbglog_reg_modprint(WLAN_MODULE_AP_PWRSAVE,
  4196. dbglog_ap_powersave_print_handler);
  4197. dbglog_reg_modprint(WLAN_MODULE_WAL, dbglog_wal_print_handler);
  4198. dbglog_reg_modprint(WLAN_MODULE_SCAN, dbglog_scan_print_handler);
  4199. dbglog_reg_modprint(WLAN_MODULE_RATECTRL,
  4200. dbglog_ratectrl_print_handler);
  4201. dbglog_reg_modprint(WLAN_MODULE_ANI, dbglog_ani_print_handler);
  4202. dbglog_reg_modprint(WLAN_MODULE_COEX, dbglog_coex_print_handler);
  4203. dbglog_reg_modprint(WLAN_MODULE_BEACON, dbglog_beacon_print_handler);
  4204. dbglog_reg_modprint(WLAN_MODULE_WOW, dbglog_wow_print_handler);
  4205. dbglog_reg_modprint(WLAN_MODULE_DATA_TXRX,
  4206. dbglog_data_txrx_print_handler);
  4207. dbglog_reg_modprint(WLAN_MODULE_STA_SMPS, dbglog_smps_print_handler);
  4208. dbglog_reg_modprint(WLAN_MODULE_P2P, dbglog_p2p_print_handler);
  4209. dbglog_reg_modprint(WLAN_MODULE_PCIELP, dbglog_pcielp_print_handler);
  4210. dbglog_reg_modprint(WLAN_MODULE_IBSS_PWRSAVE,
  4211. dbglog_ibss_powersave_print_handler);
  4212. tgt_assert_enable = wmi_handle->tgt_force_assert_enable;
  4213. /* Register handler for F3 or debug messages */
  4214. res =
  4215. wmi_unified_register_event_handler(wmi_handle,
  4216. wmi_dbg_msg_event_id,
  4217. dbglog_parse_debug_logs,
  4218. WMI_RX_DIAG_WORK_CTX);
  4219. if (QDF_IS_STATUS_ERROR(res))
  4220. return A_ERROR;
  4221. /* Register handler for FW diag events */
  4222. res = wmi_unified_register_event_handler(wmi_handle,
  4223. wmi_diag_container_event_id,
  4224. fw_diag_data_event_handler,
  4225. WMI_RX_DIAG_WORK_CTX);
  4226. if (QDF_IS_STATUS_ERROR(res))
  4227. return A_ERROR;
  4228. /* Register handler for new FW diag Event, LOG, MSG combined */
  4229. res = wmi_unified_register_event_handler(wmi_handle, wmi_diag_event_id,
  4230. diag_fw_handler,
  4231. WMI_RX_DIAG_WORK_CTX);
  4232. if (QDF_IS_STATUS_ERROR(res))
  4233. return A_ERROR;
  4234. #ifdef WLAN_OPEN_SOURCE
  4235. /* Initialize the fw debug log queue */
  4236. skb_queue_head_init(&wmi_handle->dbglog.fwlog_queue);
  4237. init_completion(&wmi_handle->dbglog.fwlog_completion);
  4238. /* Initialize debugfs */
  4239. dbglog_debugfs_init(wmi_handle);
  4240. #endif /* WLAN_OPEN_SOURCE */
  4241. return A_OK;
  4242. }
  4243. int dbglog_deinit(wmi_unified_t wmi_handle)
  4244. {
  4245. QDF_STATUS res;
  4246. #ifdef WLAN_OPEN_SOURCE
  4247. /* DeInitialize the fw debug log queue */
  4248. skb_queue_purge(&wmi_handle->dbglog.fwlog_queue);
  4249. complete(&wmi_handle->dbglog.fwlog_completion);
  4250. /* Deinitialize the debugfs */
  4251. dbglog_debugfs_remove(wmi_handle);
  4252. #endif /* WLAN_OPEN_SOURCE */
  4253. tgt_assert_enable = 0;
  4254. res =
  4255. wmi_unified_unregister_event_handler(wmi_handle,
  4256. wmi_dbg_msg_event_id);
  4257. if (QDF_IS_STATUS_ERROR(res))
  4258. return A_ERROR;
  4259. return A_OK;
  4260. }