dp.c 31 KB

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  1. // SPDX-License-Identifier: BSD-3-Clause-Clear
  2. /*
  3. * Copyright (c) 2018-2019 The Linux Foundation. All rights reserved.
  4. * Copyright (c) 2021-2025 Qualcomm Innovation Center, Inc. All rights reserved.
  5. * Copyright (c) Qualcomm Technologies, Inc. and/or its subsidiaries.
  6. */
  7. #include <crypto/hash.h>
  8. #include <linux/export.h>
  9. #include "core.h"
  10. #include "dp_tx.h"
  11. #include "hal_tx.h"
  12. #include "hif.h"
  13. #include "debug.h"
  14. #include "dp_rx.h"
  15. #include "peer.h"
  16. static void ath11k_dp_htt_htc_tx_complete(struct ath11k_base *ab,
  17. struct sk_buff *skb)
  18. {
  19. dev_kfree_skb_any(skb);
  20. }
  21. void ath11k_dp_peer_cleanup(struct ath11k *ar, int vdev_id, const u8 *addr)
  22. {
  23. struct ath11k_base *ab = ar->ab;
  24. struct ath11k_peer *peer;
  25. /* TODO: Any other peer specific DP cleanup */
  26. spin_lock_bh(&ab->base_lock);
  27. peer = ath11k_peer_find(ab, vdev_id, addr);
  28. if (!peer) {
  29. ath11k_warn(ab, "failed to lookup peer %pM on vdev %d\n",
  30. addr, vdev_id);
  31. spin_unlock_bh(&ab->base_lock);
  32. return;
  33. }
  34. ath11k_peer_rx_tid_cleanup(ar, peer);
  35. peer->dp_setup_done = false;
  36. crypto_free_shash(peer->tfm_mmic);
  37. spin_unlock_bh(&ab->base_lock);
  38. }
  39. int ath11k_dp_peer_setup(struct ath11k *ar, int vdev_id, const u8 *addr)
  40. {
  41. struct ath11k_base *ab = ar->ab;
  42. struct ath11k_peer *peer;
  43. u32 reo_dest;
  44. int ret = 0, tid;
  45. /* NOTE: reo_dest ring id starts from 1 unlike mac_id which starts from 0 */
  46. reo_dest = ar->dp.mac_id + 1;
  47. ret = ath11k_wmi_set_peer_param(ar, addr, vdev_id,
  48. WMI_PEER_SET_DEFAULT_ROUTING,
  49. DP_RX_HASH_ENABLE | (reo_dest << 1));
  50. if (ret) {
  51. ath11k_warn(ab, "failed to set default routing %d peer :%pM vdev_id :%d\n",
  52. ret, addr, vdev_id);
  53. return ret;
  54. }
  55. for (tid = 0; tid <= IEEE80211_NUM_TIDS; tid++) {
  56. ret = ath11k_peer_rx_tid_setup(ar, addr, vdev_id, tid, 1, 0,
  57. HAL_PN_TYPE_NONE);
  58. if (ret) {
  59. ath11k_warn(ab, "failed to setup rxd tid queue for tid %d: %d\n",
  60. tid, ret);
  61. goto peer_clean;
  62. }
  63. }
  64. ret = ath11k_peer_rx_frag_setup(ar, addr, vdev_id);
  65. if (ret) {
  66. ath11k_warn(ab, "failed to setup rx defrag context\n");
  67. tid--;
  68. goto peer_clean;
  69. }
  70. /* TODO: Setup other peer specific resource used in data path */
  71. return 0;
  72. peer_clean:
  73. spin_lock_bh(&ab->base_lock);
  74. peer = ath11k_peer_find(ab, vdev_id, addr);
  75. if (!peer) {
  76. ath11k_warn(ab, "failed to find the peer to del rx tid\n");
  77. spin_unlock_bh(&ab->base_lock);
  78. return -ENOENT;
  79. }
  80. for (; tid >= 0; tid--)
  81. ath11k_peer_rx_tid_delete(ar, peer, tid);
  82. spin_unlock_bh(&ab->base_lock);
  83. return ret;
  84. }
  85. void ath11k_dp_srng_cleanup(struct ath11k_base *ab, struct dp_srng *ring)
  86. {
  87. if (!ring->vaddr_unaligned)
  88. return;
  89. if (ring->cached)
  90. dma_free_noncoherent(ab->dev, ring->size, ring->vaddr_unaligned,
  91. ring->paddr_unaligned, DMA_FROM_DEVICE);
  92. else
  93. dma_free_coherent(ab->dev, ring->size, ring->vaddr_unaligned,
  94. ring->paddr_unaligned);
  95. ring->vaddr_unaligned = NULL;
  96. }
  97. static int ath11k_dp_srng_find_ring_in_mask(int ring_num, const u8 *grp_mask)
  98. {
  99. int ext_group_num;
  100. u8 mask = 1 << ring_num;
  101. for (ext_group_num = 0; ext_group_num < ATH11K_EXT_IRQ_GRP_NUM_MAX;
  102. ext_group_num++) {
  103. if (mask & grp_mask[ext_group_num])
  104. return ext_group_num;
  105. }
  106. return -ENOENT;
  107. }
  108. static int ath11k_dp_srng_calculate_msi_group(struct ath11k_base *ab,
  109. enum hal_ring_type type, int ring_num)
  110. {
  111. const u8 *grp_mask;
  112. switch (type) {
  113. case HAL_WBM2SW_RELEASE:
  114. if (ring_num == DP_RX_RELEASE_RING_NUM) {
  115. grp_mask = &ab->hw_params.ring_mask->rx_wbm_rel[0];
  116. ring_num = 0;
  117. } else {
  118. grp_mask = &ab->hw_params.ring_mask->tx[0];
  119. }
  120. break;
  121. case HAL_REO_EXCEPTION:
  122. grp_mask = &ab->hw_params.ring_mask->rx_err[0];
  123. break;
  124. case HAL_REO_DST:
  125. grp_mask = &ab->hw_params.ring_mask->rx[0];
  126. break;
  127. case HAL_REO_STATUS:
  128. grp_mask = &ab->hw_params.ring_mask->reo_status[0];
  129. break;
  130. case HAL_RXDMA_MONITOR_STATUS:
  131. case HAL_RXDMA_MONITOR_DST:
  132. grp_mask = &ab->hw_params.ring_mask->rx_mon_status[0];
  133. break;
  134. case HAL_RXDMA_DST:
  135. grp_mask = &ab->hw_params.ring_mask->rxdma2host[0];
  136. break;
  137. case HAL_RXDMA_BUF:
  138. grp_mask = &ab->hw_params.ring_mask->host2rxdma[0];
  139. break;
  140. case HAL_RXDMA_MONITOR_BUF:
  141. case HAL_TCL_DATA:
  142. case HAL_TCL_CMD:
  143. case HAL_REO_CMD:
  144. case HAL_SW2WBM_RELEASE:
  145. case HAL_WBM_IDLE_LINK:
  146. case HAL_TCL_STATUS:
  147. case HAL_REO_REINJECT:
  148. case HAL_CE_SRC:
  149. case HAL_CE_DST:
  150. case HAL_CE_DST_STATUS:
  151. default:
  152. return -ENOENT;
  153. }
  154. return ath11k_dp_srng_find_ring_in_mask(ring_num, grp_mask);
  155. }
  156. static void ath11k_dp_srng_msi_setup(struct ath11k_base *ab,
  157. struct hal_srng_params *ring_params,
  158. enum hal_ring_type type, int ring_num)
  159. {
  160. int msi_group_number, msi_data_count;
  161. u32 msi_data_start, msi_irq_start, addr_lo, addr_hi;
  162. int ret;
  163. ret = ath11k_get_user_msi_vector(ab, "DP",
  164. &msi_data_count, &msi_data_start,
  165. &msi_irq_start);
  166. if (ret)
  167. return;
  168. msi_group_number = ath11k_dp_srng_calculate_msi_group(ab, type,
  169. ring_num);
  170. if (msi_group_number < 0) {
  171. ath11k_dbg(ab, ATH11K_DBG_PCI,
  172. "ring not part of an ext_group; ring_type: %d,ring_num %d",
  173. type, ring_num);
  174. ring_params->msi_addr = 0;
  175. ring_params->msi_data = 0;
  176. return;
  177. }
  178. if (msi_group_number > msi_data_count) {
  179. ath11k_dbg(ab, ATH11K_DBG_PCI,
  180. "multiple msi_groups share one msi, msi_group_num %d",
  181. msi_group_number);
  182. }
  183. ath11k_get_msi_address(ab, &addr_lo, &addr_hi);
  184. ring_params->msi_addr = addr_lo;
  185. ring_params->msi_addr |= (dma_addr_t)(((uint64_t)addr_hi) << 32);
  186. ring_params->msi_data = (msi_group_number % msi_data_count)
  187. + msi_data_start;
  188. ring_params->flags |= HAL_SRNG_FLAGS_MSI_INTR;
  189. }
  190. int ath11k_dp_srng_setup(struct ath11k_base *ab, struct dp_srng *ring,
  191. enum hal_ring_type type, int ring_num,
  192. int mac_id, int num_entries)
  193. {
  194. struct hal_srng_params params = {};
  195. int entry_sz = ath11k_hal_srng_get_entrysize(ab, type);
  196. int max_entries = ath11k_hal_srng_get_max_entries(ab, type);
  197. int ret;
  198. bool cached = false;
  199. if (max_entries < 0 || entry_sz < 0)
  200. return -EINVAL;
  201. if (num_entries > max_entries)
  202. num_entries = max_entries;
  203. ring->size = (num_entries * entry_sz) + HAL_RING_BASE_ALIGN - 1;
  204. if (ab->hw_params.alloc_cacheable_memory) {
  205. /* Allocate the reo dst and tx completion rings from cacheable memory */
  206. switch (type) {
  207. case HAL_REO_DST:
  208. case HAL_WBM2SW_RELEASE:
  209. cached = true;
  210. break;
  211. default:
  212. cached = false;
  213. }
  214. }
  215. if (cached)
  216. ring->vaddr_unaligned = dma_alloc_noncoherent(ab->dev, ring->size,
  217. &ring->paddr_unaligned,
  218. DMA_FROM_DEVICE,
  219. GFP_KERNEL);
  220. else
  221. ring->vaddr_unaligned = dma_alloc_coherent(ab->dev, ring->size,
  222. &ring->paddr_unaligned,
  223. GFP_KERNEL);
  224. if (!ring->vaddr_unaligned)
  225. return -ENOMEM;
  226. ring->vaddr = PTR_ALIGN(ring->vaddr_unaligned, HAL_RING_BASE_ALIGN);
  227. ring->paddr = ring->paddr_unaligned + ((unsigned long)ring->vaddr -
  228. (unsigned long)ring->vaddr_unaligned);
  229. params.ring_base_vaddr = ring->vaddr;
  230. params.ring_base_paddr = ring->paddr;
  231. params.num_entries = num_entries;
  232. ath11k_dp_srng_msi_setup(ab, &params, type, ring_num + mac_id);
  233. switch (type) {
  234. case HAL_REO_DST:
  235. params.intr_batch_cntr_thres_entries =
  236. HAL_SRNG_INT_BATCH_THRESHOLD_RX;
  237. params.intr_timer_thres_us = HAL_SRNG_INT_TIMER_THRESHOLD_RX;
  238. break;
  239. case HAL_RXDMA_BUF:
  240. case HAL_RXDMA_MONITOR_BUF:
  241. case HAL_RXDMA_MONITOR_STATUS:
  242. params.low_threshold = num_entries >> 3;
  243. params.flags |= HAL_SRNG_FLAGS_LOW_THRESH_INTR_EN;
  244. params.intr_batch_cntr_thres_entries = 0;
  245. params.intr_timer_thres_us = HAL_SRNG_INT_TIMER_THRESHOLD_RX;
  246. break;
  247. case HAL_WBM2SW_RELEASE:
  248. if (ring_num < 3) {
  249. params.intr_batch_cntr_thres_entries =
  250. HAL_SRNG_INT_BATCH_THRESHOLD_TX;
  251. params.intr_timer_thres_us =
  252. HAL_SRNG_INT_TIMER_THRESHOLD_TX;
  253. break;
  254. }
  255. /* follow through when ring_num >= 3 */
  256. fallthrough;
  257. case HAL_REO_EXCEPTION:
  258. case HAL_REO_REINJECT:
  259. case HAL_REO_CMD:
  260. case HAL_REO_STATUS:
  261. case HAL_TCL_DATA:
  262. case HAL_TCL_CMD:
  263. case HAL_TCL_STATUS:
  264. case HAL_WBM_IDLE_LINK:
  265. case HAL_SW2WBM_RELEASE:
  266. case HAL_RXDMA_DST:
  267. case HAL_RXDMA_MONITOR_DST:
  268. case HAL_RXDMA_MONITOR_DESC:
  269. params.intr_batch_cntr_thres_entries =
  270. HAL_SRNG_INT_BATCH_THRESHOLD_OTHER;
  271. params.intr_timer_thres_us = HAL_SRNG_INT_TIMER_THRESHOLD_OTHER;
  272. break;
  273. case HAL_RXDMA_DIR_BUF:
  274. break;
  275. default:
  276. ath11k_warn(ab, "Not a valid ring type in dp :%d\n", type);
  277. return -EINVAL;
  278. }
  279. if (cached) {
  280. params.flags |= HAL_SRNG_FLAGS_CACHED;
  281. ring->cached = 1;
  282. }
  283. ret = ath11k_hal_srng_setup(ab, type, ring_num, mac_id, &params);
  284. if (ret < 0) {
  285. ath11k_warn(ab, "failed to setup srng: %d ring_id %d\n",
  286. ret, ring_num);
  287. return ret;
  288. }
  289. ring->ring_id = ret;
  290. return 0;
  291. }
  292. void ath11k_dp_stop_shadow_timers(struct ath11k_base *ab)
  293. {
  294. int i;
  295. if (!ab->hw_params.supports_shadow_regs)
  296. return;
  297. for (i = 0; i < ab->hw_params.hal_params->num_tx_rings; i++)
  298. ath11k_dp_shadow_stop_timer(ab, &ab->dp.tx_ring_timer[i]);
  299. ath11k_dp_shadow_stop_timer(ab, &ab->dp.reo_cmd_timer);
  300. }
  301. static void ath11k_dp_srng_common_cleanup(struct ath11k_base *ab)
  302. {
  303. struct ath11k_dp *dp = &ab->dp;
  304. int i;
  305. ath11k_dp_stop_shadow_timers(ab);
  306. ath11k_dp_srng_cleanup(ab, &dp->wbm_desc_rel_ring);
  307. ath11k_dp_srng_cleanup(ab, &dp->tcl_cmd_ring);
  308. ath11k_dp_srng_cleanup(ab, &dp->tcl_status_ring);
  309. for (i = 0; i < ab->hw_params.hal_params->num_tx_rings; i++) {
  310. ath11k_dp_srng_cleanup(ab, &dp->tx_ring[i].tcl_data_ring);
  311. ath11k_dp_srng_cleanup(ab, &dp->tx_ring[i].tcl_comp_ring);
  312. }
  313. ath11k_dp_srng_cleanup(ab, &dp->reo_reinject_ring);
  314. ath11k_dp_srng_cleanup(ab, &dp->rx_rel_ring);
  315. ath11k_dp_srng_cleanup(ab, &dp->reo_except_ring);
  316. ath11k_dp_srng_cleanup(ab, &dp->reo_cmd_ring);
  317. ath11k_dp_srng_cleanup(ab, &dp->reo_status_ring);
  318. }
  319. static int ath11k_dp_srng_common_setup(struct ath11k_base *ab)
  320. {
  321. struct ath11k_dp *dp = &ab->dp;
  322. struct hal_srng *srng;
  323. int i, ret;
  324. u8 tcl_num, wbm_num;
  325. ret = ath11k_dp_srng_setup(ab, &dp->wbm_desc_rel_ring,
  326. HAL_SW2WBM_RELEASE, 0, 0,
  327. DP_WBM_RELEASE_RING_SIZE);
  328. if (ret) {
  329. ath11k_warn(ab, "failed to set up wbm2sw_release ring :%d\n",
  330. ret);
  331. goto err;
  332. }
  333. ret = ath11k_dp_srng_setup(ab, &dp->tcl_cmd_ring, HAL_TCL_CMD, 0, 0,
  334. DP_TCL_CMD_RING_SIZE);
  335. if (ret) {
  336. ath11k_warn(ab, "failed to set up tcl_cmd ring :%d\n", ret);
  337. goto err;
  338. }
  339. ret = ath11k_dp_srng_setup(ab, &dp->tcl_status_ring, HAL_TCL_STATUS,
  340. 0, 0, DP_TCL_STATUS_RING_SIZE);
  341. if (ret) {
  342. ath11k_warn(ab, "failed to set up tcl_status ring :%d\n", ret);
  343. goto err;
  344. }
  345. for (i = 0; i < ab->hw_params.hal_params->num_tx_rings; i++) {
  346. tcl_num = ab->hw_params.hal_params->tcl2wbm_rbm_map[i].tcl_ring_num;
  347. wbm_num = ab->hw_params.hal_params->tcl2wbm_rbm_map[i].wbm_ring_num;
  348. ret = ath11k_dp_srng_setup(ab, &dp->tx_ring[i].tcl_data_ring,
  349. HAL_TCL_DATA, tcl_num, 0,
  350. ab->hw_params.tx_ring_size);
  351. if (ret) {
  352. ath11k_warn(ab, "failed to set up tcl_data ring (%d) :%d\n",
  353. i, ret);
  354. goto err;
  355. }
  356. ret = ath11k_dp_srng_setup(ab, &dp->tx_ring[i].tcl_comp_ring,
  357. HAL_WBM2SW_RELEASE, wbm_num, 0,
  358. DP_TX_COMP_RING_SIZE);
  359. if (ret) {
  360. ath11k_warn(ab, "failed to set up tcl_comp ring (%d) :%d\n",
  361. i, ret);
  362. goto err;
  363. }
  364. srng = &ab->hal.srng_list[dp->tx_ring[i].tcl_data_ring.ring_id];
  365. ath11k_hal_tx_init_data_ring(ab, srng);
  366. ath11k_dp_shadow_init_timer(ab, &dp->tx_ring_timer[i],
  367. ATH11K_SHADOW_DP_TIMER_INTERVAL,
  368. dp->tx_ring[i].tcl_data_ring.ring_id);
  369. }
  370. ret = ath11k_dp_srng_setup(ab, &dp->reo_reinject_ring, HAL_REO_REINJECT,
  371. 0, 0, DP_REO_REINJECT_RING_SIZE);
  372. if (ret) {
  373. ath11k_warn(ab, "failed to set up reo_reinject ring :%d\n",
  374. ret);
  375. goto err;
  376. }
  377. ret = ath11k_dp_srng_setup(ab, &dp->rx_rel_ring, HAL_WBM2SW_RELEASE,
  378. DP_RX_RELEASE_RING_NUM, 0, DP_RX_RELEASE_RING_SIZE);
  379. if (ret) {
  380. ath11k_warn(ab, "failed to set up rx_rel ring :%d\n", ret);
  381. goto err;
  382. }
  383. ret = ath11k_dp_srng_setup(ab, &dp->reo_except_ring, HAL_REO_EXCEPTION,
  384. 0, 0, DP_REO_EXCEPTION_RING_SIZE);
  385. if (ret) {
  386. ath11k_warn(ab, "failed to set up reo_exception ring :%d\n",
  387. ret);
  388. goto err;
  389. }
  390. ret = ath11k_dp_srng_setup(ab, &dp->reo_cmd_ring, HAL_REO_CMD,
  391. 0, 0, DP_REO_CMD_RING_SIZE);
  392. if (ret) {
  393. ath11k_warn(ab, "failed to set up reo_cmd ring :%d\n", ret);
  394. goto err;
  395. }
  396. srng = &ab->hal.srng_list[dp->reo_cmd_ring.ring_id];
  397. ath11k_hal_reo_init_cmd_ring(ab, srng);
  398. ath11k_dp_shadow_init_timer(ab, &dp->reo_cmd_timer,
  399. ATH11K_SHADOW_CTRL_TIMER_INTERVAL,
  400. dp->reo_cmd_ring.ring_id);
  401. ret = ath11k_dp_srng_setup(ab, &dp->reo_status_ring, HAL_REO_STATUS,
  402. 0, 0, DP_REO_STATUS_RING_SIZE);
  403. if (ret) {
  404. ath11k_warn(ab, "failed to set up reo_status ring :%d\n", ret);
  405. goto err;
  406. }
  407. /* When hash based routing of rx packet is enabled, 32 entries to map
  408. * the hash values to the ring will be configured.
  409. */
  410. ab->hw_params.hw_ops->reo_setup(ab);
  411. return 0;
  412. err:
  413. ath11k_dp_srng_common_cleanup(ab);
  414. return ret;
  415. }
  416. static void ath11k_dp_scatter_idle_link_desc_cleanup(struct ath11k_base *ab)
  417. {
  418. struct ath11k_dp *dp = &ab->dp;
  419. struct hal_wbm_idle_scatter_list *slist = dp->scatter_list;
  420. int i;
  421. for (i = 0; i < DP_IDLE_SCATTER_BUFS_MAX; i++) {
  422. if (!slist[i].vaddr)
  423. continue;
  424. dma_free_coherent(ab->dev, HAL_WBM_IDLE_SCATTER_BUF_SIZE_MAX,
  425. slist[i].vaddr, slist[i].paddr);
  426. slist[i].vaddr = NULL;
  427. }
  428. }
  429. static int ath11k_dp_scatter_idle_link_desc_setup(struct ath11k_base *ab,
  430. int size,
  431. u32 n_link_desc_bank,
  432. u32 n_link_desc,
  433. u32 last_bank_sz)
  434. {
  435. struct ath11k_dp *dp = &ab->dp;
  436. struct dp_link_desc_bank *link_desc_banks = dp->link_desc_banks;
  437. struct hal_wbm_idle_scatter_list *slist = dp->scatter_list;
  438. u32 n_entries_per_buf;
  439. int num_scatter_buf, scatter_idx;
  440. struct hal_wbm_link_desc *scatter_buf;
  441. int align_bytes, n_entries;
  442. dma_addr_t paddr;
  443. int rem_entries;
  444. int i;
  445. int ret = 0;
  446. u32 end_offset;
  447. n_entries_per_buf = HAL_WBM_IDLE_SCATTER_BUF_SIZE /
  448. ath11k_hal_srng_get_entrysize(ab, HAL_WBM_IDLE_LINK);
  449. num_scatter_buf = DIV_ROUND_UP(size, HAL_WBM_IDLE_SCATTER_BUF_SIZE);
  450. if (num_scatter_buf > DP_IDLE_SCATTER_BUFS_MAX)
  451. return -EINVAL;
  452. for (i = 0; i < num_scatter_buf; i++) {
  453. slist[i].vaddr = dma_alloc_coherent(ab->dev,
  454. HAL_WBM_IDLE_SCATTER_BUF_SIZE_MAX,
  455. &slist[i].paddr, GFP_KERNEL);
  456. if (!slist[i].vaddr) {
  457. ret = -ENOMEM;
  458. goto err;
  459. }
  460. }
  461. scatter_idx = 0;
  462. scatter_buf = slist[scatter_idx].vaddr;
  463. rem_entries = n_entries_per_buf;
  464. for (i = 0; i < n_link_desc_bank; i++) {
  465. align_bytes = link_desc_banks[i].vaddr -
  466. link_desc_banks[i].vaddr_unaligned;
  467. n_entries = (DP_LINK_DESC_ALLOC_SIZE_THRESH - align_bytes) /
  468. HAL_LINK_DESC_SIZE;
  469. paddr = link_desc_banks[i].paddr;
  470. while (n_entries) {
  471. ath11k_hal_set_link_desc_addr(scatter_buf, i, paddr);
  472. n_entries--;
  473. paddr += HAL_LINK_DESC_SIZE;
  474. if (rem_entries) {
  475. rem_entries--;
  476. scatter_buf++;
  477. continue;
  478. }
  479. rem_entries = n_entries_per_buf;
  480. scatter_idx++;
  481. scatter_buf = slist[scatter_idx].vaddr;
  482. }
  483. }
  484. end_offset = (scatter_buf - slist[scatter_idx].vaddr) *
  485. sizeof(struct hal_wbm_link_desc);
  486. ath11k_hal_setup_link_idle_list(ab, slist, num_scatter_buf,
  487. n_link_desc, end_offset);
  488. return 0;
  489. err:
  490. ath11k_dp_scatter_idle_link_desc_cleanup(ab);
  491. return ret;
  492. }
  493. static void
  494. ath11k_dp_link_desc_bank_free(struct ath11k_base *ab,
  495. struct dp_link_desc_bank *link_desc_banks)
  496. {
  497. int i;
  498. for (i = 0; i < DP_LINK_DESC_BANKS_MAX; i++) {
  499. if (link_desc_banks[i].vaddr_unaligned) {
  500. dma_free_coherent(ab->dev,
  501. link_desc_banks[i].size,
  502. link_desc_banks[i].vaddr_unaligned,
  503. link_desc_banks[i].paddr_unaligned);
  504. link_desc_banks[i].vaddr_unaligned = NULL;
  505. }
  506. }
  507. }
  508. static int ath11k_dp_link_desc_bank_alloc(struct ath11k_base *ab,
  509. struct dp_link_desc_bank *desc_bank,
  510. int n_link_desc_bank,
  511. int last_bank_sz)
  512. {
  513. struct ath11k_dp *dp = &ab->dp;
  514. int i;
  515. int ret = 0;
  516. int desc_sz = DP_LINK_DESC_ALLOC_SIZE_THRESH;
  517. for (i = 0; i < n_link_desc_bank; i++) {
  518. if (i == (n_link_desc_bank - 1) && last_bank_sz)
  519. desc_sz = last_bank_sz;
  520. desc_bank[i].vaddr_unaligned =
  521. dma_alloc_coherent(ab->dev, desc_sz,
  522. &desc_bank[i].paddr_unaligned,
  523. GFP_KERNEL);
  524. if (!desc_bank[i].vaddr_unaligned) {
  525. ret = -ENOMEM;
  526. goto err;
  527. }
  528. desc_bank[i].vaddr = PTR_ALIGN(desc_bank[i].vaddr_unaligned,
  529. HAL_LINK_DESC_ALIGN);
  530. desc_bank[i].paddr = desc_bank[i].paddr_unaligned +
  531. ((unsigned long)desc_bank[i].vaddr -
  532. (unsigned long)desc_bank[i].vaddr_unaligned);
  533. desc_bank[i].size = desc_sz;
  534. }
  535. return 0;
  536. err:
  537. ath11k_dp_link_desc_bank_free(ab, dp->link_desc_banks);
  538. return ret;
  539. }
  540. void ath11k_dp_link_desc_cleanup(struct ath11k_base *ab,
  541. struct dp_link_desc_bank *desc_bank,
  542. u32 ring_type, struct dp_srng *ring)
  543. {
  544. ath11k_dp_link_desc_bank_free(ab, desc_bank);
  545. if (ring_type != HAL_RXDMA_MONITOR_DESC) {
  546. ath11k_dp_srng_cleanup(ab, ring);
  547. ath11k_dp_scatter_idle_link_desc_cleanup(ab);
  548. }
  549. }
  550. static int ath11k_wbm_idle_ring_setup(struct ath11k_base *ab, u32 *n_link_desc)
  551. {
  552. struct ath11k_dp *dp = &ab->dp;
  553. u32 n_mpdu_link_desc, n_mpdu_queue_desc;
  554. u32 n_tx_msdu_link_desc, n_rx_msdu_link_desc;
  555. int ret = 0;
  556. n_mpdu_link_desc = (DP_NUM_TIDS_MAX * DP_AVG_MPDUS_PER_TID_MAX) /
  557. HAL_NUM_MPDUS_PER_LINK_DESC;
  558. n_mpdu_queue_desc = n_mpdu_link_desc /
  559. HAL_NUM_MPDU_LINKS_PER_QUEUE_DESC;
  560. n_tx_msdu_link_desc = (DP_NUM_TIDS_MAX * DP_AVG_FLOWS_PER_TID *
  561. DP_AVG_MSDUS_PER_FLOW) /
  562. HAL_NUM_TX_MSDUS_PER_LINK_DESC;
  563. n_rx_msdu_link_desc = (DP_NUM_TIDS_MAX * DP_AVG_MPDUS_PER_TID_MAX *
  564. DP_AVG_MSDUS_PER_MPDU) /
  565. HAL_NUM_RX_MSDUS_PER_LINK_DESC;
  566. *n_link_desc = n_mpdu_link_desc + n_mpdu_queue_desc +
  567. n_tx_msdu_link_desc + n_rx_msdu_link_desc;
  568. if (*n_link_desc & (*n_link_desc - 1))
  569. *n_link_desc = 1 << fls(*n_link_desc);
  570. ret = ath11k_dp_srng_setup(ab, &dp->wbm_idle_ring,
  571. HAL_WBM_IDLE_LINK, 0, 0, *n_link_desc);
  572. if (ret) {
  573. ath11k_warn(ab, "failed to setup wbm_idle_ring: %d\n", ret);
  574. return ret;
  575. }
  576. return ret;
  577. }
  578. int ath11k_dp_link_desc_setup(struct ath11k_base *ab,
  579. struct dp_link_desc_bank *link_desc_banks,
  580. u32 ring_type, struct hal_srng *srng,
  581. u32 n_link_desc)
  582. {
  583. u32 tot_mem_sz;
  584. u32 n_link_desc_bank, last_bank_sz;
  585. u32 entry_sz, align_bytes, n_entries;
  586. u32 paddr;
  587. u32 *desc;
  588. int i, ret;
  589. tot_mem_sz = n_link_desc * HAL_LINK_DESC_SIZE;
  590. tot_mem_sz += HAL_LINK_DESC_ALIGN;
  591. if (tot_mem_sz <= DP_LINK_DESC_ALLOC_SIZE_THRESH) {
  592. n_link_desc_bank = 1;
  593. last_bank_sz = tot_mem_sz;
  594. } else {
  595. n_link_desc_bank = tot_mem_sz /
  596. (DP_LINK_DESC_ALLOC_SIZE_THRESH -
  597. HAL_LINK_DESC_ALIGN);
  598. last_bank_sz = tot_mem_sz %
  599. (DP_LINK_DESC_ALLOC_SIZE_THRESH -
  600. HAL_LINK_DESC_ALIGN);
  601. if (last_bank_sz)
  602. n_link_desc_bank += 1;
  603. }
  604. if (n_link_desc_bank > DP_LINK_DESC_BANKS_MAX)
  605. return -EINVAL;
  606. ret = ath11k_dp_link_desc_bank_alloc(ab, link_desc_banks,
  607. n_link_desc_bank, last_bank_sz);
  608. if (ret)
  609. return ret;
  610. /* Setup link desc idle list for HW internal usage */
  611. entry_sz = ath11k_hal_srng_get_entrysize(ab, ring_type);
  612. tot_mem_sz = entry_sz * n_link_desc;
  613. /* Setup scatter desc list when the total memory requirement is more */
  614. if (tot_mem_sz > DP_LINK_DESC_ALLOC_SIZE_THRESH &&
  615. ring_type != HAL_RXDMA_MONITOR_DESC) {
  616. ret = ath11k_dp_scatter_idle_link_desc_setup(ab, tot_mem_sz,
  617. n_link_desc_bank,
  618. n_link_desc,
  619. last_bank_sz);
  620. if (ret) {
  621. ath11k_warn(ab, "failed to setup scatting idle list descriptor :%d\n",
  622. ret);
  623. goto fail_desc_bank_free;
  624. }
  625. return 0;
  626. }
  627. spin_lock_bh(&srng->lock);
  628. ath11k_hal_srng_access_begin(ab, srng);
  629. for (i = 0; i < n_link_desc_bank; i++) {
  630. align_bytes = link_desc_banks[i].vaddr -
  631. link_desc_banks[i].vaddr_unaligned;
  632. n_entries = (link_desc_banks[i].size - align_bytes) /
  633. HAL_LINK_DESC_SIZE;
  634. paddr = link_desc_banks[i].paddr;
  635. while (n_entries &&
  636. (desc = ath11k_hal_srng_src_get_next_entry(ab, srng))) {
  637. ath11k_hal_set_link_desc_addr((struct hal_wbm_link_desc *)desc,
  638. i, paddr);
  639. n_entries--;
  640. paddr += HAL_LINK_DESC_SIZE;
  641. }
  642. }
  643. ath11k_hal_srng_access_end(ab, srng);
  644. spin_unlock_bh(&srng->lock);
  645. return 0;
  646. fail_desc_bank_free:
  647. ath11k_dp_link_desc_bank_free(ab, link_desc_banks);
  648. return ret;
  649. }
  650. int ath11k_dp_service_srng(struct ath11k_base *ab,
  651. struct ath11k_ext_irq_grp *irq_grp,
  652. int budget)
  653. {
  654. struct napi_struct *napi = &irq_grp->napi;
  655. const struct ath11k_hw_hal_params *hal_params;
  656. int grp_id = irq_grp->grp_id;
  657. int work_done = 0;
  658. int i, j;
  659. int tot_work_done = 0;
  660. for (i = 0; i < ab->hw_params.hal_params->num_tx_rings; i++) {
  661. if (BIT(ab->hw_params.hal_params->tcl2wbm_rbm_map[i].wbm_ring_num) &
  662. ab->hw_params.ring_mask->tx[grp_id])
  663. ath11k_dp_tx_completion_handler(ab, i);
  664. }
  665. if (ab->hw_params.ring_mask->rx_err[grp_id]) {
  666. work_done = ath11k_dp_process_rx_err(ab, napi, budget);
  667. budget -= work_done;
  668. tot_work_done += work_done;
  669. if (budget <= 0)
  670. goto done;
  671. }
  672. if (ab->hw_params.ring_mask->rx_wbm_rel[grp_id]) {
  673. work_done = ath11k_dp_rx_process_wbm_err(ab,
  674. napi,
  675. budget);
  676. budget -= work_done;
  677. tot_work_done += work_done;
  678. if (budget <= 0)
  679. goto done;
  680. }
  681. if (ab->hw_params.ring_mask->rx[grp_id]) {
  682. i = fls(ab->hw_params.ring_mask->rx[grp_id]) - 1;
  683. work_done = ath11k_dp_process_rx(ab, i, napi,
  684. budget);
  685. budget -= work_done;
  686. tot_work_done += work_done;
  687. if (budget <= 0)
  688. goto done;
  689. }
  690. if (ab->hw_params.ring_mask->rx_mon_status[grp_id]) {
  691. for (i = 0; i < ab->num_radios; i++) {
  692. for (j = 0; j < ab->hw_params.num_rxdma_per_pdev; j++) {
  693. int id = i * ab->hw_params.num_rxdma_per_pdev + j;
  694. if (ab->hw_params.ring_mask->rx_mon_status[grp_id] &
  695. BIT(id)) {
  696. work_done =
  697. ath11k_dp_rx_process_mon_rings(ab,
  698. id,
  699. napi, budget);
  700. budget -= work_done;
  701. tot_work_done += work_done;
  702. if (budget <= 0)
  703. goto done;
  704. }
  705. }
  706. }
  707. }
  708. if (ab->hw_params.ring_mask->reo_status[grp_id])
  709. ath11k_dp_process_reo_status(ab);
  710. for (i = 0; i < ab->num_radios; i++) {
  711. for (j = 0; j < ab->hw_params.num_rxdma_per_pdev; j++) {
  712. int id = i * ab->hw_params.num_rxdma_per_pdev + j;
  713. if (ab->hw_params.ring_mask->rxdma2host[grp_id] & BIT(id)) {
  714. work_done = ath11k_dp_process_rxdma_err(ab, id, budget);
  715. budget -= work_done;
  716. tot_work_done += work_done;
  717. }
  718. if (budget <= 0)
  719. goto done;
  720. if (ab->hw_params.ring_mask->host2rxdma[grp_id] & BIT(id)) {
  721. struct ath11k *ar = ath11k_ab_to_ar(ab, id);
  722. struct ath11k_pdev_dp *dp = &ar->dp;
  723. struct dp_rxdma_ring *rx_ring = &dp->rx_refill_buf_ring;
  724. hal_params = ab->hw_params.hal_params;
  725. ath11k_dp_rxbufs_replenish(ab, id, rx_ring, 0,
  726. hal_params->rx_buf_rbm);
  727. }
  728. }
  729. }
  730. /* TODO: Implement handler for other interrupts */
  731. done:
  732. return tot_work_done;
  733. }
  734. EXPORT_SYMBOL(ath11k_dp_service_srng);
  735. void ath11k_dp_pdev_free(struct ath11k_base *ab)
  736. {
  737. struct ath11k *ar;
  738. int i;
  739. timer_delete_sync(&ab->mon_reap_timer);
  740. for (i = 0; i < ab->num_radios; i++) {
  741. ar = ab->pdevs[i].ar;
  742. ath11k_dp_rx_pdev_free(ab, i);
  743. ath11k_debugfs_unregister(ar);
  744. ath11k_dp_rx_pdev_mon_detach(ar);
  745. }
  746. }
  747. void ath11k_dp_pdev_pre_alloc(struct ath11k_base *ab)
  748. {
  749. struct ath11k *ar;
  750. struct ath11k_pdev_dp *dp;
  751. int i;
  752. int j;
  753. for (i = 0; i < ab->num_radios; i++) {
  754. ar = ab->pdevs[i].ar;
  755. dp = &ar->dp;
  756. dp->mac_id = i;
  757. idr_init(&dp->rx_refill_buf_ring.bufs_idr);
  758. spin_lock_init(&dp->rx_refill_buf_ring.idr_lock);
  759. atomic_set(&dp->num_tx_pending, 0);
  760. init_waitqueue_head(&dp->tx_empty_waitq);
  761. for (j = 0; j < ab->hw_params.num_rxdma_per_pdev; j++) {
  762. idr_init(&dp->rx_mon_status_refill_ring[j].bufs_idr);
  763. spin_lock_init(&dp->rx_mon_status_refill_ring[j].idr_lock);
  764. }
  765. idr_init(&dp->rxdma_mon_buf_ring.bufs_idr);
  766. spin_lock_init(&dp->rxdma_mon_buf_ring.idr_lock);
  767. }
  768. }
  769. int ath11k_dp_pdev_alloc(struct ath11k_base *ab)
  770. {
  771. struct ath11k *ar;
  772. int ret;
  773. int i;
  774. /* TODO:Per-pdev rx ring unlike tx ring which is mapped to different AC's */
  775. for (i = 0; i < ab->num_radios; i++) {
  776. ar = ab->pdevs[i].ar;
  777. ret = ath11k_dp_rx_pdev_alloc(ab, i);
  778. if (ret) {
  779. ath11k_warn(ab, "failed to allocate pdev rx for pdev_id :%d\n",
  780. i);
  781. goto err;
  782. }
  783. ret = ath11k_dp_rx_pdev_mon_attach(ar);
  784. if (ret) {
  785. ath11k_warn(ab, "failed to initialize mon pdev %d\n",
  786. i);
  787. goto err;
  788. }
  789. }
  790. return 0;
  791. err:
  792. ath11k_dp_pdev_free(ab);
  793. return ret;
  794. }
  795. int ath11k_dp_htt_connect(struct ath11k_dp *dp)
  796. {
  797. struct ath11k_htc_svc_conn_req conn_req;
  798. struct ath11k_htc_svc_conn_resp conn_resp;
  799. int status;
  800. memset(&conn_req, 0, sizeof(conn_req));
  801. memset(&conn_resp, 0, sizeof(conn_resp));
  802. conn_req.ep_ops.ep_tx_complete = ath11k_dp_htt_htc_tx_complete;
  803. conn_req.ep_ops.ep_rx_complete = ath11k_dp_htt_htc_t2h_msg_handler;
  804. /* connect to control service */
  805. conn_req.service_id = ATH11K_HTC_SVC_ID_HTT_DATA_MSG;
  806. status = ath11k_htc_connect_service(&dp->ab->htc, &conn_req,
  807. &conn_resp);
  808. if (status)
  809. return status;
  810. dp->eid = conn_resp.eid;
  811. return 0;
  812. }
  813. static void ath11k_dp_update_vdev_search(struct ath11k_vif *arvif)
  814. {
  815. /* When v2_map_support is true:for STA mode, enable address
  816. * search index, tcl uses ast_hash value in the descriptor.
  817. * When v2_map_support is false: for STA mode, don't enable
  818. * address search index.
  819. */
  820. switch (arvif->vdev_type) {
  821. case WMI_VDEV_TYPE_STA:
  822. if (arvif->ar->ab->hw_params.htt_peer_map_v2) {
  823. arvif->hal_addr_search_flags = HAL_TX_ADDRX_EN;
  824. arvif->search_type = HAL_TX_ADDR_SEARCH_INDEX;
  825. } else {
  826. arvif->hal_addr_search_flags = HAL_TX_ADDRY_EN;
  827. arvif->search_type = HAL_TX_ADDR_SEARCH_DEFAULT;
  828. }
  829. break;
  830. case WMI_VDEV_TYPE_AP:
  831. case WMI_VDEV_TYPE_IBSS:
  832. arvif->hal_addr_search_flags = HAL_TX_ADDRX_EN;
  833. arvif->search_type = HAL_TX_ADDR_SEARCH_DEFAULT;
  834. break;
  835. case WMI_VDEV_TYPE_MONITOR:
  836. default:
  837. return;
  838. }
  839. }
  840. void ath11k_dp_vdev_tx_attach(struct ath11k *ar, struct ath11k_vif *arvif)
  841. {
  842. arvif->tcl_metadata |= FIELD_PREP(HTT_TCL_META_DATA_TYPE, 1) |
  843. FIELD_PREP(HTT_TCL_META_DATA_VDEV_ID,
  844. arvif->vdev_id) |
  845. FIELD_PREP(HTT_TCL_META_DATA_PDEV_ID,
  846. ar->pdev->pdev_id);
  847. /* set HTT extension valid bit to 0 by default */
  848. arvif->tcl_metadata &= ~HTT_TCL_META_DATA_VALID_HTT;
  849. ath11k_dp_update_vdev_search(arvif);
  850. }
  851. static int ath11k_dp_tx_pending_cleanup(int buf_id, void *skb, void *ctx)
  852. {
  853. struct ath11k_base *ab = ctx;
  854. struct sk_buff *msdu = skb;
  855. dma_unmap_single(ab->dev, ATH11K_SKB_CB(msdu)->paddr, msdu->len,
  856. DMA_TO_DEVICE);
  857. dev_kfree_skb_any(msdu);
  858. return 0;
  859. }
  860. void ath11k_dp_free(struct ath11k_base *ab)
  861. {
  862. struct ath11k_dp *dp = &ab->dp;
  863. int i;
  864. ath11k_dp_link_desc_cleanup(ab, dp->link_desc_banks,
  865. HAL_WBM_IDLE_LINK, &dp->wbm_idle_ring);
  866. ath11k_dp_srng_common_cleanup(ab);
  867. ath11k_dp_reo_cmd_list_cleanup(ab);
  868. for (i = 0; i < ab->hw_params.hal_params->num_tx_rings; i++) {
  869. spin_lock_bh(&dp->tx_ring[i].tx_idr_lock);
  870. idr_for_each(&dp->tx_ring[i].txbuf_idr,
  871. ath11k_dp_tx_pending_cleanup, ab);
  872. idr_destroy(&dp->tx_ring[i].txbuf_idr);
  873. spin_unlock_bh(&dp->tx_ring[i].tx_idr_lock);
  874. kfree(dp->tx_ring[i].tx_status);
  875. }
  876. /* Deinit any SOC level resource */
  877. }
  878. int ath11k_dp_alloc(struct ath11k_base *ab)
  879. {
  880. struct ath11k_dp *dp = &ab->dp;
  881. struct hal_srng *srng = NULL;
  882. size_t size = 0;
  883. u32 n_link_desc = 0;
  884. int ret;
  885. int i;
  886. dp->ab = ab;
  887. INIT_LIST_HEAD(&dp->reo_cmd_list);
  888. INIT_LIST_HEAD(&dp->reo_cmd_cache_flush_list);
  889. INIT_LIST_HEAD(&dp->dp_full_mon_mpdu_list);
  890. spin_lock_init(&dp->reo_cmd_lock);
  891. dp->reo_cmd_cache_flush_count = 0;
  892. ret = ath11k_wbm_idle_ring_setup(ab, &n_link_desc);
  893. if (ret) {
  894. ath11k_warn(ab, "failed to setup wbm_idle_ring: %d\n", ret);
  895. return ret;
  896. }
  897. srng = &ab->hal.srng_list[dp->wbm_idle_ring.ring_id];
  898. ret = ath11k_dp_link_desc_setup(ab, dp->link_desc_banks,
  899. HAL_WBM_IDLE_LINK, srng, n_link_desc);
  900. if (ret) {
  901. ath11k_warn(ab, "failed to setup link desc: %d\n", ret);
  902. return ret;
  903. }
  904. ret = ath11k_dp_srng_common_setup(ab);
  905. if (ret)
  906. goto fail_link_desc_cleanup;
  907. size = sizeof(struct hal_wbm_release_ring) * DP_TX_COMP_RING_SIZE;
  908. for (i = 0; i < ab->hw_params.hal_params->num_tx_rings; i++) {
  909. idr_init(&dp->tx_ring[i].txbuf_idr);
  910. spin_lock_init(&dp->tx_ring[i].tx_idr_lock);
  911. dp->tx_ring[i].tcl_data_ring_id = i;
  912. dp->tx_ring[i].tx_status_head = 0;
  913. dp->tx_ring[i].tx_status_tail = DP_TX_COMP_RING_SIZE - 1;
  914. dp->tx_ring[i].tx_status = kmalloc(size, GFP_KERNEL);
  915. if (!dp->tx_ring[i].tx_status) {
  916. ret = -ENOMEM;
  917. goto fail_cmn_srng_cleanup;
  918. }
  919. }
  920. for (i = 0; i < HAL_DSCP_TID_MAP_TBL_NUM_ENTRIES_MAX; i++)
  921. ath11k_hal_tx_set_dscp_tid_map(ab, i);
  922. /* Init any SOC level resource for DP */
  923. return 0;
  924. fail_cmn_srng_cleanup:
  925. ath11k_dp_srng_common_cleanup(ab);
  926. fail_link_desc_cleanup:
  927. ath11k_dp_link_desc_cleanup(ab, dp->link_desc_banks,
  928. HAL_WBM_IDLE_LINK, &dp->wbm_idle_ring);
  929. return ret;
  930. }
  931. static void ath11k_dp_shadow_timer_handler(struct timer_list *t)
  932. {
  933. struct ath11k_hp_update_timer *update_timer = timer_container_of(update_timer,
  934. t,
  935. timer);
  936. struct ath11k_base *ab = update_timer->ab;
  937. struct hal_srng *srng = &ab->hal.srng_list[update_timer->ring_id];
  938. spin_lock_bh(&srng->lock);
  939. /* when the timer is fired, the handler checks whether there
  940. * are new TX happened. The handler updates HP only when there
  941. * are no TX operations during the timeout interval, and stop
  942. * the timer. Timer will be started again when TX happens again.
  943. */
  944. if (update_timer->timer_tx_num != update_timer->tx_num) {
  945. update_timer->timer_tx_num = update_timer->tx_num;
  946. mod_timer(&update_timer->timer, jiffies +
  947. msecs_to_jiffies(update_timer->interval));
  948. } else {
  949. update_timer->started = false;
  950. ath11k_hal_srng_shadow_update_hp_tp(ab, srng);
  951. }
  952. spin_unlock_bh(&srng->lock);
  953. }
  954. void ath11k_dp_shadow_start_timer(struct ath11k_base *ab,
  955. struct hal_srng *srng,
  956. struct ath11k_hp_update_timer *update_timer)
  957. {
  958. lockdep_assert_held(&srng->lock);
  959. if (!ab->hw_params.supports_shadow_regs)
  960. return;
  961. update_timer->tx_num++;
  962. if (update_timer->started)
  963. return;
  964. update_timer->started = true;
  965. update_timer->timer_tx_num = update_timer->tx_num;
  966. mod_timer(&update_timer->timer, jiffies +
  967. msecs_to_jiffies(update_timer->interval));
  968. }
  969. void ath11k_dp_shadow_stop_timer(struct ath11k_base *ab,
  970. struct ath11k_hp_update_timer *update_timer)
  971. {
  972. if (!ab->hw_params.supports_shadow_regs)
  973. return;
  974. if (!update_timer->init)
  975. return;
  976. timer_delete_sync(&update_timer->timer);
  977. }
  978. void ath11k_dp_shadow_init_timer(struct ath11k_base *ab,
  979. struct ath11k_hp_update_timer *update_timer,
  980. u32 interval, u32 ring_id)
  981. {
  982. if (!ab->hw_params.supports_shadow_regs)
  983. return;
  984. update_timer->tx_num = 0;
  985. update_timer->timer_tx_num = 0;
  986. update_timer->ab = ab;
  987. update_timer->ring_id = ring_id;
  988. update_timer->interval = interval;
  989. update_timer->init = true;
  990. timer_setup(&update_timer->timer,
  991. ath11k_dp_shadow_timer_handler, 0);
  992. }