dp_internal.h 148 KB

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  1. /*
  2. * Copyright (c) 2016-2021 The Linux Foundation. All rights reserved.
  3. * Copyright (c) 2021-2023 Qualcomm Innovation Center, Inc. All rights reserved.
  4. *
  5. * Permission to use, copy, modify, and/or distribute this software for
  6. * any purpose with or without fee is hereby granted, provided that the
  7. * above copyright notice and this permission notice appear in all
  8. * copies.
  9. *
  10. * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
  11. * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
  12. * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
  13. * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
  14. * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
  15. * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
  16. * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
  17. * PERFORMANCE OF THIS SOFTWARE.
  18. */
  19. #ifndef _DP_INTERNAL_H_
  20. #define _DP_INTERNAL_H_
  21. #include "dp_types.h"
  22. #include "dp_htt.h"
  23. #include "dp_rx_tid.h"
  24. #define RX_BUFFER_SIZE_PKTLOG_LITE 1024
  25. #define DP_PEER_WDS_COUNT_INVALID UINT_MAX
  26. #define DP_BLOCKMEM_SIZE 4096
  27. #define WBM2_SW_PPE_REL_RING_ID 6
  28. #define WBM2_SW_PPE_REL_MAP_ID 11
  29. #define DP_TX_PPEDS_POOL_ID 0xF
  30. /* Alignment for consistent memory for DP rings*/
  31. #define DP_RING_BASE_ALIGN 32
  32. #define DP_RSSI_INVAL 0x80
  33. #define DP_RSSI_AVG_WEIGHT 2
  34. /*
  35. * Formula to derive avg_rssi is taken from wifi2.o firmware
  36. */
  37. #define DP_GET_AVG_RSSI(avg_rssi, last_rssi) \
  38. (((avg_rssi) - (((uint8_t)(avg_rssi)) >> DP_RSSI_AVG_WEIGHT)) \
  39. + ((((uint8_t)(last_rssi)) >> DP_RSSI_AVG_WEIGHT)))
  40. /* Macro For NYSM value received in VHT TLV */
  41. #define VHT_SGI_NYSM 3
  42. #define INVALID_WBM_RING_NUM 0xF
  43. #ifdef FEATURE_DIRECT_LINK
  44. #define DIRECT_LINK_REFILL_RING_ENTRIES 64
  45. #ifdef IPA_OFFLOAD
  46. #ifdef IPA_WDI3_VLAN_SUPPORT
  47. #define DIRECT_LINK_REFILL_RING_IDX 4
  48. #else
  49. #define DIRECT_LINK_REFILL_RING_IDX 3
  50. #endif
  51. #else
  52. #define DIRECT_LINK_REFILL_RING_IDX 2
  53. #endif
  54. #endif
  55. #define DP_MAX_VLAN_IDS 4096
  56. #define DP_VLAN_UNTAGGED 0
  57. #define DP_VLAN_TAGGED_MULTICAST 1
  58. #define DP_VLAN_TAGGED_UNICAST 2
  59. /**
  60. * struct htt_dbgfs_cfg - structure to maintain required htt data
  61. * @msg_word: htt msg sent to upper layer
  62. * @m: qdf debugfs file pointer
  63. */
  64. struct htt_dbgfs_cfg {
  65. uint32_t *msg_word;
  66. qdf_debugfs_file_t m;
  67. };
  68. /* Cookie MSB bits assigned for different use case.
  69. * Note: User can't use last 3 bits, as it is reserved for pdev_id.
  70. * If in future number of pdev are more than 3.
  71. */
  72. /* Reserve for default case */
  73. #define DBG_STATS_COOKIE_DEFAULT 0x0
  74. /* Reserve for DP Stats: 3rd bit */
  75. #define DBG_STATS_COOKIE_DP_STATS BIT(3)
  76. /* Reserve for HTT Stats debugfs support: 4th bit */
  77. #define DBG_STATS_COOKIE_HTT_DBGFS BIT(4)
  78. /*Reserve for HTT Stats debugfs support: 5th bit */
  79. #define DBG_SYSFS_STATS_COOKIE BIT(5)
  80. /* Reserve for HTT Stats OBSS PD support: 6th bit */
  81. #define DBG_STATS_COOKIE_HTT_OBSS BIT(6)
  82. /*
  83. * Bitmap of HTT PPDU TLV types for Default mode
  84. */
  85. #define HTT_PPDU_DEFAULT_TLV_BITMAP \
  86. (1 << HTT_PPDU_STATS_COMMON_TLV) | \
  87. (1 << HTT_PPDU_STATS_USR_COMMON_TLV) | \
  88. (1 << HTT_PPDU_STATS_USR_RATE_TLV) | \
  89. (1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV) | \
  90. (1 << HTT_PPDU_STATS_USR_COMPLTN_COMMON_TLV) | \
  91. (1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV)
  92. /* PPDU STATS CFG */
  93. #define DP_PPDU_STATS_CFG_ALL 0xFFFF
  94. /* PPDU stats mask sent to FW to enable enhanced stats */
  95. #define DP_PPDU_STATS_CFG_ENH_STATS \
  96. (HTT_PPDU_DEFAULT_TLV_BITMAP) | \
  97. (1 << HTT_PPDU_STATS_USR_COMPLTN_FLUSH_TLV) | \
  98. (1 << HTT_PPDU_STATS_USR_COMMON_ARRAY_TLV) | \
  99. (1 << HTT_PPDU_STATS_USERS_INFO_TLV)
  100. /* PPDU stats mask sent to FW to support debug sniffer feature */
  101. #define DP_PPDU_STATS_CFG_SNIFFER \
  102. (HTT_PPDU_DEFAULT_TLV_BITMAP) | \
  103. (1 << HTT_PPDU_STATS_USR_MPDU_ENQ_BITMAP_64_TLV) | \
  104. (1 << HTT_PPDU_STATS_USR_MPDU_ENQ_BITMAP_256_TLV) | \
  105. (1 << HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_64_TLV) | \
  106. (1 << HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_256_TLV) | \
  107. (1 << HTT_PPDU_STATS_USR_COMPLTN_FLUSH_TLV) | \
  108. (1 << HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_256_TLV) | \
  109. (1 << HTT_PPDU_STATS_USR_COMPLTN_FLUSH_TLV) | \
  110. (1 << HTT_PPDU_STATS_USR_COMMON_ARRAY_TLV) | \
  111. (1 << HTT_PPDU_STATS_TX_MGMTCTRL_PAYLOAD_TLV) | \
  112. (1 << HTT_PPDU_STATS_USERS_INFO_TLV)
  113. /* PPDU stats mask sent to FW to support BPR feature*/
  114. #define DP_PPDU_STATS_CFG_BPR \
  115. (1 << HTT_PPDU_STATS_TX_MGMTCTRL_PAYLOAD_TLV) | \
  116. (1 << HTT_PPDU_STATS_USERS_INFO_TLV)
  117. /* PPDU stats mask sent to FW to support BPR and enhanced stats feature */
  118. #define DP_PPDU_STATS_CFG_BPR_ENH (DP_PPDU_STATS_CFG_BPR | \
  119. DP_PPDU_STATS_CFG_ENH_STATS)
  120. /* PPDU stats mask sent to FW to support BPR and pcktlog stats feature */
  121. #define DP_PPDU_STATS_CFG_BPR_PKTLOG (DP_PPDU_STATS_CFG_BPR | \
  122. DP_PPDU_TXLITE_STATS_BITMASK_CFG)
  123. /*
  124. * Bitmap of HTT PPDU delayed ba TLV types for Default mode
  125. */
  126. #define HTT_PPDU_DELAYED_BA_TLV_BITMAP \
  127. (1 << HTT_PPDU_STATS_COMMON_TLV) | \
  128. (1 << HTT_PPDU_STATS_USR_COMMON_TLV) | \
  129. (1 << HTT_PPDU_STATS_USR_RATE_TLV)
  130. /*
  131. * Bitmap of HTT PPDU TLV types for Delayed BA
  132. */
  133. #define HTT_PPDU_STATUS_TLV_BITMAP \
  134. (1 << HTT_PPDU_STATS_COMMON_TLV) | \
  135. (1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV)
  136. /*
  137. * Bitmap of HTT PPDU TLV types for Sniffer mode bitmap 64
  138. */
  139. #define HTT_PPDU_SNIFFER_AMPDU_TLV_BITMAP_64 \
  140. ((1 << HTT_PPDU_STATS_COMMON_TLV) | \
  141. (1 << HTT_PPDU_STATS_USR_COMMON_TLV) | \
  142. (1 << HTT_PPDU_STATS_USR_RATE_TLV) | \
  143. (1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV) | \
  144. (1 << HTT_PPDU_STATS_USR_COMPLTN_COMMON_TLV) | \
  145. (1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV) | \
  146. (1 << HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_64_TLV) | \
  147. (1 << HTT_PPDU_STATS_USR_MPDU_ENQ_BITMAP_64_TLV))
  148. /*
  149. * Bitmap of HTT PPDU TLV types for Sniffer mode bitmap 256
  150. */
  151. #define HTT_PPDU_SNIFFER_AMPDU_TLV_BITMAP_256 \
  152. ((1 << HTT_PPDU_STATS_COMMON_TLV) | \
  153. (1 << HTT_PPDU_STATS_USR_COMMON_TLV) | \
  154. (1 << HTT_PPDU_STATS_USR_RATE_TLV) | \
  155. (1 << HTT_PPDU_STATS_SCH_CMD_STATUS_TLV) | \
  156. (1 << HTT_PPDU_STATS_USR_COMPLTN_COMMON_TLV) | \
  157. (1 << HTT_PPDU_STATS_USR_COMPLTN_ACK_BA_STATUS_TLV) | \
  158. (1 << HTT_PPDU_STATS_USR_COMPLTN_BA_BITMAP_256_TLV) | \
  159. (1 << HTT_PPDU_STATS_USR_MPDU_ENQ_BITMAP_256_TLV))
  160. static const enum cdp_packet_type hal_2_dp_pkt_type_map[HAL_DOT11_MAX] = {
  161. [HAL_DOT11A] = DOT11_A,
  162. [HAL_DOT11B] = DOT11_B,
  163. [HAL_DOT11N_MM] = DOT11_N,
  164. [HAL_DOT11AC] = DOT11_AC,
  165. [HAL_DOT11AX] = DOT11_AX,
  166. [HAL_DOT11BA] = DOT11_MAX,
  167. #ifdef WLAN_FEATURE_11BE
  168. [HAL_DOT11BE] = DOT11_BE,
  169. #else
  170. [HAL_DOT11BE] = DOT11_MAX,
  171. #endif
  172. [HAL_DOT11AZ] = DOT11_MAX,
  173. [HAL_DOT11N_GF] = DOT11_MAX,
  174. };
  175. #ifdef GLOBAL_ASSERT_AVOIDANCE
  176. #define dp_assert_always_internal_stat(_expr, _handle, _field) \
  177. (qdf_unlikely(!(_expr)) ? ((_handle)->stats._field++, true) : false)
  178. #define dp_assert_always_internal_ds_stat(_expr, _handle, _field) \
  179. ((_handle)->ppeds_stats._field++)
  180. static inline bool dp_assert_always_internal(bool expr)
  181. {
  182. return !expr;
  183. }
  184. #else
  185. static inline bool __dp_assert_always_internal(bool expr)
  186. {
  187. qdf_assert_always(expr);
  188. return false;
  189. }
  190. #define dp_assert_always_internal(_expr) __dp_assert_always_internal(_expr)
  191. #define dp_assert_always_internal_stat(_expr, _handle, _field) \
  192. dp_assert_always_internal(_expr)
  193. #define dp_assert_always_internal_ds_stat(_expr, _handle, _field) \
  194. dp_assert_always_internal(_expr)
  195. #endif
  196. #ifdef WLAN_FEATURE_11BE
  197. /**
  198. * dp_get_mcs_array_index_by_pkt_type_mcs() - get the destination mcs index
  199. * in array
  200. * @pkt_type: host SW pkt type
  201. * @mcs: mcs value for TX/RX rate
  202. *
  203. * Return: succeeded - valid index in mcs array
  204. * fail - same value as MCS_MAX
  205. */
  206. static inline uint8_t
  207. dp_get_mcs_array_index_by_pkt_type_mcs(uint32_t pkt_type, uint32_t mcs)
  208. {
  209. uint8_t dst_mcs_idx = MCS_INVALID_ARRAY_INDEX;
  210. switch (pkt_type) {
  211. case DOT11_A:
  212. dst_mcs_idx =
  213. mcs >= MAX_MCS_11A ? (MAX_MCS - 1) : mcs;
  214. break;
  215. case DOT11_B:
  216. dst_mcs_idx =
  217. mcs >= MAX_MCS_11B ? (MAX_MCS - 1) : mcs;
  218. break;
  219. case DOT11_N:
  220. dst_mcs_idx =
  221. mcs >= MAX_MCS_11N ? (MAX_MCS - 1) : mcs;
  222. break;
  223. case DOT11_AC:
  224. dst_mcs_idx =
  225. mcs >= MAX_MCS_11AC ? (MAX_MCS - 1) : mcs;
  226. break;
  227. case DOT11_AX:
  228. dst_mcs_idx =
  229. mcs >= MAX_MCS_11AX ? (MAX_MCS - 1) : mcs;
  230. break;
  231. case DOT11_BE:
  232. dst_mcs_idx =
  233. mcs >= MAX_MCS_11BE ? (MAX_MCS - 1) : mcs;
  234. break;
  235. default:
  236. break;
  237. }
  238. return dst_mcs_idx;
  239. }
  240. #else
  241. static inline uint8_t
  242. dp_get_mcs_array_index_by_pkt_type_mcs(uint32_t pkt_type, uint32_t mcs)
  243. {
  244. uint8_t dst_mcs_idx = MCS_INVALID_ARRAY_INDEX;
  245. switch (pkt_type) {
  246. case DOT11_A:
  247. dst_mcs_idx =
  248. mcs >= MAX_MCS_11A ? (MAX_MCS - 1) : mcs;
  249. break;
  250. case DOT11_B:
  251. dst_mcs_idx =
  252. mcs >= MAX_MCS_11B ? (MAX_MCS - 1) : mcs;
  253. break;
  254. case DOT11_N:
  255. dst_mcs_idx =
  256. mcs >= MAX_MCS_11N ? (MAX_MCS - 1) : mcs;
  257. break;
  258. case DOT11_AC:
  259. dst_mcs_idx =
  260. mcs >= MAX_MCS_11AC ? (MAX_MCS - 1) : mcs;
  261. break;
  262. case DOT11_AX:
  263. dst_mcs_idx =
  264. mcs >= MAX_MCS_11AX ? (MAX_MCS - 1) : mcs;
  265. break;
  266. default:
  267. break;
  268. }
  269. return dst_mcs_idx;
  270. }
  271. #endif
  272. #ifdef WIFI_MONITOR_SUPPORT
  273. QDF_STATUS dp_mon_soc_attach(struct dp_soc *soc);
  274. QDF_STATUS dp_mon_soc_detach(struct dp_soc *soc);
  275. #else
  276. static inline
  277. QDF_STATUS dp_mon_soc_attach(struct dp_soc *soc)
  278. {
  279. return QDF_STATUS_SUCCESS;
  280. }
  281. static inline
  282. QDF_STATUS dp_mon_soc_detach(struct dp_soc *soc)
  283. {
  284. return QDF_STATUS_SUCCESS;
  285. }
  286. #endif
  287. /**
  288. * dp_rx_err_match_dhost() - function to check whether dest-mac is correct
  289. * @eh: Ethernet header of incoming packet
  290. * @vdev: dp_vdev object of the VAP on which this data packet is received
  291. *
  292. * Return: 1 if the destination mac is correct,
  293. * 0 if this frame is not correctly destined to this VAP/MLD
  294. */
  295. int dp_rx_err_match_dhost(qdf_ether_header_t *eh, struct dp_vdev *vdev);
  296. #ifdef MONITOR_MODULARIZED_ENABLE
  297. static inline bool dp_monitor_modularized_enable(void)
  298. {
  299. return TRUE;
  300. }
  301. static inline QDF_STATUS
  302. dp_mon_soc_attach_wrapper(struct dp_soc *soc) { return QDF_STATUS_SUCCESS; }
  303. static inline QDF_STATUS
  304. dp_mon_soc_detach_wrapper(struct dp_soc *soc) { return QDF_STATUS_SUCCESS; }
  305. #else
  306. static inline bool dp_monitor_modularized_enable(void)
  307. {
  308. return FALSE;
  309. }
  310. static inline QDF_STATUS dp_mon_soc_attach_wrapper(struct dp_soc *soc)
  311. {
  312. return dp_mon_soc_attach(soc);
  313. }
  314. static inline QDF_STATUS dp_mon_soc_detach_wrapper(struct dp_soc *soc)
  315. {
  316. return dp_mon_soc_detach(soc);
  317. }
  318. #endif
  319. #ifndef WIFI_MONITOR_SUPPORT
  320. #define MON_BUF_MIN_ENTRIES 64
  321. static inline QDF_STATUS dp_monitor_pdev_attach(struct dp_pdev *pdev)
  322. {
  323. return QDF_STATUS_SUCCESS;
  324. }
  325. static inline QDF_STATUS dp_monitor_pdev_detach(struct dp_pdev *pdev)
  326. {
  327. return QDF_STATUS_SUCCESS;
  328. }
  329. static inline QDF_STATUS dp_monitor_vdev_attach(struct dp_vdev *vdev)
  330. {
  331. return QDF_STATUS_E_FAILURE;
  332. }
  333. static inline QDF_STATUS dp_monitor_vdev_detach(struct dp_vdev *vdev)
  334. {
  335. return QDF_STATUS_E_FAILURE;
  336. }
  337. static inline QDF_STATUS dp_monitor_peer_attach(struct dp_soc *soc,
  338. struct dp_peer *peer)
  339. {
  340. return QDF_STATUS_SUCCESS;
  341. }
  342. static inline QDF_STATUS dp_monitor_peer_detach(struct dp_soc *soc,
  343. struct dp_peer *peer)
  344. {
  345. return QDF_STATUS_E_FAILURE;
  346. }
  347. static inline struct cdp_peer_rate_stats_ctx*
  348. dp_monitor_peer_get_peerstats_ctx(struct dp_soc *soc, struct dp_peer *peer)
  349. {
  350. return NULL;
  351. }
  352. static inline
  353. void dp_monitor_peer_reset_stats(struct dp_soc *soc, struct dp_peer *peer)
  354. {
  355. }
  356. static inline
  357. void dp_monitor_peer_get_stats(struct dp_soc *soc, struct dp_peer *peer,
  358. void *arg, enum cdp_stat_update_type type)
  359. {
  360. }
  361. static inline
  362. void dp_monitor_invalid_peer_update_pdev_stats(struct dp_soc *soc,
  363. struct dp_pdev *pdev)
  364. {
  365. }
  366. static inline
  367. QDF_STATUS dp_monitor_peer_get_stats_param(struct dp_soc *soc,
  368. struct dp_peer *peer,
  369. enum cdp_peer_stats_type type,
  370. cdp_peer_stats_param_t *buf)
  371. {
  372. return QDF_STATUS_E_FAILURE;
  373. }
  374. static inline QDF_STATUS dp_monitor_pdev_init(struct dp_pdev *pdev)
  375. {
  376. return QDF_STATUS_SUCCESS;
  377. }
  378. static inline QDF_STATUS dp_monitor_pdev_deinit(struct dp_pdev *pdev)
  379. {
  380. return QDF_STATUS_SUCCESS;
  381. }
  382. static inline QDF_STATUS dp_monitor_soc_cfg_init(struct dp_soc *soc)
  383. {
  384. return QDF_STATUS_SUCCESS;
  385. }
  386. static inline QDF_STATUS dp_monitor_config_debug_sniffer(struct dp_pdev *pdev,
  387. int val)
  388. {
  389. return QDF_STATUS_E_FAILURE;
  390. }
  391. static inline void dp_monitor_flush_rings(struct dp_soc *soc)
  392. {
  393. }
  394. static inline QDF_STATUS dp_monitor_htt_srng_setup(struct dp_soc *soc,
  395. struct dp_pdev *pdev,
  396. int mac_id,
  397. int mac_for_pdev)
  398. {
  399. return QDF_STATUS_SUCCESS;
  400. }
  401. static inline void dp_monitor_service_mon_rings(struct dp_soc *soc,
  402. uint32_t quota)
  403. {
  404. }
  405. static inline
  406. uint32_t dp_monitor_process(struct dp_soc *soc, struct dp_intr *int_ctx,
  407. uint32_t mac_id, uint32_t quota)
  408. {
  409. return 0;
  410. }
  411. static inline
  412. uint32_t dp_monitor_drop_packets_for_mac(struct dp_pdev *pdev,
  413. uint32_t mac_id, uint32_t quota)
  414. {
  415. return 0;
  416. }
  417. static inline void dp_monitor_peer_tx_init(struct dp_pdev *pdev,
  418. struct dp_peer *peer)
  419. {
  420. }
  421. static inline void dp_monitor_peer_tx_cleanup(struct dp_vdev *vdev,
  422. struct dp_peer *peer)
  423. {
  424. }
  425. static inline
  426. void dp_monitor_peer_tid_peer_id_update(struct dp_soc *soc,
  427. struct dp_peer *peer,
  428. uint16_t peer_id)
  429. {
  430. }
  431. static inline void dp_monitor_tx_ppdu_stats_attach(struct dp_pdev *pdev)
  432. {
  433. }
  434. static inline void dp_monitor_tx_ppdu_stats_detach(struct dp_pdev *pdev)
  435. {
  436. }
  437. static inline
  438. QDF_STATUS dp_monitor_tx_capture_debugfs_init(struct dp_pdev *pdev)
  439. {
  440. return QDF_STATUS_SUCCESS;
  441. }
  442. static inline void dp_monitor_peer_tx_capture_filter_check(struct dp_pdev *pdev,
  443. struct dp_peer *peer)
  444. {
  445. }
  446. static inline
  447. QDF_STATUS dp_monitor_tx_add_to_comp_queue(struct dp_soc *soc,
  448. struct dp_tx_desc_s *desc,
  449. struct hal_tx_completion_status *ts,
  450. uint16_t peer_id)
  451. {
  452. return QDF_STATUS_E_FAILURE;
  453. }
  454. static inline
  455. QDF_STATUS monitor_update_msdu_to_list(struct dp_soc *soc,
  456. struct dp_pdev *pdev,
  457. struct dp_peer *peer,
  458. struct hal_tx_completion_status *ts,
  459. qdf_nbuf_t netbuf)
  460. {
  461. return QDF_STATUS_E_FAILURE;
  462. }
  463. static inline bool dp_monitor_ppdu_stats_ind_handler(struct htt_soc *soc,
  464. uint32_t *msg_word,
  465. qdf_nbuf_t htt_t2h_msg)
  466. {
  467. return true;
  468. }
  469. static inline QDF_STATUS dp_monitor_htt_ppdu_stats_attach(struct dp_pdev *pdev)
  470. {
  471. return QDF_STATUS_SUCCESS;
  472. }
  473. static inline void dp_monitor_htt_ppdu_stats_detach(struct dp_pdev *pdev)
  474. {
  475. }
  476. static inline void dp_monitor_print_pdev_rx_mon_stats(struct dp_pdev *pdev)
  477. {
  478. }
  479. static inline QDF_STATUS dp_monitor_config_enh_tx_capture(struct dp_pdev *pdev,
  480. uint32_t val)
  481. {
  482. return QDF_STATUS_E_INVAL;
  483. }
  484. static inline QDF_STATUS dp_monitor_tx_peer_filter(struct dp_pdev *pdev,
  485. struct dp_peer *peer,
  486. uint8_t is_tx_pkt_cap_enable,
  487. uint8_t *peer_mac)
  488. {
  489. return QDF_STATUS_E_INVAL;
  490. }
  491. static inline QDF_STATUS dp_monitor_config_enh_rx_capture(struct dp_pdev *pdev,
  492. uint32_t val)
  493. {
  494. return QDF_STATUS_E_INVAL;
  495. }
  496. static inline
  497. QDF_STATUS dp_monitor_set_bpr_enable(struct dp_pdev *pdev, uint32_t val)
  498. {
  499. return QDF_STATUS_E_FAILURE;
  500. }
  501. static inline
  502. int dp_monitor_set_filter_neigh_peers(struct dp_pdev *pdev, bool val)
  503. {
  504. return 0;
  505. }
  506. static inline
  507. void dp_monitor_set_atf_stats_enable(struct dp_pdev *pdev, bool value)
  508. {
  509. }
  510. static inline
  511. void dp_monitor_set_bsscolor(struct dp_pdev *pdev, uint8_t bsscolor)
  512. {
  513. }
  514. static inline
  515. bool dp_monitor_pdev_get_filter_mcast_data(struct cdp_pdev *pdev_handle)
  516. {
  517. return false;
  518. }
  519. static inline
  520. bool dp_monitor_pdev_get_filter_non_data(struct cdp_pdev *pdev_handle)
  521. {
  522. return false;
  523. }
  524. static inline
  525. bool dp_monitor_pdev_get_filter_ucast_data(struct cdp_pdev *pdev_handle)
  526. {
  527. return false;
  528. }
  529. static inline
  530. int dp_monitor_set_pktlog_wifi3(struct dp_pdev *pdev, uint32_t event,
  531. bool enable)
  532. {
  533. return 0;
  534. }
  535. static inline void dp_monitor_pktlogmod_exit(struct dp_pdev *pdev)
  536. {
  537. }
  538. static inline
  539. QDF_STATUS dp_monitor_vdev_set_monitor_mode_buf_rings(struct dp_pdev *pdev)
  540. {
  541. return QDF_STATUS_E_FAILURE;
  542. }
  543. static inline
  544. void dp_monitor_neighbour_peers_detach(struct dp_pdev *pdev)
  545. {
  546. }
  547. static inline QDF_STATUS dp_monitor_filter_neighbour_peer(struct dp_pdev *pdev,
  548. uint8_t *rx_pkt_hdr)
  549. {
  550. return QDF_STATUS_E_FAILURE;
  551. }
  552. static inline void dp_monitor_print_pdev_tx_capture_stats(struct dp_pdev *pdev)
  553. {
  554. }
  555. static inline
  556. void dp_monitor_reap_timer_init(struct dp_soc *soc)
  557. {
  558. }
  559. static inline
  560. void dp_monitor_reap_timer_deinit(struct dp_soc *soc)
  561. {
  562. }
  563. static inline
  564. bool dp_monitor_reap_timer_start(struct dp_soc *soc,
  565. enum cdp_mon_reap_source source)
  566. {
  567. return false;
  568. }
  569. static inline
  570. bool dp_monitor_reap_timer_stop(struct dp_soc *soc,
  571. enum cdp_mon_reap_source source)
  572. {
  573. return false;
  574. }
  575. static inline void
  576. dp_monitor_reap_timer_suspend(struct dp_soc *soc)
  577. {
  578. }
  579. static inline
  580. void dp_monitor_vdev_timer_init(struct dp_soc *soc)
  581. {
  582. }
  583. static inline
  584. void dp_monitor_vdev_timer_deinit(struct dp_soc *soc)
  585. {
  586. }
  587. static inline
  588. void dp_monitor_vdev_timer_start(struct dp_soc *soc)
  589. {
  590. }
  591. static inline
  592. bool dp_monitor_vdev_timer_stop(struct dp_soc *soc)
  593. {
  594. return false;
  595. }
  596. static inline struct qdf_mem_multi_page_t*
  597. dp_monitor_get_link_desc_pages(struct dp_soc *soc, uint32_t mac_id)
  598. {
  599. return NULL;
  600. }
  601. static inline struct dp_srng*
  602. dp_monitor_get_link_desc_ring(struct dp_soc *soc, uint32_t mac_id)
  603. {
  604. return NULL;
  605. }
  606. static inline uint32_t
  607. dp_monitor_get_num_link_desc_ring_entries(struct dp_soc *soc)
  608. {
  609. return 0;
  610. }
  611. static inline uint32_t *
  612. dp_monitor_get_total_link_descs(struct dp_soc *soc, uint32_t mac_id)
  613. {
  614. return NULL;
  615. }
  616. static inline QDF_STATUS dp_monitor_drop_inv_peer_pkts(struct dp_vdev *vdev)
  617. {
  618. return QDF_STATUS_E_FAILURE;
  619. }
  620. static inline bool dp_is_enable_reap_timer_non_pkt(struct dp_pdev *pdev)
  621. {
  622. return false;
  623. }
  624. static inline void dp_monitor_vdev_register_osif(struct dp_vdev *vdev,
  625. struct ol_txrx_ops *txrx_ops)
  626. {
  627. }
  628. static inline bool dp_monitor_is_vdev_timer_running(struct dp_soc *soc)
  629. {
  630. return false;
  631. }
  632. static inline
  633. void dp_monitor_pdev_set_mon_vdev(struct dp_vdev *vdev)
  634. {
  635. }
  636. static inline void dp_monitor_vdev_delete(struct dp_soc *soc,
  637. struct dp_vdev *vdev)
  638. {
  639. }
  640. static inline void dp_peer_ppdu_delayed_ba_init(struct dp_peer *peer)
  641. {
  642. }
  643. static inline void dp_monitor_neighbour_peer_add_ast(struct dp_pdev *pdev,
  644. struct dp_peer *ta_peer,
  645. uint8_t *mac_addr,
  646. qdf_nbuf_t nbuf,
  647. uint32_t flags)
  648. {
  649. }
  650. static inline void
  651. dp_monitor_set_chan_band(struct dp_pdev *pdev, enum reg_wifi_band chan_band)
  652. {
  653. }
  654. static inline void
  655. dp_monitor_set_chan_freq(struct dp_pdev *pdev, qdf_freq_t chan_freq)
  656. {
  657. }
  658. static inline void dp_monitor_set_chan_num(struct dp_pdev *pdev, int chan_num)
  659. {
  660. }
  661. static inline bool dp_monitor_is_enable_mcopy_mode(struct dp_pdev *pdev)
  662. {
  663. return false;
  664. }
  665. static inline
  666. void dp_monitor_neighbour_peer_list_remove(struct dp_pdev *pdev,
  667. struct dp_vdev *vdev,
  668. struct dp_neighbour_peer *peer)
  669. {
  670. }
  671. static inline bool dp_monitor_is_chan_band_known(struct dp_pdev *pdev)
  672. {
  673. return false;
  674. }
  675. static inline enum reg_wifi_band
  676. dp_monitor_get_chan_band(struct dp_pdev *pdev)
  677. {
  678. return 0;
  679. }
  680. static inline int
  681. dp_monitor_get_chan_num(struct dp_pdev *pdev)
  682. {
  683. return 0;
  684. }
  685. static inline qdf_freq_t
  686. dp_monitor_get_chan_freq(struct dp_pdev *pdev)
  687. {
  688. return 0;
  689. }
  690. static inline void dp_monitor_get_mpdu_status(struct dp_pdev *pdev,
  691. struct dp_soc *soc,
  692. uint8_t *rx_tlv_hdr)
  693. {
  694. }
  695. static inline void dp_monitor_print_tx_stats(struct dp_pdev *pdev)
  696. {
  697. }
  698. static inline
  699. QDF_STATUS dp_monitor_mcopy_check_deliver(struct dp_pdev *pdev,
  700. uint16_t peer_id, uint32_t ppdu_id,
  701. uint8_t first_msdu)
  702. {
  703. return QDF_STATUS_SUCCESS;
  704. }
  705. static inline bool dp_monitor_is_enable_tx_sniffer(struct dp_pdev *pdev)
  706. {
  707. return false;
  708. }
  709. static inline struct dp_vdev*
  710. dp_monitor_get_monitor_vdev_from_pdev(struct dp_pdev *pdev)
  711. {
  712. return NULL;
  713. }
  714. static inline QDF_STATUS dp_monitor_check_com_info_ppdu_id(struct dp_pdev *pdev,
  715. void *rx_desc)
  716. {
  717. return QDF_STATUS_E_FAILURE;
  718. }
  719. static inline struct mon_rx_status*
  720. dp_monitor_get_rx_status(struct dp_pdev *pdev)
  721. {
  722. return NULL;
  723. }
  724. static inline
  725. void dp_monitor_pdev_config_scan_spcl_vap(struct dp_pdev *pdev, bool val)
  726. {
  727. }
  728. static inline
  729. void dp_monitor_pdev_reset_scan_spcl_vap_stats_enable(struct dp_pdev *pdev,
  730. bool val)
  731. {
  732. }
  733. static inline QDF_STATUS
  734. dp_monitor_peer_tx_capture_get_stats(struct dp_soc *soc, struct dp_peer *peer,
  735. struct cdp_peer_tx_capture_stats *stats)
  736. {
  737. return QDF_STATUS_E_FAILURE;
  738. }
  739. static inline QDF_STATUS
  740. dp_monitor_pdev_tx_capture_get_stats(struct dp_soc *soc, struct dp_pdev *pdev,
  741. struct cdp_pdev_tx_capture_stats *stats)
  742. {
  743. return QDF_STATUS_E_FAILURE;
  744. }
  745. #ifdef DP_POWER_SAVE
  746. static inline
  747. void dp_monitor_pktlog_reap_pending_frames(struct dp_pdev *pdev)
  748. {
  749. }
  750. static inline
  751. void dp_monitor_pktlog_start_reap_timer(struct dp_pdev *pdev)
  752. {
  753. }
  754. #endif
  755. static inline bool dp_monitor_is_configured(struct dp_pdev *pdev)
  756. {
  757. return false;
  758. }
  759. static inline void
  760. dp_mon_rx_hdr_length_set(struct dp_soc *soc, uint32_t *msg_word,
  761. struct htt_rx_ring_tlv_filter *tlv_filter)
  762. {
  763. }
  764. static inline void dp_monitor_soc_init(struct dp_soc *soc)
  765. {
  766. }
  767. static inline void dp_monitor_soc_deinit(struct dp_soc *soc)
  768. {
  769. }
  770. static inline
  771. QDF_STATUS dp_monitor_config_undecoded_metadata_capture(struct dp_pdev *pdev,
  772. int val)
  773. {
  774. return QDF_STATUS_SUCCESS;
  775. }
  776. static inline QDF_STATUS
  777. dp_monitor_config_undecoded_metadata_phyrx_error_mask(struct dp_pdev *pdev,
  778. int mask1, int mask2)
  779. {
  780. return QDF_STATUS_SUCCESS;
  781. }
  782. static inline QDF_STATUS
  783. dp_monitor_get_undecoded_metadata_phyrx_error_mask(struct dp_pdev *pdev,
  784. int *mask, int *mask_cont)
  785. {
  786. return QDF_STATUS_SUCCESS;
  787. }
  788. static inline QDF_STATUS dp_monitor_soc_htt_srng_setup(struct dp_soc *soc)
  789. {
  790. return QDF_STATUS_E_FAILURE;
  791. }
  792. static inline bool dp_is_monitor_mode_using_poll(struct dp_soc *soc)
  793. {
  794. return false;
  795. }
  796. static inline
  797. uint32_t dp_tx_mon_buf_refill(struct dp_intr *int_ctx)
  798. {
  799. return 0;
  800. }
  801. static inline uint32_t
  802. dp_tx_mon_process(struct dp_soc *soc, struct dp_intr *int_ctx,
  803. uint32_t mac_id, uint32_t quota)
  804. {
  805. return 0;
  806. }
  807. static inline uint32_t
  808. dp_print_txmon_ring_stat_from_hal(struct dp_pdev *pdev)
  809. {
  810. return 0;
  811. }
  812. static inline
  813. uint32_t dp_rx_mon_buf_refill(struct dp_intr *int_ctx)
  814. {
  815. return 0;
  816. }
  817. static inline bool dp_monitor_is_tx_cap_enabled(struct dp_peer *peer)
  818. {
  819. return 0;
  820. }
  821. static inline bool dp_monitor_is_rx_cap_enabled(struct dp_peer *peer)
  822. {
  823. return 0;
  824. }
  825. static inline void
  826. dp_rx_mon_enable(struct dp_soc *soc, uint32_t *msg_word,
  827. struct htt_rx_ring_tlv_filter *tlv_filter)
  828. {
  829. }
  830. static inline void
  831. dp_mon_rx_packet_length_set(struct dp_soc *soc, uint32_t *msg_word,
  832. struct htt_rx_ring_tlv_filter *tlv_filter)
  833. {
  834. }
  835. static inline void
  836. dp_mon_rx_enable_mpdu_logging(struct dp_soc *soc, uint32_t *msg_word,
  837. struct htt_rx_ring_tlv_filter *tlv_filter)
  838. {
  839. }
  840. static inline void
  841. dp_mon_rx_wmask_subscribe(struct dp_soc *soc,
  842. uint32_t *msg_word, int pdev_id,
  843. struct htt_rx_ring_tlv_filter *tlv_filter)
  844. {
  845. }
  846. static inline void
  847. dp_mon_rx_mac_filter_set(struct dp_soc *soc, uint32_t *msg_word,
  848. struct htt_rx_ring_tlv_filter *tlv_filter)
  849. {
  850. }
  851. static inline void
  852. dp_mon_rx_enable_pkt_tlv_offset(struct dp_soc *soc, uint32_t *msg_word,
  853. struct htt_rx_ring_tlv_filter *tlv_filter)
  854. {
  855. }
  856. static inline void
  857. dp_mon_rx_enable_fpmo(struct dp_soc *soc, uint32_t *msg_word,
  858. struct htt_rx_ring_tlv_filter *tlv_filter)
  859. {
  860. }
  861. #ifdef WLAN_CONFIG_TELEMETRY_AGENT
  862. static inline
  863. void dp_monitor_peer_telemetry_stats(struct dp_peer *peer,
  864. struct cdp_peer_telemetry_stats *stats)
  865. {
  866. }
  867. static inline
  868. void dp_monitor_peer_deter_stats(struct dp_peer *peer,
  869. struct cdp_peer_telemetry_stats *stats)
  870. {
  871. }
  872. #endif /* WLAN_CONFIG_TELEMETRY_AGENT */
  873. #endif /* !WIFI_MONITOR_SUPPORT */
  874. /**
  875. * cdp_soc_t_to_dp_soc() - typecast cdp_soc_t to
  876. * dp soc handle
  877. * @psoc: CDP psoc handle
  878. *
  879. * Return: struct dp_soc pointer
  880. */
  881. static inline
  882. struct dp_soc *cdp_soc_t_to_dp_soc(struct cdp_soc_t *psoc)
  883. {
  884. return (struct dp_soc *)psoc;
  885. }
  886. #define DP_MAX_TIMER_EXEC_TIME_TICKS \
  887. (QDF_LOG_TIMESTAMP_CYCLES_PER_10_US * 100 * 20)
  888. /**
  889. * enum timer_yield_status - yield status code used in monitor mode timer.
  890. * @DP_TIMER_NO_YIELD: do not yield
  891. * @DP_TIMER_WORK_DONE: yield because work is done
  892. * @DP_TIMER_WORK_EXHAUST: yield because work quota is exhausted
  893. * @DP_TIMER_TIME_EXHAUST: yield due to time slot exhausted
  894. */
  895. enum timer_yield_status {
  896. DP_TIMER_NO_YIELD,
  897. DP_TIMER_WORK_DONE,
  898. DP_TIMER_WORK_EXHAUST,
  899. DP_TIMER_TIME_EXHAUST,
  900. };
  901. #if DP_PRINT_ENABLE
  902. #include <qdf_types.h> /* qdf_vprint */
  903. #include <cdp_txrx_handle.h>
  904. enum {
  905. /* FATAL_ERR - print only irrecoverable error messages */
  906. DP_PRINT_LEVEL_FATAL_ERR,
  907. /* ERR - include non-fatal err messages */
  908. DP_PRINT_LEVEL_ERR,
  909. /* WARN - include warnings */
  910. DP_PRINT_LEVEL_WARN,
  911. /* INFO1 - include fundamental, infrequent events */
  912. DP_PRINT_LEVEL_INFO1,
  913. /* INFO2 - include non-fundamental but infrequent events */
  914. DP_PRINT_LEVEL_INFO2,
  915. };
  916. #define dp_print(level, fmt, ...) do { \
  917. if (level <= g_txrx_print_level) \
  918. qdf_print(fmt, ## __VA_ARGS__); \
  919. while (0)
  920. #define DP_PRINT(level, fmt, ...) do { \
  921. dp_print(level, "DP: " fmt, ## __VA_ARGS__); \
  922. while (0)
  923. #else
  924. #define DP_PRINT(level, fmt, ...)
  925. #endif /* DP_PRINT_ENABLE */
  926. #define DP_TRACE(LVL, fmt, args ...) \
  927. QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_##LVL, \
  928. fmt, ## args)
  929. #ifdef WLAN_SYSFS_DP_STATS
  930. void DP_PRINT_STATS(const char *fmt, ...);
  931. #else /* WLAN_SYSFS_DP_STATS */
  932. #ifdef DP_PRINT_NO_CONSOLE
  933. /* Stat prints should not go to console or kernel logs.*/
  934. #define DP_PRINT_STATS(fmt, args ...)\
  935. QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_INFO_HIGH, \
  936. fmt, ## args)
  937. #else
  938. #define DP_PRINT_STATS(fmt, args ...)\
  939. QDF_TRACE(QDF_MODULE_ID_DP, QDF_TRACE_LEVEL_FATAL,\
  940. fmt, ## args)
  941. #endif
  942. #endif /* WLAN_SYSFS_DP_STATS */
  943. #define DP_STATS_INIT(_handle) \
  944. qdf_mem_zero(&((_handle)->stats), sizeof((_handle)->stats))
  945. #define DP_TXRX_PEER_STATS_INIT(_handle, size) \
  946. qdf_mem_zero(&((_handle)->stats[0]), size)
  947. #define DP_STATS_CLR(_handle) \
  948. qdf_mem_zero(&((_handle)->stats), sizeof((_handle)->stats))
  949. #define DP_TXRX_PEER_STATS_CLR(_handle, size) \
  950. qdf_mem_zero(&((_handle)->stats[0]), size)
  951. #ifndef DISABLE_DP_STATS
  952. #define DP_STATS_INC(_handle, _field, _delta) \
  953. { \
  954. if (likely(_handle)) \
  955. _handle->stats._field += _delta; \
  956. }
  957. #define DP_PEER_LINK_STATS_INC(_handle, _field, _delta, _link) \
  958. { \
  959. if (likely(_handle)) \
  960. _handle->stats[_link]._field += _delta; \
  961. }
  962. #define DP_PEER_STATS_FLAT_INC(_handle, _field, _delta) \
  963. { \
  964. if (likely(_handle)) \
  965. _handle->_field += _delta; \
  966. }
  967. #define DP_STATS_INCC(_handle, _field, _delta, _cond) \
  968. { \
  969. if (_cond && likely(_handle)) \
  970. _handle->stats._field += _delta; \
  971. }
  972. #define DP_PEER_LINK_STATS_INCC(_handle, _field, _delta, _cond, _link) \
  973. { \
  974. if (_cond && likely(_handle)) \
  975. _handle->stats[_link]._field += _delta; \
  976. }
  977. #define DP_STATS_DEC(_handle, _field, _delta) \
  978. { \
  979. if (likely(_handle)) \
  980. _handle->stats._field -= _delta; \
  981. }
  982. #define DP_PEER_STATS_FLAT_DEC(_handle, _field, _delta) \
  983. { \
  984. if (likely(_handle)) \
  985. _handle->_field -= _delta; \
  986. }
  987. #define DP_STATS_UPD(_handle, _field, _delta) \
  988. { \
  989. if (likely(_handle)) \
  990. _handle->stats._field = _delta; \
  991. }
  992. #define DP_PEER_LINK_STATS_UPD(_handle, _field, _delta, _link) \
  993. { \
  994. if (likely(_handle)) \
  995. _handle->stats[_link]._field = _delta; \
  996. }
  997. #define DP_STATS_INC_PKT(_handle, _field, _count, _bytes) \
  998. { \
  999. DP_STATS_INC(_handle, _field.num, _count); \
  1000. DP_STATS_INC(_handle, _field.bytes, _bytes) \
  1001. }
  1002. #define DP_PEER_STATS_FLAT_INC_PKT(_handle, _field, _count, _bytes) \
  1003. { \
  1004. DP_PEER_STATS_FLAT_INC(_handle, _field.num, _count); \
  1005. DP_PEER_STATS_FLAT_INC(_handle, _field.bytes, _bytes) \
  1006. }
  1007. #define DP_STATS_INCC_PKT(_handle, _field, _count, _bytes, _cond) \
  1008. { \
  1009. DP_STATS_INCC(_handle, _field.num, _count, _cond); \
  1010. DP_STATS_INCC(_handle, _field.bytes, _bytes, _cond) \
  1011. }
  1012. #define DP_STATS_AGGR(_handle_a, _handle_b, _field) \
  1013. { \
  1014. _handle_a->stats._field += _handle_b->stats._field; \
  1015. }
  1016. #define DP_STATS_AGGR_PKT(_handle_a, _handle_b, _field) \
  1017. { \
  1018. DP_STATS_AGGR(_handle_a, _handle_b, _field.num); \
  1019. DP_STATS_AGGR(_handle_a, _handle_b, _field.bytes);\
  1020. }
  1021. #define DP_STATS_UPD_STRUCT(_handle_a, _handle_b, _field) \
  1022. { \
  1023. _handle_a->stats._field = _handle_b->stats._field; \
  1024. }
  1025. #else
  1026. #define DP_STATS_INC(_handle, _field, _delta)
  1027. #define DP_PEER_LINK_STATS_INC(_handle, _field, _delta, _link)
  1028. #define DP_PEER_STATS_FLAT_INC(_handle, _field, _delta)
  1029. #define DP_STATS_INCC(_handle, _field, _delta, _cond)
  1030. #define DP_PEER_LINK_STATS_INCC(_handle, _field, _delta, _cond, _link)
  1031. #define DP_STATS_DEC(_handle, _field, _delta)
  1032. #define DP_PEER_STATS_FLAT_DEC(_handle, _field, _delta)
  1033. #define DP_STATS_UPD(_handle, _field, _delta)
  1034. #define DP_PEER_LINK_STATS_UPD(_handle, _field, _delta, _link)
  1035. #define DP_STATS_INC_PKT(_handle, _field, _count, _bytes)
  1036. #define DP_PEER_STATS_FLAT_INC_PKT(_handle, _field, _count, _bytes)
  1037. #define DP_STATS_INCC_PKT(_handle, _field, _count, _bytes, _cond)
  1038. #define DP_STATS_AGGR(_handle_a, _handle_b, _field)
  1039. #define DP_STATS_AGGR_PKT(_handle_a, _handle_b, _field)
  1040. #endif
  1041. #define DP_PEER_PER_PKT_STATS_INC(_handle, _field, _delta, _link) \
  1042. { \
  1043. DP_PEER_LINK_STATS_INC(_handle, per_pkt_stats._field, _delta, _link); \
  1044. }
  1045. #define DP_PEER_PER_PKT_STATS_INCC(_handle, _field, _delta, _cond, _link) \
  1046. { \
  1047. DP_PEER_LINK_STATS_INCC(_handle, per_pkt_stats._field, _delta, _cond, _link); \
  1048. }
  1049. #define DP_PEER_PER_PKT_STATS_INC_PKT(_handle, _field, _count, _bytes, _link) \
  1050. { \
  1051. DP_PEER_PER_PKT_STATS_INC(_handle, _field.num, _count, _link); \
  1052. DP_PEER_PER_PKT_STATS_INC(_handle, _field.bytes, _bytes, _link) \
  1053. }
  1054. #define DP_PEER_PER_PKT_STATS_INCC_PKT(_handle, _field, _count, _bytes, _cond, _link) \
  1055. { \
  1056. DP_PEER_PER_PKT_STATS_INCC(_handle, _field.num, _count, _cond, _link); \
  1057. DP_PEER_PER_PKT_STATS_INCC(_handle, _field.bytes, _bytes, _cond, _link) \
  1058. }
  1059. #define DP_PEER_PER_PKT_STATS_UPD(_handle, _field, _delta, _link) \
  1060. { \
  1061. DP_PEER_LINK_STATS_UPD(_handle, per_pkt_stats._field, _delta, _link); \
  1062. }
  1063. #ifndef QCA_ENHANCED_STATS_SUPPORT
  1064. #define DP_PEER_EXTD_STATS_INC(_handle, _field, _delta, _link) \
  1065. { \
  1066. DP_PEER_LINK_STATS_INC(_handle, extd_stats._field, _delta, _link); \
  1067. }
  1068. #define DP_PEER_EXTD_STATS_INCC(_handle, _field, _delta, _cond, _link) \
  1069. { \
  1070. DP_PEER_LINK_STATS_INCC(_handle, extd_stats._field, _delta, _cond, _link); \
  1071. }
  1072. #define DP_PEER_EXTD_STATS_UPD(_handle, _field, _delta, _link) \
  1073. { \
  1074. DP_PEER_LINK_STATS_UPD(_handle, extd_stats._field, _delta, _link); \
  1075. }
  1076. #endif
  1077. #if defined(QCA_VDEV_STATS_HW_OFFLOAD_SUPPORT) && \
  1078. defined(QCA_ENHANCED_STATS_SUPPORT)
  1079. #define DP_PEER_TO_STACK_INCC_PKT(_handle, _count, _bytes, _cond) \
  1080. { \
  1081. if (_cond || !(_handle->hw_txrx_stats_en)) \
  1082. DP_PEER_STATS_FLAT_INC_PKT(_handle, to_stack, _count, _bytes); \
  1083. }
  1084. #define DP_PEER_TO_STACK_DECC(_handle, _count, _cond) \
  1085. { \
  1086. if (_cond || !(_handle->hw_txrx_stats_en)) \
  1087. DP_PEER_STATS_FLAT_DEC(_handle, to_stack.num, _count); \
  1088. }
  1089. #define DP_PEER_MC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1090. { \
  1091. if (_cond || !(_handle->hw_txrx_stats_en)) \
  1092. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.multicast, _count, _bytes, _link); \
  1093. }
  1094. #define DP_PEER_BC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1095. { \
  1096. if (_cond || !(_handle->hw_txrx_stats_en)) \
  1097. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.bcast, _count, _bytes, _link); \
  1098. }
  1099. #define DP_PEER_UC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1100. { \
  1101. if (_cond || !(_handle->hw_txrx_stats_en)) \
  1102. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.unicast, _count, _bytes, _link); \
  1103. }
  1104. #elif defined(QCA_VDEV_STATS_HW_OFFLOAD_SUPPORT)
  1105. #define DP_PEER_TO_STACK_INCC_PKT(_handle, _count, _bytes, _cond) \
  1106. { \
  1107. if (!(_handle->hw_txrx_stats_en)) \
  1108. DP_PEER_STATS_FLAT_INC_PKT(_handle, to_stack, _count, _bytes); \
  1109. }
  1110. #define DP_PEER_TO_STACK_DECC(_handle, _count, _cond) \
  1111. { \
  1112. if (!(_handle->hw_txrx_stats_en)) \
  1113. DP_PEER_STATS_FLAT_DEC(_handle, to_stack.num, _count); \
  1114. }
  1115. #define DP_PEER_MC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1116. { \
  1117. if (!(_handle->hw_txrx_stats_en)) \
  1118. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.multicast, _count, _bytes, _link); \
  1119. }
  1120. #define DP_PEER_BC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1121. { \
  1122. if (!(_handle->hw_txrx_stats_en)) \
  1123. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.bcast, _count, _bytes, _link); \
  1124. }
  1125. #define DP_PEER_UC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1126. { \
  1127. if (!(_handle->hw_txrx_stats_en)) \
  1128. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.unicast, _count, _bytes, _link); \
  1129. }
  1130. #else
  1131. #define DP_PEER_TO_STACK_INCC_PKT(_handle, _count, _bytes, _cond) \
  1132. DP_PEER_STATS_FLAT_INC_PKT(_handle, to_stack, _count, _bytes);
  1133. #define DP_PEER_TO_STACK_DECC(_handle, _count, _cond) \
  1134. DP_PEER_STATS_FLAT_DEC(_handle, to_stack.num, _count);
  1135. #define DP_PEER_MC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1136. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.multicast, _count, _bytes, _link);
  1137. #define DP_PEER_BC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1138. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.bcast, _count, _bytes, _link);
  1139. #define DP_PEER_UC_INCC_PKT(_handle, _count, _bytes, _cond, _link) \
  1140. DP_PEER_PER_PKT_STATS_INC_PKT(_handle, rx.unicast, _count, _bytes, _link);
  1141. #endif
  1142. #ifdef ENABLE_DP_HIST_STATS
  1143. #define DP_HIST_INIT() \
  1144. uint32_t num_of_packets[MAX_PDEV_CNT] = {0};
  1145. #define DP_HIST_PACKET_COUNT_INC(_pdev_id) \
  1146. { \
  1147. ++num_of_packets[_pdev_id]; \
  1148. }
  1149. #define DP_TX_HISTOGRAM_UPDATE(_pdev, _p_cntrs) \
  1150. do { \
  1151. if (_p_cntrs == 1) { \
  1152. DP_STATS_INC(_pdev, \
  1153. tx_comp_histogram.pkts_1, 1); \
  1154. } else if (_p_cntrs > 1 && _p_cntrs <= 20) { \
  1155. DP_STATS_INC(_pdev, \
  1156. tx_comp_histogram.pkts_2_20, 1); \
  1157. } else if (_p_cntrs > 20 && _p_cntrs <= 40) { \
  1158. DP_STATS_INC(_pdev, \
  1159. tx_comp_histogram.pkts_21_40, 1); \
  1160. } else if (_p_cntrs > 40 && _p_cntrs <= 60) { \
  1161. DP_STATS_INC(_pdev, \
  1162. tx_comp_histogram.pkts_41_60, 1); \
  1163. } else if (_p_cntrs > 60 && _p_cntrs <= 80) { \
  1164. DP_STATS_INC(_pdev, \
  1165. tx_comp_histogram.pkts_61_80, 1); \
  1166. } else if (_p_cntrs > 80 && _p_cntrs <= 100) { \
  1167. DP_STATS_INC(_pdev, \
  1168. tx_comp_histogram.pkts_81_100, 1); \
  1169. } else if (_p_cntrs > 100 && _p_cntrs <= 200) { \
  1170. DP_STATS_INC(_pdev, \
  1171. tx_comp_histogram.pkts_101_200, 1); \
  1172. } else if (_p_cntrs > 200) { \
  1173. DP_STATS_INC(_pdev, \
  1174. tx_comp_histogram.pkts_201_plus, 1); \
  1175. } \
  1176. } while (0)
  1177. #define DP_RX_HISTOGRAM_UPDATE(_pdev, _p_cntrs) \
  1178. do { \
  1179. if (_p_cntrs == 1) { \
  1180. DP_STATS_INC(_pdev, \
  1181. rx_ind_histogram.pkts_1, 1); \
  1182. } else if (_p_cntrs > 1 && _p_cntrs <= 20) { \
  1183. DP_STATS_INC(_pdev, \
  1184. rx_ind_histogram.pkts_2_20, 1); \
  1185. } else if (_p_cntrs > 20 && _p_cntrs <= 40) { \
  1186. DP_STATS_INC(_pdev, \
  1187. rx_ind_histogram.pkts_21_40, 1); \
  1188. } else if (_p_cntrs > 40 && _p_cntrs <= 60) { \
  1189. DP_STATS_INC(_pdev, \
  1190. rx_ind_histogram.pkts_41_60, 1); \
  1191. } else if (_p_cntrs > 60 && _p_cntrs <= 80) { \
  1192. DP_STATS_INC(_pdev, \
  1193. rx_ind_histogram.pkts_61_80, 1); \
  1194. } else if (_p_cntrs > 80 && _p_cntrs <= 100) { \
  1195. DP_STATS_INC(_pdev, \
  1196. rx_ind_histogram.pkts_81_100, 1); \
  1197. } else if (_p_cntrs > 100 && _p_cntrs <= 200) { \
  1198. DP_STATS_INC(_pdev, \
  1199. rx_ind_histogram.pkts_101_200, 1); \
  1200. } else if (_p_cntrs > 200) { \
  1201. DP_STATS_INC(_pdev, \
  1202. rx_ind_histogram.pkts_201_plus, 1); \
  1203. } \
  1204. } while (0)
  1205. #define DP_TX_HIST_STATS_PER_PDEV() \
  1206. do { \
  1207. uint8_t hist_stats = 0; \
  1208. for (hist_stats = 0; hist_stats < soc->pdev_count; \
  1209. hist_stats++) { \
  1210. DP_TX_HISTOGRAM_UPDATE(soc->pdev_list[hist_stats], \
  1211. num_of_packets[hist_stats]); \
  1212. } \
  1213. } while (0)
  1214. #define DP_RX_HIST_STATS_PER_PDEV() \
  1215. do { \
  1216. uint8_t hist_stats = 0; \
  1217. for (hist_stats = 0; hist_stats < soc->pdev_count; \
  1218. hist_stats++) { \
  1219. DP_RX_HISTOGRAM_UPDATE(soc->pdev_list[hist_stats], \
  1220. num_of_packets[hist_stats]); \
  1221. } \
  1222. } while (0)
  1223. #else
  1224. #define DP_HIST_INIT()
  1225. #define DP_HIST_PACKET_COUNT_INC(_pdev_id)
  1226. #define DP_TX_HISTOGRAM_UPDATE(_pdev, _p_cntrs)
  1227. #define DP_RX_HISTOGRAM_UPDATE(_pdev, _p_cntrs)
  1228. #define DP_RX_HIST_STATS_PER_PDEV()
  1229. #define DP_TX_HIST_STATS_PER_PDEV()
  1230. #endif /* DISABLE_DP_STATS */
  1231. #define FRAME_MASK_IPV4_ARP 1
  1232. #define FRAME_MASK_IPV4_DHCP 2
  1233. #define FRAME_MASK_IPV4_EAPOL 4
  1234. #define FRAME_MASK_IPV6_DHCP 8
  1235. static inline int dp_log2_ceil(unsigned int value)
  1236. {
  1237. unsigned int tmp = value;
  1238. int log2 = -1;
  1239. while (tmp) {
  1240. log2++;
  1241. tmp >>= 1;
  1242. }
  1243. if (1 << log2 != value)
  1244. log2++;
  1245. return log2;
  1246. }
  1247. #ifdef QCA_SUPPORT_PEER_ISOLATION
  1248. #define dp_get_peer_isolation(_peer) ((_peer)->isolation)
  1249. static inline void dp_set_peer_isolation(struct dp_txrx_peer *txrx_peer,
  1250. bool val)
  1251. {
  1252. txrx_peer->isolation = val;
  1253. }
  1254. #else
  1255. #define dp_get_peer_isolation(_peer) (0)
  1256. static inline void dp_set_peer_isolation(struct dp_txrx_peer *peer, bool val)
  1257. {
  1258. }
  1259. #endif /* QCA_SUPPORT_PEER_ISOLATION */
  1260. bool dp_vdev_is_wds_ext_enabled(struct dp_vdev *vdev);
  1261. #ifdef QCA_SUPPORT_WDS_EXTENDED
  1262. static inline void dp_wds_ext_peer_init(struct dp_txrx_peer *txrx_peer)
  1263. {
  1264. txrx_peer->wds_ext.osif_peer = NULL;
  1265. txrx_peer->wds_ext.init = 0;
  1266. }
  1267. #else
  1268. static inline void dp_wds_ext_peer_init(struct dp_txrx_peer *txrx_peer)
  1269. {
  1270. }
  1271. #endif /* QCA_SUPPORT_WDS_EXTENDED */
  1272. #ifdef QCA_HOST2FW_RXBUF_RING
  1273. static inline
  1274. struct dp_srng *dp_get_rxdma_ring(struct dp_pdev *pdev, int lmac_id)
  1275. {
  1276. return &pdev->rx_mac_buf_ring[lmac_id];
  1277. }
  1278. #else
  1279. static inline
  1280. struct dp_srng *dp_get_rxdma_ring(struct dp_pdev *pdev, int lmac_id)
  1281. {
  1282. return &pdev->soc->rx_refill_buf_ring[lmac_id];
  1283. }
  1284. #endif
  1285. /*
  1286. * The lmac ID for a particular channel band is fixed.
  1287. * 2.4GHz band uses lmac_id = 1
  1288. * 5GHz/6GHz band uses lmac_id=0
  1289. */
  1290. #define DP_INVALID_LMAC_ID (-1)
  1291. #define DP_MON_INVALID_LMAC_ID (-1)
  1292. #define DP_MAC0_LMAC_ID 0
  1293. #define DP_MAC1_LMAC_ID 1
  1294. #ifdef FEATURE_TSO_STATS
  1295. /**
  1296. * dp_init_tso_stats() - Clear tso stats
  1297. * @pdev: pdev handle
  1298. *
  1299. * Return: None
  1300. */
  1301. static inline
  1302. void dp_init_tso_stats(struct dp_pdev *pdev)
  1303. {
  1304. if (pdev) {
  1305. qdf_mem_zero(&((pdev)->stats.tso_stats),
  1306. sizeof((pdev)->stats.tso_stats));
  1307. qdf_atomic_init(&pdev->tso_idx);
  1308. }
  1309. }
  1310. /**
  1311. * dp_stats_tso_segment_histogram_update() - TSO Segment Histogram
  1312. * @pdev: pdev handle
  1313. * @_p_cntrs: number of tso segments for a tso packet
  1314. *
  1315. * Return: None
  1316. */
  1317. void dp_stats_tso_segment_histogram_update(struct dp_pdev *pdev,
  1318. uint8_t _p_cntrs);
  1319. /**
  1320. * dp_tso_segment_update() - Collect tso segment information
  1321. * @pdev: pdev handle
  1322. * @stats_idx: tso packet number
  1323. * @idx: tso segment number
  1324. * @seg: tso segment
  1325. *
  1326. * Return: None
  1327. */
  1328. void dp_tso_segment_update(struct dp_pdev *pdev,
  1329. uint32_t stats_idx,
  1330. uint8_t idx,
  1331. struct qdf_tso_seg_t seg);
  1332. /**
  1333. * dp_tso_packet_update() - TSO Packet information
  1334. * @pdev: pdev handle
  1335. * @stats_idx: tso packet number
  1336. * @msdu: nbuf handle
  1337. * @num_segs: tso segments
  1338. *
  1339. * Return: None
  1340. */
  1341. void dp_tso_packet_update(struct dp_pdev *pdev, uint32_t stats_idx,
  1342. qdf_nbuf_t msdu, uint16_t num_segs);
  1343. /**
  1344. * dp_tso_segment_stats_update() - TSO Segment stats
  1345. * @pdev: pdev handle
  1346. * @stats_seg: tso segment list
  1347. * @stats_idx: tso packet number
  1348. *
  1349. * Return: None
  1350. */
  1351. void dp_tso_segment_stats_update(struct dp_pdev *pdev,
  1352. struct qdf_tso_seg_elem_t *stats_seg,
  1353. uint32_t stats_idx);
  1354. /**
  1355. * dp_print_tso_stats() - dump tso statistics
  1356. * @soc:soc handle
  1357. * @level: verbosity level
  1358. *
  1359. * Return: None
  1360. */
  1361. void dp_print_tso_stats(struct dp_soc *soc,
  1362. enum qdf_stats_verbosity_level level);
  1363. /**
  1364. * dp_txrx_clear_tso_stats() - clear tso stats
  1365. * @soc: soc handle
  1366. *
  1367. * Return: None
  1368. */
  1369. void dp_txrx_clear_tso_stats(struct dp_soc *soc);
  1370. #else
  1371. static inline
  1372. void dp_init_tso_stats(struct dp_pdev *pdev)
  1373. {
  1374. }
  1375. static inline
  1376. void dp_stats_tso_segment_histogram_update(struct dp_pdev *pdev,
  1377. uint8_t _p_cntrs)
  1378. {
  1379. }
  1380. static inline
  1381. void dp_tso_segment_update(struct dp_pdev *pdev,
  1382. uint32_t stats_idx,
  1383. uint32_t idx,
  1384. struct qdf_tso_seg_t seg)
  1385. {
  1386. }
  1387. static inline
  1388. void dp_tso_packet_update(struct dp_pdev *pdev, uint32_t stats_idx,
  1389. qdf_nbuf_t msdu, uint16_t num_segs)
  1390. {
  1391. }
  1392. static inline
  1393. void dp_tso_segment_stats_update(struct dp_pdev *pdev,
  1394. struct qdf_tso_seg_elem_t *stats_seg,
  1395. uint32_t stats_idx)
  1396. {
  1397. }
  1398. static inline
  1399. void dp_print_tso_stats(struct dp_soc *soc,
  1400. enum qdf_stats_verbosity_level level)
  1401. {
  1402. }
  1403. static inline
  1404. void dp_txrx_clear_tso_stats(struct dp_soc *soc)
  1405. {
  1406. }
  1407. #endif /* FEATURE_TSO_STATS */
  1408. /**
  1409. * dp_txrx_get_peer_per_pkt_stats_param() - Get peer per pkt stats param
  1410. * @peer: DP peer handle
  1411. * @type: Requested stats type
  1412. * @buf: Buffer to hold the value
  1413. *
  1414. * Return: status success/failure
  1415. */
  1416. QDF_STATUS dp_txrx_get_peer_per_pkt_stats_param(struct dp_peer *peer,
  1417. enum cdp_peer_stats_type type,
  1418. cdp_peer_stats_param_t *buf);
  1419. /**
  1420. * dp_txrx_get_peer_extd_stats_param() - Get peer extd stats param
  1421. * @peer: DP peer handle
  1422. * @type: Requested stats type
  1423. * @buf: Buffer to hold the value
  1424. *
  1425. * Return: status success/failure
  1426. */
  1427. QDF_STATUS dp_txrx_get_peer_extd_stats_param(struct dp_peer *peer,
  1428. enum cdp_peer_stats_type type,
  1429. cdp_peer_stats_param_t *buf);
  1430. #define DP_HTT_T2H_HP_PIPE 5
  1431. /**
  1432. * dp_update_pdev_stats(): Update the pdev stats
  1433. * @tgtobj: pdev handle
  1434. * @srcobj: vdev stats structure
  1435. *
  1436. * Update the pdev stats from the specified vdev stats
  1437. *
  1438. * Return: None
  1439. */
  1440. void dp_update_pdev_stats(struct dp_pdev *tgtobj,
  1441. struct cdp_vdev_stats *srcobj);
  1442. /**
  1443. * dp_update_vdev_ingress_stats(): Update the vdev ingress stats
  1444. * @tgtobj: vdev handle
  1445. *
  1446. * Update the vdev ingress stats
  1447. *
  1448. * Return: None
  1449. */
  1450. void dp_update_vdev_ingress_stats(struct dp_vdev *tgtobj);
  1451. /**
  1452. * dp_update_vdev_rate_stats() - Update the vdev rate stats
  1453. * @tgtobj: tgt buffer for vdev stats
  1454. * @srcobj: srcobj vdev stats
  1455. *
  1456. * Return: None
  1457. */
  1458. void dp_update_vdev_rate_stats(struct cdp_vdev_stats *tgtobj,
  1459. struct cdp_vdev_stats *srcobj);
  1460. /**
  1461. * dp_update_pdev_ingress_stats(): Update the pdev ingress stats
  1462. * @tgtobj: pdev handle
  1463. * @srcobj: vdev stats structure
  1464. *
  1465. * Update the pdev ingress stats from the specified vdev stats
  1466. *
  1467. * Return: None
  1468. */
  1469. void dp_update_pdev_ingress_stats(struct dp_pdev *tgtobj,
  1470. struct dp_vdev *srcobj);
  1471. /**
  1472. * dp_update_vdev_stats(): Update the vdev stats
  1473. * @soc: soc handle
  1474. * @srcobj: DP_PEER object
  1475. * @arg: point to vdev stats structure
  1476. *
  1477. * Update the vdev stats from the specified peer stats
  1478. *
  1479. * Return: None
  1480. */
  1481. void dp_update_vdev_stats(struct dp_soc *soc,
  1482. struct dp_peer *srcobj,
  1483. void *arg);
  1484. /**
  1485. * dp_update_vdev_stats_on_peer_unmap() - Update the vdev stats on peer unmap
  1486. * @vdev: DP_VDEV handle
  1487. * @peer: DP_PEER handle
  1488. *
  1489. * Return: None
  1490. */
  1491. void dp_update_vdev_stats_on_peer_unmap(struct dp_vdev *vdev,
  1492. struct dp_peer *peer);
  1493. #ifdef IPA_OFFLOAD
  1494. #define DP_IPA_UPDATE_RX_STATS(__tgtobj, __srcobj) \
  1495. { \
  1496. DP_STATS_AGGR_PKT(__tgtobj, __srcobj, rx.rx_total); \
  1497. }
  1498. #define DP_IPA_UPDATE_PER_PKT_RX_STATS(__tgtobj, __srcobj) \
  1499. { \
  1500. (__tgtobj)->rx.rx_total.num += (__srcobj)->rx.rx_total.num; \
  1501. (__tgtobj)->rx.rx_total.bytes += (__srcobj)->rx.rx_total.bytes; \
  1502. }
  1503. #else
  1504. #define DP_IPA_UPDATE_PER_PKT_RX_STATS(tgtobj, srcobj) \
  1505. #define DP_IPA_UPDATE_RX_STATS(tgtobj, srcobj)
  1506. #endif
  1507. #define DP_UPDATE_STATS(_tgtobj, _srcobj) \
  1508. do { \
  1509. uint8_t i; \
  1510. uint8_t pream_type; \
  1511. for (pream_type = 0; pream_type < DOT11_MAX; pream_type++) { \
  1512. for (i = 0; i < MAX_MCS; i++) { \
  1513. DP_STATS_AGGR(_tgtobj, _srcobj, \
  1514. tx.pkt_type[pream_type].mcs_count[i]); \
  1515. DP_STATS_AGGR(_tgtobj, _srcobj, \
  1516. rx.pkt_type[pream_type].mcs_count[i]); \
  1517. } \
  1518. } \
  1519. \
  1520. for (i = 0; i < MAX_BW; i++) { \
  1521. DP_STATS_AGGR(_tgtobj, _srcobj, tx.bw[i]); \
  1522. DP_STATS_AGGR(_tgtobj, _srcobj, rx.bw[i]); \
  1523. } \
  1524. \
  1525. for (i = 0; i < SS_COUNT; i++) { \
  1526. DP_STATS_AGGR(_tgtobj, _srcobj, rx.nss[i]); \
  1527. DP_STATS_AGGR(_tgtobj, _srcobj, tx.nss[i]); \
  1528. } \
  1529. for (i = 0; i < WME_AC_MAX; i++) { \
  1530. DP_STATS_AGGR(_tgtobj, _srcobj, tx.wme_ac_type[i]); \
  1531. DP_STATS_AGGR(_tgtobj, _srcobj, rx.wme_ac_type[i]); \
  1532. DP_STATS_AGGR(_tgtobj, _srcobj, \
  1533. tx.wme_ac_type_bytes[i]); \
  1534. DP_STATS_AGGR(_tgtobj, _srcobj, \
  1535. rx.wme_ac_type_bytes[i]); \
  1536. DP_STATS_AGGR(_tgtobj, _srcobj, tx.excess_retries_per_ac[i]); \
  1537. \
  1538. } \
  1539. \
  1540. for (i = 0; i < MAX_GI; i++) { \
  1541. DP_STATS_AGGR(_tgtobj, _srcobj, tx.sgi_count[i]); \
  1542. DP_STATS_AGGR(_tgtobj, _srcobj, rx.sgi_count[i]); \
  1543. } \
  1544. \
  1545. for (i = 0; i < MAX_RECEPTION_TYPES; i++) \
  1546. DP_STATS_AGGR(_tgtobj, _srcobj, rx.reception_type[i]); \
  1547. \
  1548. if (!wlan_cfg_get_vdev_stats_hw_offload_config(soc->wlan_cfg_ctx)) { \
  1549. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.comp_pkt); \
  1550. DP_STATS_AGGR(_tgtobj, _srcobj, tx.tx_failed); \
  1551. } \
  1552. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.ucast); \
  1553. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.mcast); \
  1554. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.bcast); \
  1555. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.tx_success); \
  1556. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.nawds_mcast); \
  1557. DP_STATS_AGGR(_tgtobj, _srcobj, tx.nawds_mcast_drop); \
  1558. DP_STATS_AGGR(_tgtobj, _srcobj, tx.ofdma); \
  1559. DP_STATS_AGGR(_tgtobj, _srcobj, tx.stbc); \
  1560. DP_STATS_AGGR(_tgtobj, _srcobj, tx.ldpc); \
  1561. DP_STATS_AGGR(_tgtobj, _srcobj, tx.retries); \
  1562. DP_STATS_AGGR(_tgtobj, _srcobj, tx.non_amsdu_cnt); \
  1563. DP_STATS_AGGR(_tgtobj, _srcobj, tx.amsdu_cnt); \
  1564. DP_STATS_AGGR(_tgtobj, _srcobj, tx.non_ampdu_cnt); \
  1565. DP_STATS_AGGR(_tgtobj, _srcobj, tx.ampdu_cnt); \
  1566. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.dropped.fw_rem); \
  1567. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_rem_tx); \
  1568. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_rem_notx); \
  1569. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_reason1); \
  1570. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_reason2); \
  1571. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_reason3); \
  1572. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_rem_queue_disable); \
  1573. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.fw_rem_no_match); \
  1574. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.drop_threshold); \
  1575. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.drop_link_desc_na); \
  1576. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.invalid_drop); \
  1577. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.mcast_vdev_drop); \
  1578. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.invalid_rr); \
  1579. DP_STATS_AGGR(_tgtobj, _srcobj, tx.dropped.age_out); \
  1580. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.tx_ucast_total); \
  1581. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, tx.tx_ucast_success); \
  1582. \
  1583. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.mic_err); \
  1584. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.decrypt_err); \
  1585. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.fcserr); \
  1586. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.pn_err); \
  1587. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.oor_err); \
  1588. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.jump_2k_err); \
  1589. DP_STATS_AGGR(_tgtobj, _srcobj, rx.err.rxdma_wifi_parse_err); \
  1590. if (_srcobj->stats.rx.snr != 0) \
  1591. DP_STATS_UPD_STRUCT(_tgtobj, _srcobj, rx.snr); \
  1592. DP_STATS_UPD_STRUCT(_tgtobj, _srcobj, rx.rx_rate); \
  1593. DP_STATS_AGGR(_tgtobj, _srcobj, rx.non_ampdu_cnt); \
  1594. DP_STATS_AGGR(_tgtobj, _srcobj, rx.ampdu_cnt); \
  1595. DP_STATS_AGGR(_tgtobj, _srcobj, rx.non_amsdu_cnt); \
  1596. DP_STATS_AGGR(_tgtobj, _srcobj, rx.amsdu_cnt); \
  1597. DP_STATS_AGGR(_tgtobj, _srcobj, rx.nawds_mcast_drop); \
  1598. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.to_stack); \
  1599. \
  1600. for (i = 0; i < CDP_MAX_RX_RINGS; i++) \
  1601. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.rcvd_reo[i]); \
  1602. \
  1603. for (i = 0; i < CDP_MAX_LMACS; i++) \
  1604. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.rx_lmac[i]); \
  1605. \
  1606. _srcobj->stats.rx.unicast.num = \
  1607. _srcobj->stats.rx.to_stack.num - \
  1608. _srcobj->stats.rx.multicast.num; \
  1609. _srcobj->stats.rx.unicast.bytes = \
  1610. _srcobj->stats.rx.to_stack.bytes - \
  1611. _srcobj->stats.rx.multicast.bytes; \
  1612. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.unicast); \
  1613. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.multicast); \
  1614. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.bcast); \
  1615. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.raw); \
  1616. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.intra_bss.pkts); \
  1617. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.intra_bss.fail); \
  1618. DP_STATS_AGGR_PKT(_tgtobj, _srcobj, rx.mec_drop); \
  1619. \
  1620. _tgtobj->stats.tx.last_ack_rssi = \
  1621. _srcobj->stats.tx.last_ack_rssi; \
  1622. DP_STATS_AGGR(_tgtobj, _srcobj, rx.multipass_rx_pkt_drop); \
  1623. DP_STATS_AGGR(_tgtobj, _srcobj, rx.peer_unauth_rx_pkt_drop); \
  1624. DP_STATS_AGGR(_tgtobj, _srcobj, rx.policy_check_drop); \
  1625. DP_IPA_UPDATE_RX_STATS(_tgtobj, _srcobj); \
  1626. } while (0)
  1627. #ifdef VDEV_PEER_PROTOCOL_COUNT
  1628. #define DP_UPDATE_PROTOCOL_COUNT_STATS(_tgtobj, _srcobj) \
  1629. { \
  1630. uint8_t j; \
  1631. for (j = 0; j < CDP_TRACE_MAX; j++) { \
  1632. _tgtobj->tx.protocol_trace_cnt[j].egress_cnt += \
  1633. _srcobj->tx.protocol_trace_cnt[j].egress_cnt; \
  1634. _tgtobj->tx.protocol_trace_cnt[j].ingress_cnt += \
  1635. _srcobj->tx.protocol_trace_cnt[j].ingress_cnt; \
  1636. _tgtobj->rx.protocol_trace_cnt[j].egress_cnt += \
  1637. _srcobj->rx.protocol_trace_cnt[j].egress_cnt; \
  1638. _tgtobj->rx.protocol_trace_cnt[j].ingress_cnt += \
  1639. _srcobj->rx.protocol_trace_cnt[j].ingress_cnt; \
  1640. } \
  1641. }
  1642. #else
  1643. #define DP_UPDATE_PROTOCOL_COUNT_STATS(_tgtobj, _srcobj)
  1644. #endif
  1645. #ifdef WLAN_FEATURE_11BE
  1646. #define DP_UPDATE_11BE_STATS(_tgtobj, _srcobj) \
  1647. do { \
  1648. uint8_t i, mu_type; \
  1649. for (i = 0; i < MAX_MCS; i++) { \
  1650. _tgtobj->tx.su_be_ppdu_cnt.mcs_count[i] += \
  1651. _srcobj->tx.su_be_ppdu_cnt.mcs_count[i]; \
  1652. _tgtobj->rx.su_be_ppdu_cnt.mcs_count[i] += \
  1653. _srcobj->rx.su_be_ppdu_cnt.mcs_count[i]; \
  1654. } \
  1655. for (mu_type = 0; mu_type < TXRX_TYPE_MU_MAX; mu_type++) { \
  1656. for (i = 0; i < MAX_MCS; i++) { \
  1657. _tgtobj->tx.mu_be_ppdu_cnt[mu_type].mcs_count[i] += \
  1658. _srcobj->tx.mu_be_ppdu_cnt[mu_type].mcs_count[i]; \
  1659. _tgtobj->rx.mu_be_ppdu_cnt[mu_type].mcs_count[i] += \
  1660. _srcobj->rx.mu_be_ppdu_cnt[mu_type].mcs_count[i]; \
  1661. } \
  1662. } \
  1663. for (i = 0; i < MAX_PUNCTURED_MODE; i++) { \
  1664. _tgtobj->tx.punc_bw[i] += _srcobj->tx.punc_bw[i]; \
  1665. _tgtobj->rx.punc_bw[i] += _srcobj->rx.punc_bw[i]; \
  1666. } \
  1667. } while (0)
  1668. #else
  1669. #define DP_UPDATE_11BE_STATS(_tgtobj, _srcobj)
  1670. #endif
  1671. #define DP_UPDATE_BASIC_STATS(_tgtobj, _srcobj) \
  1672. do { \
  1673. _tgtobj->tx.comp_pkt.num += _srcobj->tx.comp_pkt.num; \
  1674. _tgtobj->tx.comp_pkt.bytes += _srcobj->tx.comp_pkt.bytes; \
  1675. _tgtobj->tx.tx_failed += _srcobj->tx.tx_failed; \
  1676. _tgtobj->rx.to_stack.num += _srcobj->rx.to_stack.num; \
  1677. _tgtobj->rx.to_stack.bytes += _srcobj->rx.to_stack.bytes; \
  1678. } while (0)
  1679. #define DP_UPDATE_PER_PKT_STATS(_tgtobj, _srcobj) \
  1680. do { \
  1681. uint8_t i; \
  1682. _tgtobj->tx.ucast.num += _srcobj->tx.ucast.num; \
  1683. _tgtobj->tx.ucast.bytes += _srcobj->tx.ucast.bytes; \
  1684. _tgtobj->tx.mcast.num += _srcobj->tx.mcast.num; \
  1685. _tgtobj->tx.mcast.bytes += _srcobj->tx.mcast.bytes; \
  1686. _tgtobj->tx.bcast.num += _srcobj->tx.bcast.num; \
  1687. _tgtobj->tx.bcast.bytes += _srcobj->tx.bcast.bytes; \
  1688. _tgtobj->tx.nawds_mcast.num += _srcobj->tx.nawds_mcast.num; \
  1689. _tgtobj->tx.nawds_mcast.bytes += \
  1690. _srcobj->tx.nawds_mcast.bytes; \
  1691. _tgtobj->tx.tx_success.num += _srcobj->tx.tx_success.num; \
  1692. _tgtobj->tx.tx_success.bytes += _srcobj->tx.tx_success.bytes; \
  1693. _tgtobj->tx.nawds_mcast_drop += _srcobj->tx.nawds_mcast_drop; \
  1694. _tgtobj->tx.ofdma += _srcobj->tx.ofdma; \
  1695. _tgtobj->tx.non_amsdu_cnt += _srcobj->tx.non_amsdu_cnt; \
  1696. _tgtobj->tx.amsdu_cnt += _srcobj->tx.amsdu_cnt; \
  1697. _tgtobj->tx.dropped.fw_rem.num += \
  1698. _srcobj->tx.dropped.fw_rem.num; \
  1699. _tgtobj->tx.dropped.fw_rem.bytes += \
  1700. _srcobj->tx.dropped.fw_rem.bytes; \
  1701. _tgtobj->tx.dropped.fw_rem_notx += \
  1702. _srcobj->tx.dropped.fw_rem_notx; \
  1703. _tgtobj->tx.dropped.fw_rem_tx += \
  1704. _srcobj->tx.dropped.fw_rem_tx; \
  1705. _tgtobj->tx.dropped.age_out += _srcobj->tx.dropped.age_out; \
  1706. _tgtobj->tx.dropped.fw_reason1 += \
  1707. _srcobj->tx.dropped.fw_reason1; \
  1708. _tgtobj->tx.dropped.fw_reason2 += \
  1709. _srcobj->tx.dropped.fw_reason2; \
  1710. _tgtobj->tx.dropped.fw_reason3 += \
  1711. _srcobj->tx.dropped.fw_reason3; \
  1712. _tgtobj->tx.dropped.fw_rem_queue_disable += \
  1713. _srcobj->tx.dropped.fw_rem_queue_disable; \
  1714. _tgtobj->tx.dropped.fw_rem_no_match += \
  1715. _srcobj->tx.dropped.fw_rem_no_match; \
  1716. _tgtobj->tx.dropped.drop_threshold += \
  1717. _srcobj->tx.dropped.drop_threshold; \
  1718. _tgtobj->tx.dropped.drop_link_desc_na += \
  1719. _srcobj->tx.dropped.drop_link_desc_na; \
  1720. _tgtobj->tx.dropped.invalid_drop += \
  1721. _srcobj->tx.dropped.invalid_drop; \
  1722. _tgtobj->tx.dropped.mcast_vdev_drop += \
  1723. _srcobj->tx.dropped.mcast_vdev_drop; \
  1724. _tgtobj->tx.dropped.invalid_rr += \
  1725. _srcobj->tx.dropped.invalid_rr; \
  1726. _tgtobj->tx.failed_retry_count += \
  1727. _srcobj->tx.failed_retry_count; \
  1728. _tgtobj->tx.retry_count += _srcobj->tx.retry_count; \
  1729. _tgtobj->tx.multiple_retry_count += \
  1730. _srcobj->tx.multiple_retry_count; \
  1731. _tgtobj->tx.tx_success_twt.num += \
  1732. _srcobj->tx.tx_success_twt.num; \
  1733. _tgtobj->tx.tx_success_twt.bytes += \
  1734. _srcobj->tx.tx_success_twt.bytes; \
  1735. _tgtobj->tx.last_tx_ts = _srcobj->tx.last_tx_ts; \
  1736. _tgtobj->tx.release_src_not_tqm += \
  1737. _srcobj->tx.release_src_not_tqm; \
  1738. for (i = 0; i < QDF_PROTO_SUBTYPE_MAX; i++) { \
  1739. _tgtobj->tx.no_ack_count[i] += \
  1740. _srcobj->tx.no_ack_count[i];\
  1741. } \
  1742. \
  1743. _tgtobj->rx.multicast.num += _srcobj->rx.multicast.num; \
  1744. _tgtobj->rx.multicast.bytes += _srcobj->rx.multicast.bytes; \
  1745. _tgtobj->rx.rx_success.num += _srcobj->rx.rx_success.num;\
  1746. _tgtobj->rx.rx_success.bytes += _srcobj->rx.rx_success.bytes;\
  1747. _tgtobj->rx.bcast.num += _srcobj->rx.bcast.num; \
  1748. _tgtobj->rx.bcast.bytes += _srcobj->rx.bcast.bytes; \
  1749. _tgtobj->rx.unicast.num += _srcobj->rx.unicast.num; \
  1750. _tgtobj->rx.unicast.bytes += _srcobj->rx.unicast.bytes; \
  1751. _tgtobj->rx.raw.num += _srcobj->rx.raw.num; \
  1752. _tgtobj->rx.raw.bytes += _srcobj->rx.raw.bytes; \
  1753. _tgtobj->rx.nawds_mcast_drop += _srcobj->rx.nawds_mcast_drop; \
  1754. _tgtobj->rx.mcast_3addr_drop += _srcobj->rx.mcast_3addr_drop; \
  1755. _tgtobj->rx.mec_drop.num += _srcobj->rx.mec_drop.num; \
  1756. _tgtobj->rx.mec_drop.bytes += _srcobj->rx.mec_drop.bytes; \
  1757. _tgtobj->rx.ppeds_drop.num += _srcobj->rx.ppeds_drop.num; \
  1758. _tgtobj->rx.ppeds_drop.bytes += _srcobj->rx.ppeds_drop.bytes; \
  1759. _tgtobj->rx.intra_bss.pkts.num += \
  1760. _srcobj->rx.intra_bss.pkts.num; \
  1761. _tgtobj->rx.intra_bss.pkts.bytes += \
  1762. _srcobj->rx.intra_bss.pkts.bytes; \
  1763. _tgtobj->rx.intra_bss.fail.num += \
  1764. _srcobj->rx.intra_bss.fail.num; \
  1765. _tgtobj->rx.intra_bss.fail.bytes += \
  1766. _srcobj->rx.intra_bss.fail.bytes; \
  1767. _tgtobj->rx.intra_bss.mdns_no_fwd += \
  1768. _srcobj->rx.intra_bss.mdns_no_fwd; \
  1769. _tgtobj->rx.err.mic_err += _srcobj->rx.err.mic_err; \
  1770. _tgtobj->rx.err.decrypt_err += _srcobj->rx.err.decrypt_err; \
  1771. _tgtobj->rx.err.fcserr += _srcobj->rx.err.fcserr; \
  1772. _tgtobj->rx.err.pn_err += _srcobj->rx.err.pn_err; \
  1773. _tgtobj->rx.err.oor_err += _srcobj->rx.err.oor_err; \
  1774. _tgtobj->rx.err.jump_2k_err += _srcobj->rx.err.jump_2k_err; \
  1775. _tgtobj->rx.err.rxdma_wifi_parse_err += \
  1776. _srcobj->rx.err.rxdma_wifi_parse_err; \
  1777. _tgtobj->rx.non_amsdu_cnt += _srcobj->rx.non_amsdu_cnt; \
  1778. _tgtobj->rx.amsdu_cnt += _srcobj->rx.amsdu_cnt; \
  1779. _tgtobj->rx.rx_retries += _srcobj->rx.rx_retries; \
  1780. _tgtobj->rx.multipass_rx_pkt_drop += \
  1781. _srcobj->rx.multipass_rx_pkt_drop; \
  1782. _tgtobj->rx.peer_unauth_rx_pkt_drop += \
  1783. _srcobj->rx.peer_unauth_rx_pkt_drop; \
  1784. _tgtobj->rx.policy_check_drop += \
  1785. _srcobj->rx.policy_check_drop; \
  1786. _tgtobj->rx.to_stack_twt.num += _srcobj->rx.to_stack_twt.num; \
  1787. _tgtobj->rx.to_stack_twt.bytes += \
  1788. _srcobj->rx.to_stack_twt.bytes; \
  1789. _tgtobj->rx.last_rx_ts = _srcobj->rx.last_rx_ts; \
  1790. for (i = 0; i < CDP_MAX_RX_RINGS; i++) { \
  1791. _tgtobj->rx.rcvd_reo[i].num += \
  1792. _srcobj->rx.rcvd_reo[i].num; \
  1793. _tgtobj->rx.rcvd_reo[i].bytes += \
  1794. _srcobj->rx.rcvd_reo[i].bytes; \
  1795. _tgtobj->rx.rcvd.num += \
  1796. _srcobj->rx.rcvd_reo[i].num; \
  1797. _tgtobj->rx.rcvd.bytes += \
  1798. _srcobj->rx.rcvd_reo[i].bytes; \
  1799. } \
  1800. for (i = 0; i < CDP_MAX_LMACS; i++) { \
  1801. _tgtobj->rx.rx_lmac[i].num += \
  1802. _srcobj->rx.rx_lmac[i].num; \
  1803. _tgtobj->rx.rx_lmac[i].bytes += \
  1804. _srcobj->rx.rx_lmac[i].bytes; \
  1805. } \
  1806. DP_IPA_UPDATE_PER_PKT_RX_STATS(_tgtobj, _srcobj); \
  1807. DP_UPDATE_PROTOCOL_COUNT_STATS(_tgtobj, _srcobj); \
  1808. } while (0)
  1809. #define DP_UPDATE_EXTD_STATS(_tgtobj, _srcobj) \
  1810. do { \
  1811. uint8_t i, pream_type, mu_type; \
  1812. _tgtobj->tx.stbc += _srcobj->tx.stbc; \
  1813. _tgtobj->tx.ldpc += _srcobj->tx.ldpc; \
  1814. _tgtobj->tx.retries += _srcobj->tx.retries; \
  1815. _tgtobj->tx.ampdu_cnt += _srcobj->tx.ampdu_cnt; \
  1816. _tgtobj->tx.non_ampdu_cnt += _srcobj->tx.non_ampdu_cnt; \
  1817. _tgtobj->tx.num_ppdu_cookie_valid += \
  1818. _srcobj->tx.num_ppdu_cookie_valid; \
  1819. _tgtobj->tx.tx_ppdus += _srcobj->tx.tx_ppdus; \
  1820. _tgtobj->tx.tx_mpdus_success += _srcobj->tx.tx_mpdus_success; \
  1821. _tgtobj->tx.tx_mpdus_tried += _srcobj->tx.tx_mpdus_tried; \
  1822. _tgtobj->tx.tx_rate = _srcobj->tx.tx_rate; \
  1823. _tgtobj->tx.last_tx_rate = _srcobj->tx.last_tx_rate; \
  1824. _tgtobj->tx.last_tx_rate_mcs = _srcobj->tx.last_tx_rate_mcs; \
  1825. _tgtobj->tx.mcast_last_tx_rate = \
  1826. _srcobj->tx.mcast_last_tx_rate; \
  1827. _tgtobj->tx.mcast_last_tx_rate_mcs = \
  1828. _srcobj->tx.mcast_last_tx_rate_mcs; \
  1829. _tgtobj->tx.rnd_avg_tx_rate = _srcobj->tx.rnd_avg_tx_rate; \
  1830. _tgtobj->tx.avg_tx_rate = _srcobj->tx.avg_tx_rate; \
  1831. _tgtobj->tx.tx_ratecode = _srcobj->tx.tx_ratecode; \
  1832. _tgtobj->tx.pream_punct_cnt += _srcobj->tx.pream_punct_cnt; \
  1833. _tgtobj->tx.ru_start = _srcobj->tx.ru_start; \
  1834. _tgtobj->tx.ru_tones = _srcobj->tx.ru_tones; \
  1835. _tgtobj->tx.last_ack_rssi = _srcobj->tx.last_ack_rssi; \
  1836. _tgtobj->tx.nss_info = _srcobj->tx.nss_info; \
  1837. _tgtobj->tx.mcs_info = _srcobj->tx.mcs_info; \
  1838. _tgtobj->tx.bw_info = _srcobj->tx.bw_info; \
  1839. _tgtobj->tx.gi_info = _srcobj->tx.gi_info; \
  1840. _tgtobj->tx.preamble_info = _srcobj->tx.preamble_info; \
  1841. _tgtobj->tx.retries_mpdu += _srcobj->tx.retries_mpdu; \
  1842. _tgtobj->tx.mpdu_success_with_retries += \
  1843. _srcobj->tx.mpdu_success_with_retries; \
  1844. _tgtobj->tx.rts_success = _srcobj->tx.rts_success; \
  1845. _tgtobj->tx.rts_failure = _srcobj->tx.rts_failure; \
  1846. _tgtobj->tx.bar_cnt = _srcobj->tx.bar_cnt; \
  1847. _tgtobj->tx.ndpa_cnt = _srcobj->tx.ndpa_cnt; \
  1848. for (pream_type = 0; pream_type < DOT11_MAX; pream_type++) { \
  1849. for (i = 0; i < MAX_MCS; i++) \
  1850. _tgtobj->tx.pkt_type[pream_type].mcs_count[i] += \
  1851. _srcobj->tx.pkt_type[pream_type].mcs_count[i]; \
  1852. } \
  1853. for (i = 0; i < WME_AC_MAX; i++) { \
  1854. _tgtobj->tx.wme_ac_type[i] += _srcobj->tx.wme_ac_type[i]; \
  1855. _tgtobj->tx.wme_ac_type_bytes[i] += \
  1856. _srcobj->tx.wme_ac_type_bytes[i]; \
  1857. _tgtobj->tx.excess_retries_per_ac[i] += \
  1858. _srcobj->tx.excess_retries_per_ac[i]; \
  1859. } \
  1860. for (i = 0; i < MAX_GI; i++) { \
  1861. _tgtobj->tx.sgi_count[i] += _srcobj->tx.sgi_count[i]; \
  1862. } \
  1863. for (i = 0; i < SS_COUNT; i++) { \
  1864. _tgtobj->tx.nss[i] += _srcobj->tx.nss[i]; \
  1865. } \
  1866. for (i = 0; i < MAX_BW; i++) { \
  1867. _tgtobj->tx.bw[i] += _srcobj->tx.bw[i]; \
  1868. } \
  1869. for (i = 0; i < MAX_RU_LOCATIONS; i++) { \
  1870. _tgtobj->tx.ru_loc[i].num_msdu += \
  1871. _srcobj->tx.ru_loc[i].num_msdu; \
  1872. _tgtobj->tx.ru_loc[i].num_mpdu += \
  1873. _srcobj->tx.ru_loc[i].num_mpdu; \
  1874. _tgtobj->tx.ru_loc[i].mpdu_tried += \
  1875. _srcobj->tx.ru_loc[i].mpdu_tried; \
  1876. } \
  1877. for (i = 0; i < MAX_TRANSMIT_TYPES; i++) { \
  1878. _tgtobj->tx.transmit_type[i].num_msdu += \
  1879. _srcobj->tx.transmit_type[i].num_msdu; \
  1880. _tgtobj->tx.transmit_type[i].num_mpdu += \
  1881. _srcobj->tx.transmit_type[i].num_mpdu; \
  1882. _tgtobj->tx.transmit_type[i].mpdu_tried += \
  1883. _srcobj->tx.transmit_type[i].mpdu_tried; \
  1884. } \
  1885. for (i = 0; i < MAX_MU_GROUP_ID; i++) { \
  1886. _tgtobj->tx.mu_group_id[i] = _srcobj->tx.mu_group_id[i]; \
  1887. } \
  1888. _tgtobj->tx.tx_ucast_total.num += \
  1889. _srcobj->tx.tx_ucast_total.num;\
  1890. _tgtobj->tx.tx_ucast_total.bytes += \
  1891. _srcobj->tx.tx_ucast_total.bytes;\
  1892. _tgtobj->tx.tx_ucast_success.num += \
  1893. _srcobj->tx.tx_ucast_success.num; \
  1894. _tgtobj->tx.tx_ucast_success.bytes += \
  1895. _srcobj->tx.tx_ucast_success.bytes; \
  1896. \
  1897. for (i = 0; i < CDP_RSSI_CHAIN_LEN; i++) \
  1898. _tgtobj->tx.rssi_chain[i] = _srcobj->tx.rssi_chain[i]; \
  1899. _tgtobj->rx.mpdu_cnt_fcs_ok += _srcobj->rx.mpdu_cnt_fcs_ok; \
  1900. _tgtobj->rx.mpdu_cnt_fcs_err += _srcobj->rx.mpdu_cnt_fcs_err; \
  1901. _tgtobj->rx.non_ampdu_cnt += _srcobj->rx.non_ampdu_cnt; \
  1902. _tgtobj->rx.ampdu_cnt += _srcobj->rx.ampdu_cnt; \
  1903. _tgtobj->rx.rx_mpdus += _srcobj->rx.rx_mpdus; \
  1904. _tgtobj->rx.rx_ppdus += _srcobj->rx.rx_ppdus; \
  1905. _tgtobj->rx.rx_rate = _srcobj->rx.rx_rate; \
  1906. _tgtobj->rx.last_rx_rate = _srcobj->rx.last_rx_rate; \
  1907. _tgtobj->rx.rnd_avg_rx_rate = _srcobj->rx.rnd_avg_rx_rate; \
  1908. _tgtobj->rx.avg_rx_rate = _srcobj->rx.avg_rx_rate; \
  1909. _tgtobj->rx.rx_ratecode = _srcobj->rx.rx_ratecode; \
  1910. _tgtobj->rx.avg_snr = _srcobj->rx.avg_snr; \
  1911. _tgtobj->rx.rx_snr_measured_time = \
  1912. _srcobj->rx.rx_snr_measured_time; \
  1913. _tgtobj->rx.snr = _srcobj->rx.snr; \
  1914. _tgtobj->rx.last_snr = _srcobj->rx.last_snr; \
  1915. _tgtobj->rx.nss_info = _srcobj->rx.nss_info; \
  1916. _tgtobj->rx.mcs_info = _srcobj->rx.mcs_info; \
  1917. _tgtobj->rx.bw_info = _srcobj->rx.bw_info; \
  1918. _tgtobj->rx.gi_info = _srcobj->rx.gi_info; \
  1919. _tgtobj->rx.preamble_info = _srcobj->rx.preamble_info; \
  1920. _tgtobj->rx.mpdu_retry_cnt += _srcobj->rx.mpdu_retry_cnt; \
  1921. _tgtobj->rx.bar_cnt = _srcobj->rx.bar_cnt; \
  1922. _tgtobj->rx.ndpa_cnt = _srcobj->rx.ndpa_cnt; \
  1923. for (pream_type = 0; pream_type < DOT11_MAX; pream_type++) { \
  1924. for (i = 0; i < MAX_MCS; i++) { \
  1925. _tgtobj->rx.pkt_type[pream_type].mcs_count[i] += \
  1926. _srcobj->rx.pkt_type[pream_type].mcs_count[i]; \
  1927. } \
  1928. } \
  1929. for (i = 0; i < WME_AC_MAX; i++) { \
  1930. _tgtobj->rx.wme_ac_type[i] += _srcobj->rx.wme_ac_type[i]; \
  1931. _tgtobj->rx.wme_ac_type_bytes[i] += \
  1932. _srcobj->rx.wme_ac_type_bytes[i]; \
  1933. } \
  1934. for (i = 0; i < MAX_MCS; i++) { \
  1935. _tgtobj->rx.su_ax_ppdu_cnt.mcs_count[i] += \
  1936. _srcobj->rx.su_ax_ppdu_cnt.mcs_count[i]; \
  1937. _tgtobj->rx.rx_mpdu_cnt[i] += _srcobj->rx.rx_mpdu_cnt[i]; \
  1938. } \
  1939. for (mu_type = 0 ; mu_type < TXRX_TYPE_MU_MAX; mu_type++) { \
  1940. _tgtobj->rx.rx_mu[mu_type].mpdu_cnt_fcs_ok += \
  1941. _srcobj->rx.rx_mu[mu_type].mpdu_cnt_fcs_ok; \
  1942. _tgtobj->rx.rx_mu[mu_type].mpdu_cnt_fcs_err += \
  1943. _srcobj->rx.rx_mu[mu_type].mpdu_cnt_fcs_err; \
  1944. for (i = 0; i < SS_COUNT; i++) \
  1945. _tgtobj->rx.rx_mu[mu_type].ppdu_nss[i] += \
  1946. _srcobj->rx.rx_mu[mu_type].ppdu_nss[i]; \
  1947. for (i = 0; i < MAX_MCS; i++) \
  1948. _tgtobj->rx.rx_mu[mu_type].ppdu.mcs_count[i] += \
  1949. _srcobj->rx.rx_mu[mu_type].ppdu.mcs_count[i]; \
  1950. } \
  1951. for (i = 0; i < MAX_RECEPTION_TYPES; i++) { \
  1952. _tgtobj->rx.reception_type[i] += \
  1953. _srcobj->rx.reception_type[i]; \
  1954. _tgtobj->rx.ppdu_cnt[i] += _srcobj->rx.ppdu_cnt[i]; \
  1955. } \
  1956. for (i = 0; i < MAX_GI; i++) { \
  1957. _tgtobj->rx.sgi_count[i] += _srcobj->rx.sgi_count[i]; \
  1958. } \
  1959. for (i = 0; i < SS_COUNT; i++) { \
  1960. _tgtobj->rx.nss[i] += _srcobj->rx.nss[i]; \
  1961. _tgtobj->rx.ppdu_nss[i] += _srcobj->rx.ppdu_nss[i]; \
  1962. } \
  1963. for (i = 0; i < MAX_BW; i++) { \
  1964. _tgtobj->rx.bw[i] += _srcobj->rx.bw[i]; \
  1965. } \
  1966. DP_UPDATE_11BE_STATS(_tgtobj, _srcobj); \
  1967. } while (0)
  1968. #define DP_UPDATE_VDEV_STATS_FOR_UNMAPPED_PEERS(_tgtobj, _srcobj) \
  1969. do { \
  1970. DP_UPDATE_BASIC_STATS(_tgtobj, _srcobj); \
  1971. DP_UPDATE_PER_PKT_STATS(_tgtobj, _srcobj); \
  1972. DP_UPDATE_EXTD_STATS(_tgtobj, _srcobj); \
  1973. } while (0)
  1974. #define DP_UPDATE_INGRESS_STATS(_tgtobj, _srcobj) \
  1975. do { \
  1976. uint8_t i = 0; \
  1977. _tgtobj->tx_i.rcvd.num += _srcobj->tx_i.rcvd.num; \
  1978. _tgtobj->tx_i.rcvd.bytes += _srcobj->tx_i.rcvd.bytes; \
  1979. _tgtobj->tx_i.rcvd_in_fast_xmit_flow += \
  1980. _srcobj->tx_i.rcvd_in_fast_xmit_flow; \
  1981. for (i = 0; i < CDP_MAX_TX_DATA_RINGS; i++) { \
  1982. _tgtobj->tx_i.rcvd_per_core[i] += \
  1983. _srcobj->tx_i.rcvd_per_core[i]; \
  1984. } \
  1985. _tgtobj->tx_i.processed.num += _srcobj->tx_i.processed.num; \
  1986. _tgtobj->tx_i.processed.bytes += \
  1987. _srcobj->tx_i.processed.bytes; \
  1988. _tgtobj->tx_i.reinject_pkts.num += \
  1989. _srcobj->tx_i.reinject_pkts.num; \
  1990. _tgtobj->tx_i.reinject_pkts.bytes += \
  1991. _srcobj->tx_i.reinject_pkts.bytes; \
  1992. _tgtobj->tx_i.inspect_pkts.num += \
  1993. _srcobj->tx_i.inspect_pkts.num; \
  1994. _tgtobj->tx_i.inspect_pkts.bytes += \
  1995. _srcobj->tx_i.inspect_pkts.bytes; \
  1996. _tgtobj->tx_i.nawds_mcast.num += \
  1997. _srcobj->tx_i.nawds_mcast.num; \
  1998. _tgtobj->tx_i.nawds_mcast.bytes += \
  1999. _srcobj->tx_i.nawds_mcast.bytes; \
  2000. _tgtobj->tx_i.bcast.num += _srcobj->tx_i.bcast.num; \
  2001. _tgtobj->tx_i.bcast.bytes += _srcobj->tx_i.bcast.bytes; \
  2002. _tgtobj->tx_i.raw.raw_pkt.num += \
  2003. _srcobj->tx_i.raw.raw_pkt.num; \
  2004. _tgtobj->tx_i.raw.raw_pkt.bytes += \
  2005. _srcobj->tx_i.raw.raw_pkt.bytes; \
  2006. _tgtobj->tx_i.raw.dma_map_error += \
  2007. _srcobj->tx_i.raw.dma_map_error; \
  2008. _tgtobj->tx_i.raw.invalid_raw_pkt_datatype += \
  2009. _srcobj->tx_i.raw.invalid_raw_pkt_datatype; \
  2010. _tgtobj->tx_i.raw.num_frags_overflow_err += \
  2011. _srcobj->tx_i.raw.num_frags_overflow_err; \
  2012. _tgtobj->tx_i.sg.sg_pkt.num += _srcobj->tx_i.sg.sg_pkt.num; \
  2013. _tgtobj->tx_i.sg.sg_pkt.bytes += \
  2014. _srcobj->tx_i.sg.sg_pkt.bytes; \
  2015. _tgtobj->tx_i.sg.non_sg_pkts.num += \
  2016. _srcobj->tx_i.sg.non_sg_pkts.num; \
  2017. _tgtobj->tx_i.sg.non_sg_pkts.bytes += \
  2018. _srcobj->tx_i.sg.non_sg_pkts.bytes; \
  2019. _tgtobj->tx_i.sg.dropped_host.num += \
  2020. _srcobj->tx_i.sg.dropped_host.num; \
  2021. _tgtobj->tx_i.sg.dropped_host.bytes += \
  2022. _srcobj->tx_i.sg.dropped_host.bytes; \
  2023. _tgtobj->tx_i.sg.dropped_target += \
  2024. _srcobj->tx_i.sg.dropped_target; \
  2025. _tgtobj->tx_i.sg.dma_map_error += \
  2026. _srcobj->tx_i.sg.dma_map_error; \
  2027. _tgtobj->tx_i.mcast_en.mcast_pkt.num += \
  2028. _srcobj->tx_i.mcast_en.mcast_pkt.num; \
  2029. _tgtobj->tx_i.mcast_en.mcast_pkt.bytes += \
  2030. _srcobj->tx_i.mcast_en.mcast_pkt.bytes; \
  2031. _tgtobj->tx_i.mcast_en.dropped_map_error += \
  2032. _srcobj->tx_i.mcast_en.dropped_map_error; \
  2033. _tgtobj->tx_i.mcast_en.dropped_self_mac += \
  2034. _srcobj->tx_i.mcast_en.dropped_self_mac; \
  2035. _tgtobj->tx_i.mcast_en.dropped_send_fail += \
  2036. _srcobj->tx_i.mcast_en.dropped_send_fail; \
  2037. _tgtobj->tx_i.mcast_en.ucast += _srcobj->tx_i.mcast_en.ucast; \
  2038. _tgtobj->tx_i.mcast_en.fail_seg_alloc += \
  2039. _srcobj->tx_i.mcast_en.fail_seg_alloc; \
  2040. _tgtobj->tx_i.mcast_en.clone_fail += \
  2041. _srcobj->tx_i.mcast_en.clone_fail; \
  2042. _tgtobj->tx_i.igmp_mcast_en.igmp_rcvd += \
  2043. _srcobj->tx_i.igmp_mcast_en.igmp_rcvd; \
  2044. _tgtobj->tx_i.igmp_mcast_en.igmp_ucast_converted += \
  2045. _srcobj->tx_i.igmp_mcast_en.igmp_ucast_converted; \
  2046. _tgtobj->tx_i.dropped.desc_na.num += \
  2047. _srcobj->tx_i.dropped.desc_na.num; \
  2048. _tgtobj->tx_i.dropped.desc_na.bytes += \
  2049. _srcobj->tx_i.dropped.desc_na.bytes; \
  2050. _tgtobj->tx_i.dropped.desc_na_exc_alloc_fail.num += \
  2051. _srcobj->tx_i.dropped.desc_na_exc_alloc_fail.num; \
  2052. _tgtobj->tx_i.dropped.desc_na_exc_alloc_fail.bytes += \
  2053. _srcobj->tx_i.dropped.desc_na_exc_alloc_fail.bytes; \
  2054. _tgtobj->tx_i.dropped.desc_na_exc_outstand.num += \
  2055. _srcobj->tx_i.dropped.desc_na_exc_outstand.num; \
  2056. _tgtobj->tx_i.dropped.desc_na_exc_outstand.bytes += \
  2057. _srcobj->tx_i.dropped.desc_na_exc_outstand.bytes; \
  2058. _tgtobj->tx_i.dropped.exc_desc_na.num += \
  2059. _srcobj->tx_i.dropped.exc_desc_na.num; \
  2060. _tgtobj->tx_i.dropped.exc_desc_na.bytes += \
  2061. _srcobj->tx_i.dropped.exc_desc_na.bytes; \
  2062. _tgtobj->tx_i.dropped.ring_full += \
  2063. _srcobj->tx_i.dropped.ring_full; \
  2064. _tgtobj->tx_i.dropped.enqueue_fail += \
  2065. _srcobj->tx_i.dropped.enqueue_fail; \
  2066. _tgtobj->tx_i.dropped.dma_error += \
  2067. _srcobj->tx_i.dropped.dma_error; \
  2068. _tgtobj->tx_i.dropped.res_full += \
  2069. _srcobj->tx_i.dropped.res_full; \
  2070. _tgtobj->tx_i.dropped.headroom_insufficient += \
  2071. _srcobj->tx_i.dropped.headroom_insufficient; \
  2072. _tgtobj->tx_i.dropped.fail_per_pkt_vdev_id_check += \
  2073. _srcobj->tx_i.dropped.fail_per_pkt_vdev_id_check; \
  2074. _tgtobj->tx_i.dropped.drop_ingress += \
  2075. _srcobj->tx_i.dropped.drop_ingress; \
  2076. _tgtobj->tx_i.dropped.invalid_peer_id_in_exc_path += \
  2077. _srcobj->tx_i.dropped.invalid_peer_id_in_exc_path; \
  2078. _tgtobj->tx_i.dropped.tx_mcast_drop += \
  2079. _srcobj->tx_i.dropped.tx_mcast_drop; \
  2080. _tgtobj->tx_i.dropped.fw2wbm_tx_drop += \
  2081. _srcobj->tx_i.dropped.fw2wbm_tx_drop; \
  2082. _tgtobj->tx_i.dropped.dropped_pkt.num = \
  2083. _tgtobj->tx_i.dropped.dma_error + \
  2084. _tgtobj->tx_i.dropped.ring_full + \
  2085. _tgtobj->tx_i.dropped.enqueue_fail + \
  2086. _tgtobj->tx_i.dropped.fail_per_pkt_vdev_id_check + \
  2087. _tgtobj->tx_i.dropped.desc_na.num + \
  2088. _tgtobj->tx_i.dropped.res_full + \
  2089. _tgtobj->tx_i.dropped.drop_ingress + \
  2090. _tgtobj->tx_i.dropped.headroom_insufficient + \
  2091. _tgtobj->tx_i.dropped.invalid_peer_id_in_exc_path + \
  2092. _tgtobj->tx_i.dropped.tx_mcast_drop + \
  2093. _tgtobj->tx_i.dropped.fw2wbm_tx_drop; \
  2094. _tgtobj->tx_i.dropped.dropped_pkt.bytes += \
  2095. _srcobj->tx_i.dropped.dropped_pkt.bytes; \
  2096. _tgtobj->tx_i.mesh.exception_fw += \
  2097. _srcobj->tx_i.mesh.exception_fw; \
  2098. _tgtobj->tx_i.mesh.completion_fw += \
  2099. _srcobj->tx_i.mesh.completion_fw; \
  2100. _tgtobj->tx_i.cce_classified += \
  2101. _srcobj->tx_i.cce_classified; \
  2102. _tgtobj->tx_i.cce_classified_raw += \
  2103. _srcobj->tx_i.cce_classified_raw; \
  2104. _tgtobj->tx_i.sniffer_rcvd.num += \
  2105. _srcobj->tx_i.sniffer_rcvd.num; \
  2106. _tgtobj->tx_i.sniffer_rcvd.bytes += \
  2107. _srcobj->tx_i.sniffer_rcvd.bytes; \
  2108. _tgtobj->rx_i.reo_rcvd_pkt.num += \
  2109. _srcobj->rx_i.reo_rcvd_pkt.num; \
  2110. _tgtobj->rx_i.reo_rcvd_pkt.bytes += \
  2111. _srcobj->rx_i.reo_rcvd_pkt.bytes; \
  2112. _tgtobj->rx_i.null_q_desc_pkt.num += \
  2113. _srcobj->rx_i.null_q_desc_pkt.num; \
  2114. _tgtobj->rx_i.null_q_desc_pkt.bytes += \
  2115. _srcobj->rx_i.null_q_desc_pkt.bytes; \
  2116. _tgtobj->rx_i.routed_eapol_pkt.num += \
  2117. _srcobj->rx_i.routed_eapol_pkt.num; \
  2118. _tgtobj->rx_i.routed_eapol_pkt.bytes += \
  2119. _srcobj->rx_i.routed_eapol_pkt.bytes; \
  2120. } while (0)
  2121. #define DP_UPDATE_VDEV_STATS(_tgtobj, _srcobj) \
  2122. do { \
  2123. DP_UPDATE_INGRESS_STATS(_tgtobj, _srcobj); \
  2124. DP_UPDATE_VDEV_STATS_FOR_UNMAPPED_PEERS(_tgtobj, _srcobj); \
  2125. } while (0)
  2126. /**
  2127. * dp_peer_find_attach() - Allocates memory for peer objects
  2128. * @soc: SoC handle
  2129. *
  2130. * Return: QDF_STATUS
  2131. */
  2132. QDF_STATUS dp_peer_find_attach(struct dp_soc *soc);
  2133. /**
  2134. * dp_peer_find_detach() - Frees memory for peer objects
  2135. * @soc: SoC handle
  2136. *
  2137. * Return: none
  2138. */
  2139. void dp_peer_find_detach(struct dp_soc *soc);
  2140. /**
  2141. * dp_peer_find_hash_add() - add peer to peer_hash_table
  2142. * @soc: soc handle
  2143. * @peer: peer handle
  2144. *
  2145. * Return: none
  2146. */
  2147. void dp_peer_find_hash_add(struct dp_soc *soc, struct dp_peer *peer);
  2148. /**
  2149. * dp_peer_find_hash_remove() - remove peer from peer_hash_table
  2150. * @soc: soc handle
  2151. * @peer: peer handle
  2152. *
  2153. * Return: none
  2154. */
  2155. void dp_peer_find_hash_remove(struct dp_soc *soc, struct dp_peer *peer);
  2156. /* unused?? */
  2157. void dp_peer_find_hash_erase(struct dp_soc *soc);
  2158. /**
  2159. * dp_peer_vdev_list_add() - add peer into vdev's peer list
  2160. * @soc: soc handle
  2161. * @vdev: vdev handle
  2162. * @peer: peer handle
  2163. *
  2164. * Return: none
  2165. */
  2166. void dp_peer_vdev_list_add(struct dp_soc *soc, struct dp_vdev *vdev,
  2167. struct dp_peer *peer);
  2168. /**
  2169. * dp_peer_vdev_list_remove() - remove peer from vdev's peer list
  2170. * @soc: SoC handle
  2171. * @vdev: VDEV handle
  2172. * @peer: peer handle
  2173. *
  2174. * Return: none
  2175. */
  2176. void dp_peer_vdev_list_remove(struct dp_soc *soc, struct dp_vdev *vdev,
  2177. struct dp_peer *peer);
  2178. /**
  2179. * dp_peer_find_id_to_obj_add() - Add peer into peer_id table
  2180. * @soc: SoC handle
  2181. * @peer: peer handle
  2182. * @peer_id: peer_id
  2183. *
  2184. * Return: None
  2185. */
  2186. void dp_peer_find_id_to_obj_add(struct dp_soc *soc,
  2187. struct dp_peer *peer,
  2188. uint16_t peer_id);
  2189. /**
  2190. * dp_txrx_peer_attach_add() - Attach txrx_peer and add it to peer_id table
  2191. * @soc: SoC handle
  2192. * @peer: peer handle
  2193. * @txrx_peer: txrx peer handle
  2194. *
  2195. * Return: None
  2196. */
  2197. void dp_txrx_peer_attach_add(struct dp_soc *soc,
  2198. struct dp_peer *peer,
  2199. struct dp_txrx_peer *txrx_peer);
  2200. /**
  2201. * dp_peer_find_id_to_obj_remove() - remove peer from peer_id table
  2202. * @soc: SoC handle
  2203. * @peer_id: peer_id
  2204. *
  2205. * Return: None
  2206. */
  2207. void dp_peer_find_id_to_obj_remove(struct dp_soc *soc,
  2208. uint16_t peer_id);
  2209. /**
  2210. * dp_vdev_unref_delete() - check and process vdev delete
  2211. * @soc: DP specific soc pointer
  2212. * @vdev: DP specific vdev pointer
  2213. * @mod_id: module id
  2214. *
  2215. */
  2216. void dp_vdev_unref_delete(struct dp_soc *soc, struct dp_vdev *vdev,
  2217. enum dp_mod_id mod_id);
  2218. /**
  2219. * dp_peer_ppdu_delayed_ba_cleanup() - free ppdu allocated in peer
  2220. * @peer: Datapath peer
  2221. *
  2222. * Return: void
  2223. */
  2224. void dp_peer_ppdu_delayed_ba_cleanup(struct dp_peer *peer);
  2225. /**
  2226. * dp_peer_rx_init() - Initialize receive TID state
  2227. * @pdev: Datapath pdev
  2228. * @peer: Datapath peer
  2229. *
  2230. */
  2231. void dp_peer_rx_init(struct dp_pdev *pdev, struct dp_peer *peer);
  2232. /**
  2233. * dp_peer_cleanup() - Cleanup peer information
  2234. * @vdev: Datapath vdev
  2235. * @peer: Datapath peer
  2236. *
  2237. */
  2238. void dp_peer_cleanup(struct dp_vdev *vdev, struct dp_peer *peer);
  2239. #ifdef DP_PEER_EXTENDED_API
  2240. /**
  2241. * dp_register_peer() - Register peer into physical device
  2242. * @soc_hdl: data path soc handle
  2243. * @pdev_id: device instance id
  2244. * @sta_desc: peer description
  2245. *
  2246. * Register peer into physical device
  2247. *
  2248. * Return: QDF_STATUS_SUCCESS registration success
  2249. * QDF_STATUS_E_FAULT peer not found
  2250. */
  2251. QDF_STATUS dp_register_peer(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  2252. struct ol_txrx_desc_type *sta_desc);
  2253. /**
  2254. * dp_clear_peer() - remove peer from physical device
  2255. * @soc_hdl: data path soc handle
  2256. * @pdev_id: device instance id
  2257. * @peer_addr: peer mac address
  2258. *
  2259. * remove peer from physical device
  2260. *
  2261. * Return: QDF_STATUS_SUCCESS registration success
  2262. * QDF_STATUS_E_FAULT peer not found
  2263. */
  2264. QDF_STATUS dp_clear_peer(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  2265. struct qdf_mac_addr peer_addr);
  2266. /**
  2267. * dp_find_peer_exist_on_vdev - find if peer exists on the given vdev
  2268. * @soc_hdl: datapath soc handle
  2269. * @vdev_id: vdev instance id
  2270. * @peer_addr: peer mac address
  2271. *
  2272. * Return: true or false
  2273. */
  2274. bool dp_find_peer_exist_on_vdev(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
  2275. uint8_t *peer_addr);
  2276. /**
  2277. * dp_find_peer_exist_on_other_vdev - find if peer exists
  2278. * on other than the given vdev
  2279. * @soc_hdl: datapath soc handle
  2280. * @vdev_id: vdev instance id
  2281. * @peer_addr: peer mac address
  2282. * @max_bssid: max number of bssids
  2283. *
  2284. * Return: true or false
  2285. */
  2286. bool dp_find_peer_exist_on_other_vdev(struct cdp_soc_t *soc_hdl,
  2287. uint8_t vdev_id, uint8_t *peer_addr,
  2288. uint16_t max_bssid);
  2289. /**
  2290. * dp_peer_state_update() - update peer local state
  2291. * @soc: datapath soc handle
  2292. * @peer_mac: peer mac address
  2293. * @state: new peer local state
  2294. *
  2295. * update peer local state
  2296. *
  2297. * Return: QDF_STATUS_SUCCESS registration success
  2298. */
  2299. QDF_STATUS dp_peer_state_update(struct cdp_soc_t *soc, uint8_t *peer_mac,
  2300. enum ol_txrx_peer_state state);
  2301. /**
  2302. * dp_get_vdevid() - Get virtual interface id which peer registered
  2303. * @soc_hdl: datapath soc handle
  2304. * @peer_mac: peer mac address
  2305. * @vdev_id: virtual interface id which peer registered
  2306. *
  2307. * Get virtual interface id which peer registered
  2308. *
  2309. * Return: QDF_STATUS_SUCCESS registration success
  2310. */
  2311. QDF_STATUS dp_get_vdevid(struct cdp_soc_t *soc_hdl, uint8_t *peer_mac,
  2312. uint8_t *vdev_id);
  2313. struct cdp_vdev *dp_get_vdev_by_peer_addr(struct cdp_pdev *pdev_handle,
  2314. struct qdf_mac_addr peer_addr);
  2315. /**
  2316. * dp_get_vdev_for_peer() - Get virtual interface instance which peer belongs
  2317. * @peer: peer instance
  2318. *
  2319. * Get virtual interface instance which peer belongs
  2320. *
  2321. * Return: virtual interface instance pointer
  2322. * NULL in case cannot find
  2323. */
  2324. struct cdp_vdev *dp_get_vdev_for_peer(void *peer);
  2325. /**
  2326. * dp_peer_get_peer_mac_addr() - Get peer mac address
  2327. * @peer: peer instance
  2328. *
  2329. * Get peer mac address
  2330. *
  2331. * Return: peer mac address pointer
  2332. * NULL in case cannot find
  2333. */
  2334. uint8_t *dp_peer_get_peer_mac_addr(void *peer);
  2335. /**
  2336. * dp_get_peer_state() - Get local peer state
  2337. * @soc: datapath soc handle
  2338. * @vdev_id: vdev id
  2339. * @peer_mac: peer mac addr
  2340. *
  2341. * Get local peer state
  2342. *
  2343. * Return: peer status
  2344. */
  2345. int dp_get_peer_state(struct cdp_soc_t *soc, uint8_t vdev_id,
  2346. uint8_t *peer_mac);
  2347. /**
  2348. * dp_local_peer_id_pool_init() - local peer id pool alloc for physical device
  2349. * @pdev: data path device instance
  2350. *
  2351. * local peer id pool alloc for physical device
  2352. *
  2353. * Return: none
  2354. */
  2355. void dp_local_peer_id_pool_init(struct dp_pdev *pdev);
  2356. /**
  2357. * dp_local_peer_id_alloc() - allocate local peer id
  2358. * @pdev: data path device instance
  2359. * @peer: new peer instance
  2360. *
  2361. * allocate local peer id
  2362. *
  2363. * Return: none
  2364. */
  2365. void dp_local_peer_id_alloc(struct dp_pdev *pdev, struct dp_peer *peer);
  2366. /**
  2367. * dp_local_peer_id_free() - remove local peer id
  2368. * @pdev: data path device instance
  2369. * @peer: peer instance should be removed
  2370. *
  2371. * remove local peer id
  2372. *
  2373. * Return: none
  2374. */
  2375. void dp_local_peer_id_free(struct dp_pdev *pdev, struct dp_peer *peer);
  2376. /**
  2377. * dp_set_peer_as_tdls_peer() - set tdls peer flag to peer
  2378. * @soc_hdl: datapath soc handle
  2379. * @vdev_id: vdev_id
  2380. * @peer_mac: peer mac addr
  2381. * @val: tdls peer flag
  2382. *
  2383. * Return: none
  2384. */
  2385. void dp_set_peer_as_tdls_peer(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
  2386. uint8_t *peer_mac, bool val);
  2387. #else
  2388. static inline
  2389. QDF_STATUS dp_get_vdevid(struct cdp_soc_t *soc_hdl, uint8_t *peer_mac,
  2390. uint8_t *vdev_id)
  2391. {
  2392. return QDF_STATUS_E_NOSUPPORT;
  2393. }
  2394. static inline void dp_local_peer_id_pool_init(struct dp_pdev *pdev)
  2395. {
  2396. }
  2397. static inline
  2398. void dp_local_peer_id_alloc(struct dp_pdev *pdev, struct dp_peer *peer)
  2399. {
  2400. }
  2401. static inline
  2402. void dp_local_peer_id_free(struct dp_pdev *pdev, struct dp_peer *peer)
  2403. {
  2404. }
  2405. static inline
  2406. void dp_set_peer_as_tdls_peer(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
  2407. uint8_t *peer_mac, bool val)
  2408. {
  2409. }
  2410. #endif
  2411. /**
  2412. * dp_find_peer_exist - find peer if already exists
  2413. * @soc_hdl: datapath soc handle
  2414. * @pdev_id: physical device instance id
  2415. * @peer_addr: peer mac address
  2416. *
  2417. * Return: true or false
  2418. */
  2419. bool dp_find_peer_exist(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  2420. uint8_t *peer_addr);
  2421. #ifdef DP_UMAC_HW_RESET_SUPPORT
  2422. /**
  2423. * dp_pause_reo_send_cmd() - Pause Reo send commands.
  2424. * @soc: dp soc
  2425. *
  2426. * Return: none
  2427. */
  2428. void dp_pause_reo_send_cmd(struct dp_soc *soc);
  2429. /**
  2430. * dp_resume_reo_send_cmd() - Resume Reo send commands.
  2431. * @soc: dp soc
  2432. *
  2433. * Return: none
  2434. */
  2435. void dp_resume_reo_send_cmd(struct dp_soc *soc);
  2436. /**
  2437. * dp_cleanup_reo_cmd_module - Clean up the reo cmd module
  2438. * @soc: DP SoC handle
  2439. *
  2440. * Return: none
  2441. */
  2442. void dp_cleanup_reo_cmd_module(struct dp_soc *soc);
  2443. /**
  2444. * dp_reo_desc_freelist_destroy() - Flush REO descriptors from deferred freelist
  2445. * @soc: DP SOC handle
  2446. *
  2447. * Return: none
  2448. */
  2449. void dp_reo_desc_freelist_destroy(struct dp_soc *soc);
  2450. /**
  2451. * dp_reset_rx_reo_tid_queue() - Reset the reo tid queues
  2452. * @soc: dp soc
  2453. * @hw_qdesc_vaddr: starting address of the tid queues
  2454. * @size: size of the memory pointed to by hw_qdesc_vaddr
  2455. *
  2456. * Return: none
  2457. */
  2458. void dp_reset_rx_reo_tid_queue(struct dp_soc *soc, void *hw_qdesc_vaddr,
  2459. uint32_t size);
  2460. #if defined(WLAN_FEATURE_11BE_MLO) && defined(WLAN_MLO_MULTI_CHIP)
  2461. /**
  2462. * dp_umac_reset_complete_umac_recovery() - Complete Umac reset session
  2463. * @soc: dp soc handle
  2464. *
  2465. * Return: void
  2466. */
  2467. void dp_umac_reset_complete_umac_recovery(struct dp_soc *soc);
  2468. /**
  2469. * dp_umac_reset_initiate_umac_recovery() - Initiate Umac reset session
  2470. * @soc: dp soc handle
  2471. * @umac_reset_ctx: Umac reset context
  2472. * @rx_event: Rx event received
  2473. * @is_target_recovery: Flag to indicate if it is triggered for target recovery
  2474. *
  2475. * Return: status
  2476. */
  2477. QDF_STATUS dp_umac_reset_initiate_umac_recovery(struct dp_soc *soc,
  2478. struct dp_soc_umac_reset_ctx *umac_reset_ctx,
  2479. enum umac_reset_rx_event rx_event,
  2480. bool is_target_recovery);
  2481. /**
  2482. * dp_umac_reset_handle_action_cb() - Function to call action callback
  2483. * @soc: dp soc handle
  2484. * @umac_reset_ctx: Umac reset context
  2485. * @action: Action to call the callback for
  2486. *
  2487. * Return: QDF_STATUS status
  2488. */
  2489. QDF_STATUS dp_umac_reset_handle_action_cb(struct dp_soc *soc,
  2490. struct dp_soc_umac_reset_ctx *umac_reset_ctx,
  2491. enum umac_reset_action action);
  2492. /**
  2493. * dp_umac_reset_post_tx_cmd() - Iterate partner socs and post Tx command
  2494. * @umac_reset_ctx: UMAC reset context
  2495. * @tx_cmd: Tx command to be posted
  2496. *
  2497. * Return: QDF status of operation
  2498. */
  2499. QDF_STATUS
  2500. dp_umac_reset_post_tx_cmd(struct dp_soc_umac_reset_ctx *umac_reset_ctx,
  2501. enum umac_reset_tx_cmd tx_cmd);
  2502. /**
  2503. * dp_umac_reset_initiator_check() - Check if soc is the Umac reset initiator
  2504. * @soc: dp soc handle
  2505. *
  2506. * Return: true if the soc is initiator or false otherwise
  2507. */
  2508. bool dp_umac_reset_initiator_check(struct dp_soc *soc);
  2509. /**
  2510. * dp_umac_reset_target_recovery_check() - Check if this is for target recovery
  2511. * @soc: dp soc handle
  2512. *
  2513. * Return: true if the session is for target recovery or false otherwise
  2514. */
  2515. bool dp_umac_reset_target_recovery_check(struct dp_soc *soc);
  2516. /**
  2517. * dp_umac_reset_is_soc_ignored() - Check if this soc is to be ignored
  2518. * @soc: dp soc handle
  2519. *
  2520. * Return: true if the soc is ignored or false otherwise
  2521. */
  2522. bool dp_umac_reset_is_soc_ignored(struct dp_soc *soc);
  2523. /**
  2524. * dp_mlo_umac_reset_stats_print() - API to print MLO umac reset stats
  2525. * @soc: dp soc handle
  2526. *
  2527. * Return: QDF_STATUS
  2528. */
  2529. QDF_STATUS dp_mlo_umac_reset_stats_print(struct dp_soc *soc);
  2530. #else
  2531. static inline
  2532. QDF_STATUS dp_mlo_umac_reset_stats_print(struct dp_soc *soc)
  2533. {
  2534. return QDF_STATUS_SUCCESS;
  2535. }
  2536. #endif
  2537. #endif
  2538. #if defined(DP_UMAC_HW_RESET_SUPPORT) && defined(WLAN_FEATURE_11BE_MLO) && defined(WLAN_MLO_MULTI_CHIP)
  2539. /**
  2540. * dp_umac_reset_notify_asserted_soc() - API to notify the asserted SOC
  2541. * @soc: dp soc
  2542. *
  2543. * Return: QDF_STATUS
  2544. */
  2545. QDF_STATUS dp_umac_reset_notify_asserted_soc(struct dp_soc *soc);
  2546. /**
  2547. * dp_get_umac_reset_in_progress_state() - API to check umac reset in progress
  2548. * state
  2549. * @psoc: dp soc handle
  2550. *
  2551. * Return: umac reset state
  2552. */
  2553. enum cdp_umac_reset_state
  2554. dp_get_umac_reset_in_progress_state(struct cdp_soc_t *psoc);
  2555. #else
  2556. static inline
  2557. QDF_STATUS dp_umac_reset_notify_asserted_soc(struct dp_soc *soc)
  2558. {
  2559. return QDF_STATUS_SUCCESS;
  2560. }
  2561. static inline enum cdp_umac_reset_state
  2562. dp_get_umac_reset_in_progress_state(struct cdp_soc_t *psoc)
  2563. {
  2564. return CDP_UMAC_RESET_NOT_IN_PROGRESS;
  2565. }
  2566. #endif
  2567. #ifndef WLAN_SOFTUMAC_SUPPORT
  2568. QDF_STATUS dp_reo_send_cmd(struct dp_soc *soc, enum hal_reo_cmd_type type,
  2569. struct hal_reo_cmd_params *params,
  2570. void (*callback_fn), void *data);
  2571. /**
  2572. * dp_reo_cmdlist_destroy() - Free REO commands in the queue
  2573. * @soc: DP SoC handle
  2574. *
  2575. * Return: none
  2576. */
  2577. void dp_reo_cmdlist_destroy(struct dp_soc *soc);
  2578. /**
  2579. * dp_reo_status_ring_handler() - Handler for REO Status ring
  2580. * @int_ctx: pointer to DP interrupt context
  2581. * @soc: DP Soc handle
  2582. *
  2583. * Return: Number of descriptors reaped
  2584. */
  2585. uint32_t dp_reo_status_ring_handler(struct dp_intr *int_ctx,
  2586. struct dp_soc *soc);
  2587. #endif
  2588. /**
  2589. * dp_aggregate_vdev_stats() - Consolidate stats at VDEV level
  2590. * @vdev: DP VDEV handle
  2591. * @vdev_stats: aggregate statistics
  2592. *
  2593. * return: void
  2594. */
  2595. void dp_aggregate_vdev_stats(struct dp_vdev *vdev,
  2596. struct cdp_vdev_stats *vdev_stats);
  2597. /**
  2598. * dp_txrx_get_vdev_stats() - Update buffer with cdp_vdev_stats
  2599. * @soc_hdl: CDP SoC handle
  2600. * @vdev_id: vdev Id
  2601. * @buf: buffer for vdev stats
  2602. * @is_aggregate: are aggregate stats being collected
  2603. *
  2604. * Return: QDF_STATUS
  2605. */
  2606. QDF_STATUS
  2607. dp_txrx_get_vdev_stats(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
  2608. void *buf, bool is_aggregate);
  2609. /**
  2610. * dp_rx_bar_stats_cb() - BAR received stats callback
  2611. * @soc: SOC handle
  2612. * @cb_ctxt: Call back context
  2613. * @reo_status: Reo status
  2614. *
  2615. * Return: void
  2616. */
  2617. void dp_rx_bar_stats_cb(struct dp_soc *soc, void *cb_ctxt,
  2618. union hal_reo_status *reo_status);
  2619. uint16_t dp_tx_me_send_convert_ucast(struct cdp_soc_t *soc, uint8_t vdev_id,
  2620. qdf_nbuf_t nbuf,
  2621. uint8_t newmac[][QDF_MAC_ADDR_SIZE],
  2622. uint8_t new_mac_cnt, uint8_t tid,
  2623. bool is_igmp, bool is_dms_pkt);
  2624. void dp_tx_me_alloc_descriptor(struct cdp_soc_t *soc, uint8_t pdev_id);
  2625. void dp_tx_me_free_descriptor(struct cdp_soc_t *soc, uint8_t pdev_id);
  2626. /**
  2627. * dp_h2t_ext_stats_msg_send(): function to construct HTT message to pass to FW
  2628. * @pdev: DP PDEV handle
  2629. * @stats_type_upload_mask: stats type requested by user
  2630. * @config_param_0: extra configuration parameters
  2631. * @config_param_1: extra configuration parameters
  2632. * @config_param_2: extra configuration parameters
  2633. * @config_param_3: extra configuration parameters
  2634. * @cookie:
  2635. * @cookie_msb:
  2636. * @mac_id: mac number
  2637. *
  2638. * Return: QDF STATUS
  2639. */
  2640. QDF_STATUS dp_h2t_ext_stats_msg_send(struct dp_pdev *pdev,
  2641. uint32_t stats_type_upload_mask, uint32_t config_param_0,
  2642. uint32_t config_param_1, uint32_t config_param_2,
  2643. uint32_t config_param_3, int cookie, int cookie_msb,
  2644. uint8_t mac_id);
  2645. /**
  2646. * dp_htt_stats_print_tag() - function to select the tag type and
  2647. * print the corresponding tag structure
  2648. * @pdev: pdev pointer
  2649. * @tag_type: tag type that is to be printed
  2650. * @tag_buf: pointer to the tag structure
  2651. *
  2652. * Return: void
  2653. */
  2654. void dp_htt_stats_print_tag(struct dp_pdev *pdev,
  2655. uint8_t tag_type, uint32_t *tag_buf);
  2656. /**
  2657. * dp_htt_stats_copy_tag() - function to select the tag type and
  2658. * copy the corresponding tag structure
  2659. * @pdev: DP_PDEV handle
  2660. * @tag_type: tag type that is to be printed
  2661. * @tag_buf: pointer to the tag structure
  2662. *
  2663. * Return: void
  2664. */
  2665. void dp_htt_stats_copy_tag(struct dp_pdev *pdev, uint8_t tag_type, uint32_t *tag_buf);
  2666. /**
  2667. * dp_h2t_3tuple_config_send(): function to construct 3 tuple configuration
  2668. * HTT message to pass to FW
  2669. * @pdev: DP PDEV handle
  2670. * @tuple_mask: tuple configuration to report 3 tuple hash value in either
  2671. * toeplitz_2_or_4 or flow_id_toeplitz in MSDU START TLV.
  2672. *
  2673. * tuple_mask[1:0]:
  2674. * 00 - Do not report 3 tuple hash value
  2675. * 10 - Report 3 tuple hash value in toeplitz_2_or_4
  2676. * 01 - Report 3 tuple hash value in flow_id_toeplitz
  2677. * 11 - Report 3 tuple hash value in both toeplitz_2_or_4 & flow_id_toeplitz
  2678. * @mac_id: MAC ID
  2679. *
  2680. * Return: QDF STATUS
  2681. */
  2682. QDF_STATUS dp_h2t_3tuple_config_send(struct dp_pdev *pdev, uint32_t tuple_mask,
  2683. uint8_t mac_id);
  2684. #ifdef IPA_OFFLOAD
  2685. /**
  2686. * dp_peer_update_tid_stats_from_reo() - update rx pkt and byte count from reo
  2687. * @soc: soc handle
  2688. * @cb_ctxt: combination of peer_id and tid
  2689. * @reo_status: reo status
  2690. *
  2691. * Return: void
  2692. */
  2693. void dp_peer_update_tid_stats_from_reo(struct dp_soc *soc, void *cb_ctxt,
  2694. union hal_reo_status *reo_status);
  2695. int dp_peer_get_rxtid_stats_ipa(struct dp_peer *peer,
  2696. dp_rxtid_stats_cmd_cb dp_stats_cmd_cb);
  2697. #ifdef IPA_OPT_WIFI_DP
  2698. void dp_ipa_wdi_opt_dpath_notify_flt_rlsd(int flt0_rslt,
  2699. int flt1_rslt);
  2700. void dp_ipa_wdi_opt_dpath_notify_flt_add_rem_cb(int flt0_rslt, int flt1_rslt);
  2701. void dp_ipa_wdi_opt_dpath_notify_flt_rsvd(bool is_success);
  2702. #endif
  2703. #ifdef QCA_ENHANCED_STATS_SUPPORT
  2704. /**
  2705. * dp_peer_aggregate_tid_stats - aggregate rx tid stats
  2706. * @peer: Data Path peer
  2707. *
  2708. * Return: void
  2709. */
  2710. void dp_peer_aggregate_tid_stats(struct dp_peer *peer);
  2711. #endif
  2712. #else
  2713. static inline void dp_peer_aggregate_tid_stats(struct dp_peer *peer)
  2714. {
  2715. }
  2716. #endif
  2717. /**
  2718. * dp_set_key_sec_type_wifi3() - set security mode of key
  2719. * @soc: Datapath soc handle
  2720. * @vdev_id: id of atapath vdev
  2721. * @peer_mac: Datapath peer mac address
  2722. * @sec_type: security type
  2723. * @is_unicast: key type
  2724. *
  2725. */
  2726. QDF_STATUS
  2727. dp_set_key_sec_type_wifi3(struct cdp_soc_t *soc, uint8_t vdev_id,
  2728. uint8_t *peer_mac, enum cdp_sec_type sec_type,
  2729. bool is_unicast);
  2730. /**
  2731. * dp_get_pdev_for_mac_id() - Return pdev for mac_id
  2732. * @soc: handle to DP soc
  2733. * @mac_id: MAC id
  2734. *
  2735. * Return: Return pdev corresponding to MAC
  2736. */
  2737. void *dp_get_pdev_for_mac_id(struct dp_soc *soc, uint32_t mac_id);
  2738. QDF_STATUS
  2739. dp_set_michael_key(struct cdp_soc_t *soc, uint8_t vdev_id,
  2740. uint8_t *peer_mac,
  2741. bool is_unicast, uint32_t *key);
  2742. /**
  2743. * dp_check_pdev_exists() - Validate pdev before use
  2744. * @soc: dp soc handle
  2745. * @data: pdev handle
  2746. *
  2747. * Return: 0 - success/invalid - failure
  2748. */
  2749. bool dp_check_pdev_exists(struct dp_soc *soc, struct dp_pdev *data);
  2750. /**
  2751. * dp_update_delay_stats() - Update delay statistics in structure
  2752. * and fill min, max and avg delay
  2753. * @tstats: tid tx stats
  2754. * @rstats: tid rx stats
  2755. * @delay: delay in ms
  2756. * @tid: tid value
  2757. * @mode: type of tx delay mode
  2758. * @ring_id: ring number
  2759. * @delay_in_us: flag to indicate whether the delay is in ms or us
  2760. *
  2761. * Return: none
  2762. */
  2763. void dp_update_delay_stats(struct cdp_tid_tx_stats *tstats,
  2764. struct cdp_tid_rx_stats *rstats, uint32_t delay,
  2765. uint8_t tid, uint8_t mode, uint8_t ring_id,
  2766. bool delay_in_us);
  2767. /**
  2768. * dp_print_ring_stats(): Print tail and head pointer
  2769. * @pdev: DP_PDEV handle
  2770. *
  2771. * Return: void
  2772. */
  2773. void dp_print_ring_stats(struct dp_pdev *pdev);
  2774. /**
  2775. * dp_print_ring_stat_from_hal(): Print tail and head pointer through hal
  2776. * @soc: soc handle
  2777. * @srng: srng handle
  2778. * @ring_type: ring type
  2779. *
  2780. * Return: void
  2781. */
  2782. void
  2783. dp_print_ring_stat_from_hal(struct dp_soc *soc, struct dp_srng *srng,
  2784. enum hal_ring_type ring_type);
  2785. /**
  2786. * dp_print_pdev_cfg_params() - Print the pdev cfg parameters
  2787. * @pdev: DP pdev handle
  2788. *
  2789. * Return: void
  2790. */
  2791. void dp_print_pdev_cfg_params(struct dp_pdev *pdev);
  2792. /**
  2793. * dp_print_soc_cfg_params()- Dump soc wlan config parameters
  2794. * @soc: Soc handle
  2795. *
  2796. * Return: void
  2797. */
  2798. void dp_print_soc_cfg_params(struct dp_soc *soc);
  2799. /**
  2800. * dp_srng_get_str_from_hal_ring_type() - Return string name for a ring
  2801. * @ring_type: Ring
  2802. *
  2803. * Return: char const pointer
  2804. */
  2805. const
  2806. char *dp_srng_get_str_from_hal_ring_type(enum hal_ring_type ring_type);
  2807. /**
  2808. * dp_txrx_path_stats() - Function to display dump stats
  2809. * @soc: soc handle
  2810. *
  2811. * Return: none
  2812. */
  2813. void dp_txrx_path_stats(struct dp_soc *soc);
  2814. /**
  2815. * dp_print_per_ring_stats(): Packet count per ring
  2816. * @soc: soc handle
  2817. *
  2818. * Return: None
  2819. */
  2820. void dp_print_per_ring_stats(struct dp_soc *soc);
  2821. /**
  2822. * dp_aggregate_pdev_stats(): Consolidate stats at PDEV level
  2823. * @pdev: DP PDEV handle
  2824. *
  2825. * Return: void
  2826. */
  2827. void dp_aggregate_pdev_stats(struct dp_pdev *pdev);
  2828. /**
  2829. * dp_print_rx_rates(): Print Rx rate stats
  2830. * @vdev: DP_VDEV handle
  2831. *
  2832. * Return:void
  2833. */
  2834. void dp_print_rx_rates(struct dp_vdev *vdev);
  2835. /**
  2836. * dp_print_tx_rates(): Print tx rates
  2837. * @vdev: DP_VDEV handle
  2838. *
  2839. * Return:void
  2840. */
  2841. void dp_print_tx_rates(struct dp_vdev *vdev);
  2842. /**
  2843. * dp_print_peer_stats():print peer stats
  2844. * @peer: DP_PEER handle
  2845. * @peer_stats: buffer holding peer stats
  2846. *
  2847. * return void
  2848. */
  2849. void dp_print_peer_stats(struct dp_peer *peer,
  2850. struct cdp_peer_stats *peer_stats);
  2851. /**
  2852. * dp_print_pdev_tx_stats(): Print Pdev level TX stats
  2853. * @pdev: DP_PDEV Handle
  2854. *
  2855. * Return:void
  2856. */
  2857. void
  2858. dp_print_pdev_tx_stats(struct dp_pdev *pdev);
  2859. #if defined(WLAN_FEATURE_11BE_MLO) && defined(WLAN_MCAST_MLO)
  2860. /**
  2861. * dp_print_vdev_mlo_mcast_tx_stats(): Print vdev level mlo mcast tx stats
  2862. * @vdev: DP_VDEV Handle
  2863. *
  2864. * Return:void
  2865. */
  2866. void
  2867. dp_print_vdev_mlo_mcast_tx_stats(struct dp_vdev *vdev);
  2868. #else
  2869. /**
  2870. * dp_print_vdev_mlo_mcast_tx_stats(): Print vdev level mlo mcast tx stats
  2871. * @vdev: DP_VDEV Handle
  2872. *
  2873. * Return:void
  2874. */
  2875. static inline
  2876. void dp_print_vdev_mlo_mcast_tx_stats(struct dp_vdev *vdev)
  2877. {
  2878. }
  2879. #endif
  2880. /**
  2881. * dp_print_pdev_rx_stats(): Print Pdev level RX stats
  2882. * @pdev: DP_PDEV Handle
  2883. *
  2884. * Return: void
  2885. */
  2886. void
  2887. dp_print_pdev_rx_stats(struct dp_pdev *pdev);
  2888. /**
  2889. * dp_print_soc_tx_stats(): Print SOC level stats
  2890. * @soc: DP_SOC Handle
  2891. *
  2892. * Return: void
  2893. */
  2894. void dp_print_soc_tx_stats(struct dp_soc *soc);
  2895. #ifdef QCA_SUPPORT_DP_GLOBAL_CTX
  2896. /**
  2897. * dp_print_global_desc_count(): Print global desc in use
  2898. *
  2899. * Return: void
  2900. */
  2901. void dp_print_global_desc_count(void);
  2902. #else
  2903. /**
  2904. * dp_print_global_desc_count(): Print global desc in use
  2905. *
  2906. * Return: void
  2907. */
  2908. static inline
  2909. void dp_print_global_desc_count(void)
  2910. {
  2911. }
  2912. #endif
  2913. /**
  2914. * dp_print_soc_interrupt_stats() - Print interrupt stats for the soc
  2915. * @soc: dp_soc handle
  2916. *
  2917. * Return: None
  2918. */
  2919. void dp_print_soc_interrupt_stats(struct dp_soc *soc);
  2920. /**
  2921. * dp_print_tx_ppeds_stats() - Print Tx in use stats for the soc in DS
  2922. * @soc: dp_soc handle
  2923. *
  2924. * Return: None
  2925. */
  2926. void dp_print_tx_ppeds_stats(struct dp_soc *soc);
  2927. #ifdef WLAN_DP_SRNG_USAGE_WM_TRACKING
  2928. /**
  2929. * dp_dump_srng_high_wm_stats() - Print the ring usage high watermark stats
  2930. * for all SRNGs
  2931. * @soc: DP soc handle
  2932. * @srng_mask: SRNGs mask for dumping usage watermark stats
  2933. *
  2934. * Return: None
  2935. */
  2936. void dp_dump_srng_high_wm_stats(struct dp_soc *soc, uint64_t srng_mask);
  2937. #else
  2938. static inline
  2939. void dp_dump_srng_high_wm_stats(struct dp_soc *soc, uint64_t srng_mask)
  2940. {
  2941. }
  2942. #endif
  2943. /**
  2944. * dp_print_soc_rx_stats() - Print SOC level Rx stats
  2945. * @soc: DP_SOC Handle
  2946. *
  2947. * Return: void
  2948. */
  2949. void dp_print_soc_rx_stats(struct dp_soc *soc);
  2950. /**
  2951. * dp_get_mac_id_for_pdev() - Return mac corresponding to pdev for mac
  2952. *
  2953. * @mac_id: MAC id
  2954. * @pdev_id: pdev_id corresponding to pdev, 0 for MCL
  2955. *
  2956. * Single pdev using both MACs will operate on both MAC rings,
  2957. * which is the case for MCL.
  2958. * For WIN each PDEV will operate one ring, so index is zero.
  2959. *
  2960. */
  2961. static inline int dp_get_mac_id_for_pdev(uint32_t mac_id, uint32_t pdev_id)
  2962. {
  2963. if (mac_id && pdev_id) {
  2964. qdf_print("Both mac_id and pdev_id cannot be non zero");
  2965. QDF_BUG(0);
  2966. return 0;
  2967. }
  2968. return (mac_id + pdev_id);
  2969. }
  2970. /**
  2971. * dp_get_lmac_id_for_pdev_id() - Return lmac id corresponding to host pdev id
  2972. * @soc: soc pointer
  2973. * @mac_id: MAC id
  2974. * @pdev_id: pdev_id corresponding to pdev, 0 for MCL
  2975. *
  2976. * For MCL, Single pdev using both MACs will operate on both MAC rings.
  2977. *
  2978. * For WIN, each PDEV will operate one ring.
  2979. *
  2980. */
  2981. static inline int
  2982. dp_get_lmac_id_for_pdev_id
  2983. (struct dp_soc *soc, uint32_t mac_id, uint32_t pdev_id)
  2984. {
  2985. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx)) {
  2986. if (mac_id && pdev_id) {
  2987. qdf_print("Both mac_id and pdev_id cannot be non zero");
  2988. QDF_BUG(0);
  2989. return 0;
  2990. }
  2991. return (mac_id + pdev_id);
  2992. }
  2993. return soc->pdev_list[pdev_id]->lmac_id;
  2994. }
  2995. /**
  2996. * dp_get_pdev_for_lmac_id() - Return pdev pointer corresponding to lmac id
  2997. * @soc: soc pointer
  2998. * @lmac_id: LMAC id
  2999. *
  3000. * For MCL, Single pdev exists
  3001. *
  3002. * For WIN, each PDEV will operate one ring.
  3003. *
  3004. */
  3005. static inline struct dp_pdev *
  3006. dp_get_pdev_for_lmac_id(struct dp_soc *soc, uint32_t lmac_id)
  3007. {
  3008. uint8_t i = 0;
  3009. if (wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx)) {
  3010. i = wlan_cfg_get_pdev_idx(soc->wlan_cfg_ctx, lmac_id);
  3011. return ((i < MAX_PDEV_CNT) ? soc->pdev_list[i] : NULL);
  3012. }
  3013. /* Typically for MCL as there only 1 PDEV*/
  3014. return soc->pdev_list[0];
  3015. }
  3016. /**
  3017. * dp_calculate_target_pdev_id_from_host_pdev_id() - Return target pdev
  3018. * corresponding to host pdev id
  3019. * @soc: soc pointer
  3020. * @mac_for_pdev: pdev_id corresponding to host pdev for WIN, mac id for MCL
  3021. *
  3022. * Return: target pdev_id for host pdev id. For WIN, this is derived through
  3023. * a two step process:
  3024. * 1. Get lmac_id corresponding to host pdev_id (lmac_id can change
  3025. * during mode switch)
  3026. * 2. Get target pdev_id (set up during WMI ready) from lmac_id
  3027. *
  3028. * For MCL, return the offset-1 translated mac_id
  3029. */
  3030. static inline int
  3031. dp_calculate_target_pdev_id_from_host_pdev_id
  3032. (struct dp_soc *soc, uint32_t mac_for_pdev)
  3033. {
  3034. struct dp_pdev *pdev;
  3035. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx))
  3036. return DP_SW2HW_MACID(mac_for_pdev);
  3037. pdev = soc->pdev_list[mac_for_pdev];
  3038. /*non-MCL case, get original target_pdev mapping*/
  3039. return wlan_cfg_get_target_pdev_id(soc->wlan_cfg_ctx, pdev->lmac_id);
  3040. }
  3041. /**
  3042. * dp_get_target_pdev_id_for_host_pdev_id() - Return target pdev corresponding
  3043. * to host pdev id
  3044. * @soc: soc pointer
  3045. * @mac_for_pdev: pdev_id corresponding to host pdev for WIN, mac id for MCL
  3046. *
  3047. * Return: target pdev_id for host pdev id.
  3048. * For WIN, return the value stored in pdev object.
  3049. * For MCL, return the offset-1 translated mac_id.
  3050. */
  3051. static inline int
  3052. dp_get_target_pdev_id_for_host_pdev_id
  3053. (struct dp_soc *soc, uint32_t mac_for_pdev)
  3054. {
  3055. struct dp_pdev *pdev;
  3056. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx))
  3057. return DP_SW2HW_MACID(mac_for_pdev);
  3058. pdev = soc->pdev_list[mac_for_pdev];
  3059. return pdev->target_pdev_id;
  3060. }
  3061. /**
  3062. * dp_get_host_pdev_id_for_target_pdev_id() - Return host pdev corresponding
  3063. * to target pdev id
  3064. * @soc: soc pointer
  3065. * @pdev_id: pdev_id corresponding to target pdev
  3066. *
  3067. * Return: host pdev_id for target pdev id. For WIN, this is derived through
  3068. * a two step process:
  3069. * 1. Get lmac_id corresponding to target pdev_id
  3070. * 2. Get host pdev_id (set up during WMI ready) from lmac_id
  3071. *
  3072. * For MCL, return the 0-offset pdev_id
  3073. */
  3074. static inline int
  3075. dp_get_host_pdev_id_for_target_pdev_id
  3076. (struct dp_soc *soc, uint32_t pdev_id)
  3077. {
  3078. struct dp_pdev *pdev;
  3079. int lmac_id;
  3080. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx))
  3081. return DP_HW2SW_MACID(pdev_id);
  3082. /*non-MCL case, get original target_lmac mapping from target pdev*/
  3083. lmac_id = wlan_cfg_get_hw_mac_idx(soc->wlan_cfg_ctx,
  3084. DP_HW2SW_MACID(pdev_id));
  3085. /*Get host pdev from lmac*/
  3086. pdev = dp_get_pdev_for_lmac_id(soc, lmac_id);
  3087. return pdev ? pdev->pdev_id : INVALID_PDEV_ID;
  3088. }
  3089. /**
  3090. * dp_get_mac_id_for_mac() - Return mac corresponding WIN and MCL mac_ids
  3091. *
  3092. * @soc: handle to DP soc
  3093. * @mac_id: MAC id
  3094. *
  3095. * Single pdev using both MACs will operate on both MAC rings,
  3096. * which is the case for MCL.
  3097. * For WIN each PDEV will operate one ring, so index is zero.
  3098. *
  3099. */
  3100. static inline int dp_get_mac_id_for_mac(struct dp_soc *soc, uint32_t mac_id)
  3101. {
  3102. /*
  3103. * Single pdev using both MACs will operate on both MAC rings,
  3104. * which is the case for MCL.
  3105. */
  3106. if (!wlan_cfg_per_pdev_lmac_ring(soc->wlan_cfg_ctx))
  3107. return mac_id;
  3108. /* For WIN each PDEV will operate one ring, so index is zero. */
  3109. return 0;
  3110. }
  3111. /**
  3112. * dp_is_subtype_data() - check if the frame subtype is data
  3113. *
  3114. * @frame_ctrl: Frame control field
  3115. *
  3116. * check the frame control field and verify if the packet
  3117. * is a data packet.
  3118. *
  3119. * Return: true or false
  3120. */
  3121. static inline bool dp_is_subtype_data(uint16_t frame_ctrl)
  3122. {
  3123. if (((qdf_cpu_to_le16(frame_ctrl) & QDF_IEEE80211_FC0_TYPE_MASK) ==
  3124. QDF_IEEE80211_FC0_TYPE_DATA) &&
  3125. (((qdf_cpu_to_le16(frame_ctrl) & QDF_IEEE80211_FC0_SUBTYPE_MASK) ==
  3126. QDF_IEEE80211_FC0_SUBTYPE_DATA) ||
  3127. ((qdf_cpu_to_le16(frame_ctrl) & QDF_IEEE80211_FC0_SUBTYPE_MASK) ==
  3128. QDF_IEEE80211_FC0_SUBTYPE_QOS))) {
  3129. return true;
  3130. }
  3131. return false;
  3132. }
  3133. #ifdef WDI_EVENT_ENABLE
  3134. /**
  3135. * dp_h2t_cfg_stats_msg_send(): function to construct HTT message to pass to FW
  3136. * @pdev: DP PDEV handle
  3137. * @stats_type_upload_mask: stats type requested by user
  3138. * @mac_id: Mac id number
  3139. *
  3140. * return: QDF STATUS
  3141. */
  3142. QDF_STATUS dp_h2t_cfg_stats_msg_send(struct dp_pdev *pdev,
  3143. uint32_t stats_type_upload_mask,
  3144. uint8_t mac_id);
  3145. /**
  3146. * dp_wdi_event_unsub() - WDI event unsubscribe
  3147. * @soc: soc handle
  3148. * @pdev_id: id of pdev
  3149. * @event_cb_sub_handle: subscribed event handle
  3150. * @event: Event to be unsubscribe
  3151. *
  3152. * Return: 0 for success. nonzero for failure.
  3153. */
  3154. int dp_wdi_event_unsub(struct cdp_soc_t *soc, uint8_t pdev_id,
  3155. wdi_event_subscribe *event_cb_sub_handle,
  3156. uint32_t event);
  3157. /**
  3158. * dp_wdi_event_sub() - Subscribe WDI event
  3159. * @soc: soc handle
  3160. * @pdev_id: id of pdev
  3161. * @event_cb_sub_handle: subscribe event handle
  3162. * @event: Event to be subscribe
  3163. *
  3164. * Return: 0 for success. nonzero for failure.
  3165. */
  3166. int dp_wdi_event_sub(struct cdp_soc_t *soc, uint8_t pdev_id,
  3167. wdi_event_subscribe *event_cb_sub_handle,
  3168. uint32_t event);
  3169. /**
  3170. * dp_wdi_event_handler() - Event handler for WDI event
  3171. * @event: wdi event number
  3172. * @soc: soc handle
  3173. * @data: pointer to data
  3174. * @peer_id: peer id number
  3175. * @status: HTT rx status
  3176. * @pdev_id: id of pdev
  3177. *
  3178. * It will be called to register WDI event
  3179. *
  3180. * Return: None
  3181. */
  3182. void dp_wdi_event_handler(enum WDI_EVENT event, struct dp_soc *soc,
  3183. void *data, u_int16_t peer_id,
  3184. int status, u_int8_t pdev_id);
  3185. /**
  3186. * dp_wdi_event_attach() - Attach wdi event
  3187. * @txrx_pdev: DP pdev handle
  3188. *
  3189. * Return: 0 for success. nonzero for failure.
  3190. */
  3191. int dp_wdi_event_attach(struct dp_pdev *txrx_pdev);
  3192. /**
  3193. * dp_wdi_event_detach() - Detach WDI event
  3194. * @txrx_pdev: DP pdev handle
  3195. *
  3196. * Return: 0 for success. nonzero for failure.
  3197. */
  3198. int dp_wdi_event_detach(struct dp_pdev *txrx_pdev);
  3199. static inline void
  3200. dp_hif_update_pipe_callback(struct dp_soc *dp_soc,
  3201. void *cb_context,
  3202. QDF_STATUS (*callback)(void *, qdf_nbuf_t, uint8_t),
  3203. uint8_t pipe_id)
  3204. {
  3205. struct hif_msg_callbacks hif_pipe_callbacks = { 0 };
  3206. /* TODO: Temporary change to bypass HTC connection for this new
  3207. * HIF pipe, which will be used for packet log and other high-
  3208. * priority HTT messages. Proper HTC connection to be added
  3209. * later once required FW changes are available
  3210. */
  3211. hif_pipe_callbacks.rxCompletionHandler = callback;
  3212. hif_pipe_callbacks.Context = cb_context;
  3213. hif_update_pipe_callback(dp_soc->hif_handle,
  3214. DP_HTT_T2H_HP_PIPE, &hif_pipe_callbacks);
  3215. }
  3216. #else
  3217. static inline int dp_wdi_event_unsub(struct cdp_soc_t *soc, uint8_t pdev_id,
  3218. wdi_event_subscribe *event_cb_sub_handle,
  3219. uint32_t event)
  3220. {
  3221. return 0;
  3222. }
  3223. static inline int dp_wdi_event_sub(struct cdp_soc_t *soc, uint8_t pdev_id,
  3224. wdi_event_subscribe *event_cb_sub_handle,
  3225. uint32_t event)
  3226. {
  3227. return 0;
  3228. }
  3229. static inline
  3230. void dp_wdi_event_handler(enum WDI_EVENT event,
  3231. struct dp_soc *soc,
  3232. void *data, u_int16_t peer_id,
  3233. int status, u_int8_t pdev_id)
  3234. {
  3235. }
  3236. static inline int dp_wdi_event_attach(struct dp_pdev *txrx_pdev)
  3237. {
  3238. return 0;
  3239. }
  3240. static inline int dp_wdi_event_detach(struct dp_pdev *txrx_pdev)
  3241. {
  3242. return 0;
  3243. }
  3244. static inline QDF_STATUS dp_h2t_cfg_stats_msg_send(struct dp_pdev *pdev,
  3245. uint32_t stats_type_upload_mask, uint8_t mac_id)
  3246. {
  3247. return 0;
  3248. }
  3249. static inline void
  3250. dp_hif_update_pipe_callback(struct dp_soc *dp_soc, void *cb_context,
  3251. QDF_STATUS (*callback)(void *, qdf_nbuf_t, uint8_t),
  3252. uint8_t pipe_id)
  3253. {
  3254. }
  3255. #endif
  3256. #ifdef VDEV_PEER_PROTOCOL_COUNT
  3257. /**
  3258. * dp_vdev_peer_stats_update_protocol_cnt() - update per-peer protocol counters
  3259. * @vdev: VDEV DP object
  3260. * @nbuf: data packet
  3261. * @txrx_peer: DP TXRX Peer object
  3262. * @is_egress: whether egress or ingress
  3263. * @is_rx: whether rx or tx
  3264. *
  3265. * This function updates the per-peer protocol counters
  3266. * Return: void
  3267. */
  3268. void dp_vdev_peer_stats_update_protocol_cnt(struct dp_vdev *vdev,
  3269. qdf_nbuf_t nbuf,
  3270. struct dp_txrx_peer *txrx_peer,
  3271. bool is_egress,
  3272. bool is_rx);
  3273. /**
  3274. * dp_peer_stats_update_protocol_cnt() - update per-peer protocol counters
  3275. * @soc: SOC DP object
  3276. * @vdev_id: vdev_id
  3277. * @nbuf: data packet
  3278. * @is_egress: whether egress or ingress
  3279. * @is_rx: whether rx or tx
  3280. *
  3281. * This function updates the per-peer protocol counters
  3282. *
  3283. * Return: void
  3284. */
  3285. void dp_peer_stats_update_protocol_cnt(struct cdp_soc_t *soc,
  3286. int8_t vdev_id,
  3287. qdf_nbuf_t nbuf,
  3288. bool is_egress,
  3289. bool is_rx);
  3290. void dp_vdev_peer_stats_update_protocol_cnt_tx(struct dp_vdev *vdev_hdl,
  3291. qdf_nbuf_t nbuf);
  3292. #else
  3293. #define dp_vdev_peer_stats_update_protocol_cnt(vdev, nbuf, txrx_peer, \
  3294. is_egress, is_rx)
  3295. static inline
  3296. void dp_vdev_peer_stats_update_protocol_cnt_tx(struct dp_vdev *vdev_hdl,
  3297. qdf_nbuf_t nbuf)
  3298. {
  3299. }
  3300. #endif
  3301. #ifdef QCA_LL_TX_FLOW_CONTROL_V2
  3302. /**
  3303. * dp_tx_dump_flow_pool_info() - dump global_pool and flow_pool info
  3304. * @soc_hdl: Handle to struct cdp_soc
  3305. *
  3306. * Return: none
  3307. */
  3308. void dp_tx_dump_flow_pool_info(struct cdp_soc_t *soc_hdl);
  3309. /**
  3310. * dp_tx_dump_flow_pool_info_compact() - dump flow pool info
  3311. * @soc: DP soc context
  3312. *
  3313. * Return: none
  3314. */
  3315. void dp_tx_dump_flow_pool_info_compact(struct dp_soc *soc);
  3316. int dp_tx_delete_flow_pool(struct dp_soc *soc, struct dp_tx_desc_pool_s *pool,
  3317. bool force);
  3318. #else
  3319. static inline void dp_tx_dump_flow_pool_info_compact(struct dp_soc *soc)
  3320. {
  3321. }
  3322. #endif /* QCA_LL_TX_FLOW_CONTROL_V2 */
  3323. #ifdef QCA_OL_DP_SRNG_LOCK_LESS_ACCESS
  3324. static inline int
  3325. dp_hal_srng_access_start(hal_soc_handle_t soc, hal_ring_handle_t hal_ring_hdl)
  3326. {
  3327. return hal_srng_access_start_unlocked(soc, hal_ring_hdl);
  3328. }
  3329. static inline void
  3330. dp_hal_srng_access_end(hal_soc_handle_t soc, hal_ring_handle_t hal_ring_hdl)
  3331. {
  3332. hal_srng_access_end_unlocked(soc, hal_ring_hdl);
  3333. }
  3334. #else
  3335. static inline int
  3336. dp_hal_srng_access_start(hal_soc_handle_t soc, hal_ring_handle_t hal_ring_hdl)
  3337. {
  3338. return hal_srng_access_start(soc, hal_ring_hdl);
  3339. }
  3340. static inline void
  3341. dp_hal_srng_access_end(hal_soc_handle_t soc, hal_ring_handle_t hal_ring_hdl)
  3342. {
  3343. hal_srng_access_end(soc, hal_ring_hdl);
  3344. }
  3345. #endif
  3346. #ifdef WLAN_FEATURE_DP_EVENT_HISTORY
  3347. /**
  3348. * dp_srng_access_start() - Wrapper function to log access start of a hal ring
  3349. * @int_ctx: pointer to DP interrupt context. This should not be NULL
  3350. * @dp_soc: DP Soc handle
  3351. * @hal_ring_hdl: opaque pointer to the HAL Rx Error Ring, which will be
  3352. * serviced
  3353. *
  3354. * Return: 0 on success; error on failure
  3355. */
  3356. int dp_srng_access_start(struct dp_intr *int_ctx, struct dp_soc *dp_soc,
  3357. hal_ring_handle_t hal_ring_hdl);
  3358. /**
  3359. * dp_srng_access_end() - Wrapper function to log access end of a hal ring
  3360. * @int_ctx: pointer to DP interrupt context. This should not be NULL
  3361. * @dp_soc: DP Soc handle
  3362. * @hal_ring_hdl: opaque pointer to the HAL Rx Error Ring, which will be
  3363. * serviced
  3364. *
  3365. * Return: void
  3366. */
  3367. void dp_srng_access_end(struct dp_intr *int_ctx, struct dp_soc *dp_soc,
  3368. hal_ring_handle_t hal_ring_hdl);
  3369. #else
  3370. static inline int dp_srng_access_start(struct dp_intr *int_ctx,
  3371. struct dp_soc *dp_soc,
  3372. hal_ring_handle_t hal_ring_hdl)
  3373. {
  3374. hal_soc_handle_t hal_soc = dp_soc->hal_soc;
  3375. return dp_hal_srng_access_start(hal_soc, hal_ring_hdl);
  3376. }
  3377. static inline void dp_srng_access_end(struct dp_intr *int_ctx,
  3378. struct dp_soc *dp_soc,
  3379. hal_ring_handle_t hal_ring_hdl)
  3380. {
  3381. hal_soc_handle_t hal_soc = dp_soc->hal_soc;
  3382. return dp_hal_srng_access_end(hal_soc, hal_ring_hdl);
  3383. }
  3384. #endif /* WLAN_FEATURE_DP_EVENT_HISTORY */
  3385. #ifdef QCA_CACHED_RING_DESC
  3386. /**
  3387. * dp_srng_dst_get_next() - Wrapper function to get next ring desc
  3388. * @dp_soc: DP Soc handle
  3389. * @hal_ring_hdl: opaque pointer to the HAL Destination Ring
  3390. *
  3391. * Return: HAL ring descriptor
  3392. */
  3393. static inline void *dp_srng_dst_get_next(struct dp_soc *dp_soc,
  3394. hal_ring_handle_t hal_ring_hdl)
  3395. {
  3396. hal_soc_handle_t hal_soc = dp_soc->hal_soc;
  3397. return hal_srng_dst_get_next_cached(hal_soc, hal_ring_hdl);
  3398. }
  3399. /**
  3400. * dp_srng_dst_inv_cached_descs() - Wrapper function to invalidate cached
  3401. * descriptors
  3402. * @dp_soc: DP Soc handle
  3403. * @hal_ring_hdl: opaque pointer to the HAL Rx Destination ring
  3404. * @num_entries: Entry count
  3405. *
  3406. * Return: None
  3407. */
  3408. static inline void dp_srng_dst_inv_cached_descs(struct dp_soc *dp_soc,
  3409. hal_ring_handle_t hal_ring_hdl,
  3410. uint32_t num_entries)
  3411. {
  3412. hal_soc_handle_t hal_soc = dp_soc->hal_soc;
  3413. hal_srng_dst_inv_cached_descs(hal_soc, hal_ring_hdl, num_entries);
  3414. }
  3415. #else
  3416. static inline void *dp_srng_dst_get_next(struct dp_soc *dp_soc,
  3417. hal_ring_handle_t hal_ring_hdl)
  3418. {
  3419. hal_soc_handle_t hal_soc = dp_soc->hal_soc;
  3420. return hal_srng_dst_get_next(hal_soc, hal_ring_hdl);
  3421. }
  3422. static inline void dp_srng_dst_inv_cached_descs(struct dp_soc *dp_soc,
  3423. hal_ring_handle_t hal_ring_hdl,
  3424. uint32_t num_entries)
  3425. {
  3426. }
  3427. #endif /* QCA_CACHED_RING_DESC */
  3428. #if defined(QCA_CACHED_RING_DESC) && \
  3429. (defined(QCA_DP_RX_HW_SW_NBUF_DESC_PREFETCH) || \
  3430. defined(QCA_DP_TX_HW_SW_NBUF_DESC_PREFETCH))
  3431. /**
  3432. * dp_srng_dst_prefetch() - Wrapper function to prefetch descs from dest ring
  3433. * @hal_soc: HAL SOC handle
  3434. * @hal_ring_hdl: opaque pointer to the HAL Rx Destination ring
  3435. * @num_entries: Entry count
  3436. *
  3437. * Return: None
  3438. */
  3439. static inline void *dp_srng_dst_prefetch(hal_soc_handle_t hal_soc,
  3440. hal_ring_handle_t hal_ring_hdl,
  3441. uint32_t num_entries)
  3442. {
  3443. return hal_srng_dst_prefetch(hal_soc, hal_ring_hdl, num_entries);
  3444. }
  3445. /**
  3446. * dp_srng_dst_prefetch_32_byte_desc() - Wrapper function to prefetch
  3447. * 32 byte descriptor starting at
  3448. * 64 byte offset
  3449. * @hal_soc: HAL SOC handle
  3450. * @hal_ring_hdl: opaque pointer to the HAL Rx Destination ring
  3451. * @num_entries: Entry count
  3452. *
  3453. * Return: None
  3454. */
  3455. static inline
  3456. void *dp_srng_dst_prefetch_32_byte_desc(hal_soc_handle_t hal_soc,
  3457. hal_ring_handle_t hal_ring_hdl,
  3458. uint32_t num_entries)
  3459. {
  3460. return hal_srng_dst_prefetch_32_byte_desc(hal_soc, hal_ring_hdl,
  3461. num_entries);
  3462. }
  3463. #else
  3464. static inline void *dp_srng_dst_prefetch(hal_soc_handle_t hal_soc,
  3465. hal_ring_handle_t hal_ring_hdl,
  3466. uint32_t num_entries)
  3467. {
  3468. return NULL;
  3469. }
  3470. static inline
  3471. void *dp_srng_dst_prefetch_32_byte_desc(hal_soc_handle_t hal_soc,
  3472. hal_ring_handle_t hal_ring_hdl,
  3473. uint32_t num_entries)
  3474. {
  3475. return NULL;
  3476. }
  3477. #endif
  3478. #ifdef QCA_ENH_V3_STATS_SUPPORT
  3479. /**
  3480. * dp_pdev_print_delay_stats(): Print pdev level delay stats
  3481. * @pdev: DP_PDEV handle
  3482. *
  3483. * Return:void
  3484. */
  3485. void dp_pdev_print_delay_stats(struct dp_pdev *pdev);
  3486. /**
  3487. * dp_pdev_print_tid_stats(): Print pdev level tid stats
  3488. * @pdev: DP_PDEV handle
  3489. *
  3490. * Return:void
  3491. */
  3492. void dp_pdev_print_tid_stats(struct dp_pdev *pdev);
  3493. /**
  3494. * dp_pdev_print_rx_error_stats(): Print pdev level rx error stats
  3495. * @pdev: DP_PDEV handle
  3496. *
  3497. * Return:void
  3498. */
  3499. void dp_pdev_print_rx_error_stats(struct dp_pdev *pdev);
  3500. #endif /* QCA_ENH_V3_STATS_SUPPORT */
  3501. /**
  3502. * dp_pdev_get_tid_stats(): Get accumulated pdev level tid_stats
  3503. * @soc_hdl: soc handle
  3504. * @pdev_id: id of dp_pdev handle
  3505. * @tid_stats: Pointer for cdp_tid_stats_intf
  3506. *
  3507. * Return: QDF_STATUS_SUCCESS or QDF_STATUS_E_INVAL
  3508. */
  3509. QDF_STATUS dp_pdev_get_tid_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  3510. struct cdp_tid_stats_intf *tid_stats);
  3511. /**
  3512. * dp_soc_set_txrx_ring_map()
  3513. * @soc: DP handler for soc
  3514. *
  3515. * Return: Void
  3516. */
  3517. void dp_soc_set_txrx_ring_map(struct dp_soc *soc);
  3518. /**
  3519. * dp_vdev_to_cdp_vdev() - typecast dp vdev to cdp vdev
  3520. * @vdev: DP vdev handle
  3521. *
  3522. * Return: struct cdp_vdev pointer
  3523. */
  3524. static inline
  3525. struct cdp_vdev *dp_vdev_to_cdp_vdev(struct dp_vdev *vdev)
  3526. {
  3527. return (struct cdp_vdev *)vdev;
  3528. }
  3529. /**
  3530. * dp_pdev_to_cdp_pdev() - typecast dp pdev to cdp pdev
  3531. * @pdev: DP pdev handle
  3532. *
  3533. * Return: struct cdp_pdev pointer
  3534. */
  3535. static inline
  3536. struct cdp_pdev *dp_pdev_to_cdp_pdev(struct dp_pdev *pdev)
  3537. {
  3538. return (struct cdp_pdev *)pdev;
  3539. }
  3540. /**
  3541. * dp_soc_to_cdp_soc() - typecast dp psoc to cdp psoc
  3542. * @psoc: DP psoc handle
  3543. *
  3544. * Return: struct cdp_soc pointer
  3545. */
  3546. static inline
  3547. struct cdp_soc *dp_soc_to_cdp_soc(struct dp_soc *psoc)
  3548. {
  3549. return (struct cdp_soc *)psoc;
  3550. }
  3551. /**
  3552. * dp_soc_to_cdp_soc_t() - typecast dp psoc to ol txrx soc handle
  3553. * @psoc: DP psoc handle
  3554. *
  3555. * Return: struct cdp_soc_t pointer
  3556. */
  3557. static inline
  3558. struct cdp_soc_t *dp_soc_to_cdp_soc_t(struct dp_soc *psoc)
  3559. {
  3560. return (struct cdp_soc_t *)psoc;
  3561. }
  3562. #if defined(WLAN_SUPPORT_RX_FLOW_TAG)
  3563. /**
  3564. * dp_rx_flow_get_fse_stats() - Retrieve a flow's statistics
  3565. * @pdev: pdev handle
  3566. * @rx_flow_info: flow information in the Rx FST
  3567. * @stats: stats to update
  3568. *
  3569. * Return: Success when flow statistcs is updated, error on failure
  3570. */
  3571. QDF_STATUS dp_rx_flow_get_fse_stats(struct dp_pdev *pdev,
  3572. struct cdp_rx_flow_info *rx_flow_info,
  3573. struct cdp_flow_stats *stats);
  3574. /**
  3575. * dp_rx_flow_delete_entry() - Delete a flow entry from flow search table
  3576. * @pdev: pdev handle
  3577. * @rx_flow_info: DP flow parameters
  3578. *
  3579. * Return: Success when flow is deleted, error on failure
  3580. */
  3581. QDF_STATUS dp_rx_flow_delete_entry(struct dp_pdev *pdev,
  3582. struct cdp_rx_flow_info *rx_flow_info);
  3583. /**
  3584. * dp_rx_flow_add_entry() - Add a flow entry to flow search table
  3585. * @pdev: DP pdev instance
  3586. * @rx_flow_info: DP flow parameters
  3587. *
  3588. * Return: Success when flow is added, no-memory or already exists on error
  3589. */
  3590. QDF_STATUS dp_rx_flow_add_entry(struct dp_pdev *pdev,
  3591. struct cdp_rx_flow_info *rx_flow_info);
  3592. /**
  3593. * dp_rx_fst_attach() - Initialize Rx FST and setup necessary parameters
  3594. * @soc: SoC handle
  3595. * @pdev: Pdev handle
  3596. *
  3597. * Return: Handle to flow search table entry
  3598. */
  3599. QDF_STATUS dp_rx_fst_attach(struct dp_soc *soc, struct dp_pdev *pdev);
  3600. /**
  3601. * dp_rx_fst_detach() - De-initialize Rx FST
  3602. * @soc: SoC handle
  3603. * @pdev: Pdev handle
  3604. *
  3605. * Return: None
  3606. */
  3607. void dp_rx_fst_detach(struct dp_soc *soc, struct dp_pdev *pdev);
  3608. /**
  3609. * dp_mon_rx_update_rx_flow_tag_stats() - Update a mon flow's statistics
  3610. * @pdev: pdev handle
  3611. * @flow_id: flow index (truncated hash) in the Rx FST
  3612. *
  3613. * Return: Success when flow statistcs is updated, error on failure
  3614. */
  3615. QDF_STATUS
  3616. dp_mon_rx_update_rx_flow_tag_stats(struct dp_pdev *pdev, uint32_t flow_id);
  3617. #endif
  3618. #ifdef WLAN_SUPPORT_RX_FLOW_TAG
  3619. /**
  3620. * dp_rx_flow_send_fst_fw_setup() - Program FST parameters in FW/HW post-attach
  3621. * @soc: SoC handle
  3622. * @pdev: Pdev handle
  3623. *
  3624. * Return: Success when fst parameters are programmed in FW, error otherwise
  3625. */
  3626. QDF_STATUS dp_rx_flow_send_fst_fw_setup(struct dp_soc *soc,
  3627. struct dp_pdev *pdev);
  3628. #endif
  3629. /**
  3630. * dp_rx_fst_attach_wrapper() - wrapper API for dp_rx_fst_attach
  3631. * @soc: SoC handle
  3632. * @pdev: Pdev handle
  3633. *
  3634. * Return: Handle to flow search table entry
  3635. */
  3636. extern QDF_STATUS
  3637. dp_rx_fst_attach_wrapper(struct dp_soc *soc, struct dp_pdev *pdev);
  3638. /**
  3639. * dp_rx_fst_detach_wrapper() - wrapper API for dp_rx_fst_detach
  3640. * @soc: SoC handle
  3641. * @pdev: Pdev handle
  3642. *
  3643. * Return: None
  3644. */
  3645. extern void
  3646. dp_rx_fst_detach_wrapper(struct dp_soc *soc, struct dp_pdev *pdev);
  3647. /**
  3648. * dp_vdev_get_ref() - API to take a reference for VDEV object
  3649. *
  3650. * @soc : core DP soc context
  3651. * @vdev : DP vdev
  3652. * @mod_id : module id
  3653. *
  3654. * Return: QDF_STATUS_SUCCESS if reference held successfully
  3655. * else QDF_STATUS_E_INVAL
  3656. */
  3657. static inline
  3658. QDF_STATUS dp_vdev_get_ref(struct dp_soc *soc, struct dp_vdev *vdev,
  3659. enum dp_mod_id mod_id)
  3660. {
  3661. if (!qdf_atomic_inc_not_zero(&vdev->ref_cnt))
  3662. return QDF_STATUS_E_INVAL;
  3663. qdf_atomic_inc(&vdev->mod_refs[mod_id]);
  3664. return QDF_STATUS_SUCCESS;
  3665. }
  3666. /**
  3667. * dp_vdev_get_ref_by_id() - Returns vdev object given the vdev id
  3668. * @soc: core DP soc context
  3669. * @vdev_id: vdev id from vdev object can be retrieved
  3670. * @mod_id: module id which is requesting the reference
  3671. *
  3672. * Return: struct dp_vdev*: Pointer to DP vdev object
  3673. */
  3674. static inline struct dp_vdev *
  3675. dp_vdev_get_ref_by_id(struct dp_soc *soc, uint8_t vdev_id,
  3676. enum dp_mod_id mod_id)
  3677. {
  3678. struct dp_vdev *vdev = NULL;
  3679. if (qdf_unlikely(vdev_id >= MAX_VDEV_CNT))
  3680. return NULL;
  3681. qdf_spin_lock_bh(&soc->vdev_map_lock);
  3682. vdev = soc->vdev_id_map[vdev_id];
  3683. if (!vdev || dp_vdev_get_ref(soc, vdev, mod_id) != QDF_STATUS_SUCCESS) {
  3684. qdf_spin_unlock_bh(&soc->vdev_map_lock);
  3685. return NULL;
  3686. }
  3687. qdf_spin_unlock_bh(&soc->vdev_map_lock);
  3688. return vdev;
  3689. }
  3690. /**
  3691. * dp_get_pdev_from_soc_pdev_id_wifi3() - Returns pdev object given the pdev id
  3692. * @soc: core DP soc context
  3693. * @pdev_id: pdev id from pdev object can be retrieved
  3694. *
  3695. * Return: struct dp_pdev*: Pointer to DP pdev object
  3696. */
  3697. static inline struct dp_pdev *
  3698. dp_get_pdev_from_soc_pdev_id_wifi3(struct dp_soc *soc,
  3699. uint8_t pdev_id)
  3700. {
  3701. if (qdf_unlikely(pdev_id >= MAX_PDEV_CNT))
  3702. return NULL;
  3703. return soc->pdev_list[pdev_id];
  3704. }
  3705. /**
  3706. * dp_get_peer_mac_list(): function to get peer mac list of vdev
  3707. * @soc: Datapath soc handle
  3708. * @vdev_id: vdev id
  3709. * @newmac: Table of the clients mac
  3710. * @mac_cnt: No. of MACs required
  3711. * @limit: Limit the number of clients
  3712. *
  3713. * Return: no of clients
  3714. */
  3715. uint16_t dp_get_peer_mac_list(ol_txrx_soc_handle soc, uint8_t vdev_id,
  3716. u_int8_t newmac[][QDF_MAC_ADDR_SIZE],
  3717. u_int16_t mac_cnt, bool limit);
  3718. /**
  3719. * dp_update_num_mac_rings_for_dbs() - Update No of MAC rings based on
  3720. * DBS check
  3721. * @soc: DP SoC context
  3722. * @max_mac_rings: Pointer to variable for No of MAC rings
  3723. *
  3724. * Return: None
  3725. */
  3726. void dp_update_num_mac_rings_for_dbs(struct dp_soc *soc,
  3727. int *max_mac_rings);
  3728. #if defined(WLAN_SUPPORT_RX_FISA)
  3729. /**
  3730. * dp_rx_fst_update_cmem_params() - Update CMEM FST params
  3731. * @soc: DP SoC context
  3732. * @num_entries: Number of flow search entries
  3733. * @cmem_ba_lo: CMEM base address low
  3734. * @cmem_ba_hi: CMEM base address high
  3735. *
  3736. * Return: None
  3737. */
  3738. void dp_rx_fst_update_cmem_params(struct dp_soc *soc, uint16_t num_entries,
  3739. uint32_t cmem_ba_lo, uint32_t cmem_ba_hi);
  3740. /**
  3741. * dp_fisa_config() - FISA config handler
  3742. * @cdp_soc: CDP SoC handle
  3743. * @pdev_id: PDEV ID
  3744. * @config_id: FISA config ID
  3745. * @cfg: FISA config msg data
  3746. */
  3747. QDF_STATUS dp_fisa_config(ol_txrx_soc_handle cdp_soc, uint8_t pdev_id,
  3748. enum cdp_fisa_config_id config_id,
  3749. union cdp_fisa_config *cfg);
  3750. #else
  3751. static inline void
  3752. dp_rx_fst_update_cmem_params(struct dp_soc *soc, uint16_t num_entries,
  3753. uint32_t cmem_ba_lo, uint32_t cmem_ba_hi)
  3754. {
  3755. }
  3756. #endif /* WLAN_SUPPORT_RX_FISA */
  3757. #ifdef MAX_ALLOC_PAGE_SIZE
  3758. /**
  3759. * dp_set_max_page_size() - Set the max page size for hw link desc.
  3760. * @pages: link desc page handle
  3761. * @max_alloc_size: max_alloc_size
  3762. *
  3763. * For MCL the page size is set to OS defined value and for WIN
  3764. * the page size is set to the max_alloc_size cfg ini
  3765. * param.
  3766. * This is to ensure that WIN gets contiguous memory allocations
  3767. * as per requirement.
  3768. *
  3769. * Return: None
  3770. */
  3771. static inline
  3772. void dp_set_max_page_size(struct qdf_mem_multi_page_t *pages,
  3773. uint32_t max_alloc_size)
  3774. {
  3775. pages->page_size = qdf_page_size;
  3776. }
  3777. #else
  3778. static inline
  3779. void dp_set_max_page_size(struct qdf_mem_multi_page_t *pages,
  3780. uint32_t max_alloc_size)
  3781. {
  3782. pages->page_size = max_alloc_size;
  3783. }
  3784. #endif /* MAX_ALLOC_PAGE_SIZE */
  3785. /**
  3786. * dp_history_get_next_index() - get the next entry to record an entry
  3787. * in the history.
  3788. * @curr_idx: Current index where the last entry is written.
  3789. * @max_entries: Max number of entries in the history
  3790. *
  3791. * This function assumes that the max number os entries is a power of 2.
  3792. *
  3793. * Return: The index where the next entry is to be written.
  3794. */
  3795. static inline uint32_t dp_history_get_next_index(qdf_atomic_t *curr_idx,
  3796. uint32_t max_entries)
  3797. {
  3798. uint32_t idx = qdf_atomic_inc_return(curr_idx);
  3799. return idx & (max_entries - 1);
  3800. }
  3801. /**
  3802. * dp_rx_skip_tlvs() - Skip TLVs len + L3 padding, save in nbuf->cb
  3803. * @soc: Datapath soc handle
  3804. * @nbuf: nbuf cb to be updated
  3805. * @l3_padding: L3 padding
  3806. *
  3807. * Return: None
  3808. */
  3809. void dp_rx_skip_tlvs(struct dp_soc *soc, qdf_nbuf_t nbuf, uint32_t l3_padding);
  3810. #ifndef FEATURE_WDS
  3811. static inline void
  3812. dp_hmwds_ast_add_notify(struct dp_peer *peer,
  3813. uint8_t *mac_addr,
  3814. enum cdp_txrx_ast_entry_type type,
  3815. QDF_STATUS err,
  3816. bool is_peer_map)
  3817. {
  3818. }
  3819. #endif
  3820. #ifdef HTT_STATS_DEBUGFS_SUPPORT
  3821. /**
  3822. * dp_pdev_htt_stats_dbgfs_init() - Function to allocate memory and initialize
  3823. * debugfs for HTT stats
  3824. * @pdev: dp pdev handle
  3825. *
  3826. * Return: QDF_STATUS
  3827. */
  3828. QDF_STATUS dp_pdev_htt_stats_dbgfs_init(struct dp_pdev *pdev);
  3829. /**
  3830. * dp_pdev_htt_stats_dbgfs_deinit() - Function to remove debugfs entry for
  3831. * HTT stats
  3832. * @pdev: dp pdev handle
  3833. *
  3834. * Return: none
  3835. */
  3836. void dp_pdev_htt_stats_dbgfs_deinit(struct dp_pdev *pdev);
  3837. #else
  3838. /**
  3839. * dp_pdev_htt_stats_dbgfs_init() - Function to allocate memory and initialize
  3840. * debugfs for HTT stats
  3841. * @pdev: dp pdev handle
  3842. *
  3843. * Return: QDF_STATUS
  3844. */
  3845. static inline QDF_STATUS
  3846. dp_pdev_htt_stats_dbgfs_init(struct dp_pdev *pdev)
  3847. {
  3848. return QDF_STATUS_SUCCESS;
  3849. }
  3850. /**
  3851. * dp_pdev_htt_stats_dbgfs_deinit() - Function to remove debugfs entry for
  3852. * HTT stats
  3853. * @pdev: dp pdev handle
  3854. *
  3855. * Return: none
  3856. */
  3857. static inline void
  3858. dp_pdev_htt_stats_dbgfs_deinit(struct dp_pdev *pdev)
  3859. {
  3860. }
  3861. #endif /* HTT_STATS_DEBUGFS_SUPPORT */
  3862. #ifndef WLAN_DP_FEATURE_SW_LATENCY_MGR
  3863. /**
  3864. * dp_soc_swlm_attach() - attach the software latency manager resources
  3865. * @soc: Datapath global soc handle
  3866. *
  3867. * Return: QDF_STATUS
  3868. */
  3869. static inline QDF_STATUS dp_soc_swlm_attach(struct dp_soc *soc)
  3870. {
  3871. return QDF_STATUS_SUCCESS;
  3872. }
  3873. /**
  3874. * dp_soc_swlm_detach() - detach the software latency manager resources
  3875. * @soc: Datapath global soc handle
  3876. *
  3877. * Return: QDF_STATUS
  3878. */
  3879. static inline QDF_STATUS dp_soc_swlm_detach(struct dp_soc *soc)
  3880. {
  3881. return QDF_STATUS_SUCCESS;
  3882. }
  3883. #endif /* !WLAN_DP_FEATURE_SW_LATENCY_MGR */
  3884. #ifndef WLAN_DP_PROFILE_SUPPORT
  3885. static inline void wlan_dp_soc_cfg_sync_profile(struct cdp_soc_t *cdp_soc) {}
  3886. static inline void wlan_dp_pdev_cfg_sync_profile(struct cdp_soc_t *cdp_soc,
  3887. uint8_t pdev_id) {}
  3888. #endif
  3889. /**
  3890. * dp_get_peer_id(): function to get peer id by mac
  3891. * @soc: Datapath soc handle
  3892. * @vdev_id: vdev id
  3893. * @mac: Peer mac address
  3894. *
  3895. * Return: valid peer id on success
  3896. * HTT_INVALID_PEER on failure
  3897. */
  3898. uint16_t dp_get_peer_id(ol_txrx_soc_handle soc, uint8_t vdev_id, uint8_t *mac);
  3899. #ifdef QCA_SUPPORT_WDS_EXTENDED
  3900. /**
  3901. * dp_wds_ext_set_peer_rx(): function to set peer rx handler
  3902. * @soc: Datapath soc handle
  3903. * @vdev_id: vdev id
  3904. * @mac: Peer mac address
  3905. * @rx: rx function pointer
  3906. * @osif_peer: OSIF peer handle
  3907. *
  3908. * Return: QDF_STATUS_SUCCESS on success
  3909. * QDF_STATUS_E_INVAL if peer is not found
  3910. * QDF_STATUS_E_ALREADY if rx is already set/unset
  3911. */
  3912. QDF_STATUS dp_wds_ext_set_peer_rx(ol_txrx_soc_handle soc,
  3913. uint8_t vdev_id,
  3914. uint8_t *mac,
  3915. ol_txrx_rx_fp rx,
  3916. ol_osif_peer_handle osif_peer);
  3917. /**
  3918. * dp_wds_ext_get_peer_osif_handle(): function to get peer osif handle
  3919. * @soc: Datapath soc handle
  3920. * @vdev_id: vdev id
  3921. * @mac: Peer mac address
  3922. * @osif_peer: OSIF peer handle
  3923. *
  3924. * Return: QDF_STATUS_SUCCESS on success
  3925. * QDF_STATUS_E_INVAL if peer is not found
  3926. */
  3927. QDF_STATUS dp_wds_ext_get_peer_osif_handle(
  3928. ol_txrx_soc_handle soc,
  3929. uint8_t vdev_id,
  3930. uint8_t *mac,
  3931. ol_osif_peer_handle *osif_peer);
  3932. #endif /* QCA_SUPPORT_WDS_EXTENDED */
  3933. #ifdef DP_MEM_PRE_ALLOC
  3934. /**
  3935. * dp_context_alloc_mem() - allocate memory for DP context
  3936. * @soc: datapath soc handle
  3937. * @ctxt_type: DP context type
  3938. * @ctxt_size: DP context size
  3939. *
  3940. * Return: DP context address
  3941. */
  3942. void *dp_context_alloc_mem(struct dp_soc *soc, enum dp_ctxt_type ctxt_type,
  3943. size_t ctxt_size);
  3944. /**
  3945. * dp_context_free_mem() - Free memory of DP context
  3946. * @soc: datapath soc handle
  3947. * @ctxt_type: DP context type
  3948. * @vaddr: Address of context memory
  3949. *
  3950. * Return: None
  3951. */
  3952. void dp_context_free_mem(struct dp_soc *soc, enum dp_ctxt_type ctxt_type,
  3953. void *vaddr);
  3954. /**
  3955. * dp_desc_multi_pages_mem_alloc() - alloc memory over multiple pages
  3956. * @soc: datapath soc handle
  3957. * @desc_type: memory request source type
  3958. * @pages: multi page information storage
  3959. * @element_size: each element size
  3960. * @element_num: total number of elements should be allocated
  3961. * @memctxt: memory context
  3962. * @cacheable: coherent memory or cacheable memory
  3963. *
  3964. * This function is a wrapper for memory allocation over multiple
  3965. * pages, if dp prealloc method is registered, then will try prealloc
  3966. * firstly. if prealloc failed, fall back to regular way over
  3967. * qdf_mem_multi_pages_alloc().
  3968. *
  3969. * Return: None
  3970. */
  3971. void dp_desc_multi_pages_mem_alloc(struct dp_soc *soc,
  3972. enum qdf_dp_desc_type desc_type,
  3973. struct qdf_mem_multi_page_t *pages,
  3974. size_t element_size,
  3975. uint32_t element_num,
  3976. qdf_dma_context_t memctxt,
  3977. bool cacheable);
  3978. /**
  3979. * dp_desc_multi_pages_mem_free() - free multiple pages memory
  3980. * @soc: datapath soc handle
  3981. * @desc_type: memory request source type
  3982. * @pages: multi page information storage
  3983. * @memctxt: memory context
  3984. * @cacheable: coherent memory or cacheable memory
  3985. *
  3986. * This function is a wrapper for multiple pages memory free,
  3987. * if memory is got from prealloc pool, put it back to pool.
  3988. * otherwise free by qdf_mem_multi_pages_free().
  3989. *
  3990. * Return: None
  3991. */
  3992. void dp_desc_multi_pages_mem_free(struct dp_soc *soc,
  3993. enum qdf_dp_desc_type desc_type,
  3994. struct qdf_mem_multi_page_t *pages,
  3995. qdf_dma_context_t memctxt,
  3996. bool cacheable);
  3997. #else
  3998. static inline
  3999. void *dp_context_alloc_mem(struct dp_soc *soc, enum dp_ctxt_type ctxt_type,
  4000. size_t ctxt_size)
  4001. {
  4002. return qdf_mem_malloc(ctxt_size);
  4003. }
  4004. static inline
  4005. void dp_context_free_mem(struct dp_soc *soc, enum dp_ctxt_type ctxt_type,
  4006. void *vaddr)
  4007. {
  4008. qdf_mem_free(vaddr);
  4009. }
  4010. static inline
  4011. void dp_desc_multi_pages_mem_alloc(struct dp_soc *soc,
  4012. enum qdf_dp_desc_type desc_type,
  4013. struct qdf_mem_multi_page_t *pages,
  4014. size_t element_size,
  4015. uint32_t element_num,
  4016. qdf_dma_context_t memctxt,
  4017. bool cacheable)
  4018. {
  4019. qdf_mem_multi_pages_alloc(soc->osdev, pages, element_size,
  4020. element_num, memctxt, cacheable);
  4021. }
  4022. static inline
  4023. void dp_desc_multi_pages_mem_free(struct dp_soc *soc,
  4024. enum qdf_dp_desc_type desc_type,
  4025. struct qdf_mem_multi_page_t *pages,
  4026. qdf_dma_context_t memctxt,
  4027. bool cacheable)
  4028. {
  4029. qdf_mem_multi_pages_free(soc->osdev, pages,
  4030. memctxt, cacheable);
  4031. }
  4032. #endif
  4033. /**
  4034. * struct dp_frag_history_opaque_atomic - Opaque struct for adding a fragmented
  4035. * history.
  4036. * @index: atomic index
  4037. * @num_entries_per_slot: Number of entries per slot
  4038. * @allocated: is allocated or not
  4039. * @entry: pointers to array of records
  4040. */
  4041. struct dp_frag_history_opaque_atomic {
  4042. qdf_atomic_t index;
  4043. uint16_t num_entries_per_slot;
  4044. uint16_t allocated;
  4045. void *entry[0];
  4046. };
  4047. static inline QDF_STATUS
  4048. dp_soc_frag_history_attach(struct dp_soc *soc, void *history_hdl,
  4049. uint32_t max_slots, uint32_t max_entries_per_slot,
  4050. uint32_t entry_size,
  4051. bool attempt_prealloc, enum dp_ctxt_type ctxt_type)
  4052. {
  4053. struct dp_frag_history_opaque_atomic *history =
  4054. (struct dp_frag_history_opaque_atomic *)history_hdl;
  4055. size_t alloc_size = max_entries_per_slot * entry_size;
  4056. int i;
  4057. for (i = 0; i < max_slots; i++) {
  4058. if (attempt_prealloc)
  4059. history->entry[i] = dp_context_alloc_mem(soc, ctxt_type,
  4060. alloc_size);
  4061. else
  4062. history->entry[i] = qdf_mem_malloc(alloc_size);
  4063. if (!history->entry[i])
  4064. goto exit;
  4065. }
  4066. qdf_atomic_init(&history->index);
  4067. history->allocated = 1;
  4068. history->num_entries_per_slot = max_entries_per_slot;
  4069. return QDF_STATUS_SUCCESS;
  4070. exit:
  4071. for (i = i - 1; i >= 0; i--) {
  4072. if (attempt_prealloc)
  4073. dp_context_free_mem(soc, ctxt_type, history->entry[i]);
  4074. else
  4075. qdf_mem_free(history->entry[i]);
  4076. }
  4077. return QDF_STATUS_E_NOMEM;
  4078. }
  4079. static inline
  4080. void dp_soc_frag_history_detach(struct dp_soc *soc,
  4081. void *history_hdl, uint32_t max_slots,
  4082. bool attempt_prealloc,
  4083. enum dp_ctxt_type ctxt_type)
  4084. {
  4085. struct dp_frag_history_opaque_atomic *history =
  4086. (struct dp_frag_history_opaque_atomic *)history_hdl;
  4087. int i;
  4088. for (i = 0; i < max_slots; i++) {
  4089. if (attempt_prealloc)
  4090. dp_context_free_mem(soc, ctxt_type, history->entry[i]);
  4091. else
  4092. qdf_mem_free(history->entry[i]);
  4093. }
  4094. history->allocated = 0;
  4095. }
  4096. /**
  4097. * dp_get_frag_hist_next_atomic_idx() - get the next entry index to record an
  4098. * entry in a fragmented history with
  4099. * index being atomic.
  4100. * @curr_idx: address of the current index where the last entry was written
  4101. * @next_idx: pointer to update the next index
  4102. * @slot: pointer to update the history slot to be selected
  4103. * @slot_shift: BITwise shift mask for slot (in index)
  4104. * @max_entries_per_slot: Max number of entries in a slot of history
  4105. * @max_entries: Total number of entries in the history (sum of all slots)
  4106. *
  4107. * This function assumes that the "max_entries_per_slot" and "max_entries"
  4108. * are a power-of-2.
  4109. *
  4110. * Return: None
  4111. */
  4112. static inline void
  4113. dp_get_frag_hist_next_atomic_idx(qdf_atomic_t *curr_idx, uint32_t *next_idx,
  4114. uint16_t *slot, uint32_t slot_shift,
  4115. uint32_t max_entries_per_slot,
  4116. uint32_t max_entries)
  4117. {
  4118. uint32_t idx;
  4119. idx = qdf_do_div_rem(qdf_atomic_inc_return(curr_idx), max_entries);
  4120. *slot = idx >> slot_shift;
  4121. *next_idx = idx & (max_entries_per_slot - 1);
  4122. }
  4123. #ifdef FEATURE_RUNTIME_PM
  4124. /**
  4125. * dp_runtime_get() - Get dp runtime refcount
  4126. * @soc: Datapath soc handle
  4127. *
  4128. * Get dp runtime refcount by increment of an atomic variable, which can block
  4129. * dp runtime resume to wait to flush pending tx by runtime suspend.
  4130. *
  4131. * Return: Current refcount
  4132. */
  4133. static inline int32_t dp_runtime_get(struct dp_soc *soc)
  4134. {
  4135. return qdf_atomic_inc_return(&soc->dp_runtime_refcount);
  4136. }
  4137. /**
  4138. * dp_runtime_put() - Return dp runtime refcount
  4139. * @soc: Datapath soc handle
  4140. *
  4141. * Return dp runtime refcount by decrement of an atomic variable, allow dp
  4142. * runtime resume finish.
  4143. *
  4144. * Return: Current refcount
  4145. */
  4146. static inline int32_t dp_runtime_put(struct dp_soc *soc)
  4147. {
  4148. return qdf_atomic_dec_return(&soc->dp_runtime_refcount);
  4149. }
  4150. /**
  4151. * dp_runtime_get_refcount() - Get dp runtime refcount
  4152. * @soc: Datapath soc handle
  4153. *
  4154. * Get dp runtime refcount by returning an atomic variable
  4155. *
  4156. * Return: Current refcount
  4157. */
  4158. static inline int32_t dp_runtime_get_refcount(struct dp_soc *soc)
  4159. {
  4160. return qdf_atomic_read(&soc->dp_runtime_refcount);
  4161. }
  4162. /**
  4163. * dp_runtime_init() - Init DP related runtime PM clients and runtime refcount
  4164. * @soc: Datapath soc handle
  4165. *
  4166. * Return: QDF_STATUS
  4167. */
  4168. static inline void dp_runtime_init(struct dp_soc *soc)
  4169. {
  4170. hif_rtpm_register(HIF_RTPM_ID_DP, NULL);
  4171. hif_rtpm_register(HIF_RTPM_ID_DP_RING_STATS, NULL);
  4172. qdf_atomic_init(&soc->dp_runtime_refcount);
  4173. }
  4174. /**
  4175. * dp_runtime_deinit() - Deinit DP related runtime PM clients
  4176. *
  4177. * Return: None
  4178. */
  4179. static inline void dp_runtime_deinit(void)
  4180. {
  4181. hif_rtpm_deregister(HIF_RTPM_ID_DP);
  4182. hif_rtpm_deregister(HIF_RTPM_ID_DP_RING_STATS);
  4183. }
  4184. /**
  4185. * dp_runtime_pm_mark_last_busy() - Mark last busy when rx path in use
  4186. * @soc: Datapath soc handle
  4187. *
  4188. * Return: None
  4189. */
  4190. static inline void dp_runtime_pm_mark_last_busy(struct dp_soc *soc)
  4191. {
  4192. soc->rx_last_busy = qdf_get_log_timestamp_usecs();
  4193. hif_rtpm_mark_last_busy(HIF_RTPM_ID_DP);
  4194. }
  4195. #else
  4196. static inline int32_t dp_runtime_get(struct dp_soc *soc)
  4197. {
  4198. return 0;
  4199. }
  4200. static inline int32_t dp_runtime_put(struct dp_soc *soc)
  4201. {
  4202. return 0;
  4203. }
  4204. static inline QDF_STATUS dp_runtime_init(struct dp_soc *soc)
  4205. {
  4206. return QDF_STATUS_SUCCESS;
  4207. }
  4208. static inline void dp_runtime_deinit(void)
  4209. {
  4210. }
  4211. static inline void dp_runtime_pm_mark_last_busy(struct dp_soc *soc)
  4212. {
  4213. }
  4214. #endif
  4215. static inline enum QDF_GLOBAL_MODE dp_soc_get_con_mode(struct dp_soc *soc)
  4216. {
  4217. if (soc->cdp_soc.ol_ops->get_con_mode)
  4218. return soc->cdp_soc.ol_ops->get_con_mode();
  4219. return QDF_GLOBAL_MAX_MODE;
  4220. }
  4221. /**
  4222. * dp_pdev_bkp_stats_detach() - detach resources for back pressure stats
  4223. * processing
  4224. * @pdev: Datapath PDEV handle
  4225. *
  4226. */
  4227. void dp_pdev_bkp_stats_detach(struct dp_pdev *pdev);
  4228. /**
  4229. * dp_pdev_bkp_stats_attach() - attach resources for back pressure stats
  4230. * processing
  4231. * @pdev: Datapath PDEV handle
  4232. *
  4233. * Return: QDF_STATUS_SUCCESS: Success
  4234. * QDF_STATUS_E_NOMEM: Error
  4235. */
  4236. QDF_STATUS dp_pdev_bkp_stats_attach(struct dp_pdev *pdev);
  4237. /**
  4238. * dp_peer_flush_frags() - Flush all fragments for a particular
  4239. * peer
  4240. * @soc_hdl: data path soc handle
  4241. * @vdev_id: vdev id
  4242. * @peer_mac: peer mac address
  4243. *
  4244. * Return: None
  4245. */
  4246. void dp_peer_flush_frags(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
  4247. uint8_t *peer_mac);
  4248. /**
  4249. * dp_soc_reset_mon_intr_mask() - reset mon intr mask
  4250. * @soc: pointer to dp_soc handle
  4251. *
  4252. * Return:
  4253. */
  4254. void dp_soc_reset_mon_intr_mask(struct dp_soc *soc);
  4255. /**
  4256. * dp_txrx_get_soc_stats() - will return cdp_soc_stats
  4257. * @soc_hdl: soc handle
  4258. * @soc_stats: buffer to hold the values
  4259. *
  4260. * Return: QDF_STATUS_SUCCESS: Success
  4261. * QDF_STATUS_E_FAILURE: Error
  4262. */
  4263. QDF_STATUS dp_txrx_get_soc_stats(struct cdp_soc_t *soc_hdl,
  4264. struct cdp_soc_stats *soc_stats);
  4265. /**
  4266. * dp_txrx_get_peer_delay_stats() - to get peer delay stats per TIDs
  4267. * @soc_hdl: soc handle
  4268. * @vdev_id: id of vdev handle
  4269. * @peer_mac: mac of DP_PEER handle
  4270. * @delay_stats: pointer to delay stats array
  4271. *
  4272. * Return: QDF_STATUS_SUCCESS: Success
  4273. * QDF_STATUS_E_FAILURE: Error
  4274. */
  4275. QDF_STATUS
  4276. dp_txrx_get_peer_delay_stats(struct cdp_soc_t *soc_hdl, uint8_t vdev_id,
  4277. uint8_t *peer_mac,
  4278. struct cdp_delay_tid_stats *delay_stats);
  4279. /**
  4280. * dp_txrx_get_peer_jitter_stats() - to get peer jitter stats per TIDs
  4281. * @soc_hdl: soc handle
  4282. * @pdev_id: id of pdev handle
  4283. * @vdev_id: id of vdev handle
  4284. * @peer_mac: mac of DP_PEER handle
  4285. * @tid_stats: pointer to jitter stats array
  4286. *
  4287. * Return: QDF_STATUS_SUCCESS: Success
  4288. * QDF_STATUS_E_FAILURE: Error
  4289. */
  4290. QDF_STATUS
  4291. dp_txrx_get_peer_jitter_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  4292. uint8_t vdev_id, uint8_t *peer_mac,
  4293. struct cdp_peer_tid_stats *tid_stats);
  4294. /**
  4295. * dp_peer_get_tx_capture_stats() - to get peer Tx Capture stats
  4296. * @soc_hdl: soc handle
  4297. * @vdev_id: id of vdev handle
  4298. * @peer_mac: mac of DP_PEER handle
  4299. * @stats: pointer to peer tx capture stats
  4300. *
  4301. * Return: QDF_STATUS_SUCCESS: Success
  4302. * QDF_STATUS_E_FAILURE: Error
  4303. */
  4304. QDF_STATUS
  4305. dp_peer_get_tx_capture_stats(struct cdp_soc_t *soc_hdl,
  4306. uint8_t vdev_id, uint8_t *peer_mac,
  4307. struct cdp_peer_tx_capture_stats *stats);
  4308. /**
  4309. * dp_pdev_get_tx_capture_stats() - to get pdev Tx Capture stats
  4310. * @soc_hdl: soc handle
  4311. * @pdev_id: id of pdev handle
  4312. * @stats: pointer to pdev tx capture stats
  4313. *
  4314. * Return: QDF_STATUS_SUCCESS: Success
  4315. * QDF_STATUS_E_FAILURE: Error
  4316. */
  4317. QDF_STATUS
  4318. dp_pdev_get_tx_capture_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  4319. struct cdp_pdev_tx_capture_stats *stats);
  4320. #ifdef HW_TX_DELAY_STATS_ENABLE
  4321. /**
  4322. * dp_is_vdev_tx_delay_stats_enabled(): Check if tx delay stats
  4323. * is enabled for vdev
  4324. * @vdev: dp vdev
  4325. *
  4326. * Return: true if tx delay stats is enabled for vdev else false
  4327. */
  4328. static inline uint8_t dp_is_vdev_tx_delay_stats_enabled(struct dp_vdev *vdev)
  4329. {
  4330. return vdev->hw_tx_delay_stats_enabled;
  4331. }
  4332. /**
  4333. * dp_pdev_print_tx_delay_stats(): Print vdev tx delay stats
  4334. * for pdev
  4335. * @soc: dp soc
  4336. *
  4337. * Return: None
  4338. */
  4339. void dp_pdev_print_tx_delay_stats(struct dp_soc *soc);
  4340. /**
  4341. * dp_pdev_clear_tx_delay_stats() - clear tx delay stats
  4342. * @soc: soc handle
  4343. *
  4344. * Return: None
  4345. */
  4346. void dp_pdev_clear_tx_delay_stats(struct dp_soc *soc);
  4347. #else
  4348. static inline uint8_t dp_is_vdev_tx_delay_stats_enabled(struct dp_vdev *vdev)
  4349. {
  4350. return 0;
  4351. }
  4352. static inline void dp_pdev_print_tx_delay_stats(struct dp_soc *soc)
  4353. {
  4354. }
  4355. static inline void dp_pdev_clear_tx_delay_stats(struct dp_soc *soc)
  4356. {
  4357. }
  4358. #endif
  4359. static inline void
  4360. dp_get_rx_hash_key_bytes(struct cdp_lro_hash_config *lro_hash)
  4361. {
  4362. qdf_get_random_bytes(lro_hash->toeplitz_hash_ipv4,
  4363. (sizeof(lro_hash->toeplitz_hash_ipv4[0]) *
  4364. LRO_IPV4_SEED_ARR_SZ));
  4365. qdf_get_random_bytes(lro_hash->toeplitz_hash_ipv6,
  4366. (sizeof(lro_hash->toeplitz_hash_ipv6[0]) *
  4367. LRO_IPV6_SEED_ARR_SZ));
  4368. }
  4369. #ifdef WLAN_CONFIG_TELEMETRY_AGENT
  4370. /**
  4371. * dp_get_pdev_telemetry_stats- API to get pdev telemetry stats
  4372. * @soc_hdl: soc handle
  4373. * @pdev_id: id of pdev handle
  4374. * @stats: pointer to pdev telemetry stats
  4375. *
  4376. * Return: QDF_STATUS_SUCCESS: Success
  4377. * QDF_STATUS_E_FAILURE: Error
  4378. */
  4379. QDF_STATUS
  4380. dp_get_pdev_telemetry_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  4381. struct cdp_pdev_telemetry_stats *stats);
  4382. /**
  4383. * dp_get_peer_telemetry_stats() - API to get peer telemetry stats
  4384. * @soc_hdl: soc handle
  4385. * @addr: peer mac
  4386. * @stats: pointer to peer telemetry stats
  4387. *
  4388. * Return: QDF_STATUS_SUCCESS: Success
  4389. * QDF_STATUS_E_FAILURE: Error
  4390. */
  4391. QDF_STATUS
  4392. dp_get_peer_telemetry_stats(struct cdp_soc_t *soc_hdl, uint8_t *addr,
  4393. struct cdp_peer_telemetry_stats *stats);
  4394. /**
  4395. * dp_get_peer_deter_stats() - API to get peer deterministic stats
  4396. * @soc_hdl: soc handle
  4397. * @vdev_id: id of vdev handle
  4398. * @addr: peer mac
  4399. * @stats: pointer to peer deterministic stats
  4400. *
  4401. * Return: QDF_STATUS_SUCCESS: Success
  4402. * QDF_STATUS_E_FAILURE: Error
  4403. */
  4404. QDF_STATUS
  4405. dp_get_peer_deter_stats(struct cdp_soc_t *soc_hdl,
  4406. uint8_t vdev_id,
  4407. uint8_t *addr,
  4408. struct cdp_peer_deter_stats *stats);
  4409. /**
  4410. * dp_get_pdev_deter_stats() - API to get pdev deterministic stats
  4411. * @soc_hdl: soc handle
  4412. * @pdev_id: id of pdev handle
  4413. * @stats: pointer to pdev deterministic stats
  4414. *
  4415. * Return: QDF_STATUS_SUCCESS: Success
  4416. * QDF_STATUS_E_FAILURE: Error
  4417. */
  4418. QDF_STATUS
  4419. dp_get_pdev_deter_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  4420. struct cdp_pdev_deter_stats *stats);
  4421. /**
  4422. * dp_update_pdev_chan_util_stats() - API to update channel utilization stats
  4423. * @soc_hdl: soc handle
  4424. * @pdev_id: id of pdev handle
  4425. * @ch_util: Pointer to channel util stats
  4426. *
  4427. * Return: QDF_STATUS_SUCCESS: Success
  4428. * QDF_STATUS_E_FAILURE: Error
  4429. */
  4430. QDF_STATUS
  4431. dp_update_pdev_chan_util_stats(struct cdp_soc_t *soc_hdl, uint8_t pdev_id,
  4432. struct cdp_pdev_chan_util_stats *ch_util);
  4433. #endif /* WLAN_CONFIG_TELEMETRY_AGENT */
  4434. #ifdef CONNECTIVITY_PKTLOG
  4435. /**
  4436. * dp_tx_send_pktlog() - send tx packet log
  4437. * @soc: soc handle
  4438. * @pdev: pdev handle
  4439. * @tx_desc: TX software descriptor
  4440. * @nbuf: nbuf
  4441. * @status: status of tx packet
  4442. *
  4443. * This function is used to send tx packet for logging
  4444. *
  4445. * Return: None
  4446. *
  4447. */
  4448. static inline
  4449. void dp_tx_send_pktlog(struct dp_soc *soc, struct dp_pdev *pdev,
  4450. struct dp_tx_desc_s *tx_desc,
  4451. qdf_nbuf_t nbuf, enum qdf_dp_tx_rx_status status)
  4452. {
  4453. ol_txrx_pktdump_cb packetdump_cb = pdev->dp_tx_packetdump_cb;
  4454. if (qdf_unlikely(packetdump_cb) &&
  4455. dp_tx_frm_std == tx_desc->frm_type) {
  4456. packetdump_cb((ol_txrx_soc_handle)soc, pdev->pdev_id,
  4457. tx_desc->vdev_id, nbuf, status, QDF_TX_DATA_PKT);
  4458. }
  4459. }
  4460. /**
  4461. * dp_rx_send_pktlog() - send rx packet log
  4462. * @soc: soc handle
  4463. * @pdev: pdev handle
  4464. * @nbuf: nbuf
  4465. * @status: status of rx packet
  4466. *
  4467. * This function is used to send rx packet for logging
  4468. *
  4469. * Return: None
  4470. *
  4471. */
  4472. static inline
  4473. void dp_rx_send_pktlog(struct dp_soc *soc, struct dp_pdev *pdev,
  4474. qdf_nbuf_t nbuf, enum qdf_dp_tx_rx_status status)
  4475. {
  4476. ol_txrx_pktdump_cb packetdump_cb = pdev->dp_rx_packetdump_cb;
  4477. if (qdf_unlikely(packetdump_cb)) {
  4478. packetdump_cb((ol_txrx_soc_handle)soc, pdev->pdev_id,
  4479. QDF_NBUF_CB_RX_VDEV_ID(nbuf),
  4480. nbuf, status, QDF_RX_DATA_PKT);
  4481. }
  4482. }
  4483. /**
  4484. * dp_rx_err_send_pktlog() - send rx error packet log
  4485. * @soc: soc handle
  4486. * @pdev: pdev handle
  4487. * @mpdu_desc_info: MPDU descriptor info
  4488. * @nbuf: nbuf
  4489. * @status: status of rx packet
  4490. * @set_pktlen: weither to set packet length
  4491. *
  4492. * This API should only be called when we have not removed
  4493. * Rx TLV from head, and head is pointing to rx_tlv
  4494. *
  4495. * This function is used to send rx packet from error path
  4496. * for logging for which rx packet tlv is not removed.
  4497. *
  4498. * Return: None
  4499. *
  4500. */
  4501. static inline
  4502. void dp_rx_err_send_pktlog(struct dp_soc *soc, struct dp_pdev *pdev,
  4503. struct hal_rx_mpdu_desc_info *mpdu_desc_info,
  4504. qdf_nbuf_t nbuf, enum qdf_dp_tx_rx_status status,
  4505. bool set_pktlen)
  4506. {
  4507. ol_txrx_pktdump_cb packetdump_cb = pdev->dp_rx_packetdump_cb;
  4508. qdf_size_t skip_size;
  4509. uint16_t msdu_len, nbuf_len;
  4510. uint8_t *rx_tlv_hdr;
  4511. struct hal_rx_msdu_metadata msdu_metadata;
  4512. if (qdf_unlikely(packetdump_cb)) {
  4513. rx_tlv_hdr = qdf_nbuf_data(nbuf);
  4514. nbuf_len = hal_rx_msdu_start_msdu_len_get(soc->hal_soc,
  4515. rx_tlv_hdr);
  4516. hal_rx_msdu_metadata_get(soc->hal_soc, rx_tlv_hdr,
  4517. &msdu_metadata);
  4518. if (mpdu_desc_info->bar_frame ||
  4519. (mpdu_desc_info->mpdu_flags & HAL_MPDU_F_FRAGMENT))
  4520. skip_size = soc->rx_pkt_tlv_size;
  4521. else
  4522. skip_size = soc->rx_pkt_tlv_size +
  4523. msdu_metadata.l3_hdr_pad;
  4524. if (set_pktlen) {
  4525. msdu_len = nbuf_len + skip_size;
  4526. qdf_nbuf_set_pktlen(nbuf, qdf_min(msdu_len,
  4527. (uint16_t)RX_DATA_BUFFER_SIZE));
  4528. }
  4529. qdf_nbuf_pull_head(nbuf, skip_size);
  4530. packetdump_cb((ol_txrx_soc_handle)soc, pdev->pdev_id,
  4531. QDF_NBUF_CB_RX_VDEV_ID(nbuf),
  4532. nbuf, status, QDF_RX_DATA_PKT);
  4533. qdf_nbuf_push_head(nbuf, skip_size);
  4534. }
  4535. }
  4536. #else
  4537. static inline
  4538. void dp_tx_send_pktlog(struct dp_soc *soc, struct dp_pdev *pdev,
  4539. struct dp_tx_desc_s *tx_desc,
  4540. qdf_nbuf_t nbuf, enum qdf_dp_tx_rx_status status)
  4541. {
  4542. }
  4543. static inline
  4544. void dp_rx_send_pktlog(struct dp_soc *soc, struct dp_pdev *pdev,
  4545. qdf_nbuf_t nbuf, enum qdf_dp_tx_rx_status status)
  4546. {
  4547. }
  4548. static inline
  4549. void dp_rx_err_send_pktlog(struct dp_soc *soc, struct dp_pdev *pdev,
  4550. struct hal_rx_mpdu_desc_info *mpdu_desc_info,
  4551. qdf_nbuf_t nbuf, enum qdf_dp_tx_rx_status status,
  4552. bool set_pktlen)
  4553. {
  4554. }
  4555. #endif
  4556. /**
  4557. * dp_pdev_update_fast_rx_flag() - Update Fast rx flag for a PDEV
  4558. * @soc : Data path soc handle
  4559. * @pdev : PDEV handle
  4560. *
  4561. * Return: None
  4562. */
  4563. void dp_pdev_update_fast_rx_flag(struct dp_soc *soc, struct dp_pdev *pdev);
  4564. #ifdef FEATURE_DIRECT_LINK
  4565. /**
  4566. * dp_setup_direct_link_refill_ring(): Setup direct link refill ring for pdev
  4567. * @soc_hdl: DP SOC handle
  4568. * @pdev_id: pdev id
  4569. *
  4570. * Return: Handle to SRNG
  4571. */
  4572. struct dp_srng *dp_setup_direct_link_refill_ring(struct cdp_soc_t *soc_hdl,
  4573. uint8_t pdev_id);
  4574. /**
  4575. * dp_destroy_direct_link_refill_ring(): Destroy direct link refill ring for
  4576. * pdev
  4577. * @soc_hdl: DP SOC handle
  4578. * @pdev_id: pdev id
  4579. *
  4580. * Return: None
  4581. */
  4582. void dp_destroy_direct_link_refill_ring(struct cdp_soc_t *soc_hdl,
  4583. uint8_t pdev_id);
  4584. #else
  4585. static inline
  4586. struct dp_srng *dp_setup_direct_link_refill_ring(struct cdp_soc_t *soc_hdl,
  4587. uint8_t pdev_id)
  4588. {
  4589. return NULL;
  4590. }
  4591. static inline
  4592. void dp_destroy_direct_link_refill_ring(struct cdp_soc_t *soc_hdl,
  4593. uint8_t pdev_id)
  4594. {
  4595. }
  4596. #endif
  4597. #ifdef WLAN_FEATURE_DP_CFG_EVENT_HISTORY
  4598. static inline
  4599. void dp_cfg_event_record(struct dp_soc *soc,
  4600. enum dp_cfg_event_type event,
  4601. union dp_cfg_event_desc *cfg_event_desc)
  4602. {
  4603. struct dp_cfg_event_history *cfg_event_history =
  4604. &soc->cfg_event_history;
  4605. struct dp_cfg_event *entry;
  4606. uint32_t idx;
  4607. uint16_t slot;
  4608. dp_get_frag_hist_next_atomic_idx(&cfg_event_history->index, &idx,
  4609. &slot,
  4610. DP_CFG_EVT_HIST_SLOT_SHIFT,
  4611. DP_CFG_EVT_HIST_PER_SLOT_MAX,
  4612. DP_CFG_EVT_HISTORY_SIZE);
  4613. entry = &cfg_event_history->entry[slot][idx];
  4614. entry->timestamp = qdf_get_log_timestamp();
  4615. entry->type = event;
  4616. qdf_mem_copy(&entry->event_desc, cfg_event_desc,
  4617. sizeof(entry->event_desc));
  4618. }
  4619. static inline void
  4620. dp_cfg_event_record_vdev_evt(struct dp_soc *soc, enum dp_cfg_event_type event,
  4621. struct dp_vdev *vdev)
  4622. {
  4623. union dp_cfg_event_desc cfg_evt_desc = {0};
  4624. struct dp_vdev_attach_detach_desc *vdev_evt =
  4625. &cfg_evt_desc.vdev_evt;
  4626. if (qdf_unlikely(event != DP_CFG_EVENT_VDEV_ATTACH &&
  4627. event != DP_CFG_EVENT_VDEV_UNREF_DEL &&
  4628. event != DP_CFG_EVENT_VDEV_DETACH)) {
  4629. qdf_assert_always(0);
  4630. return;
  4631. }
  4632. vdev_evt->vdev = vdev;
  4633. vdev_evt->vdev_id = vdev->vdev_id;
  4634. vdev_evt->ref_count = qdf_atomic_read(&vdev->ref_cnt);
  4635. vdev_evt->mac_addr = vdev->mac_addr;
  4636. dp_cfg_event_record(soc, event, &cfg_evt_desc);
  4637. }
  4638. static inline void
  4639. dp_cfg_event_record_peer_evt(struct dp_soc *soc, enum dp_cfg_event_type event,
  4640. struct dp_peer *peer, struct dp_vdev *vdev,
  4641. uint8_t is_reuse)
  4642. {
  4643. union dp_cfg_event_desc cfg_evt_desc = {0};
  4644. struct dp_peer_cmn_ops_desc *peer_evt = &cfg_evt_desc.peer_cmn_evt;
  4645. if (qdf_unlikely(event != DP_CFG_EVENT_PEER_CREATE &&
  4646. event != DP_CFG_EVENT_PEER_DELETE &&
  4647. event != DP_CFG_EVENT_PEER_UNREF_DEL)) {
  4648. qdf_assert_always(0);
  4649. return;
  4650. }
  4651. peer_evt->peer = peer;
  4652. peer_evt->vdev = vdev;
  4653. peer_evt->vdev_id = vdev->vdev_id;
  4654. peer_evt->is_reuse = is_reuse;
  4655. peer_evt->peer_ref_count = qdf_atomic_read(&peer->ref_cnt);
  4656. peer_evt->vdev_ref_count = qdf_atomic_read(&vdev->ref_cnt);
  4657. peer_evt->mac_addr = peer->mac_addr;
  4658. peer_evt->vdev_mac_addr = vdev->mac_addr;
  4659. dp_cfg_event_record(soc, event, &cfg_evt_desc);
  4660. }
  4661. static inline void
  4662. dp_cfg_event_record_mlo_link_delink_evt(struct dp_soc *soc,
  4663. enum dp_cfg_event_type event,
  4664. struct dp_peer *mld_peer,
  4665. struct dp_peer *link_peer,
  4666. uint8_t idx, uint8_t result)
  4667. {
  4668. union dp_cfg_event_desc cfg_evt_desc = {0};
  4669. struct dp_mlo_add_del_link_desc *mlo_link_delink_evt =
  4670. &cfg_evt_desc.mlo_link_delink_evt;
  4671. if (qdf_unlikely(event != DP_CFG_EVENT_MLO_ADD_LINK &&
  4672. event != DP_CFG_EVENT_MLO_DEL_LINK)) {
  4673. qdf_assert_always(0);
  4674. return;
  4675. }
  4676. mlo_link_delink_evt->link_peer = link_peer;
  4677. mlo_link_delink_evt->mld_peer = mld_peer;
  4678. mlo_link_delink_evt->link_mac_addr = link_peer->mac_addr;
  4679. mlo_link_delink_evt->mld_mac_addr = mld_peer->mac_addr;
  4680. mlo_link_delink_evt->num_links = mld_peer->num_links;
  4681. mlo_link_delink_evt->action_result = result;
  4682. mlo_link_delink_evt->idx = idx;
  4683. dp_cfg_event_record(soc, event, &cfg_evt_desc);
  4684. }
  4685. static inline void
  4686. dp_cfg_event_record_mlo_setup_vdev_update_evt(struct dp_soc *soc,
  4687. struct dp_peer *mld_peer,
  4688. struct dp_vdev *prev_vdev,
  4689. struct dp_vdev *new_vdev)
  4690. {
  4691. union dp_cfg_event_desc cfg_evt_desc = {0};
  4692. struct dp_mlo_setup_vdev_update_desc *vdev_update_evt =
  4693. &cfg_evt_desc.mlo_setup_vdev_update;
  4694. vdev_update_evt->mld_peer = mld_peer;
  4695. vdev_update_evt->prev_vdev = prev_vdev;
  4696. vdev_update_evt->new_vdev = new_vdev;
  4697. dp_cfg_event_record(soc, DP_CFG_EVENT_MLO_SETUP_VDEV_UPDATE,
  4698. &cfg_evt_desc);
  4699. }
  4700. static inline void
  4701. dp_cfg_event_record_peer_map_unmap_evt(struct dp_soc *soc,
  4702. enum dp_cfg_event_type event,
  4703. struct dp_peer *peer,
  4704. uint8_t *mac_addr,
  4705. uint8_t is_ml_peer,
  4706. uint16_t peer_id, uint16_t ml_peer_id,
  4707. uint16_t hw_peer_id, uint8_t vdev_id)
  4708. {
  4709. union dp_cfg_event_desc cfg_evt_desc = {0};
  4710. struct dp_rx_peer_map_unmap_desc *peer_map_unmap_evt =
  4711. &cfg_evt_desc.peer_map_unmap_evt;
  4712. if (qdf_unlikely(event != DP_CFG_EVENT_PEER_MAP &&
  4713. event != DP_CFG_EVENT_PEER_UNMAP &&
  4714. event != DP_CFG_EVENT_MLO_PEER_MAP &&
  4715. event != DP_CFG_EVENT_MLO_PEER_UNMAP)) {
  4716. qdf_assert_always(0);
  4717. return;
  4718. }
  4719. peer_map_unmap_evt->peer_id = peer_id;
  4720. peer_map_unmap_evt->ml_peer_id = ml_peer_id;
  4721. peer_map_unmap_evt->hw_peer_id = hw_peer_id;
  4722. peer_map_unmap_evt->vdev_id = vdev_id;
  4723. /* Peer may be NULL at times, but its not an issue. */
  4724. peer_map_unmap_evt->peer = peer;
  4725. peer_map_unmap_evt->is_ml_peer = is_ml_peer;
  4726. qdf_mem_copy(&peer_map_unmap_evt->mac_addr.raw, mac_addr,
  4727. QDF_MAC_ADDR_SIZE);
  4728. dp_cfg_event_record(soc, event, &cfg_evt_desc);
  4729. }
  4730. static inline void
  4731. dp_cfg_event_record_peer_setup_evt(struct dp_soc *soc,
  4732. enum dp_cfg_event_type event,
  4733. struct dp_peer *peer,
  4734. struct dp_vdev *vdev,
  4735. uint8_t vdev_id,
  4736. struct cdp_peer_setup_info *peer_setup_info)
  4737. {
  4738. union dp_cfg_event_desc cfg_evt_desc = {0};
  4739. struct dp_peer_setup_desc *peer_setup_evt =
  4740. &cfg_evt_desc.peer_setup_evt;
  4741. if (qdf_unlikely(event != DP_CFG_EVENT_PEER_SETUP &&
  4742. event != DP_CFG_EVENT_MLO_SETUP)) {
  4743. qdf_assert_always(0);
  4744. return;
  4745. }
  4746. peer_setup_evt->peer = peer;
  4747. peer_setup_evt->vdev = vdev;
  4748. if (vdev)
  4749. peer_setup_evt->vdev_ref_count = qdf_atomic_read(&vdev->ref_cnt);
  4750. peer_setup_evt->mac_addr = peer->mac_addr;
  4751. peer_setup_evt->vdev_id = vdev_id;
  4752. if (peer_setup_info) {
  4753. peer_setup_evt->is_first_link = peer_setup_info->is_first_link;
  4754. peer_setup_evt->is_primary_link = peer_setup_info->is_primary_link;
  4755. qdf_mem_copy(peer_setup_evt->mld_mac_addr.raw,
  4756. peer_setup_info->mld_peer_mac,
  4757. QDF_MAC_ADDR_SIZE);
  4758. }
  4759. dp_cfg_event_record(soc, event, &cfg_evt_desc);
  4760. }
  4761. #else
  4762. static inline void
  4763. dp_cfg_event_record_vdev_evt(struct dp_soc *soc, enum dp_cfg_event_type event,
  4764. struct dp_vdev *vdev)
  4765. {
  4766. }
  4767. static inline void
  4768. dp_cfg_event_record_peer_evt(struct dp_soc *soc, enum dp_cfg_event_type event,
  4769. struct dp_peer *peer, struct dp_vdev *vdev,
  4770. uint8_t is_reuse)
  4771. {
  4772. }
  4773. static inline void
  4774. dp_cfg_event_record_mlo_link_delink_evt(struct dp_soc *soc,
  4775. enum dp_cfg_event_type event,
  4776. struct dp_peer *mld_peer,
  4777. struct dp_peer *link_peer,
  4778. uint8_t idx, uint8_t result)
  4779. {
  4780. }
  4781. static inline void
  4782. dp_cfg_event_record_mlo_setup_vdev_update_evt(struct dp_soc *soc,
  4783. struct dp_peer *mld_peer,
  4784. struct dp_vdev *prev_vdev,
  4785. struct dp_vdev *new_vdev)
  4786. {
  4787. }
  4788. static inline void
  4789. dp_cfg_event_record_peer_map_unmap_evt(struct dp_soc *soc,
  4790. enum dp_cfg_event_type event,
  4791. struct dp_peer *peer,
  4792. uint8_t *mac_addr,
  4793. uint8_t is_ml_peer,
  4794. uint16_t peer_id, uint16_t ml_peer_id,
  4795. uint16_t hw_peer_id, uint8_t vdev_id)
  4796. {
  4797. }
  4798. static inline void
  4799. dp_cfg_event_record_peer_setup_evt(struct dp_soc *soc,
  4800. enum dp_cfg_event_type event,
  4801. struct dp_peer *peer,
  4802. struct dp_vdev *vdev,
  4803. uint8_t vdev_id,
  4804. struct cdp_peer_setup_info *peer_setup_info)
  4805. {
  4806. }
  4807. #endif
  4808. #ifndef WLAN_SOFTUMAC_SUPPORT
  4809. /**
  4810. * dp_soc_interrupt_detach() - Deregister any allocations done for interrupts
  4811. * @txrx_soc: DP SOC handle
  4812. *
  4813. * Return: none
  4814. */
  4815. void dp_soc_interrupt_detach(struct cdp_soc_t *txrx_soc);
  4816. #endif
  4817. /**
  4818. * dp_get_peer_stats()- Get peer stats
  4819. * @peer: Datapath peer
  4820. * @peer_stats: buffer for peer stats
  4821. *
  4822. * Return: none
  4823. */
  4824. void dp_get_peer_stats(struct dp_peer *peer,
  4825. struct cdp_peer_stats *peer_stats);
  4826. /**
  4827. * dp_get_per_link_peer_stats()- Get per link peer stats
  4828. * @peer: Datapath peer
  4829. * @peer_stats: buffer for peer stats
  4830. * @peer_type: Peer type
  4831. * @num_link: Number of ML links
  4832. *
  4833. * Return: status success/failure
  4834. */
  4835. QDF_STATUS dp_get_per_link_peer_stats(struct dp_peer *peer,
  4836. struct cdp_peer_stats *peer_stats,
  4837. enum cdp_peer_type peer_type,
  4838. uint8_t num_link);
  4839. /**
  4840. * dp_get_peer_hw_link_id() - get peer hardware link id
  4841. * @soc: soc handle
  4842. * @pdev: data path pdev
  4843. *
  4844. * Return: link_id
  4845. */
  4846. static inline int
  4847. dp_get_peer_hw_link_id(struct dp_soc *soc,
  4848. struct dp_pdev *pdev)
  4849. {
  4850. if (wlan_cfg_is_peer_link_stats_enabled(soc->wlan_cfg_ctx))
  4851. return ((soc->arch_ops.get_hw_link_id(pdev)) + 1);
  4852. return 0;
  4853. }
  4854. #ifdef QCA_MULTIPASS_SUPPORT
  4855. /**
  4856. * dp_tx_remove_vlan_tag() - Remove 4 bytes of vlan tag
  4857. * @vdev: DP vdev handle
  4858. * @nbuf: network buffer
  4859. *
  4860. * Return: void
  4861. */
  4862. void dp_tx_remove_vlan_tag(struct dp_vdev *vdev, qdf_nbuf_t nbuf);
  4863. #endif
  4864. /**
  4865. * dp_print_per_link_stats() - Print per link peer stats.
  4866. * @soc_hdl: soc handle.
  4867. * @vdev_id: vdev_id.
  4868. *
  4869. * Return: None.
  4870. */
  4871. void dp_print_per_link_stats(struct cdp_soc_t *soc_hdl, uint8_t vdev_id);
  4872. /**
  4873. * dp_get_ring_stats_from_hal(): get hal level ring pointer values
  4874. * @soc: DP_SOC handle
  4875. * @srng: DP_SRNG handle
  4876. * @ring_type: srng src/dst ring
  4877. * @_tailp: pointer to tail of ring
  4878. * @_headp: pointer to head of ring
  4879. * @_hw_headp: pointer to head of ring in HW
  4880. * @_hw_tailp: pointer to tail of ring in HW
  4881. *
  4882. * Return: void
  4883. */
  4884. static inline void
  4885. dp_get_ring_stats_from_hal(struct dp_soc *soc, struct dp_srng *srng,
  4886. enum hal_ring_type ring_type,
  4887. uint32_t *_tailp, uint32_t *_headp,
  4888. int32_t *_hw_headp, int32_t *_hw_tailp)
  4889. {
  4890. uint32_t tailp;
  4891. uint32_t headp;
  4892. int32_t hw_headp = -1;
  4893. int32_t hw_tailp = -1;
  4894. struct hal_soc *hal_soc;
  4895. if (soc && srng && srng->hal_srng) {
  4896. hal_soc = (struct hal_soc *)soc->hal_soc;
  4897. hal_get_sw_hptp(soc->hal_soc, srng->hal_srng, &tailp, &headp);
  4898. *_headp = headp;
  4899. *_tailp = tailp;
  4900. hal_get_hw_hptp(soc->hal_soc, srng->hal_srng, &hw_headp,
  4901. &hw_tailp, ring_type);
  4902. *_hw_headp = hw_headp;
  4903. *_hw_tailp = hw_tailp;
  4904. }
  4905. }
  4906. #endif /* #ifndef _DP_INTERNAL_H_ */