dp_internal.h 62 KB

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  1. /*
  2. * Copyright (c) 2016-2020 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. #ifndef _DP_INTERNAL_H_
  19. #define _DP_INTERNAL_H_
  20. #include "dp_types.h"
  21. #define RX_BUFFER_SIZE_PKTLOG_LITE 1024
  22. #define DP_RSSI_INVAL 0x80
  23. #define DP_RSSI_AVG_WEIGHT 2
  24. /*
  25. * Formula to derive avg_rssi is taken from wifi2.o firmware
  26. */
  27. #define DP_GET_AVG_RSSI(avg_rssi, last_rssi) \
  28. (((avg_rssi) - (((uint8_t)(avg_rssi)) >> DP_RSSI_AVG_WEIGHT)) \
  29. + ((((uint8_t)(last_rssi)) >> DP_RSSI_AVG_WEIGHT)))
  30. /* Macro For NYSM value received in VHT TLV */
  31. #define VHT_SGI_NYSM 3
  32. /* PPDU STATS CFG */
  33. #define DP_PPDU_STATS_CFG_ALL 0xFFFF
  34. /* PPDU stats mask sent to FW to enable enhanced stats */
  35. #define DP_PPDU_STATS_CFG_ENH_STATS 0xE67
  36. /* PPDU stats mask sent to FW to support debug sniffer feature */
  37. #define DP_PPDU_STATS_CFG_SNIFFER 0x2FFF
  38. /* PPDU stats mask sent to FW to support BPR feature*/
  39. #define DP_PPDU_STATS_CFG_BPR 0x2000
  40. /* PPDU stats mask sent to FW to support BPR and enhanced stats feature */
  41. #define DP_PPDU_STATS_CFG_BPR_ENH (DP_PPDU_STATS_CFG_BPR | \
  42. DP_PPDU_STATS_CFG_ENH_STATS)
  43. /* PPDU stats mask sent to FW to support BPR and pcktlog stats feature */
  44. #define DP_PPDU_STATS_CFG_BPR_PKTLOG (DP_PPDU_STATS_CFG_BPR | \
  45. DP_PPDU_TXLITE_STATS_BITMASK_CFG)
  46. /**
  47. * Bitmap of HTT PPDU TLV types for Default mode
  48. */
  49. #define HTT_PPDU_DEFAULT_TLV_BITMAP \
  50. (1 << HTT_PPDU_STATS_COMMON_TLV) | \
  51. (1 << HTT_PPDU_STATS_USR_COMMON_TLV) | \
  52. (1 << HTT_PPDU_STATS_USR_RATE_TLV) | \
  53. (1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV) | \
  54. (1 << HTT_PPDU_STATS_USR_COMPLTN_COMMON_TLV) | \
  55. (1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV)
  56. /**
  57. * Bitmap of HTT PPDU delayed ba TLV types for Default mode
  58. */
  59. #define HTT_PPDU_DELAYED_BA_TLV_BITMAP \
  60. (1 << HTT_PPDU_STATS_COMMON_TLV) | \
  61. (1 << HTT_PPDU_STATS_USR_COMMON_TLV) | \
  62. (1 << HTT_PPDU_STATS_USR_RATE_TLV)
  63. /**
  64. * Bitmap of HTT PPDU TLV types for Delayed BA
  65. */
  66. #define HTT_PPDU_STATUS_TLV_BITMAP \
  67. (1 << HTT_PPDU_STATS_COMMON_TLV) | \
  68. (1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV)
  69. /**
  70. * Bitmap of HTT PPDU TLV types for Sniffer mode bitmap 64
  71. */
  72. #define HTT_PPDU_SNIFFER_AMPDU_TLV_BITMAP_64 \
  73. ((1 << HTT_PPDU_STATS_COMMON_TLV) | \
  74. (1 << HTT_PPDU_STATS_USR_COMMON_TLV) | \
  75. (1 << HTT_PPDU_STATS_USR_RATE_TLV) | \
  76. (1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV) | \
  77. (1 << HTT_PPDU_STATS_USR_COMPLTN_COMMON_TLV) | \
  78. (1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV) | \
  79. (1 << HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_64_TLV) | \
  80. (1 << HTT_PPDU_STATS_USR_MPDU_ENQ_BITMAP_64_TLV))
  81. /**
  82. * Bitmap of HTT PPDU TLV types for Sniffer mode bitmap 256
  83. */
  84. #define HTT_PPDU_SNIFFER_AMPDU_TLV_BITMAP_256 \
  85. ((1 << HTT_PPDU_STATS_COMMON_TLV) | \
  86. (1 << HTT_PPDU_STATS_USR_COMMON_TLV) | \
  87. (1 << HTT_PPDU_STATS_USR_RATE_TLV) | \
  88. (1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV) | \
  89. (1 << HTT_PPDU_STATS_USR_COMPLTN_COMMON_TLV) | \
  90. (1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV) | \
  91. (1 << HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_256_TLV) | \
  92. (1 << HTT_PPDU_STATS_USR_MPDU_ENQ_BITMAP_256_TLV))
  93. #ifdef WLAN_TX_PKT_CAPTURE_ENH
  94. extern uint8_t
  95. dp_cpu_ring_map[DP_NSS_CPU_RING_MAP_MAX][WLAN_CFG_INT_NUM_CONTEXTS_MAX];
  96. #endif
  97. #define DP_MAX_TIMER_EXEC_TIME_TICKS \
  98. (QDF_LOG_TIMESTAMP_CYCLES_PER_10_US * 100 * 20)
  99. /**
  100. * enum timer_yield_status - yield status code used in monitor mode timer.
  101. * @DP_TIMER_NO_YIELD: do not yield
  102. * @DP_TIMER_WORK_DONE: yield because work is done
  103. * @DP_TIMER_WORK_EXHAUST: yield because work quota is exhausted
  104. * @DP_TIMER_TIME_EXHAUST: yield due to time slot exhausted
  105. */
  106. enum timer_yield_status {
  107. DP_TIMER_NO_YIELD,
  108. DP_TIMER_WORK_DONE,
  109. DP_TIMER_WORK_EXHAUST,
  110. DP_TIMER_TIME_EXHAUST,
  111. };
  112. #if DP_PRINT_ENABLE
  113. #include <stdarg.h> /* va_list */
  114. #include <qdf_types.h> /* qdf_vprint */
  115. #include <cdp_txrx_handle.h>
  116. enum {
  117. /* FATAL_ERR - print only irrecoverable error messages */
  118. DP_PRINT_LEVEL_FATAL_ERR,
  119. /* ERR - include non-fatal err messages */
  120. DP_PRINT_LEVEL_ERR,
  121. /* WARN - include warnings */
  122. DP_PRINT_LEVEL_WARN,
  123. /* INFO1 - include fundamental, infrequent events */
  124. DP_PRINT_LEVEL_INFO1,
  125. /* INFO2 - include non-fundamental but infrequent events */
  126. DP_PRINT_LEVEL_INFO2,
  127. };
  128. #define dp_print(level, fmt, ...) do { \
  129. if (level <= g_txrx_print_level) \
  130. qdf_print(fmt, ## __VA_ARGS__); \
  131. while (0)
  132. #define DP_PRINT(level, fmt, ...) do { \
  133. dp_print(level, "DP: " fmt, ## __VA_ARGS__); \
  134. while (0)
  135. #else
  136. #define DP_PRINT(level, fmt, ...)
  137. #endif /* DP_PRINT_ENABLE */
  138. #define DP_TRACE(LVL, fmt, args ...) \
  139. QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_##LVL, \
  140. fmt, ## args)
  141. #ifdef DP_PRINT_NO_CONSOLE
  142. /* Stat prints should not go to console or kernel logs.*/
  143. #define DP_PRINT_STATS(fmt, args ...)\
  144. QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_INFO_HIGH, \
  145. fmt, ## args)
  146. #else
  147. #define DP_PRINT_STATS(fmt, args ...)\
  148. QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_FATAL,\
  149. fmt, ## args)
  150. #endif
  151. #define DP_STATS_INIT(_handle) \
  152. qdf_mem_zero(&((_handle)->stats), sizeof((_handle)->stats))
  153. #define DP_STATS_CLR(_handle) \
  154. qdf_mem_zero(&((_handle)->stats), sizeof((_handle)->stats))
  155. #ifndef DISABLE_DP_STATS
  156. #define DP_STATS_INC(_handle, _field, _delta) \
  157. { \
  158. if (likely(_handle)) \
  159. _handle->stats._field += _delta; \
  160. }
  161. #define DP_STATS_INCC(_handle, _field, _delta, _cond) \
  162. { \
  163. if (_cond && likely(_handle)) \
  164. _handle->stats._field += _delta; \
  165. }
  166. #define DP_STATS_DEC(_handle, _field, _delta) \
  167. { \
  168. if (likely(_handle)) \
  169. _handle->stats._field -= _delta; \
  170. }
  171. #define DP_STATS_UPD(_handle, _field, _delta) \
  172. { \
  173. if (likely(_handle)) \
  174. _handle->stats._field = _delta; \
  175. }
  176. #define DP_STATS_INC_PKT(_handle, _field, _count, _bytes) \
  177. { \
  178. DP_STATS_INC(_handle, _field.num, _count); \
  179. DP_STATS_INC(_handle, _field.bytes, _bytes) \
  180. }
  181. #define DP_STATS_INCC_PKT(_handle, _field, _count, _bytes, _cond) \
  182. { \
  183. DP_STATS_INCC(_handle, _field.num, _count, _cond); \
  184. DP_STATS_INCC(_handle, _field.bytes, _bytes, _cond) \
  185. }
  186. #define DP_STATS_AGGR(_handle_a, _handle_b, _field) \
  187. { \
  188. _handle_a->stats._field += _handle_b->stats._field; \
  189. }
  190. #define DP_STATS_AGGR_PKT(_handle_a, _handle_b, _field) \
  191. { \
  192. DP_STATS_AGGR(_handle_a, _handle_b, _field.num); \
  193. DP_STATS_AGGR(_handle_a, _handle_b, _field.bytes);\
  194. }
  195. #define DP_STATS_UPD_STRUCT(_handle_a, _handle_b, _field) \
  196. { \
  197. _handle_a->stats._field = _handle_b->stats._field; \
  198. }
  199. #else
  200. #define DP_STATS_INC(_handle, _field, _delta)
  201. #define DP_STATS_INCC(_handle, _field, _delta, _cond)
  202. #define DP_STATS_DEC(_handle, _field, _delta)
  203. #define DP_STATS_UPD(_handle, _field, _delta)
  204. #define DP_STATS_INC_PKT(_handle, _field, _count, _bytes)
  205. #define DP_STATS_INCC_PKT(_handle, _field, _count, _bytes, _cond)
  206. #define DP_STATS_AGGR(_handle_a, _handle_b, _field)
  207. #define DP_STATS_AGGR_PKT(_handle_a, _handle_b, _field)
  208. #endif
  209. #ifdef ENABLE_DP_HIST_STATS
  210. #define DP_HIST_INIT() \
  211. uint32_t num_of_packets[MAX_PDEV_CNT] = {0};
  212. #define DP_HIST_PACKET_COUNT_INC(_pdev_id) \
  213. { \
  214. ++num_of_packets[_pdev_id]; \
  215. }
  216. #define DP_TX_HISTOGRAM_UPDATE(_pdev, _p_cntrs) \
  217. do { \
  218. if (_p_cntrs == 1) { \
  219. DP_STATS_INC(_pdev, \
  220. tx_comp_histogram.pkts_1, 1); \
  221. } else if (_p_cntrs > 1 && _p_cntrs <= 20) { \
  222. DP_STATS_INC(_pdev, \
  223. tx_comp_histogram.pkts_2_20, 1); \
  224. } else if (_p_cntrs > 20 && _p_cntrs <= 40) { \
  225. DP_STATS_INC(_pdev, \
  226. tx_comp_histogram.pkts_21_40, 1); \
  227. } else if (_p_cntrs > 40 && _p_cntrs <= 60) { \
  228. DP_STATS_INC(_pdev, \
  229. tx_comp_histogram.pkts_41_60, 1); \
  230. } else if (_p_cntrs > 60 && _p_cntrs <= 80) { \
  231. DP_STATS_INC(_pdev, \
  232. tx_comp_histogram.pkts_61_80, 1); \
  233. } else if (_p_cntrs > 80 && _p_cntrs <= 100) { \
  234. DP_STATS_INC(_pdev, \
  235. tx_comp_histogram.pkts_81_100, 1); \
  236. } else if (_p_cntrs > 100 && _p_cntrs <= 200) { \
  237. DP_STATS_INC(_pdev, \
  238. tx_comp_histogram.pkts_101_200, 1); \
  239. } else if (_p_cntrs > 200) { \
  240. DP_STATS_INC(_pdev, \
  241. tx_comp_histogram.pkts_201_plus, 1); \
  242. } \
  243. } while (0)
  244. #define DP_RX_HISTOGRAM_UPDATE(_pdev, _p_cntrs) \
  245. do { \
  246. if (_p_cntrs == 1) { \
  247. DP_STATS_INC(_pdev, \
  248. rx_ind_histogram.pkts_1, 1); \
  249. } else if (_p_cntrs > 1 && _p_cntrs <= 20) { \
  250. DP_STATS_INC(_pdev, \
  251. rx_ind_histogram.pkts_2_20, 1); \
  252. } else if (_p_cntrs > 20 && _p_cntrs <= 40) { \
  253. DP_STATS_INC(_pdev, \
  254. rx_ind_histogram.pkts_21_40, 1); \
  255. } else if (_p_cntrs > 40 && _p_cntrs <= 60) { \
  256. DP_STATS_INC(_pdev, \
  257. rx_ind_histogram.pkts_41_60, 1); \
  258. } else if (_p_cntrs > 60 && _p_cntrs <= 80) { \
  259. DP_STATS_INC(_pdev, \
  260. rx_ind_histogram.pkts_61_80, 1); \
  261. } else if (_p_cntrs > 80 && _p_cntrs <= 100) { \
  262. DP_STATS_INC(_pdev, \
  263. rx_ind_histogram.pkts_81_100, 1); \
  264. } else if (_p_cntrs > 100 && _p_cntrs <= 200) { \
  265. DP_STATS_INC(_pdev, \
  266. rx_ind_histogram.pkts_101_200, 1); \
  267. } else if (_p_cntrs > 200) { \
  268. DP_STATS_INC(_pdev, \
  269. rx_ind_histogram.pkts_201_plus, 1); \
  270. } \
  271. } while (0)
  272. #define DP_TX_HIST_STATS_PER_PDEV() \
  273. do { \
  274. uint8_t hist_stats = 0; \
  275. for (hist_stats = 0; hist_stats < soc->pdev_count; \
  276. hist_stats++) { \
  277. DP_TX_HISTOGRAM_UPDATE(soc->pdev_list[hist_stats], \
  278. num_of_packets[hist_stats]); \
  279. } \
  280. } while (0)
  281. #define DP_RX_HIST_STATS_PER_PDEV() \
  282. do { \
  283. uint8_t hist_stats = 0; \
  284. for (hist_stats = 0; hist_stats < soc->pdev_count; \
  285. hist_stats++) { \
  286. DP_RX_HISTOGRAM_UPDATE(soc->pdev_list[hist_stats], \
  287. num_of_packets[hist_stats]); \
  288. } \
  289. } while (0)
  290. #else
  291. #define DP_HIST_INIT()
  292. #define DP_HIST_PACKET_COUNT_INC(_pdev_id)
  293. #define DP_TX_HISTOGRAM_UPDATE(_pdev, _p_cntrs)
  294. #define DP_RX_HISTOGRAM_UPDATE(_pdev, _p_cntrs)
  295. #define DP_RX_HIST_STATS_PER_PDEV()
  296. #define DP_TX_HIST_STATS_PER_PDEV()
  297. #endif /* DISABLE_DP_STATS */
  298. #ifdef FEATURE_TSO_STATS
  299. /**
  300. * dp_init_tso_stats() - Clear tso stats
  301. * @pdev: pdev handle
  302. *
  303. * Return: None
  304. */
  305. static inline
  306. void dp_init_tso_stats(struct dp_pdev *pdev)
  307. {
  308. if (pdev) {
  309. qdf_mem_zero(&((pdev)->stats.tso_stats),
  310. sizeof((pdev)->stats.tso_stats));
  311. qdf_atomic_init(&pdev->tso_idx);
  312. }
  313. }
  314. /**
  315. * dp_stats_tso_segment_histogram_update() - TSO Segment Histogram
  316. * @pdev: pdev handle
  317. * @_p_cntrs: number of tso segments for a tso packet
  318. *
  319. * Return: None
  320. */
  321. void dp_stats_tso_segment_histogram_update(struct dp_pdev *pdev,
  322. uint8_t _p_cntrs);
  323. /**
  324. * dp_tso_segment_update() - Collect tso segment information
  325. * @pdev: pdev handle
  326. * @stats_idx: tso packet number
  327. * @idx: tso segment number
  328. * @seg: tso segment
  329. *
  330. * Return: None
  331. */
  332. void dp_tso_segment_update(struct dp_pdev *pdev,
  333. uint32_t stats_idx,
  334. uint8_t idx,
  335. struct qdf_tso_seg_t seg);
  336. /**
  337. * dp_tso_packet_update() - TSO Packet information
  338. * @pdev: pdev handle
  339. * @stats_idx: tso packet number
  340. * @msdu: nbuf handle
  341. * @num_segs: tso segments
  342. *
  343. * Return: None
  344. */
  345. void dp_tso_packet_update(struct dp_pdev *pdev, uint32_t stats_idx,
  346. qdf_nbuf_t msdu, uint16_t num_segs);
  347. /**
  348. * dp_tso_segment_stats_update() - TSO Segment stats
  349. * @pdev: pdev handle
  350. * @stats_seg: tso segment list
  351. * @stats_idx: tso packet number
  352. *
  353. * Return: None
  354. */
  355. void dp_tso_segment_stats_update(struct dp_pdev *pdev,
  356. struct qdf_tso_seg_elem_t *stats_seg,
  357. uint32_t stats_idx);
  358. /**
  359. * dp_print_tso_stats() - dump tso statistics
  360. * @soc:soc handle
  361. * @level: verbosity level
  362. *
  363. * Return: None
  364. */
  365. void dp_print_tso_stats(struct dp_soc *soc,
  366. enum qdf_stats_verbosity_level level);
  367. /**
  368. * dp_txrx_clear_tso_stats() - clear tso stats
  369. * @soc: soc handle
  370. *
  371. * Return: None
  372. */
  373. void dp_txrx_clear_tso_stats(struct dp_soc *soc);
  374. #else
  375. static inline
  376. void dp_init_tso_stats(struct dp_pdev *pdev)
  377. {
  378. }
  379. static inline
  380. void dp_stats_tso_segment_histogram_update(struct dp_pdev *pdev,
  381. uint8_t _p_cntrs)
  382. {
  383. }
  384. static inline
  385. void dp_tso_segment_update(struct dp_pdev *pdev,
  386. uint32_t stats_idx,
  387. uint32_t idx,
  388. struct qdf_tso_seg_t seg)
  389. {
  390. }
  391. static inline
  392. void dp_tso_packet_update(struct dp_pdev *pdev, uint32_t stats_idx,
  393. qdf_nbuf_t msdu, uint16_t num_segs)
  394. {
  395. }
  396. static inline
  397. void dp_tso_segment_stats_update(struct dp_pdev *pdev,
  398. struct qdf_tso_seg_elem_t *stats_seg,
  399. uint32_t stats_idx)
  400. {
  401. }
  402. static inline
  403. void dp_print_tso_stats(struct dp_soc *soc,
  404. enum qdf_stats_verbosity_level level)
  405. {
  406. }
  407. static inline
  408. void dp_txrx_clear_tso_stats(struct dp_soc *soc)
  409. {
  410. }
  411. #endif /* FEATURE_TSO_STATS */
  412. #define DP_HTT_T2H_HP_PIPE 5
  413. static inline void dp_update_pdev_stats(struct dp_pdev *tgtobj,
  414. struct cdp_vdev_stats *srcobj)
  415. {
  416. uint8_t i;
  417. uint8_t pream_type;
  418. for (pream_type = 0; pream_type < DOT11_MAX; pream_type++) {
  419. for (i = 0; i < MAX_MCS; i++) {
  420. tgtobj->stats.tx.pkt_type[pream_type].
  421. mcs_count[i] +=
  422. srcobj->tx.pkt_type[pream_type].
  423. mcs_count[i];
  424. tgtobj->stats.rx.pkt_type[pream_type].
  425. mcs_count[i] +=
  426. srcobj->rx.pkt_type[pream_type].
  427. mcs_count[i];
  428. }
  429. }
  430. for (i = 0; i < MAX_BW; i++) {
  431. tgtobj->stats.tx.bw[i] += srcobj->tx.bw[i];
  432. tgtobj->stats.rx.bw[i] += srcobj->rx.bw[i];
  433. }
  434. for (i = 0; i < SS_COUNT; i++) {
  435. tgtobj->stats.tx.nss[i] += srcobj->tx.nss[i];
  436. tgtobj->stats.rx.nss[i] += srcobj->rx.nss[i];
  437. }
  438. for (i = 0; i < WME_AC_MAX; i++) {
  439. tgtobj->stats.tx.wme_ac_type[i] +=
  440. srcobj->tx.wme_ac_type[i];
  441. tgtobj->stats.rx.wme_ac_type[i] +=
  442. srcobj->rx.wme_ac_type[i];
  443. tgtobj->stats.tx.excess_retries_per_ac[i] +=
  444. srcobj->tx.excess_retries_per_ac[i];
  445. }
  446. for (i = 0; i < MAX_GI; i++) {
  447. tgtobj->stats.tx.sgi_count[i] +=
  448. srcobj->tx.sgi_count[i];
  449. tgtobj->stats.rx.sgi_count[i] +=
  450. srcobj->rx.sgi_count[i];
  451. }
  452. for (i = 0; i < MAX_RECEPTION_TYPES; i++)
  453. tgtobj->stats.rx.reception_type[i] +=
  454. srcobj->rx.reception_type[i];
  455. tgtobj->stats.tx.comp_pkt.bytes += srcobj->tx.comp_pkt.bytes;
  456. tgtobj->stats.tx.comp_pkt.num += srcobj->tx.comp_pkt.num;
  457. tgtobj->stats.tx.ucast.num += srcobj->tx.ucast.num;
  458. tgtobj->stats.tx.ucast.bytes += srcobj->tx.ucast.bytes;
  459. tgtobj->stats.tx.mcast.num += srcobj->tx.mcast.num;
  460. tgtobj->stats.tx.mcast.bytes += srcobj->tx.mcast.bytes;
  461. tgtobj->stats.tx.bcast.num += srcobj->tx.bcast.num;
  462. tgtobj->stats.tx.bcast.bytes += srcobj->tx.bcast.bytes;
  463. tgtobj->stats.tx.tx_success.num += srcobj->tx.tx_success.num;
  464. tgtobj->stats.tx.tx_success.bytes +=
  465. srcobj->tx.tx_success.bytes;
  466. tgtobj->stats.tx.nawds_mcast.num +=
  467. srcobj->tx.nawds_mcast.num;
  468. tgtobj->stats.tx.nawds_mcast.bytes +=
  469. srcobj->tx.nawds_mcast.bytes;
  470. tgtobj->stats.tx.nawds_mcast_drop +=
  471. srcobj->tx.nawds_mcast_drop;
  472. tgtobj->stats.tx.num_ppdu_cookie_valid +=
  473. srcobj->tx.num_ppdu_cookie_valid;
  474. tgtobj->stats.tx.tx_failed += srcobj->tx.tx_failed;
  475. tgtobj->stats.tx.ofdma += srcobj->tx.ofdma;
  476. tgtobj->stats.tx.stbc += srcobj->tx.stbc;
  477. tgtobj->stats.tx.ldpc += srcobj->tx.ldpc;
  478. tgtobj->stats.tx.retries += srcobj->tx.retries;
  479. tgtobj->stats.tx.non_amsdu_cnt += srcobj->tx.non_amsdu_cnt;
  480. tgtobj->stats.tx.amsdu_cnt += srcobj->tx.amsdu_cnt;
  481. tgtobj->stats.tx.non_ampdu_cnt += srcobj->tx.non_ampdu_cnt;
  482. tgtobj->stats.tx.ampdu_cnt += srcobj->tx.ampdu_cnt;
  483. tgtobj->stats.tx.dropped.fw_rem.num += srcobj->tx.dropped.fw_rem.num;
  484. tgtobj->stats.tx.dropped.fw_rem.bytes +=
  485. srcobj->tx.dropped.fw_rem.bytes;
  486. tgtobj->stats.tx.dropped.fw_rem_tx +=
  487. srcobj->tx.dropped.fw_rem_tx;
  488. tgtobj->stats.tx.dropped.fw_rem_notx +=
  489. srcobj->tx.dropped.fw_rem_notx;
  490. tgtobj->stats.tx.dropped.fw_reason1 +=
  491. srcobj->tx.dropped.fw_reason1;
  492. tgtobj->stats.tx.dropped.fw_reason2 +=
  493. srcobj->tx.dropped.fw_reason2;
  494. tgtobj->stats.tx.dropped.fw_reason3 +=
  495. srcobj->tx.dropped.fw_reason3;
  496. tgtobj->stats.tx.dropped.age_out += srcobj->tx.dropped.age_out;
  497. tgtobj->stats.rx.err.mic_err += srcobj->rx.err.mic_err;
  498. if (srcobj->rx.rssi != 0)
  499. tgtobj->stats.rx.rssi = srcobj->rx.rssi;
  500. tgtobj->stats.rx.rx_rate = srcobj->rx.rx_rate;
  501. tgtobj->stats.rx.err.decrypt_err += srcobj->rx.err.decrypt_err;
  502. tgtobj->stats.rx.non_ampdu_cnt += srcobj->rx.non_ampdu_cnt;
  503. tgtobj->stats.rx.amsdu_cnt += srcobj->rx.ampdu_cnt;
  504. tgtobj->stats.rx.non_amsdu_cnt += srcobj->rx.non_amsdu_cnt;
  505. tgtobj->stats.rx.amsdu_cnt += srcobj->rx.amsdu_cnt;
  506. tgtobj->stats.rx.nawds_mcast_drop += srcobj->rx.nawds_mcast_drop;
  507. tgtobj->stats.rx.to_stack.num += srcobj->rx.to_stack.num;
  508. tgtobj->stats.rx.to_stack.bytes += srcobj->rx.to_stack.bytes;
  509. for (i = 0; i < CDP_MAX_RX_RINGS; i++) {
  510. tgtobj->stats.rx.rcvd_reo[i].num +=
  511. srcobj->rx.rcvd_reo[i].num;
  512. tgtobj->stats.rx.rcvd_reo[i].bytes +=
  513. srcobj->rx.rcvd_reo[i].bytes;
  514. }
  515. srcobj->rx.unicast.num =
  516. srcobj->rx.to_stack.num -
  517. (srcobj->rx.multicast.num);
  518. srcobj->rx.unicast.bytes =
  519. srcobj->rx.to_stack.bytes -
  520. (srcobj->rx.multicast.bytes);
  521. tgtobj->stats.rx.unicast.num += srcobj->rx.unicast.num;
  522. tgtobj->stats.rx.unicast.bytes += srcobj->rx.unicast.bytes;
  523. tgtobj->stats.rx.multicast.num += srcobj->rx.multicast.num;
  524. tgtobj->stats.rx.multicast.bytes += srcobj->rx.multicast.bytes;
  525. tgtobj->stats.rx.bcast.num += srcobj->rx.bcast.num;
  526. tgtobj->stats.rx.bcast.bytes += srcobj->rx.bcast.bytes;
  527. tgtobj->stats.rx.raw.num += srcobj->rx.raw.num;
  528. tgtobj->stats.rx.raw.bytes += srcobj->rx.raw.bytes;
  529. tgtobj->stats.rx.intra_bss.pkts.num +=
  530. srcobj->rx.intra_bss.pkts.num;
  531. tgtobj->stats.rx.intra_bss.pkts.bytes +=
  532. srcobj->rx.intra_bss.pkts.bytes;
  533. tgtobj->stats.rx.intra_bss.fail.num +=
  534. srcobj->rx.intra_bss.fail.num;
  535. tgtobj->stats.rx.intra_bss.fail.bytes +=
  536. srcobj->rx.intra_bss.fail.bytes;
  537. tgtobj->stats.tx.last_ack_rssi =
  538. srcobj->tx.last_ack_rssi;
  539. tgtobj->stats.rx.mec_drop.num += srcobj->rx.mec_drop.num;
  540. tgtobj->stats.rx.mec_drop.bytes += srcobj->rx.mec_drop.bytes;
  541. tgtobj->stats.rx.multipass_rx_pkt_drop +=
  542. srcobj->rx.multipass_rx_pkt_drop;
  543. }
  544. static inline void dp_update_pdev_ingress_stats(struct dp_pdev *tgtobj,
  545. struct dp_vdev *srcobj)
  546. {
  547. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.nawds_mcast);
  548. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.rcvd);
  549. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.processed);
  550. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.reinject_pkts);
  551. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.inspect_pkts);
  552. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.raw.raw_pkt);
  553. DP_STATS_AGGR(tgtobj, srcobj, tx_i.raw.dma_map_error);
  554. DP_STATS_AGGR(tgtobj, srcobj, tx_i.sg.dropped_host.num);
  555. DP_STATS_AGGR(tgtobj, srcobj, tx_i.sg.dropped_target);
  556. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.sg.sg_pkt);
  557. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.mcast_en.mcast_pkt);
  558. DP_STATS_AGGR(tgtobj, srcobj,
  559. tx_i.mcast_en.dropped_map_error);
  560. DP_STATS_AGGR(tgtobj, srcobj,
  561. tx_i.mcast_en.dropped_self_mac);
  562. DP_STATS_AGGR(tgtobj, srcobj,
  563. tx_i.mcast_en.dropped_send_fail);
  564. DP_STATS_AGGR(tgtobj, srcobj, tx_i.mcast_en.ucast);
  565. DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.dma_error);
  566. DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.ring_full);
  567. DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.enqueue_fail);
  568. DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.desc_na.num);
  569. DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.res_full);
  570. DP_STATS_AGGR(tgtobj, srcobj, tx_i.dropped.headroom_insufficient);
  571. DP_STATS_AGGR(tgtobj, srcobj, tx_i.cce_classified);
  572. DP_STATS_AGGR(tgtobj, srcobj, tx_i.cce_classified_raw);
  573. DP_STATS_AGGR_PKT(tgtobj, srcobj, tx_i.sniffer_rcvd);
  574. DP_STATS_AGGR(tgtobj, srcobj, tx_i.mesh.exception_fw);
  575. DP_STATS_AGGR(tgtobj, srcobj, tx_i.mesh.completion_fw);
  576. tgtobj->stats.tx_i.dropped.dropped_pkt.num =
  577. tgtobj->stats.tx_i.dropped.dma_error +
  578. tgtobj->stats.tx_i.dropped.ring_full +
  579. tgtobj->stats.tx_i.dropped.enqueue_fail +
  580. tgtobj->stats.tx_i.dropped.desc_na.num +
  581. tgtobj->stats.tx_i.dropped.res_full;
  582. }
  583. static inline void dp_update_vdev_stats(struct cdp_vdev_stats *tgtobj,
  584. struct dp_peer *srcobj)
  585. {
  586. uint8_t i;
  587. uint8_t pream_type;
  588. for (pream_type = 0; pream_type < DOT11_MAX; pream_type++) {
  589. for (i = 0; i < MAX_MCS; i++) {
  590. tgtobj->tx.pkt_type[pream_type].
  591. mcs_count[i] +=
  592. srcobj->stats.tx.pkt_type[pream_type].
  593. mcs_count[i];
  594. tgtobj->rx.pkt_type[pream_type].
  595. mcs_count[i] +=
  596. srcobj->stats.rx.pkt_type[pream_type].
  597. mcs_count[i];
  598. }
  599. }
  600. for (i = 0; i < MAX_BW; i++) {
  601. tgtobj->tx.bw[i] += srcobj->stats.tx.bw[i];
  602. tgtobj->rx.bw[i] += srcobj->stats.rx.bw[i];
  603. }
  604. for (i = 0; i < SS_COUNT; i++) {
  605. tgtobj->tx.nss[i] += srcobj->stats.tx.nss[i];
  606. tgtobj->rx.nss[i] += srcobj->stats.rx.nss[i];
  607. }
  608. for (i = 0; i < WME_AC_MAX; i++) {
  609. tgtobj->tx.wme_ac_type[i] +=
  610. srcobj->stats.tx.wme_ac_type[i];
  611. tgtobj->rx.wme_ac_type[i] +=
  612. srcobj->stats.rx.wme_ac_type[i];
  613. tgtobj->tx.excess_retries_per_ac[i] +=
  614. srcobj->stats.tx.excess_retries_per_ac[i];
  615. }
  616. for (i = 0; i < MAX_GI; i++) {
  617. tgtobj->tx.sgi_count[i] +=
  618. srcobj->stats.tx.sgi_count[i];
  619. tgtobj->rx.sgi_count[i] +=
  620. srcobj->stats.rx.sgi_count[i];
  621. }
  622. for (i = 0; i < MAX_RECEPTION_TYPES; i++)
  623. tgtobj->rx.reception_type[i] +=
  624. srcobj->stats.rx.reception_type[i];
  625. tgtobj->tx.comp_pkt.bytes += srcobj->stats.tx.comp_pkt.bytes;
  626. tgtobj->tx.comp_pkt.num += srcobj->stats.tx.comp_pkt.num;
  627. tgtobj->tx.ucast.num += srcobj->stats.tx.ucast.num;
  628. tgtobj->tx.ucast.bytes += srcobj->stats.tx.ucast.bytes;
  629. tgtobj->tx.mcast.num += srcobj->stats.tx.mcast.num;
  630. tgtobj->tx.mcast.bytes += srcobj->stats.tx.mcast.bytes;
  631. tgtobj->tx.bcast.num += srcobj->stats.tx.bcast.num;
  632. tgtobj->tx.bcast.bytes += srcobj->stats.tx.bcast.bytes;
  633. tgtobj->tx.tx_success.num += srcobj->stats.tx.tx_success.num;
  634. tgtobj->tx.tx_success.bytes +=
  635. srcobj->stats.tx.tx_success.bytes;
  636. tgtobj->tx.nawds_mcast.num +=
  637. srcobj->stats.tx.nawds_mcast.num;
  638. tgtobj->tx.nawds_mcast.bytes +=
  639. srcobj->stats.tx.nawds_mcast.bytes;
  640. tgtobj->tx.nawds_mcast_drop +=
  641. srcobj->stats.tx.nawds_mcast_drop;
  642. tgtobj->tx.num_ppdu_cookie_valid +=
  643. srcobj->stats.tx.num_ppdu_cookie_valid;
  644. tgtobj->tx.tx_failed += srcobj->stats.tx.tx_failed;
  645. tgtobj->tx.ofdma += srcobj->stats.tx.ofdma;
  646. tgtobj->tx.stbc += srcobj->stats.tx.stbc;
  647. tgtobj->tx.ldpc += srcobj->stats.tx.ldpc;
  648. tgtobj->tx.retries += srcobj->stats.tx.retries;
  649. tgtobj->tx.non_amsdu_cnt += srcobj->stats.tx.non_amsdu_cnt;
  650. tgtobj->tx.amsdu_cnt += srcobj->stats.tx.amsdu_cnt;
  651. tgtobj->tx.non_ampdu_cnt += srcobj->stats.tx.non_ampdu_cnt;
  652. tgtobj->tx.ampdu_cnt += srcobj->stats.tx.ampdu_cnt;
  653. tgtobj->tx.dropped.fw_rem.num += srcobj->stats.tx.dropped.fw_rem.num;
  654. tgtobj->tx.dropped.fw_rem.bytes +=
  655. srcobj->stats.tx.dropped.fw_rem.bytes;
  656. tgtobj->tx.dropped.fw_rem_tx +=
  657. srcobj->stats.tx.dropped.fw_rem_tx;
  658. tgtobj->tx.dropped.fw_rem_notx +=
  659. srcobj->stats.tx.dropped.fw_rem_notx;
  660. tgtobj->tx.dropped.fw_reason1 +=
  661. srcobj->stats.tx.dropped.fw_reason1;
  662. tgtobj->tx.dropped.fw_reason2 +=
  663. srcobj->stats.tx.dropped.fw_reason2;
  664. tgtobj->tx.dropped.fw_reason3 +=
  665. srcobj->stats.tx.dropped.fw_reason3;
  666. tgtobj->tx.dropped.age_out += srcobj->stats.tx.dropped.age_out;
  667. tgtobj->rx.err.mic_err += srcobj->stats.rx.err.mic_err;
  668. if (srcobj->stats.rx.rssi != 0)
  669. tgtobj->rx.rssi = srcobj->stats.rx.rssi;
  670. tgtobj->rx.rx_rate = srcobj->stats.rx.rx_rate;
  671. tgtobj->rx.err.decrypt_err += srcobj->stats.rx.err.decrypt_err;
  672. tgtobj->rx.non_ampdu_cnt += srcobj->stats.rx.non_ampdu_cnt;
  673. tgtobj->rx.amsdu_cnt += srcobj->stats.rx.ampdu_cnt;
  674. tgtobj->rx.non_amsdu_cnt += srcobj->stats.rx.non_amsdu_cnt;
  675. tgtobj->rx.amsdu_cnt += srcobj->stats.rx.amsdu_cnt;
  676. tgtobj->rx.nawds_mcast_drop += srcobj->stats.rx.nawds_mcast_drop;
  677. tgtobj->rx.to_stack.num += srcobj->stats.rx.to_stack.num;
  678. tgtobj->rx.to_stack.bytes += srcobj->stats.rx.to_stack.bytes;
  679. for (i = 0; i < CDP_MAX_RX_RINGS; i++) {
  680. tgtobj->rx.rcvd_reo[i].num +=
  681. srcobj->stats.rx.rcvd_reo[i].num;
  682. tgtobj->rx.rcvd_reo[i].bytes +=
  683. srcobj->stats.rx.rcvd_reo[i].bytes;
  684. }
  685. srcobj->stats.rx.unicast.num =
  686. srcobj->stats.rx.to_stack.num -
  687. srcobj->stats.rx.multicast.num;
  688. srcobj->stats.rx.unicast.bytes =
  689. srcobj->stats.rx.to_stack.bytes -
  690. srcobj->stats.rx.multicast.bytes;
  691. tgtobj->rx.unicast.num += srcobj->stats.rx.unicast.num;
  692. tgtobj->rx.unicast.bytes += srcobj->stats.rx.unicast.bytes;
  693. tgtobj->rx.multicast.num += srcobj->stats.rx.multicast.num;
  694. tgtobj->rx.multicast.bytes += srcobj->stats.rx.multicast.bytes;
  695. tgtobj->rx.bcast.num += srcobj->stats.rx.bcast.num;
  696. tgtobj->rx.bcast.bytes += srcobj->stats.rx.bcast.bytes;
  697. tgtobj->rx.raw.num += srcobj->stats.rx.raw.num;
  698. tgtobj->rx.raw.bytes += srcobj->stats.rx.raw.bytes;
  699. tgtobj->rx.intra_bss.pkts.num +=
  700. srcobj->stats.rx.intra_bss.pkts.num;
  701. tgtobj->rx.intra_bss.pkts.bytes +=
  702. srcobj->stats.rx.intra_bss.pkts.bytes;
  703. tgtobj->rx.intra_bss.fail.num +=
  704. srcobj->stats.rx.intra_bss.fail.num;
  705. tgtobj->rx.intra_bss.fail.bytes +=
  706. srcobj->stats.rx.intra_bss.fail.bytes;
  707. tgtobj->tx.last_ack_rssi =
  708. srcobj->stats.tx.last_ack_rssi;
  709. tgtobj->rx.mec_drop.num += srcobj->stats.rx.mec_drop.num;
  710. tgtobj->rx.mec_drop.bytes += srcobj->stats.rx.mec_drop.bytes;
  711. tgtobj->rx.multipass_rx_pkt_drop +=
  712. srcobj->stats.rx.multipass_rx_pkt_drop;
  713. }
  714. #define DP_UPDATE_STATS(_tgtobj, _srcobj) \
  715. do { \
  716. uint8_t i; \
  717. uint8_t pream_type; \
  718. for (pream_type = 0; pream_type < DOT11_MAX; pream_type++) { \
  719. for (i = 0; i < MAX_MCS; i++) { \
  720. DP_STATS_AGGR(_tgtobj, _srcobj, \
  721. tx.pkt_type[pream_type].mcs_count[i]); \
  722. DP_STATS_AGGR(_tgtobj, _srcobj, \
  723. rx.pkt_type[pream_type].mcs_count[i]); \
  724. } \
  725. } \
  726. \
  727. for (i = 0; i < MAX_BW; i++) { \
  728. DP_STATS_AGGR(_tgtobj, _srcobj, tx.bw[i]); \
  729. DP_STATS_AGGR(_tgtobj, _srcobj, rx.bw[i]); \
  730. } \
  731. \
  732. for (i = 0; i < SS_COUNT; i++) { \
  733. DP_STATS_AGGR(_tgtobj, _srcobj, rx.nss[i]); \
  734. DP_STATS_AGGR(_tgtobj, _srcobj, tx.nss[i]); \
  735. } \
  736. for (i = 0; i < WME_AC_MAX; i++) { \
  737. DP_STATS_AGGR(_tgtobj, _srcobj, tx.wme_ac_type[i]); \
  738. DP_STATS_AGGR(_tgtobj, _srcobj, rx.wme_ac_type[i]); \
  739. DP_STATS_AGGR(_tgtobj, _srcobj, tx.excess_retries_per_ac[i]); \
  740. \
  741. } \
  742. \
  743. for (i = 0; i < MAX_GI; i++) { \
  744. DP_STATS_AGGR(_tgtobj, _srcobj, tx.sgi_count[i]); \
  745. DP_STATS_AGGR(_tgtobj, _srcobj, rx.sgi_count[i]); \
  746. } \
  747. \
  748. for (i = 0; i < MAX_RECEPTION_TYPES; i++) \
  749. DP_STATS_AGGR(_tgtobj, _srcobj, rx.reception_type[i]); \
  750. \
  751. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.comp_pkt); \
  752. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.ucast); \
  753. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.mcast); \
  754. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.bcast); \
  755. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.tx_success); \
  756. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.nawds_mcast); \
  757. DP_STATS_AGGR(_tgtobj, _srcobj, tx.nawds_mcast_drop); \
  758. DP_STATS_AGGR(_tgtobj, _srcobj, tx.tx_failed); \
  759. DP_STATS_AGGR(_tgtobj, _srcobj, tx.ofdma); \
  760. DP_STATS_AGGR(_tgtobj, _srcobj, tx.stbc); \
  761. DP_STATS_AGGR(_tgtobj, _srcobj, tx.ldpc); \
  762. DP_STATS_AGGR(_tgtobj, _srcobj, tx.retries); \
  763. DP_STATS_AGGR(_tgtobj, _srcobj, tx.non_amsdu_cnt); \
  764. DP_STATS_AGGR(_tgtobj, _srcobj, tx.amsdu_cnt); \
  765. DP_STATS_AGGR(_tgtobj, _srcobj, tx.non_ampdu_cnt); \
  766. DP_STATS_AGGR(_tgtobj, _srcobj, tx.ampdu_cnt); \
  767. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.dropped.fw_rem); \
  768. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_rem_tx); \
  769. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_rem_notx); \
  770. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_reason1); \
  771. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_reason2); \
  772. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_reason3); \
  773. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.age_out); \
  774. \
  775. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.mic_err); \
  776. if (_srcobj->stats.rx.rssi != 0) \
  777. DP_STATS_UPD_STRUCT(_tgtobj, _srcobj, rx.rssi); \
  778. DP_STATS_UPD_STRUCT(_tgtobj, _srcobj, rx.rx_rate); \
  779. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.decrypt_err); \
  780. DP_STATS_AGGR(_tgtobj, _srcobj, rx.non_ampdu_cnt); \
  781. DP_STATS_AGGR(_tgtobj, _srcobj, rx.ampdu_cnt); \
  782. DP_STATS_AGGR(_tgtobj, _srcobj, rx.non_amsdu_cnt); \
  783. DP_STATS_AGGR(_tgtobj, _srcobj, rx.amsdu_cnt); \
  784. DP_STATS_AGGR(_tgtobj, _srcobj, rx.nawds_mcast_drop); \
  785. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.to_stack); \
  786. \
  787. for (i = 0; i < CDP_MAX_RX_RINGS; i++) \
  788. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.rcvd_reo[i]); \
  789. \
  790. _srcobj->stats.rx.unicast.num = \
  791. _srcobj->stats.rx.to_stack.num - \
  792. _srcobj->stats.rx.multicast.num; \
  793. _srcobj->stats.rx.unicast.bytes = \
  794. _srcobj->stats.rx.to_stack.bytes - \
  795. _srcobj->stats.rx.multicast.bytes; \
  796. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.unicast); \
  797. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.multicast); \
  798. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.bcast); \
  799. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.raw); \
  800. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.intra_bss.pkts); \
  801. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.intra_bss.fail); \
  802. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.mec_drop); \
  803. \
  804. _tgtobj->stats.tx.last_ack_rssi = \
  805. _srcobj->stats.tx.last_ack_rssi; \
  806. DP_STATS_AGGR(_tgtobj, _srcobj, rx.multipass_rx_pkt_drop); \
  807. } while (0)
  808. extern int dp_peer_find_attach(struct dp_soc *soc);
  809. extern void dp_peer_find_detach(struct dp_soc *soc);
  810. extern void dp_peer_find_hash_add(struct dp_soc *soc, struct dp_peer *peer);
  811. extern void dp_peer_find_hash_remove(struct dp_soc *soc, struct dp_peer *peer);
  812. extern void dp_peer_find_hash_erase(struct dp_soc *soc);
  813. /*
  814. * dp_peer_ppdu_delayed_ba_init() Initialize ppdu in peer
  815. * @peer: Datapath peer
  816. *
  817. * return: void
  818. */
  819. void dp_peer_ppdu_delayed_ba_init(struct dp_peer *peer);
  820. /*
  821. * dp_peer_ppdu_delayed_ba_cleanup() free ppdu allocated in peer
  822. * @peer: Datapath peer
  823. *
  824. * return: void
  825. */
  826. void dp_peer_ppdu_delayed_ba_cleanup(struct dp_peer *peer);
  827. extern void dp_peer_rx_init(struct dp_pdev *pdev, struct dp_peer *peer);
  828. void dp_peer_tx_init(struct dp_pdev *pdev, struct dp_peer *peer);
  829. void dp_peer_cleanup(struct dp_vdev *vdev, struct dp_peer *peer,
  830. bool reuse);
  831. void dp_peer_rx_cleanup(struct dp_vdev *vdev, struct dp_peer *peer,
  832. bool reuse);
  833. void dp_peer_unref_delete(struct dp_peer *peer);
  834. extern void *dp_find_peer_by_addr(struct cdp_pdev *dev,
  835. uint8_t *peer_mac_addr);
  836. extern struct dp_peer *dp_peer_find_hash_find(struct dp_soc *soc,
  837. uint8_t *peer_mac_addr, int mac_addr_is_aligned, uint8_t vdev_id);
  838. #ifdef DP_PEER_EXTENDED_API
  839. /**
  840. * dp_register_peer() - Register peer into physical device
  841. * @soc_hdl - data path soc handle
  842. * @pdev_id - device instance id
  843. * @sta_desc - peer description
  844. *
  845. * Register peer into physical device
  846. *
  847. * Return: QDF_STATUS_SUCCESS registration success
  848. * QDF_STATUS_E_FAULT peer not found
  849. */
  850. QDF_STATUS dp_register_peer(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  851. struct ol_txrx_desc_type *sta_desc);
  852. /**
  853. * dp_clear_peer() - remove peer from physical device
  854. * @soc_hdl - data path soc handle
  855. * @pdev_id - device instance id
  856. * @peer_addr - peer mac address
  857. *
  858. * remove peer from physical device
  859. *
  860. * Return: QDF_STATUS_SUCCESS registration success
  861. * QDF_STATUS_E_FAULT peer not found
  862. */
  863. QDF_STATUS dp_clear_peer(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  864. struct qdf_mac_addr peer_addr);
  865. /*
  866. * dp_find_peer_exist - find peer if already exists
  867. * @soc: datapath soc handle
  868. * @pdev_id: physical device instance id
  869. * @peer_mac_addr: peer mac address
  870. *
  871. * Return: true or false
  872. */
  873. bool dp_find_peer_exist(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  874. uint8_t *peer_addr);
  875. /*
  876. * dp_find_peer_exist_on_vdev - find if peer exists on the given vdev
  877. * @soc: datapath soc handle
  878. * @vdev_id: vdev instance id
  879. * @peer_mac_addr: peer mac address
  880. *
  881. * Return: true or false
  882. */
  883. bool dp_find_peer_exist_on_vdev(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
  884. uint8_t *peer_addr);
  885. /*
  886. * dp_find_peer_exist_on_other_vdev - find if peer exists
  887. * on other than the given vdev
  888. * @soc: datapath soc handle
  889. * @vdev_id: vdev instance id
  890. * @peer_mac_addr: peer mac address
  891. * @max_bssid: max number of bssids
  892. *
  893. * Return: true or false
  894. */
  895. bool dp_find_peer_exist_on_other_vdev(struct cdp_soc_t *soc_hdl,
  896. uint8_t vdev_id, uint8_t *peer_addr,
  897. uint16_t max_bssid);
  898. void *dp_find_peer_by_addr_and_vdev(struct cdp_pdev *pdev_handle,
  899. struct cdp_vdev *vdev,
  900. uint8_t *peer_addr);
  901. /**
  902. * dp_peer_state_update() - update peer local state
  903. * @pdev - data path device instance
  904. * @peer_addr - peer mac address
  905. * @state - new peer local state
  906. *
  907. * update peer local state
  908. *
  909. * Return: QDF_STATUS_SUCCESS registration success
  910. */
  911. QDF_STATUS dp_peer_state_update(struct cdp_soc_t *soc, uint8_t *peer_mac,
  912. enum ol_txrx_peer_state state);
  913. /**
  914. * dp_get_vdevid() - Get virtual interface id which peer registered
  915. * @soc - datapath soc handle
  916. * @peer_mac - peer mac address
  917. * @vdev_id - virtual interface id which peer registered
  918. *
  919. * Get virtual interface id which peer registered
  920. *
  921. * Return: QDF_STATUS_SUCCESS registration success
  922. */
  923. QDF_STATUS dp_get_vdevid(struct cdp_soc_t *soc_hdl, uint8_t *peer_mac,
  924. uint8_t *vdev_id);
  925. struct cdp_vdev *dp_get_vdev_by_peer_addr(struct cdp_pdev *pdev_handle,
  926. struct qdf_mac_addr peer_addr);
  927. struct cdp_vdev *dp_get_vdev_for_peer(void *peer);
  928. uint8_t *dp_peer_get_peer_mac_addr(void *peer);
  929. /**
  930. * dp_get_peer_state() - Get local peer state
  931. * @soc - datapath soc handle
  932. * @vdev_id - vdev id
  933. * @peer_mac - peer mac addr
  934. *
  935. * Get local peer state
  936. *
  937. * Return: peer status
  938. */
  939. int dp_get_peer_state(struct cdp_soc_t *soc, uint8_t vdev_id,
  940. uint8_t *peer_mac);
  941. void dp_local_peer_id_pool_init(struct dp_pdev *pdev);
  942. void dp_local_peer_id_alloc(struct dp_pdev *pdev, struct dp_peer *peer);
  943. void dp_local_peer_id_free(struct dp_pdev *pdev, struct dp_peer *peer);
  944. #else
  945. /**
  946. * dp_get_vdevid() - Get virtual interface id which peer registered
  947. * @soc - datapath soc handle
  948. * @peer_mac - peer mac address
  949. * @vdev_id - virtual interface id which peer registered
  950. *
  951. * Get virtual interface id which peer registered
  952. *
  953. * Return: QDF_STATUS_SUCCESS registration success
  954. */
  955. static inline
  956. QDF_STATUS dp_get_vdevid(struct cdp_soc_t *soc_hdl, uint8_t *peer_mac,
  957. uint8_t *vdev_id)
  958. {
  959. return QDF_STATUS_E_NOSUPPORT;
  960. }
  961. static inline void dp_local_peer_id_pool_init(struct dp_pdev *pdev)
  962. {
  963. }
  964. static inline
  965. void dp_local_peer_id_alloc(struct dp_pdev *pdev, struct dp_peer *peer)
  966. {
  967. }
  968. static inline
  969. void dp_local_peer_id_free(struct dp_pdev *pdev, struct dp_peer *peer)
  970. {
  971. }
  972. #endif
  973. int dp_addba_resp_tx_completion_wifi3(struct cdp_soc_t *cdp_soc,
  974. uint8_t *peer_mac, uint16_t vdev_id,
  975. uint8_t tid,
  976. int status);
  977. int dp_addba_requestprocess_wifi3(struct cdp_soc_t *cdp_soc,
  978. uint8_t *peer_mac, uint16_t vdev_id,
  979. uint8_t dialogtoken, uint16_t tid,
  980. uint16_t batimeout,
  981. uint16_t buffersize,
  982. uint16_t startseqnum);
  983. QDF_STATUS dp_addba_responsesetup_wifi3(struct cdp_soc_t *cdp_soc,
  984. uint8_t *peer_mac, uint16_t vdev_id,
  985. uint8_t tid, uint8_t *dialogtoken,
  986. uint16_t *statuscode,
  987. uint16_t *buffersize,
  988. uint16_t *batimeout);
  989. QDF_STATUS dp_set_addba_response(struct cdp_soc_t *cdp_soc,
  990. uint8_t *peer_mac,
  991. uint16_t vdev_id, uint8_t tid,
  992. uint16_t statuscode);
  993. int dp_delba_process_wifi3(struct cdp_soc_t *cdp_soc, uint8_t *peer_mac,
  994. uint16_t vdev_id, int tid,
  995. uint16_t reasoncode);
  996. /*
  997. * dp_delba_tx_completion_wifi3() - Handle delba tx completion
  998. *
  999. * @cdp_soc: soc handle
  1000. * @vdev_id: id of the vdev handle
  1001. * @peer_mac: peer mac address
  1002. * @tid: Tid number
  1003. * @status: Tx completion status
  1004. * Indicate status of delba Tx to DP for stats update and retry
  1005. * delba if tx failed.
  1006. *
  1007. */
  1008. int dp_delba_tx_completion_wifi3(struct cdp_soc_t *cdp_soc, uint8_t *peer_mac,
  1009. uint16_t vdev_id, uint8_t tid,
  1010. int status);
  1011. extern QDF_STATUS dp_rx_tid_setup_wifi3(struct dp_peer *peer, int tid,
  1012. uint32_t ba_window_size,
  1013. uint32_t start_seq);
  1014. extern QDF_STATUS dp_reo_send_cmd(struct dp_soc *soc,
  1015. enum hal_reo_cmd_type type, struct hal_reo_cmd_params *params,
  1016. void (*callback_fn), void *data);
  1017. extern void dp_reo_cmdlist_destroy(struct dp_soc *soc);
  1018. /**
  1019. * dp_reo_status_ring_handler - Handler for REO Status ring
  1020. * @int_ctx: pointer to DP interrupt context
  1021. * @soc: DP Soc handle
  1022. *
  1023. * Returns: Number of descriptors reaped
  1024. */
  1025. uint32_t dp_reo_status_ring_handler(struct dp_intr *int_ctx,
  1026. struct dp_soc *soc);
  1027. void dp_aggregate_vdev_stats(struct dp_vdev *vdev,
  1028. struct cdp_vdev_stats *vdev_stats);
  1029. void dp_rx_tid_stats_cb(struct dp_soc *soc, void *cb_ctxt,
  1030. union hal_reo_status *reo_status);
  1031. void dp_rx_bar_stats_cb(struct dp_soc *soc, void *cb_ctxt,
  1032. union hal_reo_status *reo_status);
  1033. uint16_t dp_tx_me_send_convert_ucast(struct cdp_soc_t *soc, uint8_t vdev_id,
  1034. qdf_nbuf_t nbuf,
  1035. uint8_t newmac[][QDF_MAC_ADDR_SIZE],
  1036. uint8_t new_mac_cnt);
  1037. void dp_tx_me_alloc_descriptor(struct cdp_soc_t *soc, uint8_t pdev_id);
  1038. void dp_tx_me_free_descriptor(struct cdp_soc_t *soc, uint8_t pdev_id);
  1039. QDF_STATUS dp_h2t_ext_stats_msg_send(struct dp_pdev *pdev,
  1040. uint32_t stats_type_upload_mask, uint32_t config_param_0,
  1041. uint32_t config_param_1, uint32_t config_param_2,
  1042. uint32_t config_param_3, int cookie, int cookie_msb,
  1043. uint8_t mac_id);
  1044. void dp_htt_stats_print_tag(struct dp_pdev *pdev,
  1045. uint8_t tag_type, uint32_t *tag_buf);
  1046. void dp_htt_stats_copy_tag(struct dp_pdev *pdev, uint8_t tag_type, uint32_t *tag_buf);
  1047. QDF_STATUS dp_h2t_3tuple_config_send(struct dp_pdev *pdev, uint32_t tuple_mask,
  1048. uint8_t mac_id);
  1049. /**
  1050. * dp_rxtid_stats_cmd_cb - function pointer for peer
  1051. * rx tid stats cmd call_back
  1052. */
  1053. typedef void (*dp_rxtid_stats_cmd_cb)(struct dp_soc *soc, void *cb_ctxt,
  1054. union hal_reo_status *reo_status);
  1055. int dp_peer_rxtid_stats(struct dp_peer *peer,
  1056. dp_rxtid_stats_cmd_cb dp_stats_cmd_cb,
  1057. void *cb_ctxt);
  1058. QDF_STATUS
  1059. dp_set_pn_check_wifi3(struct cdp_soc_t *soc, uint8_t vdev_id,
  1060. uint8_t *peer_mac, enum cdp_sec_type sec_type,
  1061. uint32_t *rx_pn);
  1062. QDF_STATUS
  1063. dp_set_key_sec_type_wifi3(struct cdp_soc_t *soc, uint8_t vdev_id,
  1064. uint8_t *peer_mac, enum cdp_sec_type sec_type,
  1065. bool is_unicast);
  1066. void *dp_get_pdev_for_mac_id(struct dp_soc *soc, uint32_t mac_id);
  1067. QDF_STATUS
  1068. dp_set_michael_key(struct cdp_soc_t *soc, uint8_t vdev_id,
  1069. uint8_t *peer_mac,
  1070. bool is_unicast, uint32_t *key);
  1071. /**
  1072. * dp_check_pdev_exists() - Validate pdev before use
  1073. * @soc - dp soc handle
  1074. * @data - pdev handle
  1075. *
  1076. * Return: 0 - success/invalid - failure
  1077. */
  1078. bool dp_check_pdev_exists(struct dp_soc *soc, struct dp_pdev *data);
  1079. /**
  1080. * dp_update_delay_stats() - Update delay statistics in structure
  1081. * and fill min, max and avg delay
  1082. * @pdev: pdev handle
  1083. * @delay: delay in ms
  1084. * @tid: tid value
  1085. * @mode: type of tx delay mode
  1086. * @ring id: ring number
  1087. *
  1088. * Return: none
  1089. */
  1090. void dp_update_delay_stats(struct dp_pdev *pdev, uint32_t delay,
  1091. uint8_t tid, uint8_t mode, uint8_t ring_id);
  1092. /**
  1093. * dp_print_ring_stats(): Print tail and head pointer
  1094. * @pdev: DP_PDEV handle
  1095. *
  1096. * Return:void
  1097. */
  1098. void dp_print_ring_stats(struct dp_pdev *pdev);
  1099. /**
  1100. * dp_print_pdev_cfg_params() - Print the pdev cfg parameters
  1101. * @pdev_handle: DP pdev handle
  1102. *
  1103. * Return - void
  1104. */
  1105. void dp_print_pdev_cfg_params(struct dp_pdev *pdev);
  1106. /**
  1107. * dp_print_soc_cfg_params()- Dump soc wlan config parameters
  1108. * @soc_handle: Soc handle
  1109. *
  1110. * Return: void
  1111. */
  1112. void dp_print_soc_cfg_params(struct dp_soc *soc);
  1113. /**
  1114. * dp_srng_get_str_from_ring_type() - Return string name for a ring
  1115. * @ring_type: Ring
  1116. *
  1117. * Return: char const pointer
  1118. */
  1119. const
  1120. char *dp_srng_get_str_from_hal_ring_type(enum hal_ring_type ring_type);
  1121. /*
  1122. * dp_txrx_path_stats() - Function to display dump stats
  1123. * @soc - soc handle
  1124. *
  1125. * return: none
  1126. */
  1127. void dp_txrx_path_stats(struct dp_soc *soc);
  1128. /*
  1129. * dp_print_per_ring_stats(): Packet count per ring
  1130. * @soc - soc handle
  1131. *
  1132. * Return - None
  1133. */
  1134. void dp_print_per_ring_stats(struct dp_soc *soc);
  1135. /**
  1136. * dp_aggregate_pdev_stats(): Consolidate stats at PDEV level
  1137. * @pdev: DP PDEV handle
  1138. *
  1139. * return: void
  1140. */
  1141. void dp_aggregate_pdev_stats(struct dp_pdev *pdev);
  1142. /**
  1143. * dp_print_rx_rates(): Print Rx rate stats
  1144. * @vdev: DP_VDEV handle
  1145. *
  1146. * Return:void
  1147. */
  1148. void dp_print_rx_rates(struct dp_vdev *vdev);
  1149. /**
  1150. * dp_print_tx_rates(): Print tx rates
  1151. * @vdev: DP_VDEV handle
  1152. *
  1153. * Return:void
  1154. */
  1155. void dp_print_tx_rates(struct dp_vdev *vdev);
  1156. /**
  1157. * dp_print_peer_stats():print peer stats
  1158. * @peer: DP_PEER handle
  1159. *
  1160. * return void
  1161. */
  1162. void dp_print_peer_stats(struct dp_peer *peer);
  1163. /**
  1164. * dp_print_pdev_tx_stats(): Print Pdev level TX stats
  1165. * @pdev: DP_PDEV Handle
  1166. *
  1167. * Return:void
  1168. */
  1169. void
  1170. dp_print_pdev_tx_stats(struct dp_pdev *pdev);
  1171. /**
  1172. * dp_print_pdev_rx_stats(): Print Pdev level RX stats
  1173. * @pdev: DP_PDEV Handle
  1174. *
  1175. * Return: void
  1176. */
  1177. void
  1178. dp_print_pdev_rx_stats(struct dp_pdev *pdev);
  1179. /**
  1180. * dp_print_pdev_rx_mon_stats(): Print Pdev level RX monitor stats
  1181. * @pdev: DP_PDEV Handle
  1182. *
  1183. * Return: void
  1184. */
  1185. void
  1186. dp_print_pdev_rx_mon_stats(struct dp_pdev *pdev);
  1187. /**
  1188. * dp_print_soc_tx_stats(): Print SOC level stats
  1189. * @soc DP_SOC Handle
  1190. *
  1191. * Return: void
  1192. */
  1193. void dp_print_soc_tx_stats(struct dp_soc *soc);
  1194. /**
  1195. * dp_print_soc_interrupt_stats() - Print interrupt stats for the soc
  1196. * @soc: dp_soc handle
  1197. *
  1198. * Return: None
  1199. */
  1200. void dp_print_soc_interrupt_stats(struct dp_soc *soc);
  1201. /**
  1202. * dp_print_soc_rx_stats: Print SOC level Rx stats
  1203. * @soc: DP_SOC Handle
  1204. *
  1205. * Return:void
  1206. */
  1207. void dp_print_soc_rx_stats(struct dp_soc *soc);
  1208. /**
  1209. * dp_get_mac_id_for_pdev() - Return mac corresponding to pdev for mac
  1210. *
  1211. * @mac_id: MAC id
  1212. * @pdev_id: pdev_id corresponding to pdev, 0 for MCL
  1213. *
  1214. * Single pdev using both MACs will operate on both MAC rings,
  1215. * which is the case for MCL.
  1216. * For WIN each PDEV will operate one ring, so index is zero.
  1217. *
  1218. */
  1219. static inline int dp_get_mac_id_for_pdev(uint32_t mac_id, uint32_t pdev_id)
  1220. {
  1221. if (mac_id && pdev_id) {
  1222. qdf_print("Both mac_id and pdev_id cannot be non zero");
  1223. QDF_BUG(0);
  1224. return 0;
  1225. }
  1226. return (mac_id + pdev_id);
  1227. }
  1228. /**
  1229. * dp_get_lmac_id_for_pdev_id() - Return lmac id corresponding to host pdev id
  1230. * @soc: soc pointer
  1231. * @mac_id: MAC id
  1232. * @pdev_id: pdev_id corresponding to pdev, 0 for MCL
  1233. *
  1234. * For MCL, Single pdev using both MACs will operate on both MAC rings.
  1235. *
  1236. * For WIN, each PDEV will operate one ring.
  1237. *
  1238. */
  1239. static inline int
  1240. dp_get_lmac_id_for_pdev_id
  1241. (struct dp_soc *soc, uint32_t mac_id, uint32_t pdev_id)
  1242. {
  1243. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx)) {
  1244. if (mac_id && pdev_id) {
  1245. qdf_print("Both mac_id and pdev_id cannot be non zero");
  1246. QDF_BUG(0);
  1247. return 0;
  1248. }
  1249. return (mac_id + pdev_id);
  1250. }
  1251. return soc->pdev_list[pdev_id]->lmac_id;
  1252. }
  1253. /**
  1254. * dp_get_pdev_for_lmac_id() - Return pdev pointer corresponding to lmac id
  1255. * @soc: soc pointer
  1256. * @lmac_id: LMAC id
  1257. *
  1258. * For MCL, Single pdev exists
  1259. *
  1260. * For WIN, each PDEV will operate one ring.
  1261. *
  1262. */
  1263. static inline struct dp_pdev *
  1264. dp_get_pdev_for_lmac_id(struct dp_soc *soc, uint32_t lmac_id)
  1265. {
  1266. uint8_t i = 0;
  1267. if (wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx)) {
  1268. i = wlan_cfg_get_pdev_idx(soc->wlan_cfg_ctx, lmac_id);
  1269. return ((i < MAX_PDEV_CNT) ? soc->pdev_list[i] : NULL);
  1270. }
  1271. /* Typically for MCL as there only 1 PDEV*/
  1272. return soc->pdev_list[0];
  1273. }
  1274. /**
  1275. * dp_calculate_target_pdev_id_from_host_pdev_id() - Return target pdev
  1276. * corresponding to host pdev id
  1277. * @soc: soc pointer
  1278. * @mac_for_pdev: pdev_id corresponding to host pdev for WIN, mac id for MCL
  1279. *
  1280. * returns target pdev_id for host pdev id. For WIN, this is derived through
  1281. * a two step process:
  1282. * 1. Get lmac_id corresponding to host pdev_id (lmac_id can change
  1283. * during mode switch)
  1284. * 2. Get target pdev_id (set up during WMI ready) from lmac_id
  1285. *
  1286. * For MCL, return the offset-1 translated mac_id
  1287. */
  1288. static inline int
  1289. dp_calculate_target_pdev_id_from_host_pdev_id
  1290. (struct dp_soc *soc, uint32_t mac_for_pdev)
  1291. {
  1292. struct dp_pdev *pdev;
  1293. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx))
  1294. return DP_SW2HW_MACID(mac_for_pdev);
  1295. pdev = soc->pdev_list[mac_for_pdev];
  1296. /*non-MCL case, get original target_pdev mapping*/
  1297. return wlan_cfg_get_target_pdev_id(soc->wlan_cfg_ctx, pdev->lmac_id);
  1298. }
  1299. /**
  1300. * dp_get_target_pdev_id_for_host_pdev_id() - Return target pdev corresponding
  1301. * to host pdev id
  1302. * @soc: soc pointer
  1303. * @mac_for_pdev: pdev_id corresponding to host pdev for WIN, mac id for MCL
  1304. *
  1305. * returns target pdev_id for host pdev id.
  1306. * For WIN, return the value stored in pdev object.
  1307. * For MCL, return the offset-1 translated mac_id.
  1308. */
  1309. static inline int
  1310. dp_get_target_pdev_id_for_host_pdev_id
  1311. (struct dp_soc *soc, uint32_t mac_for_pdev)
  1312. {
  1313. struct dp_pdev *pdev = soc->pdev_list[mac_for_pdev];
  1314. return pdev->target_pdev_id;
  1315. }
  1316. /**
  1317. * dp_get_host_pdev_id_for_target_pdev_id() - Return host pdev corresponding
  1318. * to target pdev id
  1319. * @soc: soc pointer
  1320. * @pdev_id: pdev_id corresponding to target pdev
  1321. *
  1322. * returns host pdev_id for target pdev id. For WIN, this is derived through
  1323. * a two step process:
  1324. * 1. Get lmac_id corresponding to target pdev_id
  1325. * 2. Get host pdev_id (set up during WMI ready) from lmac_id
  1326. *
  1327. * For MCL, return the 0-offset pdev_id
  1328. */
  1329. static inline int
  1330. dp_get_host_pdev_id_for_target_pdev_id
  1331. (struct dp_soc *soc, uint32_t pdev_id)
  1332. {
  1333. struct dp_pdev *pdev;
  1334. int lmac_id;
  1335. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx))
  1336. return DP_HW2SW_MACID(pdev_id);
  1337. /*non-MCL case, get original target_lmac mapping from target pdev*/
  1338. lmac_id = wlan_cfg_get_hw_mac_idx(soc->wlan_cfg_ctx,
  1339. DP_HW2SW_MACID(pdev_id));
  1340. /*Get host pdev from lmac*/
  1341. pdev = dp_get_pdev_for_lmac_id(soc, lmac_id);
  1342. return pdev ? pdev->pdev_id : INVALID_PDEV_ID;
  1343. }
  1344. /*
  1345. * dp_get_mac_id_for_mac() - Return mac corresponding WIN and MCL mac_ids
  1346. *
  1347. * @soc: handle to DP soc
  1348. * @mac_id: MAC id
  1349. *
  1350. * Single pdev using both MACs will operate on both MAC rings,
  1351. * which is the case for MCL.
  1352. * For WIN each PDEV will operate one ring, so index is zero.
  1353. *
  1354. */
  1355. static inline int dp_get_mac_id_for_mac(struct dp_soc *soc, uint32_t mac_id)
  1356. {
  1357. /*
  1358. * Single pdev using both MACs will operate on both MAC rings,
  1359. * which is the case for MCL.
  1360. */
  1361. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx))
  1362. return mac_id;
  1363. /* For WIN each PDEV will operate one ring, so index is zero. */
  1364. return 0;
  1365. }
  1366. bool dp_is_soc_reinit(struct dp_soc *soc);
  1367. /*
  1368. * dp_is_subtype_data() - check if the frame subtype is data
  1369. *
  1370. * @frame_ctrl: Frame control field
  1371. *
  1372. * check the frame control field and verify if the packet
  1373. * is a data packet.
  1374. *
  1375. * Return: true or false
  1376. */
  1377. static inline bool dp_is_subtype_data(uint16_t frame_ctrl)
  1378. {
  1379. if (((qdf_cpu_to_le16(frame_ctrl) & QDF_IEEE80211_FC0_TYPE_MASK) ==
  1380. QDF_IEEE80211_FC0_TYPE_DATA) &&
  1381. (((qdf_cpu_to_le16(frame_ctrl) & QDF_IEEE80211_FC0_SUBTYPE_MASK) ==
  1382. QDF_IEEE80211_FC0_SUBTYPE_DATA) ||
  1383. ((qdf_cpu_to_le16(frame_ctrl) & QDF_IEEE80211_FC0_SUBTYPE_MASK) ==
  1384. QDF_IEEE80211_FC0_SUBTYPE_QOS))) {
  1385. return true;
  1386. }
  1387. return false;
  1388. }
  1389. #ifdef WDI_EVENT_ENABLE
  1390. QDF_STATUS dp_h2t_cfg_stats_msg_send(struct dp_pdev *pdev,
  1391. uint32_t stats_type_upload_mask,
  1392. uint8_t mac_id);
  1393. int dp_wdi_event_unsub(struct cdp_soc_t *soc, uint8_t pdev_id,
  1394. wdi_event_subscribe *event_cb_sub_handle,
  1395. uint32_t event);
  1396. int dp_wdi_event_sub(struct cdp_soc_t *soc, uint8_t pdev_id,
  1397. wdi_event_subscribe *event_cb_sub_handle,
  1398. uint32_t event);
  1399. void dp_wdi_event_handler(enum WDI_EVENT event, struct dp_soc *soc,
  1400. void *data, u_int16_t peer_id,
  1401. int status, u_int8_t pdev_id);
  1402. int dp_wdi_event_attach(struct dp_pdev *txrx_pdev);
  1403. int dp_wdi_event_detach(struct dp_pdev *txrx_pdev);
  1404. int dp_set_pktlog_wifi3(struct dp_pdev *pdev, uint32_t event,
  1405. bool enable);
  1406. /**
  1407. * dp_get_pldev() - function to get pktlog device handle
  1408. * @soc_hdl: datapath soc handle
  1409. * @pdev_id: physical device id
  1410. *
  1411. * Return: pktlog device handle or NULL
  1412. */
  1413. void *dp_get_pldev(struct cdp_soc_t *soc_hdl, uint8_t pdev_id);
  1414. void dp_pkt_log_init(struct cdp_soc_t *soc_hdl, uint8_t pdev_id, void *scn);
  1415. static inline void
  1416. dp_hif_update_pipe_callback(struct dp_soc *dp_soc,
  1417. void *cb_context,
  1418. QDF_STATUS (*callback)(void *, qdf_nbuf_t, uint8_t),
  1419. uint8_t pipe_id)
  1420. {
  1421. struct hif_msg_callbacks hif_pipe_callbacks;
  1422. /* TODO: Temporary change to bypass HTC connection for this new
  1423. * HIF pipe, which will be used for packet log and other high-
  1424. * priority HTT messages. Proper HTC connection to be added
  1425. * later once required FW changes are available
  1426. */
  1427. hif_pipe_callbacks.rxCompletionHandler = callback;
  1428. hif_pipe_callbacks.Context = cb_context;
  1429. hif_update_pipe_callback(dp_soc->hif_handle,
  1430. DP_HTT_T2H_HP_PIPE, &hif_pipe_callbacks);
  1431. }
  1432. QDF_STATUS dp_peer_stats_notify(struct dp_pdev *pdev, struct dp_peer *peer);
  1433. #else
  1434. static inline int dp_wdi_event_unsub(struct cdp_soc_t *soc, uint8_t pdev_id,
  1435. wdi_event_subscribe *event_cb_sub_handle,
  1436. uint32_t event)
  1437. {
  1438. return 0;
  1439. }
  1440. static inline int dp_wdi_event_sub(struct cdp_soc_t *soc, uint8_t pdev_id,
  1441. wdi_event_subscribe *event_cb_sub_handle,
  1442. uint32_t event)
  1443. {
  1444. return 0;
  1445. }
  1446. static inline
  1447. void dp_wdi_event_handler(enum WDI_EVENT event,
  1448. struct dp_soc *soc,
  1449. void *data, u_int16_t peer_id,
  1450. int status, u_int8_t pdev_id)
  1451. {
  1452. }
  1453. static inline int dp_wdi_event_attach(struct dp_pdev *txrx_pdev)
  1454. {
  1455. return 0;
  1456. }
  1457. static inline int dp_wdi_event_detach(struct dp_pdev *txrx_pdev)
  1458. {
  1459. return 0;
  1460. }
  1461. static inline int dp_set_pktlog_wifi3(struct dp_pdev *pdev, uint32_t event,
  1462. bool enable)
  1463. {
  1464. return 0;
  1465. }
  1466. static inline QDF_STATUS dp_h2t_cfg_stats_msg_send(struct dp_pdev *pdev,
  1467. uint32_t stats_type_upload_mask, uint8_t mac_id)
  1468. {
  1469. return 0;
  1470. }
  1471. static inline void
  1472. dp_hif_update_pipe_callback(struct dp_soc *dp_soc, void *cb_context,
  1473. QDF_STATUS (*callback)(void *, qdf_nbuf_t, uint8_t),
  1474. uint8_t pipe_id)
  1475. {
  1476. }
  1477. static inline QDF_STATUS dp_peer_stats_notify(struct dp_pdev *pdev,
  1478. struct dp_peer *peer)
  1479. {
  1480. return QDF_STATUS_SUCCESS;
  1481. }
  1482. #endif /* CONFIG_WIN */
  1483. #ifdef VDEV_PEER_PROTOCOL_COUNT
  1484. /**
  1485. * dp_vdev_peer_stats_update_protocol_cnt() - update per-peer protocol counters
  1486. * @vdev: VDEV DP object
  1487. * @nbuf: data packet
  1488. * @peer: Peer DP object
  1489. * @is_egress: whether egress or ingress
  1490. * @is_rx: whether rx or tx
  1491. *
  1492. * This function updates the per-peer protocol counters
  1493. * Return: void
  1494. */
  1495. void dp_vdev_peer_stats_update_protocol_cnt(struct dp_vdev *vdev,
  1496. qdf_nbuf_t nbuf,
  1497. struct dp_peer *peer,
  1498. bool is_egress,
  1499. bool is_rx);
  1500. /**
  1501. * dp_vdev_peer_stats_update_protocol_cnt() - update per-peer protocol counters
  1502. * @soc: SOC DP object
  1503. * @vdev_id: vdev_id
  1504. * @nbuf: data packet
  1505. * @is_egress: whether egress or ingress
  1506. * @is_rx: whether rx or tx
  1507. *
  1508. * This function updates the per-peer protocol counters
  1509. * Return: void
  1510. */
  1511. void dp_peer_stats_update_protocol_cnt(struct cdp_soc_t *soc,
  1512. int8_t vdev_id,
  1513. qdf_nbuf_t nbuf,
  1514. bool is_egress,
  1515. bool is_rx);
  1516. #else
  1517. #define dp_vdev_peer_stats_update_protocol_cnt(vdev, nbuf, peer, \
  1518. is_egress, is_rx)
  1519. #endif
  1520. #ifdef QCA_LL_TX_FLOW_CONTROL_V2
  1521. void dp_tx_dump_flow_pool_info(struct cdp_soc_t *soc_hdl);
  1522. int dp_tx_delete_flow_pool(struct dp_soc *soc, struct dp_tx_desc_pool_s *pool,
  1523. bool force);
  1524. #endif /* QCA_LL_TX_FLOW_CONTROL_V2 */
  1525. #ifdef PEER_PROTECTED_ACCESS
  1526. /**
  1527. * dp_peer_unref_del_find_by_id() - dec ref and del peer if ref count is
  1528. * taken by dp_peer_find_by_id
  1529. * @peer: peer context
  1530. *
  1531. * Return: none
  1532. */
  1533. static inline void dp_peer_unref_del_find_by_id(struct dp_peer *peer)
  1534. {
  1535. dp_peer_unref_delete(peer);
  1536. }
  1537. #else
  1538. static inline void dp_peer_unref_del_find_by_id(struct dp_peer *peer)
  1539. {
  1540. }
  1541. #endif
  1542. #ifdef WLAN_FEATURE_DP_EVENT_HISTORY
  1543. /**
  1544. * dp_srng_access_start() - Wrapper function to log access start of a hal ring
  1545. * @int_ctx: pointer to DP interrupt context
  1546. * @soc: DP Soc handle
  1547. * @hal_ring: opaque pointer to the HAL Rx Error Ring, which will be serviced
  1548. *
  1549. * Return: 0 on success; error on failure
  1550. */
  1551. int dp_srng_access_start(struct dp_intr *int_ctx, struct dp_soc *dp_soc,
  1552. hal_ring_handle_t hal_ring_hdl);
  1553. /**
  1554. * dp_srng_access_end() - Wrapper function to log access end of a hal ring
  1555. * @int_ctx: pointer to DP interrupt context
  1556. * @soc: DP Soc handle
  1557. * @hal_ring: opaque pointer to the HAL Rx Error Ring, which will be serviced
  1558. *
  1559. * Return: void
  1560. */
  1561. void dp_srng_access_end(struct dp_intr *int_ctx, struct dp_soc *dp_soc,
  1562. hal_ring_handle_t hal_ring_hdl);
  1563. #else
  1564. static inline int dp_srng_access_start(struct dp_intr *int_ctx,
  1565. struct dp_soc *dp_soc,
  1566. hal_ring_handle_t hal_ring_hdl)
  1567. {
  1568. hal_soc_handle_t hal_soc = dp_soc->hal_soc;
  1569. return hal_srng_access_start(hal_soc, hal_ring_hdl);
  1570. }
  1571. static inline void dp_srng_access_end(struct dp_intr *int_ctx,
  1572. struct dp_soc *dp_soc,
  1573. hal_ring_handle_t hal_ring_hdl)
  1574. {
  1575. hal_soc_handle_t hal_soc = dp_soc->hal_soc;
  1576. return hal_srng_access_end(hal_soc, hal_ring_hdl);
  1577. }
  1578. #endif /* WLAN_FEATURE_DP_EVENT_HISTORY */
  1579. #ifdef QCA_ENH_V3_STATS_SUPPORT
  1580. /**
  1581. * dp_pdev_print_delay_stats(): Print pdev level delay stats
  1582. * @pdev: DP_PDEV handle
  1583. *
  1584. * Return:void
  1585. */
  1586. void dp_pdev_print_delay_stats(struct dp_pdev *pdev);
  1587. /**
  1588. * dp_pdev_print_tid_stats(): Print pdev level tid stats
  1589. * @pdev: DP_PDEV handle
  1590. *
  1591. * Return:void
  1592. */
  1593. void dp_pdev_print_tid_stats(struct dp_pdev *pdev);
  1594. #endif /* CONFIG_WIN */
  1595. void dp_soc_set_txrx_ring_map(struct dp_soc *soc);
  1596. #ifndef WLAN_TX_PKT_CAPTURE_ENH
  1597. /**
  1598. * dp_tx_ppdu_stats_attach - Initialize Tx PPDU stats and enhanced capture
  1599. * @pdev: DP PDEV
  1600. *
  1601. * Return: none
  1602. */
  1603. static inline void dp_tx_ppdu_stats_attach(struct dp_pdev *pdev)
  1604. {
  1605. }
  1606. /**
  1607. * dp_tx_ppdu_stats_detach - Cleanup Tx PPDU stats and enhanced capture
  1608. * @pdev: DP PDEV
  1609. *
  1610. * Return: none
  1611. */
  1612. static inline void dp_tx_ppdu_stats_detach(struct dp_pdev *pdev)
  1613. {
  1614. }
  1615. /**
  1616. * dp_tx_ppdu_stats_process - Deferred PPDU stats handler
  1617. * @context: Opaque work context (PDEV)
  1618. *
  1619. * Return: none
  1620. */
  1621. static inline void dp_tx_ppdu_stats_process(void *context)
  1622. {
  1623. }
  1624. /**
  1625. * dp_tx_add_to_comp_queue() - add completion msdu to queue
  1626. * @soc: DP Soc handle
  1627. * @tx_desc: software Tx descriptor
  1628. * @ts : Tx completion status from HAL/HTT descriptor
  1629. * @peer: DP peer
  1630. *
  1631. * Return: none
  1632. */
  1633. static inline
  1634. QDF_STATUS dp_tx_add_to_comp_queue(struct dp_soc *soc,
  1635. struct dp_tx_desc_s *desc,
  1636. struct hal_tx_completion_status *ts,
  1637. struct dp_peer *peer)
  1638. {
  1639. return QDF_STATUS_E_FAILURE;
  1640. }
  1641. /*
  1642. * dp_tx_capture_htt_frame_counter: increment counter for htt_frame_type
  1643. * pdev: DP pdev handle
  1644. * htt_frame_type: htt frame type received from fw
  1645. *
  1646. * return: void
  1647. */
  1648. static inline
  1649. void dp_tx_capture_htt_frame_counter(struct dp_pdev *pdev,
  1650. uint32_t htt_frame_type)
  1651. {
  1652. }
  1653. /*
  1654. * dp_tx_cature_stats: print tx capture stats
  1655. * @pdev: DP PDEV handle
  1656. *
  1657. * return: void
  1658. */
  1659. static inline
  1660. void dp_print_pdev_tx_capture_stats(struct dp_pdev *pdev)
  1661. {
  1662. }
  1663. /*
  1664. * dp_peer_tx_capture_filter_check: check filter is enable for the filter
  1665. * and update tx_cap_enabled flag
  1666. * @pdev: DP PDEV handle
  1667. * @peer: DP PEER handle
  1668. *
  1669. * return: void
  1670. */
  1671. static inline
  1672. void dp_peer_tx_capture_filter_check(struct dp_pdev *pdev,
  1673. struct dp_peer *peer)
  1674. {
  1675. }
  1676. #endif
  1677. #ifdef FEATURE_PERPKT_INFO
  1678. void dp_deliver_mgmt_frm(struct dp_pdev *pdev, qdf_nbuf_t nbuf);
  1679. #else
  1680. static inline
  1681. void dp_deliver_mgmt_frm(struct dp_pdev *pdev, qdf_nbuf_t nbuf)
  1682. {
  1683. }
  1684. #endif
  1685. /**
  1686. * dp_vdev_to_cdp_vdev() - typecast dp vdev to cdp vdev
  1687. * @vdev: DP vdev handle
  1688. *
  1689. * Return: struct cdp_vdev pointer
  1690. */
  1691. static inline
  1692. struct cdp_vdev *dp_vdev_to_cdp_vdev(struct dp_vdev *vdev)
  1693. {
  1694. return (struct cdp_vdev *)vdev;
  1695. }
  1696. /**
  1697. * dp_pdev_to_cdp_pdev() - typecast dp pdev to cdp pdev
  1698. * @pdev: DP pdev handle
  1699. *
  1700. * Return: struct cdp_pdev pointer
  1701. */
  1702. static inline
  1703. struct cdp_pdev *dp_pdev_to_cdp_pdev(struct dp_pdev *pdev)
  1704. {
  1705. return (struct cdp_pdev *)pdev;
  1706. }
  1707. /**
  1708. * dp_soc_to_cdp_soc() - typecast dp psoc to cdp psoc
  1709. * @psoc: DP psoc handle
  1710. *
  1711. * Return: struct cdp_soc pointer
  1712. */
  1713. static inline
  1714. struct cdp_soc *dp_soc_to_cdp_soc(struct dp_soc *psoc)
  1715. {
  1716. return (struct cdp_soc *)psoc;
  1717. }
  1718. /**
  1719. * dp_soc_to_cdp_soc_t() - typecast dp psoc to
  1720. * ol txrx soc handle
  1721. * @psoc: DP psoc handle
  1722. *
  1723. * Return: struct cdp_soc_t pointer
  1724. */
  1725. static inline
  1726. struct cdp_soc_t *dp_soc_to_cdp_soc_t(struct dp_soc *psoc)
  1727. {
  1728. return (struct cdp_soc_t *)psoc;
  1729. }
  1730. /**
  1731. * cdp_soc_t_to_dp_soc() - typecast cdp_soc_t to
  1732. * dp soc handle
  1733. * @psoc: CDP psoc handle
  1734. *
  1735. * Return: struct dp_soc pointer
  1736. */
  1737. static inline
  1738. struct dp_soc *cdp_soc_t_to_dp_soc(struct cdp_soc_t *psoc)
  1739. {
  1740. return (struct dp_soc *)psoc;
  1741. }
  1742. #if defined(WLAN_SUPPORT_RX_FLOW_TAG) || defined(WLAN_SUPPORT_RX_FISA)
  1743. /**
  1744. * dp_rx_flow_update_fse_stats() - Update a flow's statistics
  1745. * @pdev: pdev handle
  1746. * @flow_id: flow index (truncated hash) in the Rx FST
  1747. *
  1748. * Return: Success when flow statistcs is updated, error on failure
  1749. */
  1750. QDF_STATUS dp_rx_flow_get_fse_stats(struct dp_pdev *pdev,
  1751. struct cdp_rx_flow_info *rx_flow_info,
  1752. struct cdp_flow_stats *stats);
  1753. /**
  1754. * dp_rx_flow_delete_entry() - Delete a flow entry from flow search table
  1755. * @pdev: pdev handle
  1756. * @rx_flow_info: DP flow parameters
  1757. *
  1758. * Return: Success when flow is deleted, error on failure
  1759. */
  1760. QDF_STATUS dp_rx_flow_delete_entry(struct dp_pdev *pdev,
  1761. struct cdp_rx_flow_info *rx_flow_info);
  1762. /**
  1763. * dp_rx_flow_add_entry() - Add a flow entry to flow search table
  1764. * @pdev: DP pdev instance
  1765. * @rx_flow_info: DP flow paramaters
  1766. *
  1767. * Return: Success when flow is added, no-memory or already exists on error
  1768. */
  1769. QDF_STATUS dp_rx_flow_add_entry(struct dp_pdev *pdev,
  1770. struct cdp_rx_flow_info *rx_flow_info);
  1771. /**
  1772. * dp_rx_fst_attach() - Initialize Rx FST and setup necessary parameters
  1773. * @soc: SoC handle
  1774. * @pdev: Pdev handle
  1775. *
  1776. * Return: Handle to flow search table entry
  1777. */
  1778. QDF_STATUS dp_rx_fst_attach(struct dp_soc *soc, struct dp_pdev *pdev);
  1779. /**
  1780. * dp_rx_fst_detach() - De-initialize Rx FST
  1781. * @soc: SoC handle
  1782. * @pdev: Pdev handle
  1783. *
  1784. * Return: None
  1785. */
  1786. void dp_rx_fst_detach(struct dp_soc *soc, struct dp_pdev *pdev);
  1787. /**
  1788. * dp_rx_flow_send_fst_fw_setup() - Program FST parameters in FW/HW post-attach
  1789. * @soc: SoC handle
  1790. * @pdev: Pdev handle
  1791. *
  1792. * Return: Success when fst parameters are programmed in FW, error otherwise
  1793. */
  1794. QDF_STATUS dp_rx_flow_send_fst_fw_setup(struct dp_soc *soc,
  1795. struct dp_pdev *pdev);
  1796. #else /* !((WLAN_SUPPORT_RX_FLOW_TAG) || defined(WLAN_SUPPORT_RX_FISA)) */
  1797. /**
  1798. * dp_rx_fst_attach() - Initialize Rx FST and setup necessary parameters
  1799. * @soc: SoC handle
  1800. * @pdev: Pdev handle
  1801. *
  1802. * Return: Handle to flow search table entry
  1803. */
  1804. static inline
  1805. QDF_STATUS dp_rx_fst_attach(struct dp_soc *soc, struct dp_pdev *pdev)
  1806. {
  1807. return QDF_STATUS_SUCCESS;
  1808. }
  1809. /**
  1810. * dp_rx_fst_detach() - De-initialize Rx FST
  1811. * @soc: SoC handle
  1812. * @pdev: Pdev handle
  1813. *
  1814. * Return: None
  1815. */
  1816. static inline
  1817. void dp_rx_fst_detach(struct dp_soc *soc, struct dp_pdev *pdev)
  1818. {
  1819. }
  1820. #endif
  1821. /**
  1822. * dp_get_vdev_from_soc_vdev_id_wifi3() - Returns vdev object given the vdev id
  1823. * @soc: core DP soc context
  1824. * @vdev_id: vdev id from vdev object can be retrieved
  1825. *
  1826. * Return: struct dp_vdev*: Pointer to DP vdev object
  1827. */
  1828. static inline struct dp_vdev *
  1829. dp_get_vdev_from_soc_vdev_id_wifi3(struct dp_soc *soc,
  1830. uint8_t vdev_id)
  1831. {
  1832. if (qdf_unlikely(vdev_id >= MAX_VDEV_CNT))
  1833. return NULL;
  1834. return soc->vdev_id_map[vdev_id];
  1835. }
  1836. /**
  1837. * dp_get_pdev_from_soc_pdev_id_wifi3() - Returns pdev object given the pdev id
  1838. * @soc: core DP soc context
  1839. * @pdev_id: pdev id from pdev object can be retrieved
  1840. *
  1841. * Return: struct dp_pdev*: Pointer to DP pdev object
  1842. */
  1843. static inline struct dp_pdev *
  1844. dp_get_pdev_from_soc_pdev_id_wifi3(struct dp_soc *soc,
  1845. uint8_t pdev_id)
  1846. {
  1847. if (qdf_unlikely(pdev_id >= MAX_PDEV_CNT))
  1848. return NULL;
  1849. return soc->pdev_list[pdev_id];
  1850. }
  1851. /*
  1852. * dp_rx_tid_update_wifi3() – Update receive TID state
  1853. * @peer: Datapath peer handle
  1854. * @tid: TID
  1855. * @ba_window_size: BlockAck window size
  1856. * @start_seq: Starting sequence number
  1857. *
  1858. * Return: QDF_STATUS code
  1859. */
  1860. QDF_STATUS dp_rx_tid_update_wifi3(struct dp_peer *peer, int tid, uint32_t
  1861. ba_window_size, uint32_t start_seq);
  1862. /**
  1863. * dp_get_peer_mac_list(): function to get peer mac list of vdev
  1864. * @soc: Datapath soc handle
  1865. * @vdev_id: vdev id
  1866. * @newmac: Table of the clients mac
  1867. * @mac_cnt: No. of MACs required
  1868. *
  1869. * return: no of clients
  1870. */
  1871. uint16_t dp_get_peer_mac_list(ol_txrx_soc_handle soc, uint8_t vdev_id,
  1872. u_int8_t newmac[][QDF_MAC_ADDR_SIZE],
  1873. u_int16_t mac_cnt);
  1874. /*
  1875. * dp_is_hw_dbs_enable() - Procedure to check if DBS is supported
  1876. * @soc: DP SoC context
  1877. * @max_mac_rings: No of MAC rings
  1878. *
  1879. * Return: None
  1880. */
  1881. void dp_is_hw_dbs_enable(struct dp_soc *soc,
  1882. int *max_mac_rings);
  1883. #if defined(WLAN_SUPPORT_RX_FISA)
  1884. void dp_rx_dump_fisa_table(struct dp_soc *soc);
  1885. #endif /* WLAN_SUPPORT_RX_FISA */
  1886. #ifdef MAX_ALLOC_PAGE_SIZE
  1887. /**
  1888. * dp_set_page_size() - Set the max page size for hw link desc.
  1889. * For MCL the page size is set to OS defined value and for WIN
  1890. * the page size is set to the max_alloc_size cfg ini
  1891. * param.
  1892. * This is to ensure that WIN gets contiguous memory allocations
  1893. * as per requirement.
  1894. * @pages: link desc page handle
  1895. * @max_alloc_size: max_alloc_size
  1896. *
  1897. * Return: None
  1898. */
  1899. static inline
  1900. void dp_set_max_page_size(struct qdf_mem_multi_page_t *pages,
  1901. uint32_t max_alloc_size)
  1902. {
  1903. pages->page_size = qdf_page_size;
  1904. }
  1905. #else
  1906. static inline
  1907. void dp_set_max_page_size(struct qdf_mem_multi_page_t *pages,
  1908. uint32_t max_alloc_size)
  1909. {
  1910. pages->page_size = max_alloc_size;
  1911. }
  1912. #endif /* MAX_ALLOC_PAGE_SIZE */
  1913. /**
  1914. * dp_rx_skip_tlvs() - Skip TLVs len + L2 hdr_offset, save in nbuf->cb
  1915. * @nbuf: nbuf cb to be updated
  1916. * @l2_hdr_offset: l2_hdr_offset
  1917. *
  1918. * Return: None
  1919. */
  1920. void dp_rx_skip_tlvs(qdf_nbuf_t nbuf, uint32_t l3_padding);
  1921. /**
  1922. * dp_soc_is_full_mon_enable () - Return if full monitor mode is enabled
  1923. * @soc: DP soc handle
  1924. *
  1925. * Return: Full monitor mode status
  1926. */
  1927. static inline bool dp_soc_is_full_mon_enable(struct dp_pdev *pdev)
  1928. {
  1929. return (pdev->soc->full_mon_mode && pdev->monitor_configured) ?
  1930. true : false;
  1931. }
  1932. #endif /* #ifndef _DP_INTERNAL_H_ */