wmi_unified_non_tlv.c 245 KB

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  1. /*
  2. * Copyright (c) 2016 The Linux Foundation. All rights reserved.
  3. *
  4. * Previously licensed under the ISC license by Qualcomm Atheros, Inc.
  5. *
  6. *
  7. * Permission to use, copy, modify, and/or distribute this software for
  8. * any purpose with or without fee is hereby granted, provided that the
  9. * above copyright notice and this permission notice appear in all
  10. * copies.
  11. *
  12. * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
  13. * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
  14. * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
  15. * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
  16. * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
  17. * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
  18. * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
  19. * PERFORMANCE OF THIS SOFTWARE.
  20. */
  21. /*
  22. * This file was originally distributed by Qualcomm Atheros, Inc.
  23. * under proprietary terms before Copyright ownership was assigned
  24. * to the Linux Foundation.
  25. */
  26. #include "athdefs.h"
  27. #include "osapi_linux.h"
  28. #include "a_types.h"
  29. #include "a_debug.h"
  30. #include "ol_if_athvar.h"
  31. #include "ol_defines.h"
  32. #include "wmi.h"
  33. #include "wmi_unified_api.h"
  34. #include "wmi_unified_priv.h"
  35. #ifdef WMI_NON_TLV_SUPPORT
  36. /**
  37. * send_vdev_create_cmd_non_tlv() - send VDEV create command to fw
  38. * @wmi_handle: wmi handle
  39. * @param: pointer to hold vdev create parameter
  40. * @macaddr: vdev mac address
  41. *
  42. * Return: 0 for success or error code
  43. */
  44. QDF_STATUS send_vdev_create_cmd_non_tlv(wmi_unified_t wmi_handle,
  45. uint8_t macaddr[IEEE80211_ADDR_LEN],
  46. struct vdev_create_params *param)
  47. {
  48. wmi_vdev_create_cmd *cmd;
  49. wmi_buf_t buf;
  50. int32_t len = sizeof(wmi_vdev_create_cmd);
  51. buf = wmi_buf_alloc(wmi_handle, len);
  52. if (!buf) {
  53. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  54. return QDF_STATUS_E_NOMEM;
  55. }
  56. cmd = (wmi_vdev_create_cmd *)wmi_buf_data(buf);
  57. cmd->vdev_id = param->if_id;
  58. cmd->vdev_type = param->type;
  59. cmd->vdev_subtype = param->subtype;
  60. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->vdev_macaddr);
  61. qdf_print("%s: ID = %d Type = %d, Subtype = %d "
  62. "VAP Addr = %02x:%02x:%02x:%02x:%02x:%02x:\n",
  63. __func__, param->if_id, param->type, param->subtype,
  64. macaddr[0], macaddr[1], macaddr[2],
  65. macaddr[3], macaddr[4], macaddr[5]);
  66. return wmi_unified_cmd_send(wmi_handle, buf, len,
  67. WMI_VDEV_CREATE_CMDID);
  68. }
  69. /**
  70. * send_vdev_delete_cmd_non_tlv() - send VDEV delete command to fw
  71. * @wmi_handle: wmi handle
  72. * @if_id: vdev id
  73. *
  74. * Return: 0 for success or error code
  75. */
  76. QDF_STATUS send_vdev_delete_cmd_non_tlv(wmi_unified_t wmi_handle,
  77. uint8_t if_id)
  78. {
  79. wmi_vdev_delete_cmd *cmd;
  80. wmi_buf_t buf;
  81. int32_t len = sizeof(wmi_vdev_delete_cmd);
  82. buf = wmi_buf_alloc(wmi_handle, len);
  83. if (!buf) {
  84. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  85. return QDF_STATUS_E_NOMEM;
  86. }
  87. cmd = (wmi_vdev_delete_cmd *)wmi_buf_data(buf);
  88. cmd->vdev_id = if_id;
  89. qdf_print("%s for vap %d (%p)\n", __func__, if_id, wmi_handle);
  90. return wmi_unified_cmd_send(wmi_handle, buf, len,
  91. WMI_VDEV_DELETE_CMDID);
  92. }
  93. /**
  94. * send_vdev_stop_cmd_non_tlv() - send vdev stop command to fw
  95. * @wmi: wmi handle
  96. * @vdev_id: vdev id
  97. *
  98. * Return: 0 for success or erro code
  99. */
  100. QDF_STATUS send_vdev_stop_cmd_non_tlv(wmi_unified_t wmi,
  101. uint8_t vdev_id)
  102. {
  103. wmi_vdev_stop_cmd *cmd;
  104. wmi_buf_t buf;
  105. int len = sizeof(wmi_vdev_stop_cmd);
  106. buf = wmi_buf_alloc(wmi, len);
  107. if (!buf) {
  108. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  109. return QDF_STATUS_E_NOMEM;
  110. }
  111. cmd = (wmi_vdev_stop_cmd *)wmi_buf_data(buf);
  112. cmd->vdev_id = vdev_id;
  113. return wmi_unified_cmd_send(wmi, buf, len, WMI_VDEV_STOP_CMDID);
  114. }
  115. /**
  116. * send_vdev_down_cmd_non_tlv() - send vdev down command to fw
  117. * @wmi_handle: wmi handle
  118. * @vdev_id: vdev id
  119. *
  120. * Return: 0 for success or error code
  121. */
  122. QDF_STATUS send_vdev_down_cmd_non_tlv(wmi_unified_t wmi_handle,
  123. uint8_t vdev_id)
  124. {
  125. wmi_vdev_down_cmd *cmd;
  126. wmi_buf_t buf;
  127. int len = sizeof(wmi_vdev_down_cmd);
  128. buf = wmi_buf_alloc(wmi_handle, len);
  129. if (!buf) {
  130. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  131. return QDF_STATUS_E_NOMEM;
  132. }
  133. cmd = (wmi_vdev_down_cmd *)wmi_buf_data(buf);
  134. cmd->vdev_id = vdev_id;
  135. qdf_print("%s for vap %d (%p)\n", __func__, vdev_id, wmi_handle);
  136. return wmi_unified_cmd_send(wmi_handle, buf, len, WMI_VDEV_DOWN_CMDID);
  137. }
  138. /**
  139. * send_vdev_start_cmd_non_tlv() - send vdev start command to fw
  140. * @wmi: wmi handle
  141. * @vdev_id: vdev id
  142. *
  143. * Return: 0 for success or error code
  144. */
  145. QDF_STATUS send_vdev_start_cmd_non_tlv(wmi_unified_t wmi,
  146. struct vdev_start_params *param)
  147. {
  148. wmi_vdev_start_request_cmd *cmd;
  149. wmi_buf_t buf;
  150. int len = sizeof(wmi_vdev_start_request_cmd);
  151. int ret;
  152. buf = wmi_buf_alloc(wmi, len);
  153. if (!buf) {
  154. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  155. return QDF_STATUS_E_NOMEM;
  156. }
  157. cmd = (wmi_vdev_start_request_cmd *)wmi_buf_data(buf);
  158. cmd->vdev_id = param->vdev_id;
  159. cmd->chan.mhz = param->channel.mhz;
  160. WMI_SET_CHANNEL_MODE(&cmd->chan, param->channel.phy_mode);
  161. cmd->chan.band_center_freq1 = param->channel.cfreq1;
  162. cmd->chan.band_center_freq2 = param->channel.cfreq2;
  163. cmd->disable_hw_ack = param->disable_hw_ack;
  164. WMI_SET_CHANNEL_MIN_POWER(&cmd->chan, param->channel.minpower);
  165. WMI_SET_CHANNEL_MAX_POWER(&cmd->chan, param->channel.maxpower);
  166. WMI_SET_CHANNEL_REG_POWER(&cmd->chan, param->channel.maxregpower);
  167. WMI_SET_CHANNEL_ANTENNA_MAX(&cmd->chan, param->channel.antennamax);
  168. WMI_SET_CHANNEL_REG_CLASSID(&cmd->chan, param->channel.reg_class_id);
  169. if (param->channel.dfs_set)
  170. WMI_SET_CHANNEL_FLAG(&cmd->chan, WMI_CHAN_FLAG_DFS);
  171. if (param->channel.dfs_set_cfreq2)
  172. WMI_SET_CHANNEL_FLAG(&cmd->chan, WMI_CHAN_FLAG_DFS_CFREQ2);
  173. if (param->channel.half_rate)
  174. WMI_SET_CHANNEL_FLAG(&cmd->chan, WMI_CHAN_FLAG_HALF);
  175. if (param->channel.quarter_rate)
  176. WMI_SET_CHANNEL_FLAG(&cmd->chan, WMI_CHAN_FLAG_QUARTER);
  177. if (param->is_restart) {
  178. qdf_print("VDEV RESTART\n");
  179. ret = wmi_unified_cmd_send(wmi, buf, len,
  180. WMI_VDEV_RESTART_REQUEST_CMDID);
  181. } else {
  182. qdf_print("VDEV START\n");
  183. ret = wmi_unified_cmd_send(wmi, buf, len,
  184. WMI_VDEV_START_REQUEST_CMDID);
  185. }
  186. return ret;
  187. /*
  188. For VDEV_RESTART command, the sequence of code remains the same except the
  189. command sent as WMI_VDEV_RESTART_REQUEST_CMDID instead of START_REQUEST.
  190. In that case, can we introduce a flag that takes in to check if start or
  191. restart and use the same function?? Currently implemented as two separate
  192. functions in OL layer
  193. */
  194. }
  195. /**
  196. * send_vdev_set_neighbour_rx_cmd_non_tlv() - set neighbour rx param in fw
  197. * @wmi_handle: wmi handle
  198. * @macaddr: vdev mac address
  199. * @param: pointer to hold neigbour rx param
  200. * Return: 0 for success or error code
  201. */
  202. QDF_STATUS send_vdev_set_neighbour_rx_cmd_non_tlv(wmi_unified_t wmi_handle,
  203. uint8_t macaddr[IEEE80211_ADDR_LEN],
  204. struct set_neighbour_rx_params *param)
  205. {
  206. wmi_vdev_filter_nrp_config_cmd *cmd;
  207. wmi_buf_t buf;
  208. int len = sizeof(wmi_vdev_filter_nrp_config_cmd);
  209. buf = wmi_buf_alloc(wmi_handle, len);
  210. if (!buf) {
  211. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  212. return QDF_STATUS_E_FAILURE;
  213. }
  214. cmd = (wmi_vdev_filter_nrp_config_cmd *)wmi_buf_data(buf);
  215. cmd->vdev_id = param->vdev_id;
  216. cmd->bssid_idx = param->idx;
  217. cmd->action = param->action;
  218. cmd->type = param->type;
  219. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->addr);
  220. return wmi_unified_cmd_send(wmi_handle, buf, len,
  221. WMI_VDEV_FILTER_NEIGHBOR_RX_PACKETS_CMDID);
  222. }
  223. /**
  224. * send_vdev_set_fwtest_param_cmd_non_tlv() - send fwtest param in fw
  225. * @wmi_handle: wmi handle
  226. * @param: pointer to hold fwtest param
  227. *
  228. * Return: 0 for success or error code
  229. */
  230. QDF_STATUS send_vdev_set_fwtest_param_cmd_non_tlv(wmi_unified_t wmi_handle,
  231. struct set_fwtest_params *param)
  232. {
  233. wmi_fwtest_set_param_cmd *cmd;
  234. wmi_buf_t buf;
  235. int len = sizeof(wmi_fwtest_set_param_cmd);
  236. buf = wmi_buf_alloc(wmi_handle, len);
  237. if (!buf) {
  238. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  239. return QDF_STATUS_E_FAILURE;
  240. }
  241. cmd = (wmi_fwtest_set_param_cmd *)wmi_buf_data(buf);
  242. cmd->param_id = param->arg;
  243. cmd->param_value = param->value;
  244. return wmi_unified_cmd_send(wmi_handle, buf, len, WMI_FWTEST_CMDID);
  245. }
  246. /**
  247. * send_vdev_config_ratemask_cmd_non_tlv() - config ratemask param in fw
  248. * @wmi_handle: wmi handle
  249. * @param: pointer to hold config ratemask params
  250. *
  251. * Return: 0 for success or error code
  252. */
  253. QDF_STATUS send_vdev_config_ratemask_cmd_non_tlv(wmi_unified_t wmi_handle,
  254. struct config_ratemask_params *param)
  255. {
  256. wmi_vdev_config_ratemask *cmd;
  257. wmi_buf_t buf;
  258. int len = sizeof(wmi_vdev_config_ratemask);
  259. buf = wmi_buf_alloc(wmi_handle, len);
  260. if (!buf) {
  261. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  262. return QDF_STATUS_E_FAILURE;
  263. }
  264. cmd = (wmi_vdev_config_ratemask *)wmi_buf_data(buf);
  265. cmd->vdev_id = param->vdev_id;
  266. cmd->type = param->type;
  267. cmd->mask_lower32 = param->lower32;
  268. cmd->mask_higher32 = param->higher32;
  269. qdf_print("Setting vdev ratemask vdev id = 0x%X, type = 0x%X,"
  270. "mask_l32 = 0x%X mask_h32 = 0x%X\n",
  271. param->vdev_id, param->type, param->lower32, param->higher32);
  272. return wmi_unified_cmd_send(wmi_handle, buf, len,
  273. WMI_VDEV_RATEMASK_CMDID);
  274. }
  275. /**
  276. * send_vdev_install_key_cmd_non_tlv() - config security key in fw
  277. * @wmi_handle: wmi handle
  278. * @param: pointer to hold key params
  279. * @macaddr: vdev mac address
  280. *
  281. * Return: 0 for success or error code
  282. */
  283. QDF_STATUS send_vdev_install_key_cmd_non_tlv(wmi_unified_t wmi_handle,
  284. uint8_t macaddr[IEEE80211_ADDR_LEN],
  285. struct vdev_install_key_params *param)
  286. {
  287. wmi_vdev_install_key_cmd *cmd;
  288. wmi_buf_t buf;
  289. /* length depends on ieee key length */
  290. int len = sizeof(wmi_vdev_install_key_cmd) + param->wk_keylen;
  291. uint8_t wmi_cipher_type;
  292. int i;
  293. /* Cipher MAP has to be in the same order as ieee80211_cipher_type */
  294. static const u_int8_t wmi_ciphermap[] = {
  295. WMI_CIPHER_WEP, /* IEEE80211_CIPHER_WEP */
  296. WMI_CIPHER_TKIP, /* IEEE80211_CIPHER_TKIP */
  297. WMI_CIPHER_AES_OCB, /* IEEE80211_CIPHER_AES_OCB */
  298. WMI_CIPHER_AES_CCM, /* IEEE80211_CIPHER_AES_CCM */
  299. #if ATH_SUPPORT_WAPI
  300. WMI_CIPHER_WAPI, /* IEEE80211_CIPHER_WAPI */
  301. #else
  302. (u_int8_t) 0xff, /* IEEE80211_CIPHER_WAPI */
  303. #endif
  304. WMI_CIPHER_CKIP, /* IEEE80211_CIPHER_CKIP */
  305. WMI_CIPHER_AES_CMAC,
  306. WMI_CIPHER_AES_CCM, /* IEEE80211_CIPHER_AES_CCM 256 */
  307. WMI_CIPHER_AES_CMAC,
  308. WMI_CIPHER_AES_GCM, /* IEEE80211_CIPHER_AES_GCM */
  309. WMI_CIPHER_AES_GCM, /* IEEE80211_CIPHER_AES_GCM 256 */
  310. WMI_CIPHER_AES_GMAC,
  311. WMI_CIPHER_AES_GMAC,
  312. WMI_CIPHER_NONE, /* IEEE80211_CIPHER_NONE */
  313. };
  314. if (param->force_none == 1) {
  315. wmi_cipher_type = WMI_CIPHER_NONE;
  316. } else if ((!param->is_host_based_crypt)) {
  317. KASSERT(param->ic_cipher <
  318. (sizeof(wmi_ciphermap)/sizeof(wmi_ciphermap[0])),
  319. ("invalid cipher type %u", param->ic_cipher));
  320. wmi_cipher_type = wmi_ciphermap[param->ic_cipher];
  321. } else
  322. wmi_cipher_type = WMI_CIPHER_NONE;
  323. /* ieee_key length does not have mic keylen */
  324. if ((wmi_cipher_type == WMI_CIPHER_TKIP) ||
  325. (wmi_cipher_type == WMI_CIPHER_WAPI))
  326. len = len + IEEE80211_MICBUF_SIZE;
  327. len = roundup(len, sizeof(u_int32_t));
  328. buf = wmi_buf_alloc(wmi_handle, len);
  329. if (!buf) {
  330. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  331. return QDF_STATUS_E_NOMEM;
  332. }
  333. cmd = (wmi_vdev_install_key_cmd *)wmi_buf_data(buf);
  334. cmd->vdev_id = param->if_id;
  335. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  336. /* Mapping ieee key flags to WMI key flags */
  337. if (param->is_group_key) {
  338. cmd->key_flags |= GROUP_USAGE;
  339. /* send the ieee keyix for multicast */
  340. cmd->key_ix = param->wk_keyix;
  341. } else if (param->is_xmit_or_recv_key) {
  342. cmd->key_flags |= PAIRWISE_USAGE;
  343. /* Target expects keyix 0 for unicast
  344. other than static wep cipher */
  345. if (param->wk_keyix >= (IEEE80211_WEP_NKID + 1))
  346. cmd->key_ix = 0;
  347. else
  348. cmd->key_ix = param->wk_keyix;
  349. }
  350. /* If this WEP key is the default xmit key, TX_USAGE flag is enabled */
  351. if (param->def_keyid == 1)
  352. cmd->key_flags |= TX_USAGE;
  353. cmd->key_len = param->wk_keylen;
  354. cmd->key_cipher = wmi_cipher_type;
  355. /* setting the mic lengths. Just Added for TKIP alone */
  356. if ((wmi_cipher_type == WMI_CIPHER_TKIP) ||
  357. (wmi_cipher_type == WMI_CIPHER_WAPI)) {
  358. cmd->key_txmic_len = 8;
  359. cmd->key_rxmic_len = 8;
  360. }
  361. /* target will use the same rsc counter for
  362. various tids from from ieee key rsc */
  363. if ((wmi_cipher_type == WMI_CIPHER_TKIP) ||
  364. (wmi_cipher_type == WMI_CIPHER_AES_OCB)
  365. || (wmi_cipher_type == WMI_CIPHER_AES_CCM)) {
  366. qdf_mem_copy(&cmd->key_rsc_counter, &param->wk_keyrsc[0],
  367. sizeof(param->wk_keyrsc[0]));
  368. qdf_mem_copy(&cmd->key_tsc_counter, &param->wk_keytsc,
  369. sizeof(param->wk_keytsc));
  370. }
  371. #ifdef ATH_SUPPORT_WAPI
  372. if (wmi_cipher_type == WMI_CIPHER_WAPI) {
  373. int j;
  374. /* For WAPI, TSC and RSC has to be initialized with predefined
  375. * value.Here, Indicating TSC, RSC to target as part of set
  376. * key message
  377. */
  378. /* since wk_recviv and wk_txiv initialized in reverse order,
  379. * Before indicating the Target FW, Reversing TSC and RSC
  380. */
  381. for (i = (WPI_IV_LEN-1), j = 0; i >= 0; i--, j++)
  382. *(((uint8_t *)&cmd->wpi_key_rsc_counter)+j) =
  383. param->wk_recviv[i];
  384. for (i = (WPI_IV_LEN/4-1), j = 0; i >= 0; i--, j++)
  385. *(((uint32_t *)&cmd->wpi_key_tsc_counter)+j) =
  386. param->wk_txiv[i];
  387. qdf_print("RSC:");
  388. for (i = 0; i < 16; i++)
  389. qdf_print("0x%x ",
  390. *(((uint8_t *)&cmd->wpi_key_rsc_counter)+i));
  391. qdf_print("\n");
  392. qdf_print("TSC:");
  393. for (i = 0; i < 16; i++)
  394. qdf_print("0x%x ",
  395. *(((uint8_t *)&cmd->wpi_key_tsc_counter)+i));
  396. qdf_print("\n");
  397. }
  398. #endif
  399. qdf_mem_copy(cmd->key_data, param->key_data, cmd->key_len);
  400. return wmi_unified_cmd_send(wmi_handle, buf, len,
  401. WMI_VDEV_INSTALL_KEY_CMDID);
  402. }
  403. /**
  404. * send_peer_flush_tids_cmd_non_tlv() - flush peer tids packets in fw
  405. * @wmi_handle: wmi handle
  406. * @peer_addr: peer mac address
  407. * @param: pointer to hold peer flush tid parameter
  408. *
  409. * Return: 0 for sucess or error code
  410. */
  411. QDF_STATUS send_peer_flush_tids_cmd_non_tlv(wmi_unified_t wmi_handle,
  412. uint8_t peer_addr[IEEE80211_ADDR_LEN],
  413. struct peer_flush_params *param)
  414. {
  415. wmi_peer_flush_tids_cmd *cmd;
  416. wmi_buf_t buf;
  417. int len = sizeof(wmi_peer_flush_tids_cmd);
  418. buf = wmi_buf_alloc(wmi_handle, len);
  419. if (!buf) {
  420. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  421. return QDF_STATUS_E_NOMEM;
  422. }
  423. cmd = (wmi_peer_flush_tids_cmd *)wmi_buf_data(buf);
  424. WMI_CHAR_ARRAY_TO_MAC_ADDR(peer_addr, &cmd->peer_macaddr);
  425. cmd->peer_tid_bitmap = param->peer_tid_bitmap;
  426. cmd->vdev_id = param->vdev_id;
  427. return wmi_unified_cmd_send(wmi_handle, buf, len,
  428. WMI_PEER_FLUSH_TIDS_CMDID);
  429. }
  430. /**
  431. * send_peer_delete_cmd_non_tlv() - send PEER delete command to fw
  432. * @wmi_handle: wmi handle
  433. * @peer_addr: peer mac addr
  434. * @vdev_id: vdev id
  435. *
  436. * Return: 0 for success or error code
  437. */
  438. QDF_STATUS send_peer_delete_cmd_non_tlv(wmi_unified_t wmi_handle,
  439. uint8_t
  440. peer_addr[IEEE80211_ADDR_LEN],
  441. uint8_t vdev_id)
  442. {
  443. wmi_peer_delete_cmd *cmd;
  444. wmi_buf_t buf;
  445. int len = sizeof(wmi_peer_delete_cmd);
  446. buf = wmi_buf_alloc(wmi_handle, len);
  447. if (!buf) {
  448. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  449. return QDF_STATUS_E_NOMEM;
  450. }
  451. cmd = (wmi_peer_delete_cmd *)wmi_buf_data(buf);
  452. WMI_CHAR_ARRAY_TO_MAC_ADDR(peer_addr, &cmd->peer_macaddr);
  453. cmd->vdev_id = vdev_id;
  454. return wmi_unified_cmd_send(wmi_handle, buf, len,
  455. WMI_PEER_DELETE_CMDID);
  456. }
  457. /**
  458. * send_peer_param_cmd_non_tlv() - set peer parameter in fw
  459. * @wmi_handle: wmi handle
  460. * @peer_addr: peer mac address
  461. * @param : pointer to hold peer set parameter
  462. *
  463. * Return: 0 for success or error code
  464. */
  465. QDF_STATUS send_peer_param_cmd_non_tlv(wmi_unified_t wmi_handle,
  466. uint8_t peer_addr[IEEE80211_ADDR_LEN],
  467. struct peer_set_params *param)
  468. {
  469. wmi_peer_set_param_cmd *cmd;
  470. wmi_buf_t buf;
  471. int len = sizeof(wmi_peer_set_param_cmd);
  472. buf = wmi_buf_alloc(wmi_handle, len);
  473. if (!buf) {
  474. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  475. return QDF_STATUS_E_NOMEM;
  476. }
  477. cmd = (wmi_peer_set_param_cmd *)wmi_buf_data(buf);
  478. WMI_CHAR_ARRAY_TO_MAC_ADDR(peer_addr, &cmd->peer_macaddr);
  479. cmd->param_id = param->param_id;
  480. cmd->param_value = param->param_value;
  481. cmd->vdev_id = param->vdev_id;
  482. return wmi_unified_cmd_send(wmi_handle, buf, len,
  483. WMI_PEER_SET_PARAM_CMDID);
  484. }
  485. /**
  486. * send_vdev_up_cmd_non_tlv() - send vdev up command in fw
  487. * @wmi_handle: wmi handle
  488. * @bssid: bssid
  489. * @vdev_up_params: pointer to hold vdev up parameter
  490. *
  491. * Return: 0 for success or error code
  492. */
  493. QDF_STATUS send_vdev_up_cmd_non_tlv(wmi_unified_t wmi_handle,
  494. uint8_t bssid[IEEE80211_ADDR_LEN],
  495. struct vdev_up_params *param)
  496. {
  497. wmi_vdev_up_cmd *cmd;
  498. wmi_buf_t buf;
  499. int len = sizeof(wmi_vdev_up_cmd);
  500. buf = wmi_buf_alloc(wmi_handle, len);
  501. if (!buf) {
  502. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  503. return QDF_STATUS_E_NOMEM;
  504. }
  505. cmd = (wmi_vdev_up_cmd *)wmi_buf_data(buf);
  506. cmd->vdev_id = param->vdev_id;
  507. cmd->vdev_assoc_id = param->assoc_id;
  508. WMI_CHAR_ARRAY_TO_MAC_ADDR(bssid, &cmd->vdev_bssid);
  509. qdf_print("%s for vap %d (%p)\n", __func__, param->vdev_id, wmi_handle);
  510. return wmi_unified_cmd_send(wmi_handle, buf, len, WMI_VDEV_UP_CMDID);
  511. }
  512. /**
  513. * send_peer_create_cmd_non_tlv() - send peer create command to fw
  514. * @wmi_handle: wmi handle
  515. * @param: pointer to hold peer create parameter
  516. *
  517. * Return: 0 for success or error code
  518. */
  519. QDF_STATUS send_peer_create_cmd_non_tlv(wmi_unified_t wmi_handle,
  520. struct peer_create_params *param)
  521. {
  522. wmi_peer_create_cmd *cmd;
  523. wmi_buf_t buf;
  524. int len = sizeof(wmi_peer_create_cmd);
  525. buf = wmi_buf_alloc(wmi_handle, len);
  526. if (!buf) {
  527. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  528. return QDF_STATUS_E_NOMEM;
  529. }
  530. cmd = (wmi_peer_create_cmd *)wmi_buf_data(buf);
  531. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->peer_addr, &cmd->peer_macaddr);
  532. cmd->vdev_id = param->vdev_id;
  533. return wmi_unified_cmd_send(wmi_handle, buf, len,
  534. WMI_PEER_CREATE_CMDID);
  535. }
  536. /**
  537. * send_peer_add_wds_entry_cmd_non_tlv() - send peer add command to fw
  538. * @wmi_handle: wmi handle
  539. * @param: pointer holding peer details
  540. *
  541. * Return: 0 for success or error code
  542. */
  543. QDF_STATUS send_peer_add_wds_entry_cmd_non_tlv(wmi_unified_t wmi_handle,
  544. struct peer_add_wds_entry_params *param)
  545. {
  546. wmi_peer_add_wds_entry_cmd *cmd;
  547. wmi_buf_t buf;
  548. int len = sizeof(wmi_peer_add_wds_entry_cmd);
  549. buf = wmi_buf_alloc(wmi_handle, len);
  550. if (!buf) {
  551. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  552. return QDF_STATUS_E_FAILURE;
  553. }
  554. cmd = (wmi_peer_add_wds_entry_cmd *)wmi_buf_data(buf);
  555. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->dest_addr, &cmd->wds_macaddr);
  556. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->peer_addr, &cmd->peer_macaddr);
  557. cmd->flags = param->flags;
  558. return wmi_unified_cmd_send(wmi_handle, buf, len,
  559. WMI_PEER_ADD_WDS_ENTRY_CMDID);
  560. }
  561. /**
  562. * send_peer_del_wds_entry_cmd_non_tlv() - send peer delete command to fw
  563. * @wmi_handle: wmi handle
  564. * @param: pointer holding peer details
  565. *
  566. * Return: 0 for success or error code
  567. */
  568. QDF_STATUS send_peer_del_wds_entry_cmd_non_tlv(wmi_unified_t wmi_handle,
  569. struct peer_del_wds_entry_params *param)
  570. {
  571. wmi_peer_remove_wds_entry_cmd *cmd;
  572. wmi_buf_t buf;
  573. int len = sizeof(wmi_peer_remove_wds_entry_cmd);
  574. buf = wmi_buf_alloc(wmi_handle, len);
  575. if (!buf) {
  576. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  577. return QDF_STATUS_E_NOMEM;
  578. }
  579. cmd = (wmi_peer_remove_wds_entry_cmd *)wmi_buf_data(buf);
  580. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->dest_addr, &cmd->wds_macaddr);
  581. return wmi_unified_cmd_send(wmi_handle, buf, len,
  582. WMI_PEER_REMOVE_WDS_ENTRY_CMDID);
  583. }
  584. /**
  585. * send_peer_update_wds_entry_cmd_non_tlv() - send peer update command to fw
  586. * @wmi_handle: wmi handle
  587. * @param: pointer holding peer details
  588. *
  589. * Return: 0 for success or error code
  590. */
  591. QDF_STATUS send_peer_update_wds_entry_cmd_non_tlv(wmi_unified_t wmi_handle,
  592. struct peer_update_wds_entry_params *param)
  593. {
  594. wmi_peer_update_wds_entry_cmd *cmd;
  595. wmi_buf_t buf;
  596. int len = sizeof(wmi_peer_update_wds_entry_cmd);
  597. buf = wmi_buf_alloc(wmi_handle, len);
  598. if (!buf) {
  599. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  600. return QDF_STATUS_E_NOMEM;
  601. }
  602. /* wmi_buf_alloc returns zeroed command buffer */
  603. cmd = (wmi_peer_update_wds_entry_cmd *)wmi_buf_data(buf);
  604. cmd->flags = (param->flags) ? WMI_WDS_FLAG_STATIC : 0;
  605. if (param->wds_macaddr)
  606. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->wds_macaddr,
  607. &cmd->wds_macaddr);
  608. if (param->peer_macaddr)
  609. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->peer_macaddr,
  610. &cmd->peer_macaddr);
  611. return wmi_unified_cmd_send(wmi_handle, buf, len,
  612. WMI_PEER_UPDATE_WDS_ENTRY_CMDID);
  613. }
  614. /**
  615. * send_green_ap_ps_cmd_non_tlv() - enable green ap powersave command
  616. * @wmi_handle: wmi handle
  617. * @value: value
  618. * @mac_id: mac id to have radio context
  619. *
  620. * Return: 0 for success or error code
  621. */
  622. QDF_STATUS send_green_ap_ps_cmd_non_tlv(wmi_unified_t wmi_handle,
  623. uint32_t value, uint8_t mac_id)
  624. {
  625. wmi_pdev_green_ap_ps_enable_cmd *cmd;
  626. wmi_buf_t buf;
  627. int len = 0;
  628. int ret;
  629. len = sizeof(wmi_pdev_green_ap_ps_enable_cmd);
  630. buf = wmi_buf_alloc(wmi_handle, len);
  631. if (!buf) {
  632. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  633. return QDF_STATUS_E_NOMEM;
  634. }
  635. cmd = (wmi_pdev_green_ap_ps_enable_cmd *)wmi_buf_data(buf);
  636. cmd->enable = value;
  637. ret = wmi_unified_cmd_send(wmi_handle,
  638. buf,
  639. len,
  640. WMI_PDEV_GREEN_AP_PS_ENABLE_CMDID);
  641. #ifdef OL_GREEN_AP_DEBUG_CONFIG_INTERACTIONS
  642. qdf_print("%s: Sent WMI_PDEV_GREEN_AP_PS_ENABLE_CMDID.\n"
  643. "enable=%u status=%d\n",
  644. __func__,
  645. cmd->enable,
  646. ret);
  647. #endif /* OL_GREEN_AP_DEBUG_CONFIG_INTERACTIONS */
  648. return ret;
  649. }
  650. /**
  651. * send_pdev_utf_cmd_non_tlv() - send utf command to fw
  652. * @wmi_handle: wmi handle
  653. * @param: pointer to pdev_utf_params
  654. * @mac_id: mac id to have radio context
  655. *
  656. * Return: 0 for success or error code
  657. */
  658. QDF_STATUS
  659. send_pdev_utf_cmd_non_tlv(wmi_unified_t wmi_handle,
  660. struct pdev_utf_params *param,
  661. uint8_t mac_id)
  662. {
  663. wmi_buf_t buf;
  664. u_int8_t *cmd;
  665. int ret = 0;
  666. /* We can initialize the value and increment.*/
  667. static uint8_t msgref = 1;
  668. uint8_t segNumber = 0, segInfo, numSegments;
  669. uint16_t chunkLen, totalBytes;
  670. uint8_t *bufpos;
  671. struct seg_hdr_info segHdrInfo;
  672. bufpos = param->utf_payload;
  673. totalBytes = param->len;
  674. numSegments = (uint8_t) (totalBytes / MAX_WMI_UTF_LEN);
  675. if (param->len - (numSegments * MAX_WMI_UTF_LEN))
  676. numSegments++;
  677. while (param->len) {
  678. if (param->len > MAX_WMI_UTF_LEN)
  679. chunkLen = MAX_WMI_UTF_LEN; /* MAX messsage.. */
  680. else
  681. chunkLen = param->len;
  682. buf = wmi_buf_alloc(wmi_handle,
  683. (chunkLen + sizeof(segHdrInfo)));
  684. if (!buf) {
  685. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  686. return QDF_STATUS_E_FAILURE;
  687. }
  688. cmd = (uint8_t *)wmi_buf_data(buf);
  689. segHdrInfo.len = totalBytes;
  690. segHdrInfo.msgref = msgref;
  691. segInfo = ((numSegments << 4) & 0xF0) | (segNumber & 0xF);
  692. segHdrInfo.segmentInfo = segInfo;
  693. segNumber++;
  694. qdf_mem_copy(cmd, &segHdrInfo, sizeof(segHdrInfo));
  695. #ifdef BIG_ENDIAN_HOST
  696. if (param->is_ar900b) {
  697. /* for big endian host, copy engine byte_swap is
  698. * enable But this ART command frame buffer content is
  699. * in network byte order.
  700. * Need to byte swap the mgmt frame buffer content - so
  701. * when copy engine does byte_swap - target gets buffer
  702. * content in the correct order
  703. */
  704. int i;
  705. uint32_t *destp, *srcp;
  706. destp = (uint32_t *)(&(cmd[sizeof(segHdrInfo)]));
  707. srcp = (uint32_t *)bufpos;
  708. for (i = 0; i < (roundup(chunkLen,
  709. sizeof(uint32_t)) / 4); i++) {
  710. *destp = le32_to_cpu(*srcp);
  711. destp++; srcp++;
  712. }
  713. } else {
  714. qdf_mem_copy(&cmd[sizeof(segHdrInfo)],
  715. bufpos, chunkLen);
  716. }
  717. #else
  718. qdf_mem_copy(&cmd[sizeof(segHdrInfo)], bufpos, chunkLen);
  719. #endif
  720. ret = wmi_unified_cmd_send(wmi_handle, buf,
  721. (chunkLen + sizeof(segHdrInfo)),
  722. WMI_PDEV_UTF_CMDID);
  723. if (ret != 0)
  724. break;
  725. param->len -= chunkLen;
  726. bufpos += chunkLen;
  727. }
  728. msgref++;
  729. return ret;
  730. }
  731. /**
  732. * send_pdev_qvit_cmd_non_tlv() - send qvit command to fw
  733. * @wmi_handle: wmi handle
  734. * @param: pointer to pdev_qvit_params
  735. *
  736. * Return: 0 for success or error code
  737. */
  738. QDF_STATUS
  739. send_pdev_qvit_cmd_non_tlv(wmi_unified_t wmi_handle,
  740. struct pdev_qvit_params *param)
  741. {
  742. wmi_buf_t buf;
  743. u_int8_t *cmd;
  744. int ret = 0;
  745. /* We can initialize the value and increment.*/
  746. static u_int8_t msgref = 1;
  747. u_int8_t segNumber = 0, segInfo, numSegments;
  748. u_int16_t chunkLen, totalBytes;
  749. u_int8_t *bufpos;
  750. QVIT_SEG_HDR_INFO_STRUCT segHdrInfo;
  751. /*
  752. #ifdef QVIT_DEBUG
  753. qdf_print(KERN_INFO "QVIT: %s: called\n", __func__);
  754. #endif
  755. */
  756. bufpos = param->utf_payload;
  757. totalBytes = param->len;
  758. numSegments = (totalBytes / MAX_WMI_QVIT_LEN);
  759. if (param->len - (numSegments * MAX_WMI_QVIT_LEN))
  760. numSegments++;
  761. while (param->len) {
  762. if (param->len > MAX_WMI_QVIT_LEN)
  763. chunkLen = MAX_WMI_QVIT_LEN; /* MAX messsage.. */
  764. else
  765. chunkLen = param->len;
  766. buf = wmi_buf_alloc(wmi_handle,
  767. (chunkLen + sizeof(segHdrInfo)));
  768. if (!buf) {
  769. qdf_print(KERN_ERR "QVIT: %s: wmi_buf_alloc failed\n",
  770. __func__);
  771. return QDF_STATUS_E_FAILURE;
  772. }
  773. cmd = (u_int8_t *)wmi_buf_data(buf);
  774. segHdrInfo.len = totalBytes;
  775. segHdrInfo.msgref = msgref;
  776. segInfo = ((numSegments << 4) & 0xF0) | (segNumber & 0xF);
  777. segHdrInfo.segmentInfo = segInfo;
  778. segNumber++;
  779. qdf_mem_copy(cmd, &segHdrInfo, sizeof(segHdrInfo));
  780. qdf_mem_copy(&cmd[sizeof(segHdrInfo)], bufpos, chunkLen);
  781. ret = wmi_unified_cmd_send(wmi_handle, buf,
  782. (chunkLen + sizeof(segHdrInfo)),
  783. WMI_PDEV_QVIT_CMDID);
  784. if (ret != 0) {
  785. qdf_print
  786. (KERN_ERR "QVIT: %s: wmi_unified_cmd_send failed\n",
  787. __func__);
  788. break;
  789. }
  790. param->len -= chunkLen;
  791. bufpos += chunkLen;
  792. }
  793. msgref++;
  794. return ret;
  795. }
  796. /**
  797. * send_pdev_param_cmd_non_tlv() - set pdev parameters
  798. * @wmi_handle: wmi handle
  799. * @param: pointer to pdev parameter
  800. * @mac_id: radio context
  801. *
  802. * Return: 0 on success, errno on failure
  803. */
  804. QDF_STATUS
  805. send_pdev_param_cmd_non_tlv(wmi_unified_t wmi_handle,
  806. struct pdev_params *param, uint8_t mac_id)
  807. {
  808. wmi_pdev_set_param_cmd *cmd;
  809. wmi_buf_t buf;
  810. int len = sizeof(wmi_pdev_set_param_cmd);
  811. if ((param->param_id < wmi_pdev_param_max) &&
  812. (wmi_handle->pdev_param[param->param_id]
  813. != WMI_UNAVAILABLE_PARAM)) {
  814. buf = wmi_buf_alloc(wmi_handle, len);
  815. if (!buf) {
  816. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  817. return QDF_STATUS_E_FAILURE;
  818. }
  819. cmd = (wmi_pdev_set_param_cmd *)wmi_buf_data(buf);
  820. cmd->param_id = wmi_handle->pdev_param[param->param_id];
  821. cmd->param_value = param->param_value;
  822. return wmi_unified_cmd_send(wmi_handle, buf, len,
  823. WMI_PDEV_SET_PARAM_CMDID);
  824. }
  825. return QDF_STATUS_E_FAILURE;
  826. }
  827. /**
  828. * send_suspend_cmd_non_tlv() - WMI suspend function
  829. *
  830. * @param wmi_handle : handle to WMI.
  831. * @param param : pointer to hold suspend parameter
  832. * @mac_id: radio context
  833. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  834. */
  835. QDF_STATUS send_suspend_cmd_non_tlv(wmi_unified_t wmi_handle,
  836. struct suspend_params *param,
  837. uint8_t mac_id)
  838. {
  839. wmi_pdev_suspend_cmd *cmd;
  840. wmi_buf_t wmibuf;
  841. uint32_t len = sizeof(wmi_pdev_suspend_cmd);
  842. /*send the comand to Target to ignore the
  843. * PCIE reset so as to ensure that Host and target
  844. * states are in sync*/
  845. wmibuf = wmi_buf_alloc(wmi_handle, len);
  846. if (wmibuf == NULL)
  847. return QDF_STATUS_E_FAILURE;
  848. cmd = (wmi_pdev_suspend_cmd *)wmi_buf_data(wmibuf);
  849. if (param->disable_target_intr)
  850. cmd->suspend_opt = WMI_PDEV_SUSPEND_AND_DISABLE_INTR;
  851. else
  852. cmd->suspend_opt = WMI_PDEV_SUSPEND;
  853. /*
  854. * Flush pending packets in HTC endpoint queue
  855. *
  856. */
  857. wmi_flush_endpoint(wmi_handle);
  858. return wmi_unified_cmd_send(wmi_handle, wmibuf, len,
  859. WMI_PDEV_SUSPEND_CMDID);
  860. }
  861. /**
  862. * send_resume_cmd_non_tlv() - WMI resume function
  863. *
  864. * @param wmi_handle : handle to WMI.
  865. * @mac_id: radio context
  866. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  867. */
  868. QDF_STATUS send_resume_cmd_non_tlv(wmi_unified_t wmi_handle,
  869. uint8_t mac_id)
  870. {
  871. wmi_buf_t wmibuf;
  872. wmibuf = wmi_buf_alloc(wmi_handle, 0);
  873. if (wmibuf == NULL)
  874. return QDF_STATUS_E_NOMEM;
  875. return wmi_unified_cmd_send(wmi_handle, wmibuf, 0,
  876. WMI_PDEV_RESUME_CMDID);
  877. }
  878. /**
  879. * send_wow_enable_cmd_non_tlv() - WMI wow enable function
  880. *
  881. * @param wmi_handle : handle to WMI.
  882. * @param param : pointer to hold wow enable parameter
  883. * @mac_id: radio context
  884. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  885. */
  886. QDF_STATUS send_wow_enable_cmd_non_tlv(wmi_unified_t wmi_handle,
  887. struct wow_cmd_params *param, uint8_t mac_id)
  888. {
  889. A_STATUS res;
  890. wmi_buf_t buf = NULL;
  891. buf = wmi_buf_alloc(wmi_handle, 4);
  892. if (!buf) {
  893. qdf_print("buf alloc failed\n");
  894. return QDF_STATUS_E_NOMEM;
  895. }
  896. res = wmi_unified_cmd_send(wmi_handle, buf, 4, WMI_WOW_ENABLE_CMDID);
  897. qdf_print("send_wow_enable result: %d\n", res);
  898. return (res == A_OK) ? QDF_STATUS_SUCCESS : QDF_STATUS_E_FAILURE;
  899. }
  900. /**
  901. * send_wow_wakeup_cmd_non_tlv() - WMI wow wakeup function
  902. *
  903. * @param wmi_handle : handle to WMI.
  904. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  905. */
  906. QDF_STATUS send_wow_wakeup_cmd_non_tlv(wmi_unified_t wmi_handle)
  907. {
  908. A_STATUS res;
  909. wmi_buf_t buf = NULL;
  910. buf = wmi_buf_alloc(wmi_handle, 4);
  911. if (!buf) {
  912. qdf_print("buf alloc failed\n");
  913. return QDF_STATUS_E_NOMEM;
  914. }
  915. res = wmi_unified_cmd_send(wmi_handle, buf, 4,
  916. WMI_WOW_HOSTWAKEUP_FROM_SLEEP_CMDID);
  917. qdf_print("ol_wow_wakeup result: %d\n", res);
  918. return (res == A_OK) ? QDF_STATUS_SUCCESS : QDF_STATUS_E_FAILURE;
  919. }
  920. /**
  921. * send_wow_add_wakeup_event_cmd_non_tlv() - WMI wow add wakeup event function
  922. *
  923. * @param wmi_handle : handle to WMI.
  924. * @param param : pointer to hold wow wakeup event parameter
  925. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  926. */
  927. QDF_STATUS send_wow_add_wakeup_event_cmd_non_tlv(wmi_unified_t wmi_handle,
  928. struct wow_add_wakeup_params *param)
  929. {
  930. A_STATUS res;
  931. WMI_WOW_ADD_DEL_EVT_CMD *cmd;
  932. wmi_buf_t buf = NULL;
  933. int len = sizeof(WMI_WOW_ADD_DEL_EVT_CMD);
  934. buf = wmi_buf_alloc(wmi_handle, len);
  935. if (!buf) {
  936. qdf_print("buf alloc failed\n");
  937. return QDF_STATUS_E_NOMEM;
  938. }
  939. cmd = (WMI_WOW_ADD_DEL_EVT_CMD *)wmi_buf_data(buf);
  940. cmd->is_add = 1;
  941. cmd->event_bitmap = param->type;
  942. res = wmi_unified_cmd_send(wmi_handle, buf, len,
  943. WMI_WOW_ENABLE_DISABLE_WAKE_EVENT_CMDID);
  944. return (res == A_OK) ? QDF_STATUS_SUCCESS : QDF_STATUS_E_FAILURE;
  945. }
  946. /**
  947. * send_wow_add_wakeup_pattern_cmd_non_tlv() - WMI wow add wakeup pattern function
  948. *
  949. * @param wmi_handle : handle to WMI.
  950. * @param param : pointer to hold wow wakeup pattern parameter
  951. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  952. */
  953. QDF_STATUS send_wow_add_wakeup_pattern_cmd_non_tlv(wmi_unified_t wmi_handle,
  954. struct wow_add_wakeup_pattern_params *param)
  955. {
  956. WOW_BITMAP_PATTERN_T bitmap_pattern;
  957. uint32_t j;
  958. /*
  959. struct ol_wow_info *wowInfo;
  960. OL_WOW_PATTERN *pattern;
  961. struct ol_ath_softc_net80211 *scn = OL_ATH_SOFTC_NET80211(ic);
  962. */
  963. A_STATUS res;
  964. WMI_WOW_ADD_PATTERN_CMD *cmd;
  965. wmi_buf_t buf = NULL;
  966. int len = sizeof(WMI_WOW_ADD_PATTERN_CMD);
  967. buf = wmi_buf_alloc(wmi_handle, len);
  968. if (!buf) {
  969. qdf_print("buf alloc failed\n");
  970. return QDF_STATUS_E_NOMEM;
  971. }
  972. cmd = (WMI_WOW_ADD_PATTERN_CMD *)wmi_buf_data(buf);
  973. cmd->pattern_id = param->pattern_id;
  974. cmd->pattern_type = WOW_BITMAP_PATTERN;
  975. for (j = 0; j < WOW_DEFAULT_BITMAP_PATTERN_SIZE; j++)
  976. bitmap_pattern.patternbuf[j] = param->pattern_bytes[j];
  977. for (j = 0; j < WOW_DEFAULT_BITMASK_SIZE; j++)
  978. bitmap_pattern.bitmaskbuf[j] = param->mask_bytes[j];
  979. bitmap_pattern.pattern_offset = 0;
  980. cmd->pattern_info.bitmap = bitmap_pattern;
  981. res = wmi_unified_cmd_send(wmi_handle, buf, len,
  982. WMI_WOW_ADD_WAKE_PATTERN_CMDID);
  983. return (res == A_OK) ? QDF_STATUS_SUCCESS : QDF_STATUS_E_FAILURE;
  984. }
  985. /**
  986. * send_wow_remove_wakeup_pattern_cmd_non_tlv() - WMI wow remove wakeup
  987. * pattern function
  988. *
  989. * @param wmi_handle : handle to WMI.
  990. * @param param : pointer to hold wow wakeup pattern parameter
  991. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  992. */
  993. QDF_STATUS send_wow_remove_wakeup_pattern_cmd_non_tlv(wmi_unified_t wmi_handle,
  994. struct wow_remove_wakeup_pattern_params *param)
  995. {
  996. WMI_WOW_DEL_PATTERN_CMD *cmd;
  997. A_STATUS res;
  998. wmi_buf_t buf = NULL;
  999. int len = sizeof(WMI_WOW_DEL_PATTERN_CMD);
  1000. buf = wmi_buf_alloc(wmi_handle, len);
  1001. if (!buf) {
  1002. qdf_print("buf alloc failed\n");
  1003. return QDF_STATUS_E_NOMEM;
  1004. }
  1005. cmd = (WMI_WOW_DEL_PATTERN_CMD *)wmi_buf_data(buf);
  1006. cmd->pattern_id = param->pattern_id;
  1007. cmd->pattern_type = WOW_BITMAP_PATTERN;
  1008. res = wmi_unified_cmd_send(wmi_handle, buf, len,
  1009. WMI_WOW_DEL_WAKE_PATTERN_CMDID);
  1010. return (res == A_OK) ? QDF_STATUS_SUCCESS : QDF_STATUS_E_FAILURE;
  1011. }
  1012. /**
  1013. * send_set_ap_ps_param_cmd_non_tlv() - set ap powersave parameters
  1014. * @param wmi_handle : handle to WMI.
  1015. * @peer_addr: peer mac address
  1016. * @param: pointer to ap_ps parameter structure
  1017. *
  1018. * Return: 0 for success or error code
  1019. */
  1020. QDF_STATUS send_set_ap_ps_param_cmd_non_tlv(wmi_unified_t wmi_handle,
  1021. uint8_t *peer_addr,
  1022. struct ap_ps_params *param)
  1023. {
  1024. wmi_ap_ps_peer_cmd *cmd;
  1025. wmi_buf_t buf;
  1026. buf = wmi_buf_alloc(wmi_handle, sizeof(*cmd));
  1027. if (!buf) {
  1028. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1029. return QDF_STATUS_E_FAILURE;
  1030. }
  1031. cmd = (wmi_ap_ps_peer_cmd *)wmi_buf_data(buf);
  1032. cmd->vdev_id = param->vdev_id;
  1033. WMI_CHAR_ARRAY_TO_MAC_ADDR(peer_addr, &cmd->peer_macaddr);
  1034. cmd->param = param->param;
  1035. cmd->value = param->value;
  1036. return wmi_unified_cmd_send(wmi_handle, buf, sizeof(*cmd),
  1037. WMI_AP_PS_PEER_PARAM_CMDID);
  1038. }
  1039. /**
  1040. * send_set_sta_ps_param_cmd_non_tlv() - set sta powersave parameters
  1041. * @param wmi_handle : handle to WMI.
  1042. * @param: pointer to sta_ps parameter structure
  1043. *
  1044. * Return: 0 for success or error code
  1045. */
  1046. QDF_STATUS send_set_sta_ps_param_cmd_non_tlv(wmi_unified_t wmi_handle,
  1047. struct sta_ps_params *param)
  1048. {
  1049. wmi_sta_powersave_param_cmd *cmd;
  1050. wmi_buf_t buf;
  1051. buf = wmi_buf_alloc(wmi_handle, sizeof(*cmd));
  1052. if (!buf) {
  1053. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1054. return QDF_STATUS_E_FAILURE;
  1055. }
  1056. cmd = (wmi_sta_powersave_param_cmd *)wmi_buf_data(buf);
  1057. cmd->vdev_id = param->vdev_id;
  1058. cmd->param = param->param;
  1059. cmd->value = param->value;
  1060. return wmi_unified_cmd_send(wmi_handle, buf, sizeof(*cmd),
  1061. WMI_STA_POWERSAVE_PARAM_CMDID);
  1062. }
  1063. /**
  1064. * send_set_ps_mode_cmd_non_tlv() - set powersave mode
  1065. * @wmi_handle: wmi handle
  1066. * @param: pointer to ps_mode parameter structure
  1067. *
  1068. * Return: 0 for success or error code
  1069. */
  1070. QDF_STATUS send_set_ps_mode_cmd_non_tlv(wmi_unified_t wmi_handle,
  1071. struct set_ps_mode_params *param)
  1072. {
  1073. wmi_sta_powersave_mode_cmd *cmd;
  1074. wmi_buf_t buf;
  1075. int ret;
  1076. buf = wmi_buf_alloc(wmi_handle, sizeof(*cmd));
  1077. if (!buf) {
  1078. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1079. return QDF_STATUS_E_FAILURE;
  1080. }
  1081. qdf_print("%s:set psmode=%d\n", __func__, param->psmode);
  1082. cmd = (wmi_sta_powersave_mode_cmd *)wmi_buf_data(buf);
  1083. cmd->vdev_id = param->vdev_id;
  1084. cmd->sta_ps_mode = param->psmode;
  1085. ret = wmi_unified_cmd_send(wmi_handle, buf, sizeof(*cmd),
  1086. WMI_STA_POWERSAVE_MODE_CMDID);
  1087. return ret;
  1088. }
  1089. /**
  1090. * send_crash_inject_cmd_non_tlv() - inject fw crash
  1091. * @param wmi_handle : handle to WMI.
  1092. * @param: ponirt to crash inject paramter structure
  1093. *
  1094. * Return: 0 for success or return error
  1095. */
  1096. QDF_STATUS send_crash_inject_cmd_non_tlv(wmi_unified_t wmi_handle,
  1097. struct crash_inject *param)
  1098. {
  1099. WMI_FORCE_FW_HANG_CMD *cmd;
  1100. wmi_buf_t buf;
  1101. int32_t len = sizeof(WMI_FORCE_FW_HANG_CMD);
  1102. buf = wmi_buf_alloc(wmi_handle, len);
  1103. if (!buf) {
  1104. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1105. return QDF_STATUS_E_FAILURE;
  1106. }
  1107. cmd = (WMI_FORCE_FW_HANG_CMD *)wmi_buf_data(buf);
  1108. cmd->type = 1;
  1109. /* Should this be param->type ? */
  1110. cmd->delay_time_ms = param->delay_time_ms;
  1111. return wmi_unified_cmd_send(wmi_handle, buf, len,
  1112. WMI_FORCE_FW_HANG_CMDID);
  1113. }
  1114. /**
  1115. * send_dbglog_cmd_non_tlv() - set debug log level
  1116. *
  1117. * @param wmi_handle : handle to WMI.
  1118. * @param param : pointer to hold dbglog level parameter
  1119. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1120. */
  1121. QDF_STATUS
  1122. send_dbglog_cmd_non_tlv(wmi_unified_t wmi_handle,
  1123. struct dbglog_params *dbglog_param)
  1124. {
  1125. wmi_buf_t osbuf;
  1126. WMI_DBGLOG_CFG_CMD *cmd;
  1127. QDF_STATUS status;
  1128. osbuf = wmi_buf_alloc(wmi_handle, sizeof(*cmd));
  1129. if (osbuf == NULL)
  1130. return QDF_STATUS_E_NOMEM;
  1131. qdf_nbuf_put_tail(osbuf, sizeof(*cmd));
  1132. cmd = (WMI_DBGLOG_CFG_CMD *)(wmi_buf_data(osbuf));
  1133. qdf_print("wmi_dbg_cfg_send: mod[0]%08x dbgcfg%08x cfgvalid[0] %08x"
  1134. " cfgvalid[1] %08x\n",
  1135. dbglog_param->module_id_bitmap[0],
  1136. dbglog_param->val, dbglog_param->cfgvalid[0],
  1137. dbglog_param->cfgvalid[1]);
  1138. cmd->config.cfgvalid[0] = dbglog_param->cfgvalid[0];
  1139. cmd->config.cfgvalid[1] = dbglog_param->cfgvalid[1];
  1140. cmd->config.config.mod_id[0] = dbglog_param->module_id_bitmap[0];
  1141. cmd->config.config.dbg_config = dbglog_param->val;
  1142. status = wmi_unified_cmd_send(wmi_handle, osbuf,
  1143. sizeof(WMI_DBGLOG_CFG_CMD),
  1144. WMI_DBGLOG_CFG_CMDID);
  1145. return status;
  1146. }
  1147. /**
  1148. * send_vdev_set_param_cmd_non_tlv() - WMI vdev set parameter function
  1149. *
  1150. * @param wmi_handle : handle to WMI.
  1151. * @param param : pointer to hold vdev set parameter
  1152. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1153. */
  1154. QDF_STATUS send_vdev_set_param_cmd_non_tlv(wmi_unified_t wmi_handle,
  1155. struct vdev_set_params *param)
  1156. {
  1157. wmi_vdev_set_param_cmd *cmd;
  1158. wmi_buf_t buf;
  1159. int len = sizeof(wmi_vdev_set_param_cmd);
  1160. if ((param->param_id < wmi_vdev_param_max) &&
  1161. (wmi_handle->vdev_param[param->param_id] !=
  1162. WMI_UNAVAILABLE_PARAM)) {
  1163. buf = wmi_buf_alloc(wmi_handle, len);
  1164. if (!buf) {
  1165. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1166. return QDF_STATUS_E_FAILURE;
  1167. }
  1168. cmd = (wmi_vdev_set_param_cmd *)wmi_buf_data(buf);
  1169. cmd->vdev_id = param->if_id;
  1170. cmd->param_id = wmi_handle->vdev_param[param->param_id];
  1171. cmd->param_value = param->param_value;
  1172. return wmi_unified_cmd_send(wmi_handle, buf, len,
  1173. WMI_VDEV_SET_PARAM_CMDID);
  1174. }
  1175. return QDF_STATUS_E_FAILURE;
  1176. }
  1177. /**
  1178. * get_stats_id_non_tlv() - Get stats identifier function
  1179. *
  1180. * @param host_stats_id: host stats identifier value
  1181. * @return stats_id based on host_stats_id
  1182. */
  1183. static uint32_t get_stats_id_non_tlv(wmi_host_stats_id host_stats_id)
  1184. {
  1185. uint32_t stats_id = 0;
  1186. if (host_stats_id & WMI_HOST_REQUEST_PEER_STAT)
  1187. stats_id |= WMI_REQUEST_PEER_STAT;
  1188. if (host_stats_id & WMI_HOST_REQUEST_AP_STAT)
  1189. stats_id |= WMI_REQUEST_AP_STAT;
  1190. if (host_stats_id & WMI_HOST_REQUEST_INST_STAT)
  1191. stats_id |= WMI_REQUEST_INST_STAT;
  1192. if (host_stats_id & WMI_HOST_REQUEST_PEER_EXTD_STAT)
  1193. stats_id |= WMI_REQUEST_PEER_EXTD_STAT;
  1194. return stats_id;
  1195. }
  1196. /**
  1197. * send_stats_request_cmd_non_tlv() - WMI request stats function
  1198. *
  1199. * @param wmi_handle : handle to WMI.
  1200. * @param macaddr : MAC address
  1201. * @param param : pointer to hold stats request parameter
  1202. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1203. */
  1204. QDF_STATUS send_stats_request_cmd_non_tlv(wmi_unified_t wmi_handle,
  1205. uint8_t macaddr[IEEE80211_ADDR_LEN],
  1206. struct stats_request_params *param)
  1207. {
  1208. wmi_buf_t buf;
  1209. wmi_request_stats_cmd *cmd;
  1210. uint8_t len = sizeof(wmi_request_stats_cmd);
  1211. buf = wmi_buf_alloc(wmi_handle, len);
  1212. if (!buf) {
  1213. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1214. return QDF_STATUS_E_INVAL;
  1215. }
  1216. cmd = (wmi_request_stats_cmd *)wmi_buf_data(buf);
  1217. cmd->stats_id = get_stats_id_non_tlv(param->stats_id);
  1218. cmd->vdev_id = param->vdev_id;
  1219. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  1220. cmd->inst_rssi_args.cfg_retry_count = param->rssi_args.cfg_retry_count;
  1221. cmd->inst_rssi_args.retry_count = param->rssi_args.retry_count;
  1222. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  1223. WMI_REQUEST_STATS_CMDID)) {
  1224. return QDF_STATUS_E_INVAL;
  1225. }
  1226. return QDF_STATUS_SUCCESS;
  1227. }
  1228. /**
  1229. * send_bss_chan_info_request_cmd_non_tlv() - WMI request bss chan info
  1230. *
  1231. * @param wmi_handle : handle to WMI.
  1232. * @param param : pointer to hold bss chan info request parameter
  1233. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1234. */
  1235. QDF_STATUS send_bss_chan_info_request_cmd_non_tlv(wmi_unified_t wmi_handle,
  1236. struct bss_chan_info_request_params *param)
  1237. {
  1238. wmi_buf_t buf;
  1239. wmi_pdev_bss_chan_info_request *cmd;
  1240. u_int8_t len = sizeof(wmi_pdev_bss_chan_info_request);
  1241. buf = wmi_buf_alloc(wmi_handle, len);
  1242. if (!buf) {
  1243. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1244. return QDF_STATUS_E_INVAL;
  1245. }
  1246. cmd = (wmi_pdev_bss_chan_info_request *)wmi_buf_data(buf);
  1247. cmd->param = param->param;
  1248. cmd->reserved = 0;
  1249. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  1250. WMI_PDEV_BSS_CHAN_INFO_REQUEST_CMDID)) {
  1251. return QDF_STATUS_E_INVAL;
  1252. }
  1253. return QDF_STATUS_SUCCESS;
  1254. }
  1255. /**
  1256. * send_packet_log_enable_cmd_non_tlv() - WMI request stats function
  1257. *
  1258. * @param wmi_handle : handle to WMI.
  1259. * @param PKTLOG_EVENT : packet log event
  1260. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1261. */
  1262. QDF_STATUS send_packet_log_enable_cmd_non_tlv(wmi_unified_t wmi_handle,
  1263. WMI_HOST_PKTLOG_EVENT PKTLOG_EVENT)
  1264. {
  1265. wmi_pdev_pktlog_enable_cmd *cmd;
  1266. int len = 0;
  1267. wmi_buf_t buf;
  1268. len = sizeof(wmi_pdev_pktlog_enable_cmd);
  1269. buf = wmi_buf_alloc(wmi_handle, len);
  1270. if (!buf) {
  1271. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1272. return QDF_STATUS_E_NOMEM;
  1273. }
  1274. cmd = (wmi_pdev_pktlog_enable_cmd *)wmi_buf_data(buf);
  1275. cmd->evlist = PKTLOG_EVENT;
  1276. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  1277. WMI_PDEV_PKTLOG_ENABLE_CMDID)) {
  1278. return QDF_STATUS_E_FAILURE;
  1279. }
  1280. return QDF_STATUS_SUCCESS;
  1281. }
  1282. /**
  1283. * send_packet_log_disable_cmd_non_tlv() - WMI disable packet log send function
  1284. *
  1285. * @param wmi_handle : handle to WMI.
  1286. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1287. */
  1288. QDF_STATUS send_packet_log_disable_cmd_non_tlv(wmi_unified_t wmi_handle)
  1289. {
  1290. int len = 0;
  1291. wmi_buf_t buf;
  1292. buf = wmi_buf_alloc(wmi_handle, 0);
  1293. if (!buf) {
  1294. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1295. return QDF_STATUS_E_NOMEM;
  1296. }
  1297. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  1298. WMI_PDEV_PKTLOG_DISABLE_CMDID)) {
  1299. return QDF_STATUS_E_FAILURE;
  1300. }
  1301. return QDF_STATUS_SUCCESS;
  1302. }
  1303. /**
  1304. * send_beacon_send_cmd_non_tlv() - WMI beacon send function
  1305. *
  1306. * @param wmi_handle : handle to WMI.
  1307. * @param param : pointer to hold beacon send cmd parameter
  1308. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1309. */
  1310. QDF_STATUS send_beacon_send_cmd_non_tlv(wmi_unified_t wmi_handle,
  1311. struct beacon_params *param)
  1312. {
  1313. if (param->is_high_latency) {
  1314. wmi_bcn_tx_cmd *cmd;
  1315. wmi_buf_t wmi_buf;
  1316. int bcn_len = qdf_nbuf_len(param->wbuf);
  1317. int len = sizeof(wmi_bcn_tx_hdr) + bcn_len;
  1318. /*************************************************************
  1319. * TODO: Once we have the host target transport framework for
  1320. * sending management frames this wmi function will be replaced
  1321. * with calls to HTT. The buffer will changed to match the right
  1322. * format to be used with HTT.
  1323. *************************************************************/
  1324. wmi_buf = wmi_buf_alloc(wmi_handle, roundup(len,
  1325. sizeof(u_int32_t)));
  1326. if (!wmi_buf) {
  1327. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1328. return QDF_STATUS_E_NOMEM;
  1329. }
  1330. cmd = (wmi_bcn_tx_cmd *)wmi_buf_data(wmi_buf);
  1331. cmd->hdr.vdev_id = param->vdev_id;
  1332. cmd->hdr.buf_len = bcn_len;
  1333. #ifdef BIG_ENDIAN_HOST
  1334. {
  1335. /* for big endian host, copy engine byte_swap is enabled
  1336. * But the beacon buffer content is in network byte
  1337. * order Need to byte swap the beacon buffer content -
  1338. * so when copy engine does byte_swap - target gets
  1339. * buffer content in the correct order
  1340. */
  1341. int i;
  1342. u_int32_t *destp, *srcp;
  1343. destp = (u_int32_t *)cmd->bufp;
  1344. srcp = (u_int32_t *)wmi_buf_data(param->wbuf);
  1345. for (i = 0; i < (roundup(bcn_len,
  1346. sizeof(u_int32_t))/4); i++) {
  1347. *destp = le32_to_cpu(*srcp);
  1348. destp++; srcp++;
  1349. }
  1350. }
  1351. #else
  1352. qdf_mem_copy(cmd->bufp, wmi_buf_data(param->wbuf), bcn_len);
  1353. #endif
  1354. #ifdef DEBUG_BEACON
  1355. qdf_print("%s frm length %d\n", __func__, bcn_len);
  1356. #endif
  1357. wmi_unified_cmd_send(wmi_handle, wmi_buf,
  1358. roundup(len, sizeof(u_int32_t)), WMI_BCN_TX_CMDID);
  1359. } else {
  1360. wmi_bcn_send_from_host_cmd_t *cmd;
  1361. wmi_buf_t wmi_buf;
  1362. int bcn_len = qdf_nbuf_len(param->wbuf);
  1363. int len = sizeof(wmi_bcn_send_from_host_cmd_t);
  1364. A_UINT32 dtim_flag = 0;
  1365. /* get the DTIM count */
  1366. if (param->is_dtim_count_zero) {
  1367. dtim_flag |= WMI_BCN_SEND_DTIM_ZERO;
  1368. if (param->is_bitctl_reqd) {
  1369. /* deliver CAB traffic in next DTIM beacon */
  1370. dtim_flag |= WMI_BCN_SEND_DTIM_BITCTL_SET;
  1371. }
  1372. }
  1373. /* Map the beacon buffer to DMA region */
  1374. wmi_buf = wmi_buf_alloc(wmi_handle, roundup(len,
  1375. sizeof(u_int32_t)));
  1376. if (!wmi_buf) {
  1377. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1378. return QDF_STATUS_E_NOMEM;
  1379. }
  1380. cmd = (wmi_bcn_send_from_host_cmd_t *)wmi_buf_data(wmi_buf);
  1381. cmd->vdev_id = param->vdev_id;
  1382. cmd->data_len = bcn_len;
  1383. cmd->frame_ctrl = param->frame_ctrl;
  1384. cmd->dtim_flag = dtim_flag;
  1385. cmd->frag_ptr = qdf_nbuf_get_frag_paddr(param->wbuf, 0);
  1386. #if SUPPORT_64BIT_CHANGES
  1387. cmd->virt_addr = (uintptr_t)param->wbuf;
  1388. #else
  1389. cmd->virt_addr = (A_UINT32)param->wbuf;
  1390. #endif
  1391. cmd->bcn_antenna = param->bcn_txant;
  1392. wmi_unified_cmd_send(wmi_handle, wmi_buf, len,
  1393. WMI_PDEV_SEND_BCN_CMDID);
  1394. }
  1395. return QDF_STATUS_SUCCESS;
  1396. }
  1397. #if 0
  1398. /**
  1399. * send_bcn_prb_template_cmd_non_tlv() - WMI beacon probe template function
  1400. *
  1401. * @param wmi_handle : handle to WMI.
  1402. * @param macaddr : MAC address
  1403. * @param param : pointer to hold beacon prb template cmd parameter
  1404. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1405. */
  1406. QDF_STATUS send_bcn_prb_template_cmd_non_tlv(wmi_unified_t wmi_handle,
  1407. struct bcn_prb_template_params *param)
  1408. {
  1409. wmi_bcn_prb_tmpl_cmd *cmd;
  1410. wmi_buf_t buf;
  1411. wmi_bcn_prb_info *template;
  1412. int len = sizeof(wmi_bcn_prb_tmpl_cmd);
  1413. int ret;
  1414. /*
  1415. * The target will store this information for use with
  1416. * the beacons and probes.
  1417. */
  1418. buf = wmi_buf_alloc(wmi_handle, len);
  1419. if (!buf) {
  1420. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1421. return QDF_STATUS_E_NOMEM;
  1422. }
  1423. cmd = (wmi_bcn_prb_tmpl_cmd *)wmi_buf_data(buf);
  1424. cmd->vdev_id = param->vdev_id;
  1425. cmd->buf_len = param->buf_len;
  1426. template = &cmd->bcn_prb_info;
  1427. template->caps = param->caps;
  1428. template->erp = param->erp;
  1429. /* TODO: Few more elements to be added and copied to the template
  1430. * buffer */
  1431. /* Send the beacon probe template to the target */
  1432. ret = wmi_unified_cmd_send(wmi_handle, buf, len,
  1433. WMI_BCN_PRB_TMPL_CMDID);
  1434. return ret;
  1435. }
  1436. #endif
  1437. /**
  1438. * send_peer_assoc_cmd_non_tlv() - WMI peer assoc function
  1439. *
  1440. * @param wmi_handle : handle to WMI.
  1441. * @param param : pointer to peer assoc parameter
  1442. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1443. */
  1444. QDF_STATUS send_peer_assoc_cmd_non_tlv(wmi_unified_t wmi_handle,
  1445. struct peer_assoc_params *param)
  1446. {
  1447. wmi_peer_assoc_complete_cmd *cmd;
  1448. int len = sizeof(wmi_peer_assoc_complete_cmd);
  1449. wmi_buf_t buf;
  1450. buf = wmi_buf_alloc(wmi_handle, len);
  1451. if (!buf) {
  1452. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1453. return QDF_STATUS_E_FAILURE;
  1454. }
  1455. cmd = (wmi_peer_assoc_complete_cmd *)wmi_buf_data(buf);
  1456. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->peer_mac, &cmd->peer_macaddr);
  1457. cmd->vdev_id = param->vdev_id;
  1458. cmd->peer_new_assoc = param->peer_new_assoc;
  1459. cmd->peer_associd = param->peer_associd;
  1460. cmd->peer_bw_rxnss_override = 0;
  1461. /*
  1462. * The target only needs a subset of the flags maintained in the host.
  1463. * Just populate those flags and send it down
  1464. */
  1465. cmd->peer_flags = 0;
  1466. if (param->is_pmf_enabled)
  1467. cmd->peer_flags |= WMI_PEER_PMF_ENABLED;
  1468. /*
  1469. * Do not enable HT/VHT if WMM/wme is disabled for vap.
  1470. */
  1471. if (param->is_wme_set) {
  1472. if (param->qos_flag)
  1473. cmd->peer_flags |= WMI_PEER_QOS;
  1474. if (param->apsd_flag)
  1475. cmd->peer_flags |= WMI_PEER_APSD;
  1476. if (param->ht_flag)
  1477. cmd->peer_flags |= WMI_PEER_HT;
  1478. if (param->bw_40)
  1479. cmd->peer_flags |= WMI_PEER_40MHZ;
  1480. if (param->bw_80)
  1481. cmd->peer_flags |= WMI_PEER_80MHZ;
  1482. if (param->bw_160)
  1483. cmd->peer_flags |= WMI_PEER_160MHZ;
  1484. /* Typically if STBC is enabled for VHT it should be enabled
  1485. * for HT as well */
  1486. if (param->stbc_flag)
  1487. cmd->peer_flags |= WMI_PEER_STBC;
  1488. /* Typically if LDPC is enabled for VHT it should be enabled
  1489. * for HT as well */
  1490. if (param->ldpc_flag)
  1491. cmd->peer_flags |= WMI_PEER_LDPC;
  1492. if (param->static_mimops_flag)
  1493. cmd->peer_flags |= WMI_PEER_STATIC_MIMOPS;
  1494. if (param->dynamic_mimops_flag)
  1495. cmd->peer_flags |= WMI_PEER_DYN_MIMOPS;
  1496. if (param->spatial_mux_flag)
  1497. cmd->peer_flags |= WMI_PEER_SPATIAL_MUX;
  1498. if (param->vht_flag)
  1499. cmd->peer_flags |= WMI_PEER_VHT;
  1500. if (param->vht_ng_flag)
  1501. cmd->peer_flags |= WMI_PEER_VHT_2G;
  1502. }
  1503. /*
  1504. * Suppress authorization for all AUTH modes that need 4-way handshake
  1505. * (during re-association).
  1506. * Authorization will be done for these modes on key installation.
  1507. */
  1508. if (param->auth_flag)
  1509. cmd->peer_flags |= WMI_PEER_AUTH;
  1510. if (param->need_ptk_4_way)
  1511. cmd->peer_flags |= WMI_PEER_NEED_PTK_4_WAY;
  1512. else
  1513. cmd->peer_flags &= ~WMI_PEER_NEED_PTK_4_WAY;
  1514. if (param->need_gtk_2_way)
  1515. cmd->peer_flags |= WMI_PEER_NEED_GTK_2_WAY;
  1516. /* safe mode bypass the 4-way handshake */
  1517. if (param->safe_mode_enabled)
  1518. cmd->peer_flags &=
  1519. ~(WMI_PEER_NEED_PTK_4_WAY | WMI_PEER_NEED_GTK_2_WAY);
  1520. /* Disable AMSDU for station transmit, if user configures it */
  1521. /* Disable AMSDU for AP transmit to 11n Stations, if user configures
  1522. * it */
  1523. if (param->amsdu_disable)
  1524. cmd->peer_flags |= WMI_PEER_AMSDU_DISABLE;
  1525. cmd->peer_caps = param->peer_caps;
  1526. cmd->peer_listen_intval = param->peer_listen_intval;
  1527. cmd->peer_ht_caps = param->peer_ht_caps;
  1528. cmd->peer_max_mpdu = param->peer_max_mpdu;
  1529. cmd->peer_mpdu_density = param->peer_mpdu_density;
  1530. cmd->peer_vht_caps = param->peer_vht_caps;
  1531. /* Update peer rate information */
  1532. cmd->peer_rate_caps = param->peer_rate_caps;
  1533. cmd->peer_legacy_rates.num_rates = param->peer_legacy_rates.num_rates;
  1534. /* NOTE: cmd->peer_legacy_rates.rates is of type A_UINT32 */
  1535. /* ni->ni_rates.rs_rates is of type u_int8_t */
  1536. /**
  1537. * for cmd->peer_legacy_rates.rates:
  1538. * rates (each 8bit value) packed into a 32 bit word.
  1539. * the rates are filled from least significant byte to most
  1540. * significant byte.
  1541. */
  1542. qdf_mem_copy(cmd->peer_legacy_rates.rates,
  1543. param->peer_legacy_rates.rates,
  1544. param->peer_legacy_rates.num_rates);
  1545. #ifdef BIG_ENDIAN_HOST
  1546. int i;
  1547. for (i = 0;
  1548. i < param->peer_legacy_rates.num_rates/sizeof(A_UINT32) + 1;
  1549. i++)
  1550. cmd->peer_legacy_rates.rates[i] =
  1551. le32_to_cpu(cmd->peer_legacy_rates.rates[i]);
  1552. #endif
  1553. cmd->peer_ht_rates.num_rates = param->peer_ht_rates.num_rates;
  1554. qdf_mem_copy(cmd->peer_ht_rates.rates, param->peer_ht_rates.rates,
  1555. param->peer_ht_rates.num_rates);
  1556. #ifdef BIG_ENDIAN_HOST
  1557. for (i = 0; i < param->peer_ht_rates.num_rates/sizeof(A_UINT32) + 1;
  1558. i++)
  1559. cmd->peer_ht_rates.rates[i] =
  1560. le32_to_cpu(cmd->peer_ht_rates.rates[i]);
  1561. #endif
  1562. if (param->ht_flag &&
  1563. (param->peer_ht_rates.num_rates == 0)) {
  1564. /* Workaround for EV 116382: The node is marked HT but with
  1565. * supported rx mcs set is set to 0. 11n spec mandates MCS0-7
  1566. * for a HT STA. So forcing the supported rx mcs rate to MCS
  1567. * 0-7.
  1568. * This workaround will be removed once we get clarification
  1569. * from WFA regarding this STA behavior
  1570. */
  1571. u_int8_t temp_ni_rates[8] = {
  1572. 0x0, 0x1, 0x2, 0x3, 0x4, 0x5, 0x6, 0x7};
  1573. cmd->peer_ht_rates.num_rates = 8;
  1574. qdf_mem_copy(cmd->peer_ht_rates.rates, temp_ni_rates,
  1575. cmd->peer_ht_rates.num_rates);
  1576. }
  1577. /* Target asserts if node is marked HT and all MCS is set to 0.
  1578. Mark the node as non-HT if all the mcs rates are disabled through
  1579. iwpriv */
  1580. if (cmd->peer_ht_rates.num_rates == 0)
  1581. cmd->peer_flags &= ~WMI_PEER_HT;
  1582. cmd->peer_nss = param->peer_nss;
  1583. if (param->vht_capable) {
  1584. wmi_vht_rate_set *mcs;
  1585. mcs = &cmd->peer_vht_rates;
  1586. mcs->rx_max_rate = param->rx_max_rate;
  1587. mcs->rx_mcs_set = param->rx_mcs_set;
  1588. mcs->tx_max_rate = param->tx_max_rate;
  1589. mcs->tx_mcs_set = param->tx_mcs_set;
  1590. mcs->tx_max_mcs_nss = param->tx_max_mcs_nss;
  1591. }
  1592. cmd->peer_phymode = param->peer_phymode;
  1593. /*Send bandwidth-NSS mapping to FW*/
  1594. cmd->peer_bw_rxnss_override |= param->peer_bw_rxnss_override;
  1595. return wmi_unified_cmd_send(wmi_handle, buf, len, WMI_PEER_ASSOC_CMDID);
  1596. }
  1597. /**
  1598. * send_scan_start_cmd_non_tlv() - WMI scan start function
  1599. *
  1600. * @param wmi_handle : handle to WMI.
  1601. * @param param : pointer to hold scan start cmd parameter
  1602. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1603. */
  1604. QDF_STATUS send_scan_start_cmd_non_tlv(wmi_unified_t wmi_handle,
  1605. struct scan_start_params *param)
  1606. {
  1607. wmi_start_scan_cmd *cmd;
  1608. wmi_buf_t buf;
  1609. wmi_chan_list *chan_list;
  1610. wmi_bssid_list *bssid_list;
  1611. wmi_ssid_list *ssid_list;
  1612. wmi_ie_data *ie_data;
  1613. A_UINT32 *tmp_ptr;
  1614. int i, len = sizeof(wmi_start_scan_cmd);
  1615. #ifdef TEST_CODE
  1616. len += sizeof(wmi_chan_list) + 3 * sizeof(A_UINT32);
  1617. #else
  1618. if (param->num_chan) {
  1619. len += sizeof(wmi_chan_list) + (param->num_chan - 1)
  1620. * sizeof(A_UINT32);
  1621. }
  1622. #endif
  1623. if (param->num_ssids) {
  1624. len += sizeof(wmi_ssid_list) + (param->num_ssids - 1)
  1625. * sizeof(wmi_ssid);
  1626. }
  1627. if (param->num_bssid) {
  1628. len += sizeof(wmi_bssid_list) + (param->num_bssid - 1)
  1629. * sizeof(wmi_mac_addr);
  1630. }
  1631. if (param->ie_len) {
  1632. i = param->ie_len % sizeof(A_UINT32);
  1633. if (i)
  1634. len += sizeof(A_UINT32) - i;
  1635. len += 2 * sizeof(A_UINT32) + param->ie_len;
  1636. }
  1637. buf = wmi_buf_alloc(wmi_handle, len);
  1638. if (!buf) {
  1639. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1640. return QDF_STATUS_E_NOMEM;
  1641. }
  1642. cmd = (wmi_start_scan_cmd *)wmi_buf_data(buf);
  1643. OS_MEMZERO(cmd, len);
  1644. cmd->vdev_id = param->vdev_id;
  1645. cmd->scan_priority = param->scan_priority;
  1646. cmd->scan_id = param->scan_id;
  1647. cmd->scan_req_id = param->scan_req_id;
  1648. /** Scan events subscription */
  1649. cmd->notify_scan_events = WMI_SCAN_EVENT_STARTED |
  1650. WMI_SCAN_EVENT_COMPLETED |
  1651. WMI_SCAN_EVENT_BSS_CHANNEL |
  1652. WMI_SCAN_EVENT_FOREIGN_CHANNEL |
  1653. WMI_SCAN_EVENT_DEQUEUED
  1654. #if QCA_LTEU_SUPPORT
  1655. | WMI_SCAN_EVENT_INVALID
  1656. #endif
  1657. ;
  1658. /** Max. active channel dwell time */
  1659. cmd->dwell_time_active = param->dwell_time_active;
  1660. /** Passive channel dwell time */
  1661. cmd->dwell_time_passive = param->dwell_time_passive;
  1662. /** Scan control flags */
  1663. cmd->scan_ctrl_flags = (param->passive_flag) ?
  1664. WMI_SCAN_FLAG_PASSIVE : 0;
  1665. if (param->is_promiscous_mode)
  1666. cmd->scan_ctrl_flags |= WMI_SCAN_PROMISCOUS_MODE;
  1667. if (param->is_phy_error)
  1668. cmd->scan_ctrl_flags |= WMI_SCAN_CAPTURE_PHY_ERROR;
  1669. /** send multiple braodcast probe req with this delay in between */
  1670. cmd->repeat_probe_time = param->repeat_probe_time;
  1671. /** delay between channel change and first probe request */
  1672. cmd->probe_delay = param->probe_delay;
  1673. /** idle time on channel for which if no traffic is seen
  1674. then scanner can switch to off channel */
  1675. cmd->idle_time = param->idle_time;
  1676. cmd->min_rest_time = param->min_rest_time;
  1677. /** maximum rest time allowed on bss channel, overwrites
  1678. * other conditions and changes channel to off channel
  1679. * even if min beacon count, idle time requirements are not met.
  1680. */
  1681. cmd->max_rest_time = param->max_rest_time;
  1682. /** maxmimum scan time allowed */
  1683. #if IPQ4019_EMU
  1684. cmd->max_scan_time = 0xffffffff;
  1685. #else
  1686. cmd->max_scan_time = param->max_scan_time;
  1687. #endif
  1688. cmd->scan_ctrl_flags |= WMI_SCAN_ADD_OFDM_RATES;
  1689. /* add cck rates if required */
  1690. if (param->add_cck_rates)
  1691. cmd->scan_ctrl_flags |= WMI_SCAN_ADD_CCK_RATES;
  1692. /** It enables the Channel stat event indication to host */
  1693. if (param->chan_stat_enable)
  1694. cmd->scan_ctrl_flags |= WMI_SCAN_CHAN_STAT_EVENT;
  1695. if (param->add_bcast_probe_reqd)
  1696. cmd->scan_ctrl_flags |= WMI_SCAN_ADD_BCAST_PROBE_REQ;
  1697. /* off channel TX control */
  1698. if (param->offchan_tx_mgmt)
  1699. cmd->scan_ctrl_flags |= WMI_SCAN_OFFCHAN_MGMT_TX;
  1700. if (param->offchan_tx_data)
  1701. cmd->scan_ctrl_flags |= WMI_SCAN_OFFCHAN_DATA_TX;
  1702. tmp_ptr = (A_UINT32 *) (cmd + 1);
  1703. #ifdef TEST_CODE
  1704. #define DEFAULT_TIME 150
  1705. cmd->min_rest_time = DEFAULT_TIME;
  1706. cmd->idle_time = 10*DEFAULT_TIME;
  1707. cmd->max_rest_time = 30*DEFAULT_TIME;
  1708. chan_list = (wmi_chan_list *) tmp_ptr;
  1709. chan_list->tag = WMI_CHAN_LIST_TAG;
  1710. chan_list->num_chan = 4;
  1711. chan_list->channel_list[0] = 2412; /* 1 */
  1712. chan_list->channel_list[1] = 2437; /* 6 */
  1713. chan_list->channel_list[2] = 5180; /* 36 */-
  1714. chan_list->channel_list[3] = 5680; /* 136 */
  1715. tmp_ptr += (2 + chan_list->num_chan); /* increase by words */-
  1716. #else
  1717. #define FREQUENCY_THRESH 1000
  1718. if (param->num_chan) {
  1719. chan_list = (wmi_chan_list *) tmp_ptr;
  1720. chan_list->tag = WMI_CHAN_LIST_TAG;
  1721. chan_list->num_chan = param->num_chan;
  1722. qdf_mem_copy(chan_list->channel_list, param->chan_list,
  1723. ((param->num_chan) * sizeof(uint32_t)));
  1724. tmp_ptr += (2 + param->num_chan); /* increase by words */
  1725. }
  1726. #endif
  1727. if (param->num_ssids) {
  1728. ssid_list = (wmi_ssid_list *) tmp_ptr;
  1729. ssid_list->tag = WMI_SSID_LIST_TAG;
  1730. ssid_list->num_ssids = param->num_ssids;
  1731. for (i = 0; i < param->num_ssids; ++i) {
  1732. ssid_list->ssids[i].ssid_len = param->ssid[i].length;
  1733. WMI_HOST_IF_MSG_COPY_CHAR_ARRAY(
  1734. ssid_list->ssids[i].ssid,
  1735. param->ssid[i].mac_ssid,
  1736. param->ssid[i].length);
  1737. }
  1738. tmp_ptr += (2 + (sizeof(wmi_ssid) *
  1739. param->num_ssids)/sizeof(A_UINT32));
  1740. }
  1741. if (param->num_bssid) {
  1742. bssid_list = (wmi_bssid_list *) tmp_ptr;
  1743. bssid_list->tag = WMI_BSSID_LIST_TAG;
  1744. bssid_list->num_bssid = param->num_bssid;
  1745. for (i = 0; i < param->num_bssid; ++i) {
  1746. WMI_CHAR_ARRAY_TO_MAC_ADDR(&(param->bssid_list[i][0]),
  1747. &bssid_list->bssid_list[i]);
  1748. }
  1749. tmp_ptr += (2 + (sizeof(wmi_mac_addr) *
  1750. param->num_bssid)/sizeof(A_UINT32));
  1751. }
  1752. if (param->ie_len) {
  1753. ie_data = (wmi_ie_data *) tmp_ptr;
  1754. ie_data->tag = WMI_IE_TAG;
  1755. ie_data->ie_len = param->ie_len;
  1756. WMI_HOST_IF_MSG_COPY_CHAR_ARRAY(ie_data->ie_data,
  1757. param->ie_data, param->ie_len);
  1758. }
  1759. qdf_print("Sending SCAN START cmd\n");
  1760. return wmi_unified_cmd_send(wmi_handle, buf, len, WMI_START_SCAN_CMDID);
  1761. }
  1762. /**
  1763. * send_scan_stop_cmd_non_tlv() - WMI scan stop function
  1764. *
  1765. * @param wmi_handle : handle to WMI.
  1766. * @param param : pointer to hold scan start cmd parameter
  1767. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1768. */
  1769. QDF_STATUS send_scan_stop_cmd_non_tlv(wmi_unified_t wmi_handle,
  1770. struct scan_stop_params *param)
  1771. {
  1772. wmi_stop_scan_cmd *cmd = NULL;
  1773. wmi_buf_t buf;
  1774. u_int32_t len = sizeof(wmi_stop_scan_cmd);
  1775. wmi_scan_event wmi_scn_event;
  1776. buf = wmi_buf_alloc(wmi_handle, len);
  1777. if (!buf) {
  1778. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  1779. return QDF_STATUS_E_NOMEM;
  1780. }
  1781. cmd = (wmi_stop_scan_cmd *)wmi_buf_data(buf);
  1782. OS_MEMZERO(cmd, len);
  1783. /* scan scheduler is not supportd yet */
  1784. cmd->scan_id = param->scan_id;
  1785. cmd->requestor = param->requestor;
  1786. cmd->vdev_id = param->vdev_id;
  1787. if (param->all_scans) {
  1788. /* Cancelling all scans - always match scan id */
  1789. cmd->req_type = WMI_SCAN_STOP_ALL;
  1790. } else if (param->vap_scans) {
  1791. /*-
  1792. * Cancelling VAP scans - report a match if scan was requested
  1793. * by the same VAP trying to cancel it.
  1794. */
  1795. cmd->req_type = WMI_SCN_STOP_VAP_ALL;
  1796. } else if (param->specific_scan) {
  1797. /*-
  1798. * Cancelling specific scan - report a match if specified scan
  1799. * id matches the request's scan id.
  1800. */
  1801. cmd->req_type = WMI_SCAN_STOP_ONE;
  1802. }
  1803. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_STOP_SCAN_CMDID);
  1804. /* send a synchronous cancel command */
  1805. if (param->flags) {
  1806. OS_MEMZERO(&wmi_scn_event, sizeof(wmi_scn_event));
  1807. wmi_scn_event.event = WMI_SCAN_EVENT_COMPLETED;
  1808. wmi_scn_event.reason = WMI_SCAN_REASON_CANCELLED;
  1809. wmi_scn_event.requestor = param->requestor;
  1810. wmi_scn_event.scan_id = param->ss_scan_id;
  1811. }
  1812. return QDF_STATUS_SUCCESS;
  1813. }
  1814. /**
  1815. * send_scan_chan_list_cmd_non_tlv() - WMI scan channel list function
  1816. *
  1817. * @param wmi_handle : handle to WMI.
  1818. * @param param : pointer to hold scan channel list parameter
  1819. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1820. */
  1821. QDF_STATUS send_scan_chan_list_cmd_non_tlv(wmi_unified_t wmi_handle,
  1822. struct scan_chan_list_params *param)
  1823. {
  1824. uint32_t i;
  1825. wmi_buf_t buf;
  1826. wmi_scan_chan_list_cmd *cmd;
  1827. int len = sizeof(wmi_scan_chan_list_cmd);
  1828. len = sizeof(wmi_scan_chan_list_cmd) +
  1829. sizeof(wmi_channel)*param->nallchans;
  1830. buf = wmi_buf_alloc(wmi_handle, len);
  1831. if (!buf) {
  1832. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1833. return QDF_STATUS_E_NOMEM;
  1834. }
  1835. cmd = (wmi_scan_chan_list_cmd *)wmi_buf_data(buf);
  1836. cmd->num_scan_chans = param->nallchans;
  1837. OS_MEMZERO(cmd->chan_info, sizeof(wmi_channel)*cmd->num_scan_chans);
  1838. for (i = 0; i < param->nallchans; ++i) {
  1839. cmd->chan_info[i].mhz = param->ch_param[i].mhz;
  1840. if (param->ch_param[i].is_chan_passive)
  1841. WMI_SET_CHANNEL_FLAG(&(cmd->chan_info[i]),
  1842. WMI_CHAN_FLAG_PASSIVE);
  1843. if (param->ch_param[i].allow_vht)
  1844. WMI_SET_CHANNEL_FLAG(&(cmd->chan_info[i]),
  1845. WMI_CHAN_FLAG_ALLOW_VHT);
  1846. else if (param->ch_param[i].allow_ht)
  1847. WMI_SET_CHANNEL_FLAG(&(cmd->chan_info[i]),
  1848. WMI_CHAN_FLAG_ALLOW_HT);
  1849. cmd->chan_info[i].band_center_freq1 =
  1850. param->ch_param[i].cfreq1;
  1851. cmd->chan_info[i].band_center_freq2 =
  1852. param->ch_param[i].cfreq2;
  1853. WMI_SET_CHANNEL_MODE(&cmd->chan_info[i],
  1854. param->ch_param[i].phy_mode);
  1855. if (param->ch_param[i].half_rate)
  1856. WMI_SET_CHANNEL_FLAG(&(cmd->chan_info[i]),
  1857. WMI_CHAN_FLAG_HALF);
  1858. if (param->ch_param[i].quarter_rate)
  1859. WMI_SET_CHANNEL_FLAG(&(cmd->chan_info[i]),
  1860. WMI_CHAN_FLAG_QUARTER);
  1861. /* also fill in power information */
  1862. WMI_SET_CHANNEL_MIN_POWER(&cmd->chan_info[i],
  1863. param->ch_param[i].minpower);
  1864. WMI_SET_CHANNEL_MAX_POWER(&cmd->chan_info[i],
  1865. param->ch_param[i].maxpower);
  1866. WMI_SET_CHANNEL_REG_POWER(&cmd->chan_info[i],
  1867. param->ch_param[i].maxregpower);
  1868. WMI_SET_CHANNEL_ANTENNA_MAX(&cmd->chan_info[i],
  1869. param->ch_param[i].antennamax);
  1870. WMI_SET_CHANNEL_REG_CLASSID(&cmd->chan_info[i],
  1871. param->ch_param[i].reg_class_id);
  1872. }
  1873. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_SCAN_CHAN_LIST_CMDID);
  1874. return QDF_STATUS_SUCCESS;
  1875. }
  1876. /**
  1877. * send_thermal_mitigation_param_cmd_non_tlv() - WMI scan channel list function
  1878. *
  1879. * @param wmi_handle : handle to WMI.
  1880. * @param param : pointer to hold thermal mitigation param
  1881. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1882. */
  1883. QDF_STATUS send_thermal_mitigation_param_cmd_non_tlv(wmi_unified_t wmi_handle,
  1884. struct thermal_mitigation_params *param)
  1885. {
  1886. wmi_buf_t buf = NULL;
  1887. tt_config_t *cmd = NULL;
  1888. int error = 0;
  1889. int32_t len = 0;
  1890. int i = 0;
  1891. len = sizeof(tt_config_t);
  1892. buf = wmi_buf_alloc(wmi_handle, len);
  1893. if (!buf) {
  1894. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1895. return QDF_STATUS_E_NOMEM;
  1896. }
  1897. cmd = (tt_config_t *) wmi_buf_data(buf);
  1898. cmd->enable = param->enable;
  1899. cmd->dc = param->dc;
  1900. cmd->dc_per_event = param->dc_per_event;
  1901. for (i = 0; i < THERMAL_LEVELS; i++) {
  1902. cmd->levelconf[i].tmplwm = param->levelconf[i].tmplwm;
  1903. cmd->levelconf[i].tmphwm = param->levelconf[i].tmphwm;
  1904. cmd->levelconf[i].dcoffpercent =
  1905. param->levelconf[i].dcoffpercent;
  1906. cmd->levelconf[i].prio = param->levelconf[i].priority;
  1907. }
  1908. error = wmi_unified_cmd_send(wmi_handle, buf, len,
  1909. WMI_TT_SET_CONF_CMDID);
  1910. return error;
  1911. }
  1912. /**
  1913. * send_phyerr_enable_cmd_non_tlv() - WMI phyerr enable function
  1914. *
  1915. * @param wmi_handle : handle to WMI.
  1916. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1917. */
  1918. QDF_STATUS send_phyerr_enable_cmd_non_tlv(wmi_unified_t wmi_handle)
  1919. {
  1920. wmi_buf_t buf;
  1921. /*
  1922. * Passing a NULL pointer to wmi_unified_cmd_send() panics it,
  1923. * so let's just use a 32 byte fake array for now.
  1924. */
  1925. buf = wmi_buf_alloc(wmi_handle, 32);
  1926. if (buf == NULL) {
  1927. /* XXX error? */
  1928. return QDF_STATUS_E_NOMEM;
  1929. }
  1930. qdf_print("%s: about to send\n", __func__);
  1931. if (wmi_unified_cmd_send(wmi_handle, buf, 32,
  1932. WMI_PDEV_DFS_ENABLE_CMDID) != A_OK) {
  1933. qdf_print("%s: send failed\n", __func__);
  1934. return QDF_STATUS_E_FAILURE;
  1935. }
  1936. return QDF_STATUS_SUCCESS;
  1937. }
  1938. /**
  1939. * send_phyerr_disable_cmd_non_tlv() - WMI phyerr disable function
  1940. *
  1941. * @param wmi_handle : handle to WMI.
  1942. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1943. */
  1944. QDF_STATUS send_phyerr_disable_cmd_non_tlv(wmi_unified_t wmi_handle)
  1945. {
  1946. wmi_buf_t buf;
  1947. /*
  1948. * Passing a NULL pointer to wmi_unified_cmd_send() panics it,
  1949. * so let's just use a 32 byte fake array for now.
  1950. */
  1951. buf = wmi_buf_alloc(wmi_handle, 32);
  1952. if (buf == NULL) {
  1953. /* XXX error? */
  1954. return QDF_STATUS_E_NOMEM;
  1955. }
  1956. qdf_print("%s: about to send\n", __func__);
  1957. if (wmi_unified_cmd_send(wmi_handle, buf, 32,
  1958. WMI_PDEV_DFS_DISABLE_CMDID) != A_OK) {
  1959. qdf_print("%s: send failed\n", __func__);
  1960. return QDF_STATUS_E_FAILURE;
  1961. }
  1962. return QDF_STATUS_SUCCESS;
  1963. }
  1964. /**
  1965. * send_smart_ant_enable_cmd_non_tlv() - WMI smart ant enable function
  1966. *
  1967. * @param wmi_handle : handle to WMI.
  1968. * @param param : pointer to antenna param
  1969. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  1970. */
  1971. QDF_STATUS send_smart_ant_enable_cmd_non_tlv(wmi_unified_t wmi_handle,
  1972. struct smart_ant_enable_params *param)
  1973. {
  1974. /* Send WMI COMMAND to Enable */
  1975. wmi_pdev_smart_ant_enable_cmd *cmd;
  1976. wmi_buf_t buf;
  1977. int len = 0;
  1978. int ret;
  1979. len = sizeof(wmi_pdev_smart_ant_enable_cmd);
  1980. buf = wmi_buf_alloc(wmi_handle, len);
  1981. if (!buf) {
  1982. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  1983. return QDF_STATUS_E_NOMEM;
  1984. }
  1985. cmd = (wmi_pdev_smart_ant_enable_cmd *)wmi_buf_data(buf);
  1986. cmd->enable = param->enable;
  1987. cmd->mode = param->mode;
  1988. cmd->rx_antenna = param->rx_antenna;
  1989. cmd->tx_default_antenna = param->rx_antenna;
  1990. if (param->mode == SMART_ANT_MODE_SERIAL) {
  1991. cmd->gpio_pin[0] = param->gpio_pin[0];
  1992. cmd->gpio_pin[1] = param->gpio_pin[1];
  1993. cmd->gpio_pin[2] = 0;
  1994. cmd->gpio_pin[3] = 0;
  1995. cmd->gpio_func[0] = param->gpio_func[0];
  1996. cmd->gpio_func[1] = param->gpio_func[1];
  1997. cmd->gpio_func[2] = 0;
  1998. cmd->gpio_func[3] = 0;
  1999. } else if (param->mode == SMART_ANT_MODE_PARALLEL) {
  2000. cmd->gpio_pin[0] = param->gpio_pin[0];
  2001. cmd->gpio_pin[1] = param->gpio_pin[1];
  2002. cmd->gpio_pin[2] = param->gpio_pin[2];
  2003. cmd->gpio_pin[3] = param->gpio_pin[3];
  2004. cmd->gpio_func[0] = param->gpio_func[0];
  2005. cmd->gpio_func[1] = param->gpio_func[1];
  2006. cmd->gpio_func[2] = param->gpio_func[2];
  2007. cmd->gpio_func[3] = param->gpio_func[3];
  2008. }
  2009. ret = wmi_unified_cmd_send(wmi_handle,
  2010. buf,
  2011. len,
  2012. WMI_PDEV_SMART_ANT_ENABLE_CMDID);
  2013. if (ret != 0) {
  2014. qdf_print(" %s :WMI Failed\n", __func__);
  2015. qdf_print("%s: Sent WMI_PDEV_SMART_ANT_ENABLE_CMDID.\n"
  2016. "enable:%d mode:%d rx_antenna: 0x%08x PINS: "
  2017. "[%d %d %d %d] Func[%d %d %d %d] cmdstatus=%d\n",
  2018. __func__,
  2019. cmd->enable,
  2020. cmd->mode,
  2021. cmd->rx_antenna,
  2022. cmd->gpio_pin[0], cmd->gpio_pin[1],
  2023. cmd->gpio_pin[2], cmd->gpio_pin[3],
  2024. cmd->gpio_func[0], cmd->gpio_func[1],
  2025. cmd->gpio_func[2], cmd->gpio_func[3],
  2026. ret);
  2027. }
  2028. return ret;
  2029. }
  2030. /**
  2031. * send_smart_ant_set_rx_ant_cmd_non_tlv() - WMI set rx antenna function
  2032. *
  2033. * @param wmi_handle : handle to WMI.
  2034. * @param param : pointer to rx antenna param
  2035. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  2036. */
  2037. QDF_STATUS send_smart_ant_set_rx_ant_cmd_non_tlv(wmi_unified_t wmi_handle,
  2038. struct smart_ant_rx_ant_params *param)
  2039. {
  2040. wmi_pdev_smart_ant_set_rx_antenna_cmd *cmd;
  2041. wmi_buf_t buf;
  2042. int len = 0;
  2043. int ret;
  2044. len = sizeof(wmi_pdev_smart_ant_set_rx_antenna_cmd);
  2045. buf = wmi_buf_alloc(wmi_handle, len);
  2046. if (!buf) {
  2047. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2048. return QDF_STATUS_E_NOMEM;
  2049. }
  2050. cmd = (wmi_pdev_smart_ant_set_rx_antenna_cmd *)wmi_buf_data(buf);
  2051. cmd->rx_antenna = param->antenna;
  2052. ret = wmi_unified_cmd_send(wmi_handle,
  2053. buf,
  2054. len,
  2055. WMI_PDEV_SMART_ANT_SET_RX_ANTENNA_CMDID);
  2056. if (ret != 0) {
  2057. qdf_print(" %s :WMI Failed\n", __func__);
  2058. qdf_print("%s: Sent WMI_PDEV_SMART_ANT_SET_RX_ANTENNA_CMDID.\n"
  2059. " rx_antenna: 0x%08x cmdstatus=%d\n",
  2060. __func__,
  2061. cmd->rx_antenna,
  2062. ret);
  2063. }
  2064. return ret;
  2065. }
  2066. /**
  2067. * send_smart_ant_set_tx_ant_cmd_non_tlv() - WMI set tx antenna function
  2068. * @param wmi_handle : handle to WMI.
  2069. * @param macaddr : vdev mac address
  2070. * @param param : pointer to tx antenna param
  2071. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  2072. */
  2073. QDF_STATUS send_smart_ant_set_tx_ant_cmd_non_tlv(wmi_unified_t wmi_handle,
  2074. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2075. struct smart_ant_tx_ant_params *param)
  2076. {
  2077. wmi_peer_sant_set_tx_antenna_cmd *cmd;
  2078. wmi_buf_t buf;
  2079. int len = 0;
  2080. int ret;
  2081. len = sizeof(wmi_peer_sant_set_tx_antenna_cmd);
  2082. buf = wmi_buf_alloc(wmi_handle, len);
  2083. if (!buf) {
  2084. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2085. return QDF_STATUS_E_NOMEM;
  2086. }
  2087. cmd = (wmi_peer_sant_set_tx_antenna_cmd *)wmi_buf_data(buf);
  2088. cmd->vdev_id = param->vdev_id;
  2089. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2090. cmd->antenna_series[0] = param->antenna_array[0];
  2091. cmd->antenna_series[1] = param->antenna_array[1];
  2092. ret = wmi_unified_cmd_send(wmi_handle,
  2093. buf,
  2094. len,
  2095. WMI_PEER_SMART_ANT_SET_TX_ANTENNA_CMDID);
  2096. if (ret != 0) {
  2097. qdf_print(" %s :WMI Failed\n", __func__);
  2098. qdf_print("%s: Sent WMI_PEER_SMART_ANT_SET_TX_ANTENNA_CMDID.\n"
  2099. " Node: %s tx_antennas: [0x%08x 0x%08x] cmdstatus=%d\n",
  2100. __func__,
  2101. ether_sprintf(macaddr),
  2102. cmd->antenna_series[0],
  2103. cmd->antenna_series[1],
  2104. ret);
  2105. }
  2106. return ret;
  2107. }
  2108. /**
  2109. * send_smart_ant_set_training_info_cmd_non_tlv() - WMI set smart antenna
  2110. * training information function
  2111. * @param wmi_handle : handle to WMI.
  2112. * @macaddr : vdev mac address
  2113. * @param param : pointer to tx antenna param
  2114. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  2115. */
  2116. QDF_STATUS send_smart_ant_set_training_info_cmd_non_tlv(
  2117. wmi_unified_t wmi_handle,
  2118. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2119. struct smart_ant_training_info_params *param)
  2120. {
  2121. wmi_peer_sant_set_train_antenna_cmd *cmd;
  2122. wmi_buf_t buf;
  2123. int len = 0;
  2124. int ret;
  2125. len = sizeof(wmi_peer_sant_set_train_antenna_cmd);
  2126. buf = wmi_buf_alloc(wmi_handle, len);
  2127. if (!buf) {
  2128. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2129. return QDF_STATUS_E_NOMEM;
  2130. }
  2131. cmd = (wmi_peer_sant_set_train_antenna_cmd *)wmi_buf_data(buf);
  2132. cmd->vdev_id = param->vdev_id;
  2133. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2134. qdf_mem_copy(&cmd->train_rate_series[0], &param->rate_array[0],
  2135. (sizeof(uint32_t)*SMART_ANT_MAX_RATE_SERIES));
  2136. qdf_mem_copy(&cmd->train_antenna_series[0], &param->antenna_array[0],
  2137. (sizeof(uint32_t)*SMART_ANT_MAX_RATE_SERIES));
  2138. cmd->num_pkts = param->numpkts;
  2139. ret = wmi_unified_cmd_send(wmi_handle,
  2140. buf,
  2141. len,
  2142. WMI_PEER_SMART_ANT_SET_TRAIN_INFO_CMDID);
  2143. if (ret != 0) {
  2144. qdf_print(" %s :WMI Failed\n", __func__);
  2145. qdf_print("%s: Sent WMI_PEER_SMART_ANT_SET_TRAIN_INFO_CMDID.\n"
  2146. " Train Node: %s rate_array[0x%02x 0x%02x] "
  2147. "tx_antennas: [0x%08x 0x%08x] cmdstatus=%d\n",
  2148. __func__,
  2149. ether_sprintf(macaddr),
  2150. cmd->train_rate_series[0], cmd->train_rate_series[1],
  2151. cmd->train_antenna_series[0],
  2152. cmd->train_antenna_series[1],
  2153. ret);
  2154. }
  2155. return ret;
  2156. }
  2157. /**
  2158. * send_smart_ant_set_node_config_cmd_non_tlv() - WMI set node
  2159. * configuration function
  2160. * @param wmi_handle : handle to WMI.
  2161. * @macaddr : vdev mad address
  2162. * @param param : pointer to tx antenna param
  2163. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  2164. */
  2165. QDF_STATUS send_smart_ant_set_node_config_cmd_non_tlv(wmi_unified_t wmi_handle,
  2166. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2167. struct smart_ant_node_config_params *param)
  2168. {
  2169. wmi_peer_sant_set_node_config_ops_cmd *cmd;
  2170. wmi_buf_t buf;
  2171. int len = 0;
  2172. int ret;
  2173. int i = 0;
  2174. len = sizeof(wmi_peer_sant_set_node_config_ops_cmd);
  2175. if ((param->args_count == 0) || (param->args_count >
  2176. (sizeof(cmd->args) / sizeof(cmd->args[0])))) {
  2177. qdf_print("%s: Can't send a command with %d arguments\n",
  2178. __func__, param->args_count);
  2179. return QDF_STATUS_E_FAILURE;
  2180. }
  2181. buf = wmi_buf_alloc(wmi_handle, len);
  2182. if (!buf) {
  2183. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2184. return QDF_STATUS_E_NOMEM;
  2185. }
  2186. cmd = (wmi_peer_sant_set_node_config_ops_cmd *)wmi_buf_data(buf);
  2187. cmd->vdev_id = param->vdev_id;
  2188. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2189. cmd->cmd_id = param->cmd_id;
  2190. cmd->args_count = param->args_count;
  2191. for (i = 0; i < param->args_count; i++)
  2192. cmd->args[i] = param->args_arr[i];
  2193. ret = wmi_unified_cmd_send(wmi_handle,
  2194. buf,
  2195. len,
  2196. WMI_PEER_SMART_ANT_SET_NODE_CONFIG_OPS_CMDID);
  2197. if (ret != 0) {
  2198. qdf_print(" %s :WMI Failed\n", __func__);
  2199. qdf_print("%s: Sent "
  2200. "WMI_PEER_SMART_ANT_SET_NODE_CONFIG_OPS_CMDID, cmd_id:"
  2201. " 0x%x\n Node: %s cmdstatus=%d\n",
  2202. __func__, param->cmd_id, ether_sprintf(macaddr), ret);
  2203. }
  2204. return ret;
  2205. }
  2206. /**
  2207. * send_smart_ant_enable_tx_feedback_cmd_non_tlv() - WMI enable smart antenna
  2208. * tx feedback function
  2209. * @param wmi_handle : handle to WMI.
  2210. * @param param : pointer to hold enable param
  2211. * @return QDF_STATUS_SUCCESS on success and -ve on failure.
  2212. */
  2213. QDF_STATUS send_smart_ant_enable_tx_feedback_cmd_non_tlv(
  2214. wmi_unified_t wmi_handle,
  2215. struct smart_ant_enable_tx_feedback_params *param)
  2216. {
  2217. uint32_t types = 0;
  2218. int len = 0;
  2219. wmi_buf_t buf;
  2220. wmi_pdev_pktlog_enable_cmd *cmd;
  2221. if (param->enable == 1) {
  2222. types |= WMI_PKTLOG_EVENT_TX;
  2223. types |= WMI_PKTLOG_EVENT_SMART_ANTENNA;
  2224. len = sizeof(wmi_pdev_pktlog_enable_cmd);
  2225. buf = wmi_buf_alloc(wmi_handle, len);
  2226. if (!buf) {
  2227. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2228. return QDF_STATUS_E_FAILURE;
  2229. }
  2230. cmd = (wmi_pdev_pktlog_enable_cmd *)wmi_buf_data(buf);
  2231. cmd->evlist = types;
  2232. /*enabling the pktlog for smart antenna tx feedback*/
  2233. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  2234. WMI_PDEV_PKTLOG_ENABLE_CMDID))
  2235. return QDF_STATUS_E_FAILURE;
  2236. return QDF_STATUS_SUCCESS;
  2237. } else if (param->enable == 0) {
  2238. buf = wmi_buf_alloc(wmi_handle, 0);
  2239. if (!buf) {
  2240. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2241. return QDF_STATUS_E_FAILURE;
  2242. }
  2243. if (!wmi_unified_cmd_send(wmi_handle, buf, len,
  2244. WMI_PDEV_PKTLOG_DISABLE_CMDID))
  2245. return QDF_STATUS_E_FAILURE;
  2246. return QDF_STATUS_SUCCESS;
  2247. } else
  2248. return QDF_STATUS_E_FAILURE;
  2249. }
  2250. /**
  2251. * send_vdev_spectral_configure_cmd_non_tlv() - send VDEV spectral configure
  2252. * command to fw
  2253. * @wmi_handle: wmi handle
  2254. * @param: pointer to hold spectral config parameter
  2255. *
  2256. * Return: 0 for success or error code
  2257. */
  2258. QDF_STATUS send_vdev_spectral_configure_cmd_non_tlv(wmi_unified_t wmi_handle,
  2259. struct vdev_spectral_configure_params *param)
  2260. {
  2261. wmi_vdev_spectral_configure_cmd *cmd;
  2262. wmi_buf_t buf;
  2263. int len = 0;
  2264. int ret;
  2265. len = sizeof(wmi_vdev_spectral_configure_cmd);
  2266. buf = wmi_buf_alloc(wmi_handle, len);
  2267. if (!buf) {
  2268. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2269. return QDF_STATUS_E_NOMEM;
  2270. }
  2271. cmd = (wmi_vdev_spectral_configure_cmd *)wmi_buf_data(buf);
  2272. cmd->vdev_id = param->vdev_id;
  2273. cmd->spectral_scan_count = param->count;
  2274. cmd->spectral_scan_period = param->period;
  2275. cmd->spectral_scan_priority = param->spectral_pri;
  2276. cmd->spectral_scan_fft_size = param->fft_size;
  2277. cmd->spectral_scan_gc_ena = param->gc_enable;
  2278. cmd->spectral_scan_restart_ena = param->restart_enable;
  2279. cmd->spectral_scan_noise_floor_ref = param->noise_floor_ref;
  2280. cmd->spectral_scan_init_delay = param->init_delay;
  2281. cmd->spectral_scan_nb_tone_thr = param->nb_tone_thr;
  2282. cmd->spectral_scan_str_bin_thr = param->str_bin_thr;
  2283. cmd->spectral_scan_wb_rpt_mode = param->wb_rpt_mode;
  2284. cmd->spectral_scan_rssi_rpt_mode = param->rssi_rpt_mode;
  2285. cmd->spectral_scan_rssi_thr = param->rssi_thr;
  2286. cmd->spectral_scan_pwr_format = param->pwr_format;
  2287. cmd->spectral_scan_rpt_mode = param->rpt_mode;
  2288. cmd->spectral_scan_bin_scale = param->bin_scale;
  2289. cmd->spectral_scan_dBm_adj = param->dBm_adj;
  2290. cmd->spectral_scan_chn_mask = param->chn_mask;
  2291. ret = wmi_unified_cmd_send(wmi_handle,
  2292. buf,
  2293. len,
  2294. WMI_VDEV_SPECTRAL_SCAN_CONFIGURE_CMDID);
  2295. #ifdef OL_SPECTRAL_DEBUG_CONFIG_INTERACTIONS
  2296. qdf_print("%s: Sent "
  2297. "WMI_VDEV_SPECTRAL_SCAN_CONFIGURE_CMDID\n", __func__);
  2298. qdf_print("vdev_id = %u\n"
  2299. "spectral_scan_count = %u\n"
  2300. "spectral_scan_period = %u\n"
  2301. "spectral_scan_priority = %u\n"
  2302. "spectral_scan_fft_size = %u\n"
  2303. "spectral_scan_gc_ena = %u\n"
  2304. "spectral_scan_restart_ena = %u\n"
  2305. "spectral_scan_noise_floor_ref = %u\n"
  2306. "spectral_scan_init_delay = %u\n"
  2307. "spectral_scan_nb_tone_thr = %u\n"
  2308. "spectral_scan_str_bin_thr = %u\n"
  2309. "spectral_scan_wb_rpt_mode = %u\n"
  2310. "spectral_scan_rssi_rpt_mode = %u\n"
  2311. "spectral_scan_rssi_thr = %u\n"
  2312. "spectral_scan_pwr_format = %u\n"
  2313. "spectral_scan_rpt_mode = %u\n"
  2314. "spectral_scan_bin_scale = %u\n"
  2315. "spectral_scan_dBm_adj = %u\n"
  2316. "spectral_scan_chn_mask = %u\n",
  2317. cmd->vdev_id,
  2318. cmd->spectral_scan_count,
  2319. cmd->spectral_scan_period,
  2320. cmd->spectral_scan_priority,
  2321. cmd->spectral_scan_fft_size,
  2322. cmd->spectral_scan_gc_ena,
  2323. cmd->spectral_scan_restart_ena,
  2324. cmd->spectral_scan_noise_floor_ref,
  2325. cmd->spectral_scan_init_delay,
  2326. cmd->spectral_scan_nb_tone_thr,
  2327. cmd->spectral_scan_str_bin_thr,
  2328. cmd->spectral_scan_wb_rpt_mode,
  2329. cmd->spectral_scan_rssi_rpt_mode,
  2330. cmd->spectral_scan_rssi_thr,
  2331. cmd->spectral_scan_pwr_format,
  2332. cmd->spectral_scan_rpt_mode,
  2333. cmd->spectral_scan_bin_scale,
  2334. cmd->spectral_scan_dBm_adj,
  2335. cmd->spectral_scan_chn_mask);
  2336. qdf_print("%s: Status: %d\n\n", __func__, ret);
  2337. #endif /* OL_SPECTRAL_DEBUG_CONFIG_INTERACTIONS */
  2338. return ret;
  2339. }
  2340. /**
  2341. * send_vdev_spectral_enable_cmd_non_tlv() - send VDEV spectral configure
  2342. * command to fw
  2343. * @wmi_handle: wmi handle
  2344. * @param: pointer to hold spectral enable parameter
  2345. *
  2346. * Return: 0 for success or error code
  2347. */
  2348. QDF_STATUS send_vdev_spectral_enable_cmd_non_tlv(wmi_unified_t wmi_handle,
  2349. struct vdev_spectral_enable_params *param)
  2350. {
  2351. wmi_vdev_spectral_enable_cmd *cmd;
  2352. wmi_buf_t buf;
  2353. int len = 0;
  2354. int ret;
  2355. len = sizeof(wmi_vdev_spectral_enable_cmd);
  2356. buf = wmi_buf_alloc(wmi_handle, len);
  2357. if (!buf) {
  2358. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2359. return QDF_STATUS_E_NOMEM;
  2360. }
  2361. cmd = (wmi_vdev_spectral_enable_cmd *)wmi_buf_data(buf);
  2362. cmd->vdev_id = param->vdev_id;
  2363. if (param->active_valid) {
  2364. cmd->trigger_cmd = param->active ? 1 : 2;
  2365. /* 1: Trigger, 2: Clear Trigger */
  2366. } else {
  2367. cmd->trigger_cmd = 0; /* 0: Ignore */
  2368. }
  2369. if (param->enabled_valid) {
  2370. cmd->enable_cmd = param->enabled ? 1 : 2;
  2371. /* 1: Enable 2: Disable */
  2372. } else {
  2373. cmd->enable_cmd = 0; /* 0: Ignore */
  2374. }
  2375. #ifdef OL_SPECTRAL_DEBUG_CONFIG_INTERACTIONS
  2376. qdf_print
  2377. ("%s: Sent WMI_VDEV_SPECTRAL_SCAN_ENABLE_CMDID\n", __func__);
  2378. qdf_print("vdev_id = %u\n"
  2379. "trigger_cmd = %u\n"
  2380. "enable_cmd = %u\n",
  2381. cmd->vdev_id,
  2382. cmd->trigger_cmd,
  2383. cmd->enable_cmd);
  2384. qdf_print("%s: Status: %d\n\n", __func__, ret);
  2385. #endif /* OL_SPECTRAL_DEBUG_CONFIG_INTERACTIONS */
  2386. ret = wmi_unified_cmd_send(wmi_handle,
  2387. buf,
  2388. len,
  2389. WMI_VDEV_SPECTRAL_SCAN_ENABLE_CMDID);
  2390. return ret;
  2391. }
  2392. /**
  2393. * send_pdev_set_regdomain_cmd_non_tlv() - send set regdomain command to fw
  2394. * @wmi_handle: wmi handle
  2395. * @param: pointer to pdev regdomain params
  2396. *
  2397. * Return: 0 for success or error code
  2398. */
  2399. QDF_STATUS
  2400. send_pdev_set_regdomain_cmd_non_tlv(wmi_unified_t wmi_handle,
  2401. struct pdev_set_regdomain_params *param)
  2402. {
  2403. wmi_pdev_set_regdomain_cmd *cmd;
  2404. wmi_buf_t buf;
  2405. int len = sizeof(wmi_pdev_set_regdomain_cmd);
  2406. buf = wmi_buf_alloc(wmi_handle, len);
  2407. if (!buf) {
  2408. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2409. return QDF_STATUS_E_FAILURE;
  2410. }
  2411. cmd = (wmi_pdev_set_regdomain_cmd *)wmi_buf_data(buf);
  2412. cmd->reg_domain = param->currentRDinuse;
  2413. cmd->reg_domain_2G = param->currentRD2G;
  2414. cmd->reg_domain_5G = param->currentRD5G;
  2415. cmd->conformance_test_limit_2G = param->ctl_2G;
  2416. cmd->conformance_test_limit_5G = param->ctl_5G;
  2417. cmd->dfs_domain = param->dfsDomain;
  2418. return wmi_unified_cmd_send(wmi_handle, buf, len,
  2419. WMI_PDEV_SET_REGDOMAIN_CMDID);
  2420. }
  2421. /**
  2422. * send_set_quiet_mode_cmd_non_tlv() - send set quiet mode command to fw
  2423. * @wmi_handle: wmi handle
  2424. * @param: pointer to quiet mode params
  2425. *
  2426. * Return: 0 for success or error code
  2427. */
  2428. QDF_STATUS
  2429. send_set_quiet_mode_cmd_non_tlv(wmi_unified_t wmi_handle,
  2430. struct set_quiet_mode_params *param)
  2431. {
  2432. wmi_buf_t buf;
  2433. wmi_pdev_set_quiet_cmd *quiet_cmd;
  2434. int len = sizeof(wmi_pdev_set_quiet_cmd);
  2435. buf = wmi_buf_alloc(wmi_handle, len);
  2436. if (!buf) {
  2437. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2438. return QDF_STATUS_E_NOMEM;
  2439. }
  2440. quiet_cmd = (wmi_pdev_set_quiet_cmd *)wmi_buf_data(buf);
  2441. quiet_cmd->enabled = param->enabled;
  2442. quiet_cmd->period = (param->period)*(param->intval);
  2443. quiet_cmd->duration = param->duration;
  2444. quiet_cmd->next_start = param->offset;
  2445. wmi_unified_cmd_send(wmi_handle, buf, len,
  2446. WMI_PDEV_SET_QUIET_MODE_CMDID);
  2447. return QDF_STATUS_SUCCESS;
  2448. }
  2449. /**
  2450. * send_set_beacon_filter_cmd_non_tlv() - send beacon filter command to fw
  2451. * @wmi_handle: wmi handle
  2452. * @param: pointer to beacon filter params
  2453. *
  2454. * Return: 0 for success or error code
  2455. */
  2456. QDF_STATUS
  2457. send_set_beacon_filter_cmd_non_tlv(wmi_unified_t wmi_handle,
  2458. struct set_beacon_filter_params *param)
  2459. {
  2460. /* Issue WMI command to set beacon filter */
  2461. int i;
  2462. wmi_add_bcn_filter_cmd_t *cmd;
  2463. A_STATUS res;
  2464. wmi_buf_t buf = NULL;
  2465. int len = sizeof(wmi_add_bcn_filter_cmd_t);
  2466. buf = wmi_buf_alloc(wmi_handle, len);
  2467. if (!buf) {
  2468. qdf_print("buf alloc failed\n");
  2469. return QDF_STATUS_E_NOMEM;
  2470. }
  2471. cmd = (wmi_add_bcn_filter_cmd_t *)wmi_buf_data(buf);
  2472. cmd->vdev_id = param->vdev_id;
  2473. qdf_print("vdev_id: %d\n", cmd->vdev_id);
  2474. for (i = 0; i < BCN_FLT_MAX_ELEMS_IE_LIST; i++)
  2475. cmd->ie_map[i] = 0;
  2476. if (param->ie) {
  2477. for (i = 0; i < BCN_FLT_MAX_ELEMS_IE_LIST; i++)
  2478. cmd->ie_map[i] = param->ie[i];
  2479. }
  2480. res = wmi_unified_cmd_send(wmi_handle, buf, len,
  2481. WMI_ADD_BCN_FILTER_CMDID);
  2482. return (res == A_OK) ? QDF_STATUS_SUCCESS : QDF_STATUS_E_FAILURE;
  2483. }
  2484. /**
  2485. * send_remove_beacon_filter_cmd_non_tlv() - send remove beacon filter command
  2486. * to fw
  2487. * @wmi_handle: wmi handle
  2488. * @param: pointer to remove beacon filter params
  2489. *
  2490. * Return: 0 for success or error code
  2491. */
  2492. QDF_STATUS
  2493. send_remove_beacon_filter_cmd_non_tlv(wmi_unified_t wmi_handle,
  2494. struct remove_beacon_filter_params *param)
  2495. {
  2496. wmi_rmv_bcn_filter_cmd_t *cmd;
  2497. A_STATUS res;
  2498. wmi_buf_t buf = NULL;
  2499. int len = sizeof(wmi_rmv_bcn_filter_cmd_t);
  2500. buf = wmi_buf_alloc(wmi_handle, len);
  2501. if (!buf) {
  2502. qdf_print("buf alloc failed\n");
  2503. return QDF_STATUS_E_NOMEM;
  2504. }
  2505. cmd = (wmi_rmv_bcn_filter_cmd_t *)wmi_buf_data(buf);
  2506. cmd->vdev_id = param->vdev_id;
  2507. res = wmi_unified_cmd_send(wmi_handle, buf, len,
  2508. WMI_RMV_BCN_FILTER_CMDID);
  2509. return (res == A_OK) ? QDF_STATUS_SUCCESS : QDF_STATUS_E_FAILURE;
  2510. }
  2511. /**
  2512. * send_mgmt_cmd_non_tlv() - send mgmt command to fw
  2513. * @wmi_handle: wmi handle
  2514. * @param: pointer to mgmt params
  2515. * Return: 0 for success or error code
  2516. */
  2517. QDF_STATUS
  2518. send_mgmt_cmd_non_tlv(wmi_unified_t wmi_handle,
  2519. struct wmi_mgmt_params *param)
  2520. {
  2521. wmi_mgmt_tx_cmd *cmd;
  2522. wmi_buf_t wmi_buf;
  2523. int len = sizeof(wmi_mgmt_tx_hdr) + param->frm_len;
  2524. wmi_buf = wmi_buf_alloc(wmi_handle, roundup(len, sizeof(u_int32_t)));
  2525. if (!wmi_buf) {
  2526. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2527. return QDF_STATUS_E_FAILURE;
  2528. }
  2529. cmd = (wmi_mgmt_tx_cmd *)wmi_buf_data(wmi_buf);
  2530. cmd->hdr.vdev_id = param->vdev_id;
  2531. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->macaddr, &cmd->hdr.peer_macaddr);
  2532. cmd->hdr.buf_len = param->frm_len;
  2533. #ifdef BIG_ENDIAN_HOST
  2534. {
  2535. /* for big endian host, copy engine byte_swap is enabled
  2536. * But the mgmt frame buffer content is in network byte order
  2537. * Need to byte swap the mgmt frame buffer content - so when
  2538. * copy engine does byte_swap - target gets buffer content in
  2539. * the correct order
  2540. */
  2541. int i;
  2542. u_int32_t *destp, *srcp;
  2543. destp = (u_int32_t *)cmd->bufp;
  2544. srcp = (u_int32_t *)wmi_buf_data(param->tx_frame);
  2545. for (i = 0; i < (roundup(param->buf_len,
  2546. sizeof(u_int32_t))/4); i++) {
  2547. *destp = le32_to_cpu(*srcp);
  2548. destp++; srcp++;
  2549. }
  2550. }
  2551. #else
  2552. qdf_mem_copy(cmd->bufp, wmi_buf_data(param->tx_frame), param->frm_len);
  2553. #endif
  2554. /* Send the management frame buffer to the target */
  2555. wmi_unified_cmd_send(wmi_handle, wmi_buf, roundup(len,
  2556. sizeof(u_int32_t)), WMI_MGMT_TX_CMDID);
  2557. return QDF_STATUS_SUCCESS;
  2558. }
  2559. /**
  2560. * send_addba_clearresponse_cmd_non_tlv() - send addba clear response command
  2561. * to fw
  2562. * @wmi_handle: wmi handle
  2563. * @param: pointer to addba clearresp params
  2564. * @macaddr: vdev mac address
  2565. * Return: 0 for success or error code
  2566. */
  2567. QDF_STATUS
  2568. send_addba_clearresponse_cmd_non_tlv(wmi_unified_t wmi_handle,
  2569. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2570. struct addba_clearresponse_params *param)
  2571. {
  2572. wmi_addba_clear_resp_cmd *cmd;
  2573. wmi_buf_t buf;
  2574. int len = sizeof(wmi_addba_clear_resp_cmd);
  2575. buf = wmi_buf_alloc(wmi_handle, len);
  2576. if (!buf) {
  2577. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2578. return QDF_STATUS_E_FAILURE;
  2579. }
  2580. cmd = (wmi_addba_clear_resp_cmd *)wmi_buf_data(buf);
  2581. cmd->vdev_id = param->vdev_id;
  2582. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2583. /* Send the management frame buffer to the target */
  2584. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_ADDBA_CLEAR_RESP_CMDID);
  2585. return QDF_STATUS_SUCCESS;
  2586. }
  2587. /**
  2588. * send_addba_send_cmd_non_tlv() - send addba send command to fw
  2589. * @wmi_handle: wmi handle
  2590. * @param: pointer to addba send params
  2591. * @macaddr: vdev mac address
  2592. * Return: 0 for success or error code
  2593. */
  2594. QDF_STATUS
  2595. send_addba_send_cmd_non_tlv(wmi_unified_t wmi_handle,
  2596. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2597. struct addba_send_params *param)
  2598. {
  2599. wmi_addba_send_cmd *cmd;
  2600. wmi_buf_t buf;
  2601. int len = sizeof(wmi_addba_send_cmd);
  2602. buf = wmi_buf_alloc(wmi_handle, len);
  2603. if (!buf) {
  2604. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2605. return QDF_STATUS_E_FAILURE;
  2606. }
  2607. cmd = (wmi_addba_send_cmd *)wmi_buf_data(buf);
  2608. cmd->vdev_id = param->vdev_id;
  2609. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2610. cmd->tid = param->tidno;
  2611. cmd->buffersize = param->buffersize;
  2612. /* Send the management frame buffer to the target */
  2613. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_ADDBA_SEND_CMDID);
  2614. return QDF_STATUS_SUCCESS;
  2615. }
  2616. /**
  2617. * send_delba_send_cmd_non_tlv() - send delba send command to fw
  2618. * @wmi_handle: wmi handle
  2619. * @param: pointer to delba send params
  2620. * @macaddr: vdev mac address
  2621. * Return: 0 for success or error code
  2622. */
  2623. QDF_STATUS
  2624. send_delba_send_cmd_non_tlv(wmi_unified_t wmi_handle,
  2625. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2626. struct delba_send_params *param)
  2627. {
  2628. wmi_delba_send_cmd *cmd;
  2629. wmi_buf_t buf;
  2630. int len = sizeof(wmi_delba_send_cmd);
  2631. buf = wmi_buf_alloc(wmi_handle, len);
  2632. if (!buf) {
  2633. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2634. return QDF_STATUS_E_NOMEM;
  2635. }
  2636. cmd = (wmi_delba_send_cmd *)wmi_buf_data(buf);
  2637. cmd->vdev_id = param->vdev_id;
  2638. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2639. cmd->tid = param->tidno;
  2640. cmd->initiator = param->initiator;
  2641. cmd->reasoncode = param->reasoncode;
  2642. /* send the management frame buffer to the target */
  2643. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_DELBA_SEND_CMDID);
  2644. return QDF_STATUS_SUCCESS;
  2645. }
  2646. /**
  2647. * send_addba_setresponse_cmd_non_tlv() - send addba set response command to fw
  2648. * @wmi_handle: wmi handle
  2649. * @param: pointer to addba setresp params
  2650. * @macaddr: vdev mac address
  2651. * Return: 0 for success or error code
  2652. */
  2653. QDF_STATUS
  2654. send_addba_setresponse_cmd_non_tlv(wmi_unified_t wmi_handle,
  2655. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2656. struct addba_setresponse_params *param)
  2657. {
  2658. wmi_addba_setresponse_cmd *cmd;
  2659. wmi_buf_t buf;
  2660. int len = sizeof(wmi_addba_setresponse_cmd);
  2661. buf = wmi_buf_alloc(wmi_handle, len);
  2662. if (!buf) {
  2663. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2664. return QDF_STATUS_E_NOMEM;
  2665. }
  2666. cmd = (wmi_addba_setresponse_cmd *)wmi_buf_data(buf);
  2667. cmd->vdev_id = param->vdev_id;
  2668. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2669. cmd->tid = param->tidno;
  2670. cmd->statuscode = param->statuscode;
  2671. /* send the management frame buffer to the target */
  2672. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_ADDBA_SET_RESP_CMDID);
  2673. return QDF_STATUS_SUCCESS;
  2674. }
  2675. /**
  2676. * send_singleamsdu_cmd_non_tlv() - send single amsdu command to fw
  2677. * @wmi_handle: wmi handle
  2678. * @param: pointer to single amsdu params
  2679. * @macaddr: vdev mac address
  2680. * Return: 0 for success or error code
  2681. */
  2682. QDF_STATUS
  2683. send_singleamsdu_cmd_non_tlv(wmi_unified_t wmi_handle,
  2684. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2685. struct singleamsdu_params *param)
  2686. {
  2687. wmi_send_singleamsdu_cmd *cmd;
  2688. wmi_buf_t buf;
  2689. int len = sizeof(wmi_send_singleamsdu_cmd);
  2690. buf = wmi_buf_alloc(wmi_handle, len);
  2691. if (!buf) {
  2692. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2693. return QDF_STATUS_E_NOMEM;
  2694. }
  2695. cmd = (wmi_send_singleamsdu_cmd *)wmi_buf_data(buf);
  2696. cmd->vdev_id = param->vdev_id;
  2697. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2698. cmd->tid = param->tidno;
  2699. /* send the management frame buffer to the target */
  2700. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_SEND_SINGLEAMSDU_CMDID);
  2701. return QDF_STATUS_SUCCESS;
  2702. }
  2703. /**
  2704. * send_set_qboost_param_cmd_non_tlv() - send set qboost command to fw
  2705. * @wmi_handle: wmi handle
  2706. * @param: pointer to qboost params
  2707. * @macaddr: vdev mac address
  2708. * Return: 0 for success or error code
  2709. */
  2710. QDF_STATUS
  2711. send_set_qboost_param_cmd_non_tlv(wmi_unified_t wmi_handle,
  2712. uint8_t macaddr[IEEE80211_ADDR_LEN],
  2713. struct set_qboost_params *param)
  2714. {
  2715. WMI_QBOOST_CFG_CMD *cmd;
  2716. wmi_buf_t buf;
  2717. int ret;
  2718. buf = wmi_buf_alloc(wmi_handle, sizeof(*cmd));
  2719. if (!buf) {
  2720. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2721. return QDF_STATUS_E_FAILURE;
  2722. }
  2723. cmd = (WMI_QBOOST_CFG_CMD *)wmi_buf_data(buf);
  2724. cmd->vdev_id = param->vdev_id;
  2725. WMI_CHAR_ARRAY_TO_MAC_ADDR(macaddr, &cmd->peer_macaddr);
  2726. cmd->qb_enable = param->value;
  2727. ret = wmi_unified_cmd_send(wmi_handle, buf, sizeof(*cmd),
  2728. WMI_QBOOST_CFG_CMDID);
  2729. return ret;
  2730. }
  2731. /**
  2732. * send_mu_scan_cmd_non_tlv() - send mu scan command to fw
  2733. * @wmi_handle: wmi handle
  2734. * @param: pointer to mu scan params
  2735. * Return: 0 for success or error code
  2736. */
  2737. QDF_STATUS
  2738. send_mu_scan_cmd_non_tlv(wmi_unified_t wmi_handle,
  2739. struct mu_scan_params *param)
  2740. {
  2741. wmi_mu_start_cmd *cmd;
  2742. wmi_buf_t buf;
  2743. buf = wmi_buf_alloc(wmi_handle, sizeof(wmi_mu_start_cmd));
  2744. if (!buf) {
  2745. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2746. return QDF_STATUS_E_FAILURE;
  2747. }
  2748. cmd = (wmi_mu_start_cmd *)wmi_buf_data(buf);
  2749. cmd->mu_request_id = param->id;
  2750. cmd->mu_duration = param->duration;
  2751. cmd->mu_type = param->type;
  2752. cmd->lteu_tx_power = param->lteu_tx_power;
  2753. return wmi_unified_cmd_send(wmi_handle, buf,
  2754. sizeof(wmi_mu_start_cmd),
  2755. WMI_MU_CAL_START_CMDID);
  2756. }
  2757. /**
  2758. * send_lteu_config_cmd_non_tlv() - send lteu config command to fw
  2759. * @wmi_handle: wmi handle
  2760. * @param: pointer to lteu config params
  2761. * Return: 0 for success or error code
  2762. */
  2763. QDF_STATUS
  2764. send_lteu_config_cmd_non_tlv(wmi_unified_t wmi_handle,
  2765. struct lteu_config_params *param)
  2766. {
  2767. wmi_set_lteu_config *cmd;
  2768. wmi_buf_t buf;
  2769. int i;
  2770. buf = wmi_buf_alloc(wmi_handle, sizeof(wmi_set_lteu_config));
  2771. if (!buf) {
  2772. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  2773. return QDF_STATUS_E_FAILURE;
  2774. }
  2775. cmd = (wmi_set_lteu_config *)wmi_buf_data(buf);
  2776. cmd->gpio_enable = param->lteu_gpio_start;
  2777. cmd->num_lteu_bins = param->lteu_num_bins;
  2778. for (i = 0; i < cmd->num_lteu_bins; i++) {
  2779. cmd->mu_rssi_threshold[i] = param->lteu_thresh[i];
  2780. cmd->mu_weight[i] = param->lteu_weight[i];
  2781. cmd->mu_gamma[i] = param->lteu_gamma[i];
  2782. }
  2783. cmd->mu_scan_timeout = param->lteu_scan_timeout;
  2784. cmd->alpha_num_bssid = param->alpha_num_bssid;
  2785. cmd->use_actual_nf = param->use_actual_nf;
  2786. cmd->wifi_tx_power = param->wifi_tx_power;
  2787. return wmi_unified_cmd_send(wmi_handle, buf,
  2788. sizeof(wmi_set_lteu_config),
  2789. WMI_SET_LTEU_CONFIG_CMDID);
  2790. }
  2791. /**
  2792. * send_pdev_get_tpc_config_cmd_non_tlv() - send get tpc config command to fw
  2793. * @wmi_handle: wmi handle
  2794. * @param: pointer to get tpc config params
  2795. *
  2796. * Return: 0 for success or error code
  2797. */
  2798. QDF_STATUS
  2799. send_pdev_get_tpc_config_cmd_non_tlv(wmi_unified_t wmi_handle,
  2800. uint32_t param)
  2801. {
  2802. wmi_pdev_get_tpc_config_cmd *cmd;
  2803. wmi_buf_t buf;
  2804. int32_t len = sizeof(wmi_pdev_get_tpc_config_cmd);
  2805. buf = wmi_buf_alloc(wmi_handle, len);
  2806. if (!buf) {
  2807. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2808. return QDF_STATUS_E_FAILURE;
  2809. }
  2810. cmd = (wmi_pdev_get_tpc_config_cmd *)wmi_buf_data(buf);
  2811. cmd->param = param;
  2812. return wmi_unified_cmd_send(wmi_handle, buf, len,
  2813. WMI_PDEV_GET_TPC_CONFIG_CMDID);
  2814. }
  2815. /**
  2816. * send_set_atf_cmd_non_tlv() - send set atf command to fw
  2817. * @wmi_handle: wmi handle
  2818. * @param: pointer to set atf param
  2819. *
  2820. * Return: 0 for success or error code
  2821. */
  2822. QDF_STATUS
  2823. send_set_atf_cmd_non_tlv(wmi_unified_t wmi_handle,
  2824. struct set_atf_params *param)
  2825. {
  2826. struct wmi_atf_peer_info *peer_info;
  2827. wmi_peer_atf_request *cmd;
  2828. wmi_buf_t buf;
  2829. int len = sizeof(wmi_peer_atf_request);
  2830. int i, retval = 0;
  2831. len += param->num_peers * sizeof(struct wmi_atf_peer_info);
  2832. buf = wmi_buf_alloc(wmi_handle, len);
  2833. if (!buf) {
  2834. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2835. return QDF_STATUS_E_FAILURE;
  2836. }
  2837. cmd = (wmi_peer_atf_request *)wmi_buf_data(buf);
  2838. qdf_mem_copy((void *)&(cmd->num_peers), (void *)&(param->num_peers),
  2839. sizeof(uint32_t));
  2840. peer_info = (struct wmi_atf_peer_info *)&(cmd->peer_info[0]);
  2841. for (i = 0; i < param->num_peers; i++) {
  2842. qdf_mem_copy((void *)&(peer_info[i]),
  2843. (void *)&(param->peer_info[i]),
  2844. sizeof(struct wmi_atf_peer_info));
  2845. }
  2846. /* qdf_print("wmi_unified_pdev_set_atf peer_num=%d\n", cmd->num_peers); */
  2847. retval = wmi_unified_cmd_send(wmi_handle, buf, len,
  2848. WMI_PEER_ATF_REQUEST_CMDID);
  2849. return retval;
  2850. }
  2851. /**
  2852. * send_atf_peer_request_cmd_non_tlv() - send atf peer request command to fw
  2853. * @wmi_handle: wmi handle
  2854. * @param: pointer to atf peer request param
  2855. *
  2856. * Return: 0 for success or error code
  2857. */
  2858. QDF_STATUS
  2859. send_atf_peer_request_cmd_non_tlv(wmi_unified_t wmi_handle,
  2860. struct atf_peer_request_params *param)
  2861. {
  2862. struct wmi_atf_peer_ext_info *peer_ext_info;
  2863. wmi_peer_atf_ext_request *cmd;
  2864. wmi_buf_t buf;
  2865. int len = sizeof(wmi_peer_atf_ext_request);
  2866. int i, retval = 0;
  2867. len += param->num_peers * sizeof(struct wmi_atf_peer_ext_info);
  2868. buf = wmi_buf_alloc(wmi_handle, len);
  2869. if (!buf) {
  2870. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2871. return QDF_STATUS_E_FAILURE;
  2872. }
  2873. cmd = (wmi_peer_atf_ext_request *)wmi_buf_data(buf);
  2874. qdf_mem_copy((void *)&(cmd->num_peers), (void *)&(param->num_peers),
  2875. sizeof(uint32_t));
  2876. peer_ext_info =
  2877. (struct wmi_atf_peer_ext_info *)&(cmd->peer_ext_info[0]);
  2878. for (i = 0; i < param->num_peers; i++) {
  2879. qdf_mem_copy((void *)&(peer_ext_info[i]),
  2880. (void *)&(param->peer_ext_info[i]),
  2881. sizeof(struct wmi_atf_peer_ext_info));
  2882. }
  2883. retval = wmi_unified_cmd_send(wmi_handle, buf, len,
  2884. WMI_PEER_ATF_EXT_REQUEST_CMDID);
  2885. return retval;
  2886. }
  2887. /**
  2888. * send_set_atf_grouping_cmd_non_tlv() - send set atf grouping command to fw
  2889. * @wmi_handle: wmi handle
  2890. * @param: pointer to set atf grouping param
  2891. *
  2892. * Return: 0 for success or error code
  2893. */
  2894. QDF_STATUS
  2895. send_set_atf_grouping_cmd_non_tlv(wmi_unified_t wmi_handle,
  2896. struct atf_grouping_params *param)
  2897. {
  2898. struct wmi_atf_group_info *group_info;
  2899. wmi_atf_ssid_grp_request *cmd;
  2900. wmi_buf_t buf;
  2901. int len = sizeof(wmi_atf_ssid_grp_request);
  2902. int i, retval = 0;
  2903. len += param->num_groups * sizeof(struct wmi_atf_group_info);
  2904. buf = wmi_buf_alloc(wmi_handle, len);
  2905. if (!buf) {
  2906. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2907. return QDF_STATUS_E_FAILURE;
  2908. }
  2909. cmd = (wmi_atf_ssid_grp_request *)wmi_buf_data(buf);
  2910. qdf_mem_copy((void *)&(cmd->num_groups), (void *)&(param->num_groups),
  2911. sizeof(uint32_t));
  2912. group_info = (struct wmi_atf_group_info *)&(cmd->group_info[0]);
  2913. for (i = 0; i < param->num_groups; i++) {
  2914. qdf_mem_copy((void *)&(group_info[i]),
  2915. (void *)&(param->group_info[i]),
  2916. sizeof(struct wmi_atf_group_info));
  2917. }
  2918. retval = wmi_unified_cmd_send(wmi_handle, buf, len,
  2919. WMI_ATF_SSID_GROUPING_REQUEST_CMDID);
  2920. return retval;
  2921. }
  2922. /**
  2923. * send_wlan_profile_enable_cmd_non_tlv() - send wlan profile enable command
  2924. * to fw
  2925. * @wmi_handle: wmi handle
  2926. * @param: pointer to wlan profile param
  2927. *
  2928. * Return: 0 for success or error code
  2929. */
  2930. QDF_STATUS
  2931. send_wlan_profile_enable_cmd_non_tlv(wmi_unified_t wmi_handle,
  2932. struct wlan_profile_params *param)
  2933. {
  2934. wmi_buf_t buf;
  2935. uint16_t len;
  2936. wmi_wlan_profile_enable_profile_id_cmd *cmd;
  2937. len = sizeof(wmi_wlan_profile_enable_profile_id_cmd);
  2938. buf = wmi_buf_alloc(wmi_handle, len);
  2939. if (!buf) {
  2940. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2941. return QDF_STATUS_E_FAILURE;
  2942. }
  2943. cmd = (wmi_wlan_profile_enable_profile_id_cmd *)wmi_buf_data(buf);
  2944. cmd->profile_id = param->profile_id;
  2945. cmd->enable = param->enable;
  2946. return wmi_unified_cmd_send(wmi_handle, buf, len,
  2947. WMI_WLAN_PROFILE_ENABLE_PROFILE_ID_CMDID);
  2948. }
  2949. /**
  2950. * send_wlan_profile_trigger_cmd_non_tlv() - send wlan profile trigger command
  2951. * to fw
  2952. * @wmi_handle: wmi handle
  2953. * @param: pointer to wlan profile param
  2954. *
  2955. * Return: 0 for success or error code
  2956. */
  2957. QDF_STATUS
  2958. send_wlan_profile_trigger_cmd_non_tlv(wmi_unified_t wmi_handle,
  2959. struct wlan_profile_params *param)
  2960. {
  2961. wmi_buf_t buf;
  2962. uint16_t len;
  2963. wmi_wlan_profile_trigger_cmd *cmd;
  2964. len = sizeof(wmi_wlan_profile_trigger_cmd);
  2965. buf = wmi_buf_alloc(wmi_handle, len);
  2966. if (!buf) {
  2967. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2968. return QDF_STATUS_E_FAILURE;
  2969. }
  2970. cmd = (wmi_wlan_profile_trigger_cmd *)wmi_buf_data(buf);
  2971. cmd->enable = param->enable;
  2972. return wmi_unified_cmd_send(wmi_handle, buf, len,
  2973. WMI_WLAN_PROFILE_TRIGGER_CMDID);
  2974. }
  2975. /**
  2976. * send_set_ht_ie_cmd_non_tlv() - send ht ie command to fw
  2977. * @wmi_handle: wmi handle
  2978. * @param: pointer to ht ie param
  2979. *
  2980. * Return: 0 for success or error code
  2981. */
  2982. QDF_STATUS
  2983. send_set_ht_ie_cmd_non_tlv(wmi_unified_t wmi_handle,
  2984. struct ht_ie_params *param)
  2985. {
  2986. wmi_pdev_set_ht_ie_cmd *cmd;
  2987. wmi_buf_t buf;
  2988. /* adjust length to be next multiple of four */
  2989. int len = (param->ie_len + (sizeof(uint32_t) - 1)) &
  2990. (~(sizeof(uint32_t) - 1));
  2991. /* to account for extra four bytes of ie data in the struct */
  2992. len += (sizeof(wmi_pdev_set_ht_ie_cmd) - 4);
  2993. buf = wmi_buf_alloc(wmi_handle, len);
  2994. if (!buf) {
  2995. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  2996. return QDF_STATUS_E_FAILURE;
  2997. }
  2998. cmd = (wmi_pdev_set_ht_ie_cmd *)wmi_buf_data(buf);
  2999. cmd->ie_len = param->ie_len;
  3000. qdf_mem_copy(cmd->ie_data, param->ie_data, param->ie_len);
  3001. #ifdef BIG_ENDIAN_HOST
  3002. SWAPME(cmd->ie_data, len-(offsetof(wmi_pdev_set_ht_ie_cmd,
  3003. param->ie_data)));
  3004. #endif
  3005. return wmi_unified_cmd_send(wmi_handle, buf, len,
  3006. WMI_PDEV_SET_HT_CAP_IE_CMDID);
  3007. }
  3008. /**
  3009. * send_set_vht_ie_cmd_non_tlv() - send vht ie command to fw
  3010. * @wmi_handle: wmi handle
  3011. * @param: pointer to vht ie param
  3012. *
  3013. * Return: 0 for success or error code
  3014. */
  3015. QDF_STATUS
  3016. send_set_vht_ie_cmd_non_tlv(wmi_unified_t wmi_handle,
  3017. struct vht_ie_params *param)
  3018. {
  3019. wmi_pdev_set_vht_ie_cmd *cmd;
  3020. wmi_buf_t buf;
  3021. /* adjust length to be next multiple of four */
  3022. int len = (param->ie_len + (sizeof(u_int32_t) - 1)) &
  3023. (~(sizeof(u_int32_t) - 1));
  3024. /* to account for extra four bytes of ie data in the struct */
  3025. len += (sizeof(wmi_pdev_set_vht_ie_cmd) - 4);
  3026. buf = wmi_buf_alloc(wmi_handle, len);
  3027. if (!buf) {
  3028. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3029. return QDF_STATUS_E_FAILURE;
  3030. }
  3031. cmd = (wmi_pdev_set_vht_ie_cmd *)wmi_buf_data(buf);
  3032. cmd->ie_len = param->ie_len;
  3033. qdf_mem_copy(cmd->ie_data, param->ie_data, param->ie_len);
  3034. #ifdef BIG_ENDIAN_HOST
  3035. SWAPME(cmd->ie_data, len-(offsetof(wmi_pdev_set_vht_ie_cmd,
  3036. param->ie_data)));
  3037. #endif
  3038. return wmi_unified_cmd_send(wmi_handle, buf, len,
  3039. WMI_PDEV_SET_VHT_CAP_IE_CMDID);
  3040. }
  3041. /**
  3042. * send_wmm_update_cmd_non_tlv() - send wmm update command to fw
  3043. * @wmi_handle: wmi handle
  3044. * @param: pointer to wmm update param
  3045. *
  3046. * Return: 0 for success or error code
  3047. */
  3048. QDF_STATUS
  3049. send_wmm_update_cmd_non_tlv(wmi_unified_t wmi_handle,
  3050. struct wmm_update_params *param)
  3051. {
  3052. #define ATH_EXPONENT_TO_VALUE(v) ((1<<v)-1)
  3053. #define ATH_TXOP_TO_US(v) (v<<5)
  3054. #define WME_AC_BE 0 /* best effort */
  3055. #define WME_AC_BK 1 /* background */
  3056. #define WME_AC_VI 2 /* video */
  3057. #define WME_AC_VO 3 /* voice */
  3058. wmi_buf_t buf;
  3059. wmi_pdev_set_wmm_params_cmd *cmd;
  3060. wmi_wmm_params *wmi_param = 0;
  3061. int ac;
  3062. int len = sizeof(wmi_pdev_set_wmm_params_cmd);
  3063. struct wmi_host_wmeParams *wmep;
  3064. buf = wmi_buf_alloc(wmi_handle, len);
  3065. qdf_print("%s:\n", __func__);
  3066. if (!buf) {
  3067. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3068. return QDF_STATUS_SUCCESS;
  3069. }
  3070. cmd = (wmi_pdev_set_wmm_params_cmd *)wmi_buf_data(buf);
  3071. for (ac = 0; ac < WME_NUM_AC; ac++) {
  3072. wmep = &param->wmep_array[ac];
  3073. switch (ac) {
  3074. case WME_AC_BE:
  3075. wmi_param = &cmd->wmm_params_ac_be;
  3076. break;
  3077. case WME_AC_BK:
  3078. wmi_param = &cmd->wmm_params_ac_bk;
  3079. break;
  3080. case WME_AC_VI:
  3081. wmi_param = &cmd->wmm_params_ac_vi;
  3082. break;
  3083. case WME_AC_VO:
  3084. wmi_param = &cmd->wmm_params_ac_vo;
  3085. break;
  3086. default:
  3087. break;
  3088. }
  3089. wmi_param->aifs = wmep->wmep_aifsn;
  3090. wmi_param->cwmin = ATH_EXPONENT_TO_VALUE(wmep->wmep_logcwmin);
  3091. wmi_param->cwmax = ATH_EXPONENT_TO_VALUE(wmep->wmep_logcwmax);
  3092. wmi_param->txoplimit = ATH_TXOP_TO_US(wmep->wmep_txopLimit);
  3093. wmi_param->acm = wmep->wmep_acm;
  3094. wmi_param->no_ack = wmep->wmep_noackPolicy;
  3095. }
  3096. wmi_unified_cmd_send(wmi_handle, buf, len,
  3097. WMI_PDEV_SET_WMM_PARAMS_CMDID);
  3098. return QDF_STATUS_SUCCESS;
  3099. }
  3100. /**
  3101. * send_set_ant_switch_tbl_cmd_non_tlv() - send ant switch tbl cmd to fw
  3102. * @wmi_handle: wmi handle
  3103. * @param: pointer to hold ant switch tbl param
  3104. *
  3105. * Return: 0 for success or error code
  3106. */
  3107. QDF_STATUS
  3108. send_set_ant_switch_tbl_cmd_non_tlv(wmi_unified_t wmi_handle,
  3109. struct ant_switch_tbl_params *param)
  3110. {
  3111. uint8_t len;
  3112. wmi_buf_t buf;
  3113. wmi_pdev_set_ant_switch_tbl_cmd *cmd;
  3114. len = sizeof(wmi_pdev_set_ant_switch_tbl_cmd);
  3115. buf = wmi_buf_alloc(wmi_handle, len);
  3116. if (!buf) {
  3117. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3118. return QDF_STATUS_E_NOMEM;
  3119. }
  3120. cmd = (wmi_pdev_set_ant_switch_tbl_cmd *)wmi_buf_data(buf);
  3121. cmd->antCtrlCommon1 = param->ant_ctrl_common1;
  3122. cmd->antCtrlCommon2 = param->ant_ctrl_common2;
  3123. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  3124. WMI_PDEV_SET_ANTENNA_SWITCH_TABLE_CMDID)) {
  3125. return QDF_STATUS_E_FAILURE;
  3126. }
  3127. return QDF_STATUS_SUCCESS;
  3128. }
  3129. /**
  3130. * send_set_ratepwr_table_cmd_non_tlv() - send rate power table cmd to fw
  3131. * @wmi_handle: wmi handle
  3132. * @param: pointer to hold rate power table param
  3133. *
  3134. * Return: 0 for success or error code
  3135. */
  3136. QDF_STATUS
  3137. send_set_ratepwr_table_cmd_non_tlv(wmi_unified_t wmi_handle,
  3138. struct ratepwr_table_params *param)
  3139. {
  3140. uint16_t len;
  3141. wmi_buf_t buf;
  3142. wmi_pdev_ratepwr_table_cmd *cmd;
  3143. if (!param->ratepwr_tbl)
  3144. return QDF_STATUS_E_FAILURE;
  3145. len = sizeof(wmi_pdev_ratepwr_table_cmd);
  3146. len += roundup(param->ratepwr_len, sizeof(A_UINT32)) - sizeof(A_UINT32);
  3147. /* already 4 bytes in cmd structure */
  3148. qdf_print("wmi buf len = %d\n", len);
  3149. buf = wmi_buf_alloc(wmi_handle, len);
  3150. if (!buf) {
  3151. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3152. return QDF_STATUS_E_NOMEM;
  3153. }
  3154. cmd = (wmi_pdev_ratepwr_table_cmd *)wmi_buf_data(buf);
  3155. cmd->op = RATEPWR_TABLE_OPS_SET;
  3156. cmd->ratepwr_len = param->ratepwr_len;
  3157. WMI_HOST_IF_MSG_COPY_CHAR_ARRAY(&cmd->ratepwr_tbl[0],
  3158. param->ratepwr_tbl, param->ratepwr_len);
  3159. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  3160. WMI_PDEV_RATEPWR_TABLE_CMDID)) {
  3161. return QDF_STATUS_E_FAILURE;
  3162. }
  3163. return QDF_STATUS_SUCCESS;
  3164. }
  3165. /**
  3166. * send_get_ratepwr_table_cmd_non_tlv() - send rate power table cmd to fw
  3167. * @wmi_handle: wmi handle
  3168. *
  3169. * Return: 0 for success or error code
  3170. */
  3171. QDF_STATUS
  3172. send_get_ratepwr_table_cmd_non_tlv(wmi_unified_t wmi_handle)
  3173. {
  3174. uint16_t len;
  3175. wmi_buf_t buf;
  3176. wmi_pdev_ratepwr_table_cmd *cmd;
  3177. len = sizeof(wmi_pdev_ratepwr_table_cmd);
  3178. qdf_print("wmi buf len = %d\n", len);
  3179. buf = wmi_buf_alloc(wmi_handle, len);
  3180. if (!buf) {
  3181. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3182. return QDF_STATUS_E_NOMEM;
  3183. }
  3184. cmd = (wmi_pdev_ratepwr_table_cmd *)wmi_buf_data(buf);
  3185. cmd->op = RATEPWR_TABLE_OPS_GET;
  3186. cmd->ratepwr_len = 0;
  3187. cmd->ratepwr_tbl[0] = 0;
  3188. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  3189. WMI_PDEV_RATEPWR_TABLE_CMDID)) {
  3190. return QDF_STATUS_E_FAILURE;
  3191. }
  3192. return QDF_STATUS_SUCCESS;
  3193. }
  3194. /**
  3195. * send_set_ctl_table_cmd_non_tlv() - send ctl table cmd to fw
  3196. * @wmi_handle: wmi handle
  3197. * @param: pointer to hold ctl table param
  3198. *
  3199. * Return: 0 for success or error code
  3200. */
  3201. QDF_STATUS
  3202. send_set_ctl_table_cmd_non_tlv(wmi_unified_t wmi_handle,
  3203. struct ctl_table_params *param)
  3204. {
  3205. /* for QC98XX only */
  3206. /*6 modes (A, HT20, HT40, VHT20, VHT40, VHT80) * 3 reg dommains
  3207. * TODO for 160/80+80
  3208. */
  3209. #define WHAL_NUM_CTLS_5G 18
  3210. /*6 modes (B, G, HT20, HT40, VHT20, VHT40) * 3 reg domains */
  3211. #define WHAL_NUM_CTLS_2G 18
  3212. #define WHAL_NUM_BAND_EDGES_5G 8
  3213. #define WHAL_NUM_BAND_EDGES_2G 4
  3214. uint16_t len;
  3215. wmi_buf_t buf;
  3216. wmi_pdev_set_ctl_table_cmd *cmd;
  3217. if (!param->ctl_array)
  3218. return QDF_STATUS_E_FAILURE;
  3219. if (!param->is_acfg_ctl && param->ctl_len !=
  3220. WHAL_NUM_CTLS_2G * WHAL_NUM_BAND_EDGES_2G * 2 +
  3221. WHAL_NUM_CTLS_5G * WHAL_NUM_BAND_EDGES_5G * 2) {
  3222. qdf_print("CTL array len not correct\n");
  3223. return QDF_STATUS_E_FAILURE;
  3224. }
  3225. len = sizeof(wmi_pdev_set_ctl_table_cmd);
  3226. len += roundup(param->ctl_len, sizeof(A_UINT32)) - sizeof(A_UINT32);
  3227. qdf_print("wmi buf len = %d\n", len);
  3228. buf = wmi_buf_alloc(wmi_handle, len);
  3229. if (!buf) {
  3230. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3231. return QDF_STATUS_E_FAILURE;
  3232. }
  3233. cmd = (wmi_pdev_set_ctl_table_cmd *)wmi_buf_data(buf);
  3234. cmd->ctl_len = param->ctl_len;
  3235. WMI_HOST_IF_MSG_COPY_CHAR_ARRAY(&cmd->ctl_info[0], param->ctl_array,
  3236. param->ctl_len);
  3237. if (param->is_acfg_ctl)
  3238. len = param->ctl_len;
  3239. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  3240. WMI_PDEV_SET_CTL_TABLE_CMDID)) {
  3241. qdf_print("%s:Failed to send command\n", __func__);
  3242. return QDF_STATUS_E_FAILURE;
  3243. }
  3244. return QDF_STATUS_SUCCESS;
  3245. #undef WHAL_NUM_CTLS_5G
  3246. #undef WHAL_NUM_CTLS_2G
  3247. #undef WHAL_NUM_BAND_EDGES_5G
  3248. #undef WHAL_NUM_BAND_EDGES_2G
  3249. }
  3250. /**
  3251. * send_set_mimogain_table_cmd_non_tlv() - send mimogain table cmd to fw
  3252. * @wmi_handle: wmi handle
  3253. * @param: pointer to hold mimogain table param
  3254. *
  3255. * Return: 0 for success or error code
  3256. */
  3257. QDF_STATUS
  3258. send_set_mimogain_table_cmd_non_tlv(wmi_unified_t wmi_handle,
  3259. struct mimogain_table_params *param)
  3260. {
  3261. /* for QC98XX only */
  3262. #define WHAL_TX_NUM_CHAIN 0x3
  3263. #define WHAL_TPC_REGINDEX_MAX 4
  3264. #define WHAL_ARRAY_GAIN_NUM_STREAMS 2
  3265. uint16_t len;
  3266. wmi_buf_t buf;
  3267. wmi_pdev_set_mimogain_table_cmd *cmd;
  3268. if (!param->array_gain)
  3269. return QDF_STATUS_E_FAILURE;
  3270. /* len must be multiple of a single array gain table */
  3271. if (param->tbl_len % ((WHAL_TX_NUM_CHAIN-1) * WHAL_TPC_REGINDEX_MAX *
  3272. WHAL_ARRAY_GAIN_NUM_STREAMS) != 0) {
  3273. qdf_print("Array gain table len not correct\n");
  3274. return QDF_STATUS_E_FAILURE;
  3275. }
  3276. len = sizeof(wmi_pdev_set_mimogain_table_cmd);
  3277. len += roundup(param->tbl_len, sizeof(A_UINT32)) - sizeof(A_UINT32);
  3278. buf = wmi_buf_alloc(wmi_handle, len);
  3279. if (!buf) {
  3280. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3281. return QDF_STATUS_E_FAILURE;
  3282. }
  3283. cmd = (wmi_pdev_set_mimogain_table_cmd *)wmi_buf_data(buf);
  3284. WMI_MIMOGAIN_ARRAY_GAIN_LEN_SET(cmd->mimogain_info, param->tbl_len);
  3285. WMI_MIMOGAIN_MULTI_CHAIN_BYPASS_SET(cmd->mimogain_info,
  3286. param->multichain_gain_bypass);
  3287. WMI_HOST_IF_MSG_COPY_CHAR_ARRAY(&cmd->arraygain_tbl[0],
  3288. param->array_gain,
  3289. param->tbl_len);
  3290. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  3291. WMI_PDEV_SET_MIMOGAIN_TABLE_CMDID)) {
  3292. return QDF_STATUS_E_FAILURE;
  3293. }
  3294. return QDF_STATUS_SUCCESS;
  3295. #undef WHAL_TX_NUM_CHAIN
  3296. #undef WHAL_TPC_REGINDEX_MAX
  3297. #undef WHAL_ARRAY_GAIN_NUM_STREAMS
  3298. }
  3299. /**
  3300. * send_set_ratepwr_chainmsk_cmd_non_tlv() - send ratepwr chainmask cmd to fw
  3301. * @wmi_handle: wmi handle
  3302. * @param: pointer to hold ratepwr chainmask param
  3303. *
  3304. * Return: 0 for success or error code
  3305. */
  3306. QDF_STATUS
  3307. send_set_ratepwr_chainmsk_cmd_non_tlv(wmi_unified_t wmi_handle,
  3308. struct ratepwr_chainmsk_params *param)
  3309. {
  3310. #define RC_CCK_OFDM_RATES 0
  3311. #define RC_HT_RATES 1
  3312. #define RC_VHT_RATES 2
  3313. uint16_t len;
  3314. wmi_buf_t buf;
  3315. wmi_pdev_ratepwr_chainmsk_tbl_cmd *cmd;
  3316. if (!param->ratepwr_chain_tbl)
  3317. return QDF_STATUS_E_FAILURE;
  3318. len = sizeof(wmi_pdev_ratepwr_chainmsk_tbl_cmd);
  3319. len += roundup(param->num_rate*sizeof(uint32_t), sizeof(A_UINT32));
  3320. buf = wmi_buf_alloc(wmi_handle, len);
  3321. if (!buf) {
  3322. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3323. return QDF_STATUS_E_NOMEM;
  3324. }
  3325. cmd = (wmi_pdev_ratepwr_chainmsk_tbl_cmd *)wmi_buf_data(buf);
  3326. cmd->op = param->ops;
  3327. cmd->pream_type = param->pream_type;
  3328. cmd->rate_len = param->num_rate;
  3329. if (param->ops == RATEPWR_CHAINMSK_TABLE_OPS_EN) {
  3330. qdf_mem_copy(&cmd->ratepwr_chaintbl[0],
  3331. param->ratepwr_chain_tbl,
  3332. param->num_rate*sizeof(u_int32_t));
  3333. }
  3334. wmi_unified_cmd_send(wmi_handle, buf, len,
  3335. WMI_PDEV_RATEPWR_CHAINMSK_TABLE_CMDID);
  3336. return QDF_STATUS_SUCCESS;
  3337. }
  3338. /**
  3339. * send_set_macaddr_cmd_non_tlv() - send set macaddr cmd to fw
  3340. * @wmi_handle: wmi handle
  3341. * @param: pointer to hold macaddr param
  3342. *
  3343. * Return: 0 for success or error code
  3344. */
  3345. QDF_STATUS
  3346. send_set_macaddr_cmd_non_tlv(wmi_unified_t wmi_handle,
  3347. struct macaddr_params *param)
  3348. {
  3349. uint8_t len;
  3350. wmi_buf_t buf;
  3351. wmi_pdev_set_base_macaddr_cmd *cmd;
  3352. len = sizeof(wmi_pdev_set_base_macaddr_cmd);
  3353. buf = wmi_buf_alloc(wmi_handle, len);
  3354. if (!buf) {
  3355. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3356. return QDF_STATUS_E_FAILURE;
  3357. }
  3358. cmd = (wmi_pdev_set_base_macaddr_cmd *)wmi_buf_data(buf);
  3359. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->macaddr, &cmd->base_macaddr);
  3360. if (wmi_unified_cmd_send(wmi_handle, buf, len,
  3361. WMI_PDEV_SET_BASE_MACADDR_CMDID)) {
  3362. return QDF_STATUS_E_FAILURE;
  3363. }
  3364. return QDF_STATUS_SUCCESS;
  3365. }
  3366. /**
  3367. * send_pdev_scan_start_cmd_non_tlv() - send pdev scan start cmd to fw
  3368. * @wmi_handle: wmi handle
  3369. *
  3370. * Return: 0 for success or error code
  3371. */
  3372. QDF_STATUS
  3373. send_pdev_scan_start_cmd_non_tlv(wmi_unified_t wmi_handle)
  3374. {
  3375. /*
  3376. * this command was added to support host scan egine which is
  3377. * deprecated. now the scan engine is in FW and host directly
  3378. * isssues a scan request to perform scan and provide results back
  3379. * to host
  3380. */
  3381. wmi_buf_t buf;
  3382. wmi_pdev_scan_cmd *cmd;
  3383. int len = sizeof(wmi_pdev_scan_cmd);
  3384. buf = wmi_buf_alloc(wmi_handle, len);
  3385. qdf_print("%s:\n", __func__);
  3386. if (!buf) {
  3387. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3388. return QDF_STATUS_E_NOMEM;
  3389. }
  3390. cmd = (wmi_pdev_scan_cmd *)wmi_buf_data(buf);
  3391. cmd->scan_start = TRUE;
  3392. #if DEPRECATE_WMI
  3393. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_PDEV_SCAN_CMDID);
  3394. #endif
  3395. return QDF_STATUS_SUCCESS;
  3396. }
  3397. /**
  3398. * send_pdev_scan_end_cmd_non_tlv() - send pdev scan end cmd to fw
  3399. * @wmi_handle: wmi handle
  3400. *
  3401. * Return: 0 for success or error code
  3402. */
  3403. QDF_STATUS
  3404. send_pdev_scan_end_cmd_non_tlv(wmi_unified_t wmi_handle)
  3405. {
  3406. /*
  3407. * this command was added to support host scan egine which is
  3408. * deprecated. now the scan engine is in FW and host directly isssues
  3409. * a scan request to perform scan and provide results back to host
  3410. */
  3411. wmi_pdev_scan_cmd *cmd;
  3412. wmi_buf_t buf;
  3413. int len = sizeof(wmi_pdev_scan_cmd);
  3414. buf = wmi_buf_alloc(wmi_handle, len);
  3415. qdf_print("%s:\n", __func__);
  3416. if (!buf) {
  3417. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3418. return QDF_STATUS_E_NOMEM;
  3419. }
  3420. cmd = (wmi_pdev_scan_cmd *)wmi_buf_data(buf);
  3421. cmd->scan_start = FALSE;
  3422. #if DEPRECATE_WMI
  3423. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_PDEV_SCAN_CMDID);
  3424. #endif
  3425. return QDF_STATUS_SUCCESS;
  3426. }
  3427. /**
  3428. * send_set_acparams_cmd_non_tlv() - send acparams cmd to fw
  3429. * @wmi_handle: wmi handle
  3430. * @param: pointer to hold acparams
  3431. *
  3432. * Return: 0 for success or error code
  3433. */
  3434. QDF_STATUS
  3435. send_set_acparams_cmd_non_tlv(wmi_unified_t wmi_handle,
  3436. struct acparams_params *param)
  3437. {
  3438. wmi_pdev_set_param_cmd *cmd;
  3439. wmi_buf_t buf;
  3440. uint32_t param_value = 0;
  3441. int len = sizeof(wmi_pdev_set_param_cmd);
  3442. buf = wmi_buf_alloc(wmi_handle, len);
  3443. if (!buf) {
  3444. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3445. return QDF_STATUS_E_NOMEM;
  3446. }
  3447. cmd = (wmi_pdev_set_param_cmd *)wmi_buf_data(buf);
  3448. cmd->param_id = WMI_PDEV_PARAM_AC_AGGRSIZE_SCALING;
  3449. param_value = param->ac;
  3450. param_value |= (param->aggrsize_scaling << 8);
  3451. cmd->param_value = param_value;
  3452. wmi_unified_cmd_send(wmi_handle, buf, len, WMI_PDEV_SET_PARAM_CMDID);
  3453. return QDF_STATUS_SUCCESS;
  3454. }
  3455. /**
  3456. * send_set_vap_dscp_tid_map_cmd_non_tlv() - send vap dscp tid map cmd to fw
  3457. * @wmi_handle: wmi handle
  3458. * @param: pointer to hold vap dscp tid map param
  3459. *
  3460. * Return: 0 for success or error code
  3461. */
  3462. QDF_STATUS
  3463. send_set_vap_dscp_tid_map_cmd_non_tlv(wmi_unified_t wmi_handle,
  3464. struct vap_dscp_tid_map_params *param)
  3465. {
  3466. wmi_buf_t buf;
  3467. wmi_vdev_set_dscp_tid_map_cmd *cmd_vdev;
  3468. int len_vdev = sizeof(wmi_vdev_set_dscp_tid_map_cmd);
  3469. buf = wmi_buf_alloc(wmi_handle, len_vdev);
  3470. if (!buf) {
  3471. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3472. return QDF_STATUS_E_FAILURE;
  3473. }
  3474. cmd_vdev = (wmi_vdev_set_dscp_tid_map_cmd *)wmi_buf_data(buf);
  3475. qdf_mem_copy(cmd_vdev->dscp_to_tid_map, param->dscp_to_tid_map,
  3476. sizeof(A_UINT32) * WMI_DSCP_MAP_MAX);
  3477. cmd_vdev->vdev_id = param->vdev_id;
  3478. qdf_print("Setting dscp for vap id: %d\n", cmd_vdev->vdev_id);
  3479. return wmi_unified_cmd_send(wmi_handle, buf, len_vdev,
  3480. WMI_VDEV_SET_DSCP_TID_MAP_CMDID);
  3481. }
  3482. /**
  3483. * send_proxy_ast_reserve_cmd_non_tlv() - send proxy ast reserve cmd to fw
  3484. * @wmi_handle: wmi handle
  3485. * @param: pointer to hold proxy ast reserve param
  3486. *
  3487. * Return: 0 for success or error code
  3488. */
  3489. QDF_STATUS
  3490. send_proxy_ast_reserve_cmd_non_tlv(wmi_unified_t wmi_handle,
  3491. struct proxy_ast_reserve_params *param)
  3492. {
  3493. wmi_pdev_reserve_ast_entry_cmd *cmd;
  3494. wmi_buf_t buf;
  3495. int len = sizeof(wmi_pdev_reserve_ast_entry_cmd);
  3496. buf = wmi_buf_alloc(wmi_handle, len);
  3497. if (!buf) {
  3498. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3499. return QDF_STATUS_E_FAILURE;
  3500. }
  3501. cmd = (wmi_pdev_reserve_ast_entry_cmd *)wmi_buf_data(buf);
  3502. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->macaddr, &cmd->mac_addr);
  3503. cmd->key_id = 0;
  3504. cmd->mcast = 0;
  3505. qdf_print("%s macaddr=%s key_id=%d mcast=%d\n", __func__,
  3506. ether_sprintf(param->macaddr), cmd->key_id, cmd->mcast);
  3507. return wmi_unified_cmd_send(wmi_handle, buf, len,
  3508. WMI_PDEV_RESERVE_AST_ENTRY_CMDID);
  3509. }
  3510. /**
  3511. * send_pdev_fips_cmd_non_tlv() - send pdev fips cmd to fw
  3512. * @wmi_handle: wmi handle
  3513. * @param: pointer to hold pdev fips param
  3514. *
  3515. * Return: 0 for success or error code
  3516. */
  3517. QDF_STATUS
  3518. send_pdev_fips_cmd_non_tlv(wmi_unified_t wmi_handle,
  3519. struct fips_params *param)
  3520. {
  3521. wmi_pdev_fips_cmd *cmd;
  3522. wmi_buf_t buf;
  3523. int len = sizeof(wmi_pdev_fips_cmd) + param->data_len;
  3524. int retval = 0;
  3525. buf = wmi_buf_alloc(wmi_handle, len);
  3526. /* Data length must be multiples of 16 bytes - checked against 0xF -
  3527. * and must be less than WMI_SVC_MSG_SIZE - static size of
  3528. * wmi_pdev_fips_cmd structure
  3529. */
  3530. /* do sanity on the input */
  3531. if (!(((param->data_len & 0xF) == 0) &&
  3532. ((param->data_len > 0) &&
  3533. (param->data_len < (WMI_HOST_MAX_BUFFER_SIZE -
  3534. sizeof(wmi_pdev_fips_cmd)))))) {
  3535. wmi_buf_free(buf);
  3536. return QDF_STATUS_E_INVAL;
  3537. }
  3538. if (!buf) {
  3539. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3540. return QDF_STATUS_E_FAILURE;
  3541. }
  3542. cmd = (wmi_pdev_fips_cmd *)wmi_buf_data(buf);
  3543. if (param->key != NULL && param->data != NULL) {
  3544. cmd->key_len = param->key_len;
  3545. cmd->data_len = param->data_len;
  3546. cmd->fips_cmd = !!(param->op);
  3547. #ifdef BIG_ENDIAN_HOST
  3548. {
  3549. /****************BE to LE conversion*****************/
  3550. /* Assigning unaligned space to copy the key */
  3551. unsigned char *key_unaligned = qdf_mem_malloc(
  3552. sizeof(u_int8_t)*param->key_len + FIPS_ALIGN);
  3553. u_int8_t *key_aligned = NULL;
  3554. unsigned char *data_unaligned = qdf_mem_malloc(
  3555. sizeof(u_int8_t)*param->data_len + FIPS_ALIGN);
  3556. u_int8_t *data_aligned = NULL;
  3557. int c;
  3558. /* Checking if kmalloc is succesful to allocate space */
  3559. if (key_unaligned == NULL)
  3560. return QDF_STATUS_SUCCESS;
  3561. /* Checking if space is aligned */
  3562. if (!FIPS_IS_ALIGNED(key_unaligned, FIPS_ALIGN)) {
  3563. /* align to 4 */
  3564. key_aligned =
  3565. (u_int8_t *)FIPS_ALIGNTO(key_unaligned,
  3566. FIPS_ALIGN);
  3567. } else {
  3568. key_aligned = (u_int8_t *)key_unaligned;
  3569. }
  3570. /* memset and copy content from key to key aligned */
  3571. OS_MEMSET(key_aligned, 0, param->key_len);
  3572. OS_MEMCPY(key_aligned, param->key, param->key_len);
  3573. /* print a hexdump for host debug */
  3574. print_hex_dump(KERN_DEBUG,
  3575. "\t Aligned and Copied Key:@@@@ ",
  3576. DUMP_PREFIX_NONE,
  3577. 16, 1, key_aligned, param->key_len, true);
  3578. /* Checking if kmalloc is succesful to allocate space */
  3579. if (data_unaligned == NULL)
  3580. return QDF_STATUS_SUCCESS;
  3581. /* Checking of space is aligned */
  3582. if (!FIPS_IS_ALIGNED(data_unaligned, FIPS_ALIGN)) {
  3583. /* align to 4 */
  3584. data_aligned =
  3585. (u_int8_t *)FIPS_ALIGNTO(data_unaligned,
  3586. FIPS_ALIGN);
  3587. } else {
  3588. data_aligned = (u_int8_t *)data_unaligned;
  3589. }
  3590. /* memset and copy content from data to data aligned */
  3591. OS_MEMSET(data_aligned, 0, param->data_len);
  3592. OS_MEMCPY(data_aligned, param->data, param->data_len);
  3593. /* print a hexdump for host debug */
  3594. print_hex_dump(KERN_DEBUG,
  3595. "\t Properly Aligned and Copied Data:@@@@ ",
  3596. DUMP_PREFIX_NONE,
  3597. 16, 1, data_aligned, param->data_len, true);
  3598. /* converting to little Endian both key_aligned and
  3599. * data_aligned*/
  3600. for (c = 0; c < param->key_len/4; c++) {
  3601. *((u_int32_t *)key_aligned+c) =
  3602. qdf_cpu_to_le32(*((u_int32_t *)key_aligned+c));
  3603. }
  3604. for (c = 0; c < param->data_len/4; c++) {
  3605. *((u_int32_t *)data_aligned+c) =
  3606. qdf_cpu_to_le32(*((u_int32_t *)data_aligned+c));
  3607. }
  3608. /* update endian data to key and data vectors */
  3609. OS_MEMCPY(param->key, key_aligned, param->key_len);
  3610. OS_MEMCPY(param->data, data_aligned, param->data_len);
  3611. /* clean up allocated spaces */
  3612. qdf_mem_free(key_unaligned);
  3613. key_unaligned = NULL;
  3614. key_aligned = NULL;
  3615. qdf_mem_free(data_unaligned);
  3616. data_unaligned = NULL;
  3617. data_aligned = NULL;
  3618. /*****************************************************/
  3619. }
  3620. #endif
  3621. qdf_mem_copy(cmd->key, param->key, param->key_len);
  3622. qdf_mem_copy(cmd->data, param->data, param->data_len);
  3623. if (param->mode == FIPS_ENGINE_AES_CTR ||
  3624. param->mode == FIPS_ENGINE_AES_MIC) {
  3625. cmd->mode = param->mode;
  3626. } else {
  3627. cmd->mode = FIPS_ENGINE_AES_CTR;
  3628. }
  3629. qdf_print(KERN_ERR "Key len = %d, Data len = %d\n",
  3630. cmd->key_len, cmd->data_len);
  3631. print_hex_dump(KERN_DEBUG, "Key: ", DUMP_PREFIX_NONE, 16, 1,
  3632. cmd->key, cmd->key_len, true);
  3633. print_hex_dump(KERN_DEBUG, "Plain text: ", DUMP_PREFIX_NONE,
  3634. 16, 1, cmd->data, cmd->data_len, true);
  3635. retval = wmi_unified_cmd_send(wmi_handle, buf, len,
  3636. WMI_PDEV_FIPS_CMDID);
  3637. qdf_print("%s return value %d\n", __func__, retval);
  3638. } else {
  3639. qdf_print("\n%s:%d Key or Data is NULL\n", __func__, __LINE__);
  3640. retval = -EFAULT;
  3641. }
  3642. return retval;
  3643. }
  3644. /**
  3645. * send_pdev_set_chan_cmd_non_tlv() - send pdev set chan cmd to fw
  3646. * @wmi_handle: wmi handle
  3647. * @param: pointer to hold set chan param
  3648. *
  3649. * Return: 0 for success or error code
  3650. */
  3651. QDF_STATUS
  3652. send_pdev_set_chan_cmd_non_tlv(wmi_unified_t wmi_handle,
  3653. struct channel_param *param)
  3654. {
  3655. wmi_set_channel_cmd *cmd;
  3656. wmi_buf_t buf;
  3657. int len = sizeof(wmi_set_channel_cmd);
  3658. buf = wmi_buf_alloc(wmi_handle, len);
  3659. if (!buf) {
  3660. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  3661. return QDF_STATUS_E_FAILURE;
  3662. }
  3663. cmd = (wmi_set_channel_cmd *)wmi_buf_data(buf);
  3664. cmd->chan.mhz = param->mhz;
  3665. WMI_SET_CHANNEL_MODE(&cmd->chan, param->phy_mode);
  3666. cmd->chan.band_center_freq1 = param->cfreq1;
  3667. cmd->chan.band_center_freq2 = param->cfreq2;
  3668. WMI_SET_CHANNEL_MIN_POWER(&cmd->chan, param->minpower);
  3669. WMI_SET_CHANNEL_MAX_POWER(&cmd->chan, param->maxpower);
  3670. WMI_SET_CHANNEL_REG_POWER(&cmd->chan, param->maxregpower);
  3671. WMI_SET_CHANNEL_ANTENNA_MAX(&cmd->chan, param->antennamax);
  3672. WMI_SET_CHANNEL_REG_CLASSID(&cmd->chan, param->reg_class_id);
  3673. if (param->dfs_set)
  3674. WMI_SET_CHANNEL_FLAG(&cmd->chan, WMI_CHAN_FLAG_DFS);
  3675. if (param->dfs_set_cfreq2)
  3676. WMI_SET_CHANNEL_FLAG(&cmd->chan, WMI_CHAN_FLAG_DFS_CFREQ2);
  3677. if (param->half_rate)
  3678. WMI_SET_CHANNEL_FLAG(&cmd->chan, WMI_CHAN_FLAG_HALF);
  3679. if (param->quarter_rate)
  3680. WMI_SET_CHANNEL_FLAG(&cmd->chan, WMI_CHAN_FLAG_QUARTER);
  3681. if (param->phy_mode == MODE_11AC_VHT80_80) {
  3682. qdf_print(
  3683. "WMI channel freq=%d, mode=%x band_center_freq1=%d band_center_freq2=%d\n",
  3684. cmd->chan.mhz,
  3685. WMI_GET_CHANNEL_MODE(&cmd->chan), cmd->chan.band_center_freq1,
  3686. cmd->chan.band_center_freq2);
  3687. } else {
  3688. qdf_print("WMI channel freq=%d, mode=%x band_center_freq1=%d\n"
  3689. , cmd->chan.mhz,
  3690. WMI_GET_CHANNEL_MODE(&cmd->chan),
  3691. cmd->chan.band_center_freq1);
  3692. }
  3693. return wmi_unified_cmd_send(wmi_handle, buf, len,
  3694. WMI_PDEV_SET_CHANNEL_CMDID);
  3695. }
  3696. /**
  3697. * send_mcast_group_update_cmd_non_tlv() - send mcast group update cmd to fw
  3698. * @wmi_handle: wmi handle
  3699. * @param: pointer to hold mcast update param
  3700. *
  3701. * Return: 0 for success or error code
  3702. */
  3703. QDF_STATUS
  3704. send_mcast_group_update_cmd_non_tlv(wmi_unified_t wmi_handle,
  3705. struct mcast_group_update_params *param)
  3706. {
  3707. wmi_peer_mcast_group_cmd *cmd;
  3708. wmi_buf_t buf;
  3709. int len;
  3710. int offset = 0;
  3711. char dummymask[4] = { 0xFF, 0xFF, 0xFF, 0xFF};
  3712. len = sizeof(wmi_peer_mcast_group_cmd);
  3713. buf = wmi_buf_alloc(wmi_handle, len);
  3714. if (!buf) {
  3715. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  3716. return QDF_STATUS_E_NOMEM;
  3717. }
  3718. cmd = (wmi_peer_mcast_group_cmd *) wmi_buf_data(buf);
  3719. /* confirm the buffer is 4-byte aligned */
  3720. ASSERT((((size_t) cmd) & 0x3) == 0);
  3721. OS_MEMZERO(cmd, sizeof(wmi_peer_mcast_group_cmd));
  3722. /* construct the message assuming our endianness matches the target */
  3723. cmd->flags |= WMI_PEER_MCAST_GROUP_FLAG_ACTION_M &
  3724. (param->action << WMI_PEER_MCAST_GROUP_FLAG_ACTION_S);
  3725. cmd->flags |= WMI_PEER_MCAST_GROUP_FLAG_WILDCARD_M &
  3726. (param->wildcard << WMI_PEER_MCAST_GROUP_FLAG_WILDCARD_S);
  3727. if (param->is_action_delete)
  3728. cmd->flags |= WMI_PEER_MCAST_GROUP_FLAG_DELETEALL_M;
  3729. if (param->is_mcast_addr_len)
  3730. cmd->flags |= WMI_PEER_MCAST_GROUP_FLAG_IPV6_M;
  3731. if (param->is_filter_mode_snoop)
  3732. cmd->flags |= WMI_PEER_MCAST_GROUP_FLAG_SRC_FILTER_EXCLUDE_M;
  3733. /* unicast address spec only applies for non-wildcard cases */
  3734. if (!param->wildcard && param->ucast_mac_addr) {
  3735. qdf_mem_copy(
  3736. &cmd->ucast_mac_addr,
  3737. param->ucast_mac_addr,
  3738. sizeof(cmd->ucast_mac_addr));
  3739. }
  3740. if (param->mcast_ip_addr) {
  3741. ASSERT(param->mcast_ip_addr_bytes <=
  3742. sizeof(cmd->mcast_ip_addr));
  3743. offset = sizeof(cmd->mcast_ip_addr) -
  3744. param->mcast_ip_addr_bytes;
  3745. qdf_mem_copy(((u_int8_t *) &cmd->mcast_ip_addr) + offset,
  3746. param->mcast_ip_addr,
  3747. param->mcast_ip_addr_bytes);
  3748. }
  3749. if (!param->mask)
  3750. param->mask = &dummymask[0];
  3751. qdf_mem_copy(((u_int8_t *) &cmd->mcast_ip_mask) + offset, param->mask,
  3752. param->mcast_ip_addr_bytes);
  3753. if (param->srcs && param->nsrcs) {
  3754. cmd->num_filter_addr = param->nsrcs;
  3755. ASSERT((param->nsrcs * param->mcast_ip_addr_bytes) <=
  3756. sizeof(cmd->srcs));
  3757. qdf_mem_copy(((u_int8_t *) &cmd->filter_addr), param->srcs,
  3758. param->nsrcs * param->mcast_ip_addr_bytes);
  3759. }
  3760. /* now correct for endianness, if necessary */
  3761. /*
  3762. * For Little Endian, N/w Stack gives packets in Network byte order and
  3763. * issue occurs if both Host and Target happens to be in Little Endian.
  3764. * Target when compares IP addresses in packet with MCAST_GROUP_CMDID
  3765. * given IP addresses, it fails. Hence swap only mcast_ip_addr
  3766. * (16 bytes) for now.
  3767. * TODO : filter
  3768. */
  3769. /* TBD in OL Layer
  3770. #ifdef BIG_ENDIAN_HOST
  3771. ol_bytestream_endian_fix(
  3772. (u_int32_t *)&cmd->ucast_mac_addr,
  3773. (sizeof(*cmd)-4) / sizeof(u_int32_t));
  3774. #else
  3775. ol_bytestream_endian_fix(
  3776. (u_int32_t *)&cmd->mcast_ip_addr,
  3777. (sizeof(cmd->mcast_ip_addr)) / sizeof(u_int32_t));
  3778. #endif Little Endian */
  3779. wmi_unified_cmd_send(
  3780. wmi_handle, buf, len, WMI_PEER_MCAST_GROUP_CMDID);
  3781. return QDF_STATUS_SUCCESS;
  3782. }
  3783. /**
  3784. * send_periodic_chan_stats_config_cmd_non_tlv() - send periodic chan stats cmd
  3785. * to fw
  3786. * @wmi_handle: wmi handle
  3787. * @param: pointer to hold periodic chan stats param
  3788. *
  3789. * Return: 0 for success or error code
  3790. */
  3791. QDF_STATUS
  3792. send_periodic_chan_stats_config_cmd_non_tlv(wmi_unified_t wmi_handle,
  3793. struct periodic_chan_stats_params *param)
  3794. {
  3795. wmi_buf_t buf = NULL;
  3796. wmi_set_periodic_channel_stats_config *cmd = NULL;
  3797. QDF_STATUS error = 0;
  3798. int32_t len = 0;
  3799. len = sizeof(wmi_set_periodic_channel_stats_config);
  3800. buf = wmi_buf_alloc(wmi_handle, len);
  3801. if (!buf) {
  3802. qdf_print("%s: Unable to allocate merory\n", __func__);
  3803. return QDF_STATUS_E_NOMEM;
  3804. }
  3805. cmd = (wmi_set_periodic_channel_stats_config *) wmi_buf_data(buf);
  3806. cmd->enable = param->enable;
  3807. cmd->stats_period = param->stats_period;
  3808. error = wmi_unified_cmd_send(wmi_handle, buf, len,
  3809. WMI_SET_PERIODIC_CHANNEL_STATS_CONFIG);
  3810. if (error)
  3811. qdf_print(" %s :WMI Failed\n", __func__);
  3812. return error;
  3813. }
  3814. /**
  3815. * send_nf_dbr_dbm_info_get_cmd_non_tlv() - send request to get nf to fw
  3816. * @wmi_handle: wmi handle
  3817. *
  3818. * Return: 0 for success or error code
  3819. */
  3820. QDF_STATUS
  3821. send_nf_dbr_dbm_info_get_cmd_non_tlv(wmi_unified_t wmi_handle)
  3822. {
  3823. wmi_buf_t wmibuf;
  3824. wmibuf = wmi_buf_alloc(wmi_handle, 0);
  3825. if (wmibuf == NULL)
  3826. return QDF_STATUS_E_NOMEM;
  3827. return wmi_unified_cmd_send(wmi_handle, wmibuf, 0,
  3828. WMI_PDEV_GET_NFCAL_POWER_CMDID);
  3829. }
  3830. /**
  3831. * send_packet_power_info_get_cmd_non_tlv() - send request to get packet power
  3832. * info to fw
  3833. * @wmi_handle: wmi handle
  3834. * @param: pointer to hold packet power info param
  3835. *
  3836. * Return: 0 for success or error code
  3837. */
  3838. QDF_STATUS
  3839. send_packet_power_info_get_cmd_non_tlv(wmi_unified_t wmi_handle,
  3840. struct packet_power_info_params *param)
  3841. {
  3842. wmi_pdev_get_tpc_cmd *cmd;
  3843. wmi_buf_t wmibuf;
  3844. u_int32_t len = sizeof(wmi_pdev_get_tpc_cmd);
  3845. wmibuf = wmi_buf_alloc(wmi_handle, len);
  3846. if (wmibuf == NULL)
  3847. return QDF_STATUS_E_NOMEM;
  3848. cmd = (wmi_pdev_get_tpc_cmd *)wmi_buf_data(wmibuf);
  3849. cmd->rate_flags = param->rate_flags;
  3850. cmd->nss = param->nss;
  3851. cmd->preamble = param->preamble;
  3852. cmd->hw_rate = param->hw_rate;
  3853. cmd->rsvd = 0x0;
  3854. qdf_print("%s[%d] commandID %d, wmi_pdev_get_tpc_cmd=0x%x\n", __func__,
  3855. __LINE__, WMI_PDEV_GET_TPC_CMDID, *((u_int32_t *)cmd));
  3856. return wmi_unified_cmd_send(wmi_handle, wmibuf, len,
  3857. WMI_PDEV_GET_TPC_CMDID);
  3858. }
  3859. /**
  3860. * send_gpio_config_cmd_non_tlv() - send gpio config to fw
  3861. * @wmi_handle: wmi handle
  3862. * @param: pointer to hold gpio config param
  3863. *
  3864. * Return: 0 for success or error code
  3865. */
  3866. QDF_STATUS
  3867. send_gpio_config_cmd_non_tlv(wmi_unified_t wmi_handle,
  3868. struct gpio_config_params *param)
  3869. {
  3870. wmi_gpio_config_cmd *cmd;
  3871. wmi_buf_t wmibuf;
  3872. u_int32_t len = sizeof(wmi_gpio_config_cmd);
  3873. /* Sanity Checks */
  3874. if (param->pull_type > WMI_GPIO_PULL_DOWN ||
  3875. param->intr_mode > WMI_GPIO_INTTYPE_LEVEL_HIGH) {
  3876. return QDF_STATUS_E_FAILURE;
  3877. }
  3878. wmibuf = wmi_buf_alloc(wmi_handle, len);
  3879. if (wmibuf == NULL)
  3880. return QDF_STATUS_E_FAILURE;
  3881. cmd = (wmi_gpio_config_cmd *)wmi_buf_data(wmibuf);
  3882. cmd->gpio_num = param->gpio_num;
  3883. cmd->input = param->input;
  3884. cmd->pull_type = param->pull_type;
  3885. cmd->intr_mode = param->intr_mode;
  3886. return wmi_unified_cmd_send(wmi_handle, wmibuf, len,
  3887. WMI_GPIO_CONFIG_CMDID);
  3888. }
  3889. /**
  3890. * send_gpio_output_cmd_non_tlv() - send gpio output to fw
  3891. * @wmi_handle: wmi handle
  3892. * @param: pointer to hold gpio output param
  3893. *
  3894. * Return: 0 for success or error code
  3895. */
  3896. QDF_STATUS
  3897. send_gpio_output_cmd_non_tlv(wmi_unified_t wmi_handle,
  3898. struct gpio_output_params *param)
  3899. {
  3900. wmi_gpio_output_cmd *cmd;
  3901. wmi_buf_t wmibuf;
  3902. u_int32_t len = sizeof(wmi_gpio_output_cmd);
  3903. wmibuf = wmi_buf_alloc(wmi_handle, len);
  3904. if (wmibuf == NULL)
  3905. return QDF_STATUS_E_FAILURE;
  3906. cmd = (wmi_gpio_output_cmd *)wmi_buf_data(wmibuf);
  3907. cmd->gpio_num = param->gpio_num;
  3908. cmd->set = param->set;
  3909. return wmi_unified_cmd_send(wmi_handle, wmibuf, len,
  3910. WMI_GPIO_OUTPUT_CMDID);
  3911. }
  3912. /*
  3913. * send_rtt_meas_req_test_cmd_non_tlv() - send rtt meas req test cmd to fw
  3914. * @wmi_handle: wmi handle
  3915. * @param: pointer to hold rtt meas req test param
  3916. *
  3917. * Return: 0 for success or error code
  3918. */
  3919. QDF_STATUS
  3920. send_rtt_meas_req_test_cmd_non_tlv(wmi_unified_t wmi_handle,
  3921. struct rtt_meas_req_test_params *param)
  3922. {
  3923. wmi_buf_t buf;
  3924. u_int8_t *p;
  3925. int ret;
  3926. u_int16_t len;
  3927. wmi_rtt_measreq_head *head;
  3928. wmi_rtt_measreq_body *body;
  3929. wmi_channel *w_chan;
  3930. qdf_print("%s: The request ID is: %d\n", __func__, param->req_id);
  3931. len = sizeof(wmi_rtt_measreq_head) + param->req_num_req *
  3932. sizeof(wmi_rtt_measreq_body);
  3933. buf = wmi_buf_alloc(wmi_handle, len);
  3934. if (!buf) {
  3935. qdf_print("No WMI resource!");
  3936. return QDF_STATUS_E_NOMEM;
  3937. }
  3938. p = (u_int8_t *) wmi_buf_data(buf);
  3939. qdf_mem_set(p, 0, len);
  3940. head = (wmi_rtt_measreq_head *) p;
  3941. WMI_RTT_REQ_ID_SET(head->req_id, param->req_id);
  3942. WMI_RTT_SPS_SET(head->req_id, 1);
  3943. WMI_RTT_NUM_STA_SET(head->sta_num, param->req_num_req);
  3944. if (param->req_report_type < WMI_RTT_AGGREAGET_REPORT_NON_CFR) {
  3945. /* In command line, 0 - FAC, 1 - CFR, need to revert here */
  3946. param->req_report_type ^= 1;
  3947. }
  3948. if (param->num_measurements == 0)
  3949. param->num_measurements = 25;
  3950. body = &(head->body[0]);
  3951. WMI_RTT_VDEV_ID_SET(body->measure_info, 0);
  3952. WMI_RTT_TIMEOUT_SET(body->measure_info, 100);
  3953. WMI_RTT_REPORT_TYPE_SET(body->measure_info, param->req_report_type);
  3954. WMI_RTT_FRAME_TYPE_SET(body->control_flag, param->req_frame_type);
  3955. WMI_RTT_TX_CHAIN_SET(body->control_flag, 001);
  3956. WMI_RTT_QCA_PEER_SET(body->control_flag, 1);
  3957. if (param->req_preamble == WMI_RTT_PREAM_LEGACY)
  3958. WMI_RTT_MCS_SET(body->control_flag, 3);
  3959. else
  3960. WMI_RTT_MCS_SET(body->control_flag, 0);
  3961. WMI_RTT_RETRIES_SET(body->control_flag, 1);
  3962. /*
  3963. qdf_mem_copy(peer, param->mac_addr, 6);
  3964. qdf_print("The mac_addr is"
  3965. " %.2x:%.2x:%.2x:%.2x:%.2x:%.2x extra=%d\n",
  3966. peer[0], peer[1], peer[2],
  3967. peer[3], peer[4], peer[5], param->extra);
  3968. */
  3969. /* start from here, embed the first req in each RTT measurement
  3970. * Command */
  3971. /*peer[5] = 0x12;
  3972. peer[4] = 0x90;
  3973. peer[3] = 0x78;
  3974. peer[2] = 0x56;
  3975. peer[1] = 0x34;
  3976. peer[0] = 0x12;
  3977. >---*/
  3978. head->channel.mhz = param->channel.mhz;
  3979. head->channel.band_center_freq1 = param->channel.cfreq1;
  3980. head->channel.band_center_freq2 = param->channel.cfreq2;
  3981. w_chan = (wmi_channel *)&head->channel;
  3982. WMI_SET_CHANNEL_MODE(w_chan, param->channel.phy_mode);
  3983. WMI_SET_CHANNEL_MIN_POWER(w_chan, param->channel.minpower);
  3984. WMI_SET_CHANNEL_MAX_POWER(w_chan, param->channel.maxpower);
  3985. WMI_SET_CHANNEL_REG_POWER(w_chan, param->channel.maxregpower);
  3986. WMI_SET_CHANNEL_ANTENNA_MAX(w_chan, param->channel.antennamax);
  3987. WMI_SET_CHANNEL_REG_CLASSID(w_chan, param->channel.reg_class_id);
  3988. WMI_CHAR_ARRAY_TO_MAC_ADDR(((u_int8_t *)param->peer), &body->dest_mac);
  3989. WMI_CHAR_ARRAY_TO_MAC_ADDR(((u_int8_t *)param->peer),
  3990. &body->spoof_bssid);
  3991. WMI_RTT_BW_SET(body->control_flag, param->req_bw);
  3992. WMI_RTT_PREAMBLE_SET(body->control_flag, param->req_preamble);
  3993. WMI_RTT_MEAS_NUM_SET(body->measure_info, param->num_measurements);
  3994. body->measure_params_1 = 0;
  3995. body->measure_params_2 = 0;
  3996. WMI_RTT_ASAP_MODE_SET(body->measure_params_1, param->asap_mode);
  3997. WMI_RTT_LCI_REQ_SET(body->measure_params_1, param->lci_requested);
  3998. WMI_RTT_LOC_CIV_REQ_SET(body->measure_params_1,
  3999. param->loc_civ_requested);
  4000. WMI_RTT_NUM_BURST_EXP_SET(body->measure_params_1, 0);
  4001. WMI_RTT_BURST_DUR_SET(body->measure_params_1, 15);
  4002. WMI_RTT_BURST_PERIOD_SET(body->measure_params_1, 0);
  4003. WMI_RTT_TSF_DELTA_VALID_SET(body->measure_params_1, 1);
  4004. WMI_RTT_TSF_DELTA_SET(body->measure_params_2, 0);
  4005. /** other requests are same with first request */
  4006. p = (u_int8_t *) body;
  4007. while (--param->req_num_req) {
  4008. body++;
  4009. qdf_mem_copy(body, p, sizeof(wmi_rtt_measreq_body));
  4010. }
  4011. ret = wmi_unified_cmd_send(wmi_handle, buf, len, WMI_RTT_MEASREQ_CMDID);
  4012. qdf_print("send rtt cmd to FW with length %d and return %d\n",
  4013. len, ret);
  4014. return QDF_STATUS_SUCCESS;
  4015. }
  4016. /**
  4017. * send_rtt_meas_req_cmd_non_tlv() - send rtt meas req cmd to fw
  4018. * @wmi_handle: wmi handle
  4019. * @param: pointer to hold rtt meas req param
  4020. *
  4021. * Return: 0 for success or error code
  4022. */
  4023. QDF_STATUS
  4024. send_rtt_meas_req_cmd_non_tlv(wmi_unified_t wmi_handle,
  4025. struct rtt_meas_req_params *param)
  4026. {
  4027. wmi_buf_t buf;
  4028. uint8_t *p;
  4029. int ret;
  4030. uint16_t len;
  4031. uint8_t peer[6];
  4032. uint8_t spoof[6];
  4033. wmi_rtt_measreq_head *head;
  4034. wmi_rtt_measreq_body *body;
  4035. int req_frame_type, req_preamble;
  4036. wmi_channel *w_chan;
  4037. /* Temporarily, hardcoding peer mac address for test purpose will be
  4038. * removed once RTT host has been developed for even req_id, like
  4039. * 0, 2, 4, there is no channel_swicth for odd req_id, like 1, 3 , 5,
  4040. * there is channel switch currently, for both cases, we have 3 req in
  4041. * each command please change here if you only have one (or just let
  4042. * it be). Even == HC, odd == OC.
  4043. */
  4044. if (!(param->req_id & 0x1)) {
  4045. len = sizeof(wmi_rtt_measreq_head);
  4046. /* + 2 * sizeof(wmi_rtt_measreq_body);*/
  4047. } else {
  4048. len = sizeof(wmi_rtt_measreq_head);
  4049. /* + 2 * sizeof(wmi_rtt_measreq_body);*/
  4050. }
  4051. buf = wmi_buf_alloc(wmi_handle, len);
  4052. if (!buf) {
  4053. qdf_print("No WMI resource!");
  4054. return QDF_STATUS_E_FAILURE;
  4055. }
  4056. p = (uint8_t *) wmi_buf_data(buf);
  4057. qdf_mem_set(p, 0, len);
  4058. /* encode header */
  4059. head = (wmi_rtt_measreq_head *) p;
  4060. /* head->req_id = req_id;*/
  4061. WMI_RTT_REQ_ID_SET(head->req_id, param->req_id);
  4062. /* WMI_RTT_SPS_SET(head->req_id, 1);*/
  4063. if (!(param->req_id & 0x1)) { /*even req id */
  4064. #ifndef RTT_TEST
  4065. /* we actually only have 3 sta to measure
  4066. this is used to test over limit request protection
  4067. XIN:WMI_RTT_NUM_STA_SET(head->sta_num, 5);*/
  4068. #else
  4069. /* XIN:WMI_RTT_NUM_STA_SET(head->sta_num, 2);*/
  4070. WMI_RTT_NUM_STA_SET(head->sta_num, 1);
  4071. #endif
  4072. WMI_RTT_NUM_STA_SET(head->sta_num, 1);
  4073. } else { /* odd req id */
  4074. /* XIN:WMI_RTT_NUM_STA_SET(head->sta_num, 3); */
  4075. WMI_RTT_NUM_STA_SET(head->sta_num, 1);
  4076. }
  4077. req_frame_type = RTT_MEAS_FRAME_NULL;
  4078. /* MS(extra, RTT_REQ_FRAME_TYPE);*/
  4079. /* req_bw = //MS(extra, RTT_REQ_BW);*/
  4080. req_preamble = WMI_RTT_PREAM_LEGACY;/*MS(extra, RTT_REQ_PREAMBLE);*/
  4081. /*encode common parts for each RTT measurement command body
  4082. The value here can be overwrite in following each req hardcoding */
  4083. body = &(head->body[0]);
  4084. WMI_RTT_VDEV_ID_SET(body->measure_info, param->vdev_id);
  4085. WMI_RTT_TIMEOUT_SET(body->measure_info, RTT_TIMEOUT_MS);
  4086. WMI_RTT_REPORT_TYPE_SET(body->measure_info, 1);
  4087. WMI_RTT_FRAME_TYPE_SET(body->control_flag, req_frame_type);
  4088. WMI_RTT_TX_CHAIN_SET(body->control_flag, 001);
  4089. WMI_RTT_QCA_PEER_SET(body->control_flag, 1);
  4090. if (req_preamble == WMI_RTT_PREAM_LEGACY)
  4091. WMI_RTT_MCS_SET(body->control_flag, 3);
  4092. else
  4093. WMI_RTT_MCS_SET(body->control_flag, 0);
  4094. WMI_RTT_RETRIES_SET(body->control_flag, 1);
  4095. if (!(param->req_id & 0x1)) { /* even time */
  4096. qdf_mem_copy(peer, param->sta_mac_addr, 6);
  4097. } else { /* odd time */
  4098. qdf_mem_copy(peer, param->sta_mac_addr, 6);
  4099. }
  4100. head->channel.mhz = param->channel.mhz;
  4101. head->channel.band_center_freq1 = param->channel.cfreq1;
  4102. head->channel.band_center_freq2 = param->channel.cfreq2;
  4103. w_chan = (wmi_channel *)&head->channel;
  4104. WMI_SET_CHANNEL_MAX_POWER(w_chan, param->channel.phy_mode);
  4105. WMI_SET_CHANNEL_MIN_POWER(w_chan, param->channel.minpower);
  4106. WMI_SET_CHANNEL_MAX_POWER(w_chan, param->channel.maxpower);
  4107. WMI_SET_CHANNEL_REG_POWER(w_chan, param->channel.maxregpower);
  4108. WMI_SET_CHANNEL_ANTENNA_MAX(w_chan, param->channel.antennamax);
  4109. WMI_SET_CHANNEL_REG_CLASSID(w_chan, param->channel.reg_class_id);
  4110. if (param->is_mode_na)
  4111. WMI_SET_CHANNEL_MODE(w_chan, MODE_11NG_HT20);
  4112. else if (param->is_mode_ac)
  4113. WMI_SET_CHANNEL_MODE(w_chan, MODE_11NA_HT20);
  4114. if (param->channel.dfs_set)
  4115. WMI_SET_CHANNEL_FLAG(w_chan, WMI_CHAN_FLAG_DFS);
  4116. WMI_CHAR_ARRAY_TO_MAC_ADDR(((uint8_t *)peer), &body->dest_mac);
  4117. qdf_mem_set(spoof, 0 , 6);
  4118. WMI_CHAR_ARRAY_TO_MAC_ADDR(((uint8_t *)param->spoof_mac_addr),
  4119. &body->spoof_bssid);
  4120. /** embedded varing part of each request
  4121. set Preamble, BW, measurement times */
  4122. if (param->is_bw_20)
  4123. WMI_RTT_BW_SET(body->control_flag, WMI_RTT_BW_20);
  4124. else if (param->is_bw_40)
  4125. WMI_RTT_BW_SET(body->control_flag, WMI_RTT_BW_40);
  4126. else if (param->is_bw_80)
  4127. WMI_RTT_BW_SET(body->control_flag, WMI_RTT_BW_80);
  4128. else
  4129. WMI_RTT_BW_SET(body->control_flag, WMI_RTT_BW_20);
  4130. WMI_RTT_PREAMBLE_SET(body->control_flag, req_preamble);
  4131. WMI_RTT_MEAS_NUM_SET(body->measure_info, param->num_probe_rqst);
  4132. ret = wmi_unified_cmd_send(wmi_handle, buf, len, WMI_RTT_MEASREQ_CMDID);
  4133. qdf_print("send rtt cmd to FW with length %d and return %d\n",
  4134. len, ret);
  4135. return ret;
  4136. }
  4137. /**
  4138. * send_rtt_keepalive_req_cmd_non_tlv() - send rtt keepalive req cmd to fw
  4139. * @wmi_handle: wmi handle
  4140. * @param: pointer to hold rtt keepalive req param
  4141. *
  4142. * Return: 0 for success or error code
  4143. */
  4144. QDF_STATUS
  4145. send_rtt_keepalive_req_cmd_non_tlv(wmi_unified_t wmi_handle,
  4146. struct rtt_keepalive_req_params *param)
  4147. {
  4148. wmi_buf_t buf;
  4149. wmi_rtt_keepalive_cmd *cmd;
  4150. int ret;
  4151. uint16_t len;
  4152. uint8_t *ptr;
  4153. len = sizeof(wmi_rtt_keepalive_cmd);
  4154. buf = wmi_buf_alloc(wmi_handle, len);
  4155. if (!buf) {
  4156. qdf_print("No WMI resource\n");
  4157. return QDF_STATUS_E_FAILURE;
  4158. }
  4159. ptr = (uint8_t *)wmi_buf_data(buf);
  4160. OS_MEMSET(ptr, 0, len);
  4161. cmd = (wmi_rtt_keepalive_cmd *)wmi_buf_data(buf);
  4162. WMI_RTT_REQ_ID_SET(cmd->req_id, param->req_id);
  4163. WMI_RTT_KEEPALIVE_ACTION_SET(cmd->req_id, param->stop);
  4164. WMI_RTT_VDEV_ID_SET(cmd->probe_info, param->vdev_id);
  4165. /* 3ms probe interval by default */
  4166. WMI_RTT_KEEPALIVE_PERIOD_SET(cmd->probe_info, 3);
  4167. /* max retry of 50 by default */
  4168. WMI_RTT_TIMEOUT_SET(cmd->probe_info, 20);
  4169. /* set frame type */
  4170. WMI_RTT_FRAME_TYPE_SET(cmd->control_flag, RTT_MEAS_FRAME_KEEPALIVE);
  4171. WMI_CHAR_ARRAY_TO_MAC_ADDR(param->macaddr, &cmd->sta_mac);
  4172. ret = wmi_unified_cmd_send(wmi_handle, buf, len,
  4173. WMI_RTT_KEEPALIVE_CMDID);
  4174. qdf_print("send rtt keepalive cmd to FW with length %d and return %d\n"
  4175. , len, ret);
  4176. param->req_id++;
  4177. return QDF_STATUS_SUCCESS;
  4178. }
  4179. /**
  4180. * send_lci_set_cmd_non_tlv() - send lci cmd to fw
  4181. * @wmi_handle: wmi handle
  4182. * @param: pointer to hold lci param
  4183. *
  4184. * Return: 0 for success or error code
  4185. */
  4186. QDF_STATUS
  4187. send_lci_set_cmd_non_tlv(wmi_unified_t wmi_handle,
  4188. struct lci_set_params *param)
  4189. {
  4190. wmi_buf_t buf;
  4191. uint8_t *p;
  4192. wmi_oem_measreq_head *head;
  4193. int len;
  4194. wmi_rtt_lci_cfg_head *rtt_req;
  4195. rtt_req = (wmi_rtt_lci_cfg_head *) param->lci_data;
  4196. len = sizeof(wmi_oem_measreq_head)+sizeof(wmi_rtt_lci_cfg_head);
  4197. buf = wmi_buf_alloc(wmi_handle, len);
  4198. if (!buf) {
  4199. qdf_print("No WMI resource!");
  4200. return QDF_STATUS_E_FAILURE;
  4201. }
  4202. p = (uint8_t *) wmi_buf_data(buf);
  4203. qdf_mem_set(p, 0, len);
  4204. head = (wmi_oem_measreq_head *)p;
  4205. head->sub_type = TARGET_OEM_CONFIGURE_LCI;
  4206. WMI_HOST_IF_MSG_COPY_CHAR_ARRAY(&(head->head), param->lci_data,
  4207. sizeof(wmi_rtt_lci_cfg_head));
  4208. if (wmi_unified_cmd_send(wmi_handle, buf, len, WMI_OEM_REQ_CMDID))
  4209. return QDF_STATUS_E_FAILURE;
  4210. /* Save LCI data in host buffer */
  4211. {
  4212. param->latitude_unc = WMI_RTT_LCI_LAT_UNC_GET(
  4213. rtt_req->lci_cfg_param_info);
  4214. param->latitude_0_1 = ((uint32_t)(rtt_req->latitude & 0x3));
  4215. param->latitude_2_33 = (uint32_t)
  4216. (((uint64_t)(rtt_req->latitude)) >> 2);
  4217. param->longitude_unc =
  4218. WMI_RTT_LCI_LON_UNC_GET(rtt_req->lci_cfg_param_info);
  4219. param->longitude_0_1 = ((uint32_t)(rtt_req->longitude & 0x3));
  4220. param->longitude_2_33 =
  4221. (uint32_t)(((uint64_t)(rtt_req->longitude)) >> 2);
  4222. param->altitude_type =
  4223. WMI_RTT_LCI_ALT_TYPE_GET(rtt_req->altitude_info);
  4224. param->altitude_unc_0_3 =
  4225. (WMI_RTT_LCI_ALT_UNC_GET(rtt_req->altitude_info) & 0xF);
  4226. param->altitude_unc_4_5 =
  4227. ((WMI_RTT_LCI_ALT_UNC_GET(rtt_req->altitude_info) >> 4) &
  4228. 0x3);
  4229. param->altitude = (rtt_req->altitude & RTT_LCI_ALTITUDE_MASK);
  4230. param->datum =
  4231. WMI_RTT_LCI_DATUM_GET(rtt_req->lci_cfg_param_info);
  4232. param->reg_loc_agmt =
  4233. WMI_RTT_LCI_REG_LOC_AGMT_GET(rtt_req->lci_cfg_param_info);
  4234. param->reg_loc_dse =
  4235. WMI_RTT_LCI_REG_LOC_DSE_GET(rtt_req->lci_cfg_param_info);
  4236. param->dep_sta =
  4237. WMI_RTT_LCI_DEP_STA_GET(rtt_req->lci_cfg_param_info);
  4238. param->version =
  4239. WMI_RTT_LCI_VERSION_GET(rtt_req->lci_cfg_param_info);
  4240. }
  4241. return QDF_STATUS_SUCCESS;
  4242. }
  4243. /**
  4244. * send_lcr_set_cmd_non_tlv() - send lcr cmd to fw
  4245. * @wmi_handle: wmi handle
  4246. * @param: pointer to hold lcr param
  4247. *
  4248. * Return: 0 for success or error code
  4249. */
  4250. QDF_STATUS
  4251. send_lcr_set_cmd_non_tlv(wmi_unified_t wmi_handle,
  4252. struct lcr_set_params *param)
  4253. {
  4254. wmi_buf_t buf;
  4255. uint8_t *p;
  4256. wmi_oem_measreq_head *head;
  4257. int len;
  4258. len = sizeof(wmi_oem_measreq_head)+sizeof(wmi_rtt_lcr_cfg_head);
  4259. buf = wmi_buf_alloc(wmi_handle, len);
  4260. if (!buf) {
  4261. qdf_print("No WMI resource!");
  4262. return QDF_STATUS_E_FAILURE;
  4263. }
  4264. p = (uint8_t *) wmi_buf_data(buf);
  4265. qdf_mem_set(p, 0, len);
  4266. head = (wmi_oem_measreq_head *)p;
  4267. head->sub_type = TARGET_OEM_CONFIGURE_LCR;
  4268. WMI_HOST_IF_MSG_COPY_CHAR_ARRAY(&(head->head), param->lcr_data,
  4269. sizeof(wmi_rtt_lcr_cfg_head));
  4270. if (wmi_unified_cmd_send(wmi_handle, buf, len, WMI_OEM_REQ_CMDID))
  4271. return QDF_STATUS_E_FAILURE;
  4272. return QDF_STATUS_SUCCESS;
  4273. }
  4274. /**
  4275. * wmi_copy_resource_config_non_tlv() - copy resource configuration function
  4276. * @param resource_cfg: pointer to resource configuration
  4277. * @param tgt_res_cfg: pointer to target resource configuration
  4278. *
  4279. * Return: None
  4280. */
  4281. static void wmi_copy_resource_config_non_tlv(wmi_resource_config *resource_cfg,
  4282. target_resource_config *tgt_res_cfg)
  4283. {
  4284. resource_cfg->num_vdevs = tgt_res_cfg->num_vdevs;
  4285. resource_cfg->num_peers = tgt_res_cfg->num_peers;
  4286. resource_cfg->num_active_peers = tgt_res_cfg->num_active_peers;
  4287. resource_cfg->num_offload_peers = tgt_res_cfg->num_offload_peers;
  4288. resource_cfg->num_offload_reorder_buffs =
  4289. tgt_res_cfg->num_offload_reorder_buffs;
  4290. resource_cfg->num_peer_keys = tgt_res_cfg->num_peer_keys;
  4291. resource_cfg->num_tids = tgt_res_cfg->num_tids;
  4292. resource_cfg->ast_skid_limit = tgt_res_cfg->ast_skid_limit;
  4293. resource_cfg->tx_chain_mask = tgt_res_cfg->tx_chain_mask;
  4294. resource_cfg->rx_chain_mask = tgt_res_cfg->rx_chain_mask;
  4295. resource_cfg->rx_timeout_pri[0] = tgt_res_cfg->rx_timeout_pri[0];
  4296. resource_cfg->rx_timeout_pri[1] = tgt_res_cfg->rx_timeout_pri[1];
  4297. resource_cfg->rx_timeout_pri[2] = tgt_res_cfg->rx_timeout_pri[2];
  4298. resource_cfg->rx_timeout_pri[3] = tgt_res_cfg->rx_timeout_pri[3];
  4299. resource_cfg->rx_decap_mode = tgt_res_cfg->rx_decap_mode;
  4300. resource_cfg->scan_max_pending_req = tgt_res_cfg->scan_max_pending_req;
  4301. resource_cfg->bmiss_offload_max_vdev =
  4302. tgt_res_cfg->bmiss_offload_max_vdev;
  4303. resource_cfg->roam_offload_max_vdev =
  4304. tgt_res_cfg->roam_offload_max_vdev;
  4305. resource_cfg->roam_offload_max_ap_profiles =
  4306. tgt_res_cfg->roam_offload_max_ap_profiles;
  4307. resource_cfg->num_mcast_groups = tgt_res_cfg->num_mcast_groups;
  4308. resource_cfg->num_mcast_table_elems =
  4309. tgt_res_cfg->num_mcast_table_elems;
  4310. resource_cfg->mcast2ucast_mode = tgt_res_cfg->mcast2ucast_mode;
  4311. resource_cfg->tx_dbg_log_size = tgt_res_cfg->tx_dbg_log_size;
  4312. resource_cfg->num_wds_entries = tgt_res_cfg->num_wds_entries;
  4313. resource_cfg->dma_burst_size = tgt_res_cfg->dma_burst_size;
  4314. resource_cfg->mac_aggr_delim = tgt_res_cfg->mac_aggr_delim;
  4315. resource_cfg->rx_skip_defrag_timeout_dup_detection_check =
  4316. tgt_res_cfg->rx_skip_defrag_timeout_dup_detection_check;
  4317. resource_cfg->vow_config = tgt_res_cfg->vow_config;
  4318. resource_cfg->gtk_offload_max_vdev = tgt_res_cfg->gtk_offload_max_vdev;
  4319. resource_cfg->num_msdu_desc = tgt_res_cfg->num_msdu_desc;
  4320. resource_cfg->max_frag_entries = tgt_res_cfg->max_frag_entries;
  4321. resource_cfg->max_peer_ext_stats = tgt_res_cfg->max_peer_ext_stats;
  4322. resource_cfg->smart_ant_cap = tgt_res_cfg->smart_ant_cap;
  4323. resource_cfg->BK_Minfree = tgt_res_cfg->BK_Minfree;
  4324. resource_cfg->BE_Minfree = tgt_res_cfg->BE_Minfree;
  4325. resource_cfg->VI_Minfree = tgt_res_cfg->VI_Minfree;
  4326. resource_cfg->VO_Minfree = tgt_res_cfg->VO_Minfree;
  4327. resource_cfg->rx_batchmode = tgt_res_cfg->rx_batchmode;
  4328. resource_cfg->tt_support = tgt_res_cfg->tt_support;
  4329. resource_cfg->atf_config = tgt_res_cfg->atf_config;
  4330. resource_cfg->iphdr_pad_config = tgt_res_cfg->iphdr_pad_config;
  4331. WMI_SET_QWRAP(resource_cfg, tgt_res_cfg->qwrap_config);
  4332. WMI_SET_ALLOC_FRAG(resource_cfg,
  4333. tgt_res_cfg->alloc_frag_desc_for_data_pkt);
  4334. }
  4335. /**
  4336. * init_cmd_send_non_tlv() - send initialization cmd to fw
  4337. * @wmi_handle: wmi handle
  4338. * @param tgt_res_cfg: pointer to target resource configuration
  4339. * @param num_mem_chunks: Number of memory chunks
  4340. * @param mem_chunks: pointer to target memory chunks
  4341. *
  4342. * Return: 0 for success or error code
  4343. */
  4344. static QDF_STATUS init_cmd_send_non_tlv(wmi_unified_t wmi_handle,
  4345. target_resource_config *tgt_res_cfg,
  4346. uint8_t num_mem_chunks, struct wmi_host_mem_chunk *mem_chunks)
  4347. {
  4348. wmi_buf_t buf;
  4349. wmi_init_cmd *cmd;
  4350. wlan_host_memory_chunk *host_mem_chunks;
  4351. uint32_t mem_chunk_len = 0;
  4352. uint16_t idx;
  4353. int len;
  4354. len = sizeof(*cmd);
  4355. mem_chunk_len = (sizeof(wlan_host_memory_chunk) * MAX_MEM_CHUNKS);
  4356. buf = wmi_buf_alloc(wmi_handle, len + mem_chunk_len);
  4357. if (!buf) {
  4358. qdf_print("%s: wmi_buf_alloc failed\n", __func__);
  4359. return QDF_STATUS_E_FAILURE;
  4360. }
  4361. cmd = (wmi_init_cmd *) wmi_buf_data(buf);
  4362. wmi_copy_resource_config_non_tlv(&cmd->resource_config, tgt_res_cfg);
  4363. host_mem_chunks = cmd->host_mem_chunks;
  4364. for (idx = 0; idx < num_mem_chunks; ++idx) {
  4365. host_mem_chunks[idx].ptr = mem_chunks[idx].paddr;
  4366. host_mem_chunks[idx].size = mem_chunks[idx].len;
  4367. host_mem_chunks[idx].req_id = mem_chunks[idx].req_id;
  4368. qdf_print("chunk %d len %d requested , ptr 0x%x\n",
  4369. idx, cmd->host_mem_chunks[idx].size,
  4370. cmd->host_mem_chunks[idx].ptr);
  4371. }
  4372. cmd->num_host_mem_chunks = num_mem_chunks;
  4373. if (num_mem_chunks > 1)
  4374. len += ((num_mem_chunks-1) * sizeof(wlan_host_memory_chunk));
  4375. if (wmi_unified_cmd_send(wmi_handle, buf, len, WMI_INIT_CMDID) < 0) {
  4376. wmi_buf_free(buf);
  4377. return QDF_STATUS_E_FAILURE;
  4378. }
  4379. return QDF_STATUS_SUCCESS;
  4380. }
  4381. /**
  4382. * send_ext_resource_config_non_tlv() - send extended resource configuration
  4383. * @wmi_handle: wmi handle
  4384. * @param ext_cfg: pointer to extended resource configuration
  4385. *
  4386. * Return: 0 for success or error code
  4387. */
  4388. static QDF_STATUS send_ext_resource_config_non_tlv(wmi_unified_t wmi_handle,
  4389. wmi_host_ext_resource_config *ext_cfg)
  4390. {
  4391. wmi_buf_t buf;
  4392. int len = 0;
  4393. wmi_ext_resource_config *cmd_cfg;
  4394. #define PAD_LENGTH 100
  4395. buf = wmi_buf_alloc(wmi_handle,
  4396. len + (sizeof(wmi_ext_resource_config) + PAD_LENGTH));
  4397. if (!buf) {
  4398. qdf_print("%s:wmi_buf_alloc failed\n", __func__);
  4399. return QDF_STATUS_E_FAILURE;
  4400. }
  4401. cmd_cfg = (wmi_ext_resource_config *)wmi_buf_data(buf);
  4402. qdf_mem_copy(cmd_cfg, ext_cfg, sizeof(wmi_ext_resource_config));
  4403. qdf_print("\nSending Ext resource cfg: HOST PLATFORM as %d\n"
  4404. "fw_feature_bitmap as %x to TGT\n",
  4405. cmd_cfg->host_platform_config,
  4406. cmd_cfg->fw_feature_bitmap);
  4407. if (wmi_unified_cmd_send(wmi_handle, buf,
  4408. sizeof(wmi_ext_resource_config),
  4409. WMI_EXT_RESOURCE_CFG_CMDID) < 0) {
  4410. wmi_buf_free(buf);
  4411. return QDF_STATUS_E_FAILURE;
  4412. }
  4413. return QDF_STATUS_SUCCESS;
  4414. }
  4415. /**
  4416. * save_service_bitmap_non_tlv() - save service bitmap
  4417. * @wmi_handle: wmi handle
  4418. * @param evt_buf: pointer to event buffer
  4419. *
  4420. * Return: None
  4421. */
  4422. static void save_service_bitmap_non_tlv(wmi_unified_t wmi_handle, void *evt_buf)
  4423. {
  4424. wmi_service_ready_event *ev;
  4425. ev = (wmi_service_ready_event *) evt_buf;
  4426. qdf_mem_copy(wmi_handle->wmi_service_bitmap, ev->wmi_service_bitmap,
  4427. (WMI_SERVICE_BM_SIZE * sizeof(uint32_t)));
  4428. }
  4429. /**
  4430. * is_service_enabled_non_tlv() - Check if service enabled
  4431. * @param wmi_handle: wmi handle
  4432. * @param service_id: service identifier
  4433. *
  4434. * Return: 1 enabled, 0 disabled
  4435. */
  4436. static bool is_service_enabled_non_tlv(wmi_unified_t wmi_handle,
  4437. uint32_t service_id)
  4438. {
  4439. return WMI_SERVICE_IS_ENABLED(wmi_handle->wmi_service_bitmap,
  4440. service_id);
  4441. }
  4442. /**
  4443. * extract_service_ready_non_tlv() - extract service ready event
  4444. * @wmi_handle: wmi handle
  4445. * @param evt_buf: pointer to received event buffer
  4446. * @param cap: pointer to hold target capability information extracted from even
  4447. *
  4448. * Return: 0 for success or error code
  4449. */
  4450. static QDF_STATUS extract_service_ready_non_tlv(wmi_unified_t wmi_handle,
  4451. void *evt_buf,
  4452. target_capability_info *cap)
  4453. {
  4454. wmi_service_ready_event *ev;
  4455. ev = (wmi_service_ready_event *) evt_buf;
  4456. cap->phy_capability = ev->phy_capability;
  4457. cap->max_frag_entry = ev->max_frag_entry;
  4458. cap->num_rf_chains = ev->num_rf_chains;
  4459. cap->ht_cap_info = ev->ht_cap_info;
  4460. cap->vht_cap_info = ev->vht_cap_info;
  4461. cap->vht_supp_mcs = ev->vht_supp_mcs;
  4462. cap->hw_min_tx_power = ev->hw_min_tx_power;
  4463. cap->hw_max_tx_power = ev->hw_max_tx_power;
  4464. cap->sys_cap_info = ev->sys_cap_info;
  4465. cap->min_pkt_size_enable = ev->min_pkt_size_enable;
  4466. cap->max_bcn_ie_size = ev->max_bcn_ie_size;
  4467. /* Following caps not recieved in older fw/hw
  4468. * Initialize it as zero(default). */
  4469. cap->max_num_scan_channels = 0;
  4470. cap->max_supported_macs = 0;
  4471. cap->wmi_fw_sub_feat_caps = 0;
  4472. cap->txrx_chainmask = 0;
  4473. cap->default_dbs_hw_mode_index = 0;
  4474. cap->num_msdu_desc = 0;
  4475. return QDF_STATUS_SUCCESS;
  4476. }
  4477. /**
  4478. * extract_fw_version_non_tlv() - extract fw version
  4479. * @wmi_handle: wmi handle
  4480. * @param evt_buf: pointer to event buffer
  4481. * @param fw_ver: Pointer to hold fw version
  4482. *
  4483. * Return: 0 for success or error code
  4484. */
  4485. QDF_STATUS extract_fw_version_non_tlv(wmi_unified_t wmi_handle,
  4486. void *evt_buf, struct wmi_host_fw_ver *fw_ver)
  4487. {
  4488. wmi_service_ready_event *ev;
  4489. ev = (wmi_service_ready_event *) evt_buf;
  4490. fw_ver->sw_version = ev->sw_version;
  4491. fw_ver->sw_version_1 = ev->sw_version_1;
  4492. return QDF_STATUS_SUCCESS;
  4493. }
  4494. /**
  4495. * extract_fw_abi_version_non_tlv() - extract fw abi version
  4496. * @wmi_handle: wmi handle
  4497. * @param evt_buf: Pointer to event buffer
  4498. * @param fw_ver: Pointer to hold fw abi version
  4499. *
  4500. * Return: 0 for success or error code
  4501. */
  4502. QDF_STATUS extract_fw_abi_version_non_tlv(wmi_unified_t wmi_handle,
  4503. void *evt_buf, struct wmi_host_fw_abi_ver *fw_ver)
  4504. {
  4505. wmi_ready_event *ev;
  4506. ev = (wmi_ready_event *) evt_buf;
  4507. fw_ver->sw_version = ev->sw_version;
  4508. fw_ver->abi_version = ev->abi_version;
  4509. return QDF_STATUS_SUCCESS;
  4510. }
  4511. /**
  4512. * extract_hal_reg_cap_non_tlv() - extract HAL registered capabilities
  4513. * @wmi_handle: wmi handle
  4514. * @param evt_buf: Pointer to event buffer
  4515. * @param cap: pointer to hold HAL reg capabilities
  4516. *
  4517. * Return: 0 for success or error code
  4518. */
  4519. static QDF_STATUS extract_hal_reg_cap_non_tlv(wmi_unified_t wmi_handle,
  4520. void *evt_buf,
  4521. TARGET_HAL_REG_CAPABILITIES *cap)
  4522. {
  4523. wmi_service_ready_event *ev;
  4524. ev = (wmi_service_ready_event *) evt_buf;
  4525. qdf_mem_copy(cap, &ev->hal_reg_capabilities,
  4526. sizeof(TARGET_HAL_REG_CAPABILITIES));
  4527. return QDF_STATUS_SUCCESS;
  4528. }
  4529. /**
  4530. * extract_host_mem_req_non_tlv() - Extract host memory request event
  4531. * @wmi_handle: wmi handle
  4532. * @param evt_buf: pointer to event buffer
  4533. * @param num_entries: pointer to hold number of entries requested
  4534. *
  4535. * Return: Number of entries requested
  4536. */
  4537. static host_mem_req *extract_host_mem_req_non_tlv(wmi_unified_t wmi_handle,
  4538. void *evt_buf, uint8_t *num_entries)
  4539. {
  4540. wmi_service_ready_event *ev;
  4541. ev = (wmi_service_ready_event *) evt_buf;
  4542. *num_entries = ev->num_mem_reqs;
  4543. return (host_mem_req *)ev->mem_reqs;
  4544. }
  4545. /**
  4546. * save_fw_version_in_service_ready_non_tlv() - Save fw version in service
  4547. * ready function
  4548. * @wmi_handle: wmi handle
  4549. * @param evt_buf: pointer to event buffer
  4550. *
  4551. * Return: 0 for success or error code
  4552. */
  4553. static QDF_STATUS save_fw_version_in_service_ready_non_tlv(
  4554. wmi_unified_t wmi_handle,
  4555. void *evt_buf)
  4556. {
  4557. /* Version check and exchange is not present in non-tlv implementation*/
  4558. return QDF_STATUS_SUCCESS;
  4559. }
  4560. /**
  4561. * ready_check_and_update_fw_version_non_tlv() - Ready and fw version check
  4562. * function
  4563. * @wmi_handle: wmi handle
  4564. * @param evt_buf: pointer to event buffer
  4565. *
  4566. * Return: 0 for success or error code
  4567. */
  4568. static QDF_STATUS ready_check_and_update_fw_version_non_tlv(
  4569. wmi_unified_t wmi_handle,
  4570. void *evt_buf)
  4571. {
  4572. /* Version check and exchange is not present in non-tlv implementation*/
  4573. return QDF_STATUS_SUCCESS;
  4574. }
  4575. /**
  4576. * ready_extract_init_status_non_tlv() - Extract init status from ready event
  4577. * @wmi_handle: wmi handle
  4578. * @param evt_buf: Pointer to event buffer
  4579. *
  4580. * Return: ready status
  4581. */
  4582. static uint32_t ready_extract_init_status_non_tlv(wmi_unified_t wmi_hdl,
  4583. void *evt_buf)
  4584. {
  4585. wmi_ready_event *ev = (wmi_ready_event *) evt_buf;
  4586. qdf_print("Version = %d %d status = %d\n", ev->sw_version,
  4587. ev->abi_version, ev->status);
  4588. return ev->status;
  4589. }
  4590. /**
  4591. * ready_extract_mac_addr_non_tlv() - extract mac address from ready event
  4592. * @wmi_handle: wmi handle
  4593. * @param evt_buf: pointer to event buffer
  4594. * @param macaddr: Pointer to hold MAC address
  4595. *
  4596. * Return: 0 for success or error code
  4597. */
  4598. static QDF_STATUS ready_extract_mac_addr_non_tlv(wmi_unified_t wmi_hdl,
  4599. void *evt_buf,
  4600. uint8_t *macaddr)
  4601. {
  4602. wmi_ready_event *ev = (wmi_ready_event *) evt_buf;
  4603. WMI_MAC_ADDR_TO_CHAR_ARRAY(&ev->mac_addr, macaddr);
  4604. return QDF_STATUS_SUCCESS;
  4605. }
  4606. /**
  4607. * extract_dbglog_data_len_non_tlv() - extract debuglog data length
  4608. * @wmi_handle: wmi handle
  4609. * @param evt_buf: pointer to event buffer
  4610. *
  4611. * Return: length
  4612. */
  4613. static uint8_t *extract_dbglog_data_len_non_tlv(wmi_unified_t wmi_handle,
  4614. void *evt_buf,
  4615. uint16_t *len)
  4616. {
  4617. /*Len is already valid from event. No need to change it */
  4618. return evt_buf;
  4619. }
  4620. /**
  4621. * extract_wds_addr_event_non_tlv() - extract wds address from event
  4622. * @wmi_handle: wmi handle
  4623. * @param evt_buf: pointer to event buffer
  4624. * @param wds_ev: Pointer to hold wds address
  4625. *
  4626. * Return: 0 for success or error code
  4627. */
  4628. static QDF_STATUS extract_wds_addr_event_non_tlv(wmi_unified_t wmi_handle,
  4629. void *evt_buf,
  4630. uint16_t len, wds_addr_event_t *wds_ev)
  4631. {
  4632. wmi_wds_addr_event_t *ev = (wmi_wds_addr_event_t *) evt_buf;
  4633. int i;
  4634. #ifdef BIG_ENDIAN_HOST
  4635. {
  4636. uint8_t *datap = (uint8_t *) ev;
  4637. /*Skip swapping the first long word*/
  4638. datap += sizeof(uint32_t);
  4639. for (i = 0; i < ((len / sizeof(uint32_t))-1);
  4640. i++, datap += sizeof(uint32_t))
  4641. *(uint32_t *)datap =
  4642. qdf_le32_to_cpu(*(uint32_t *)datap);
  4643. }
  4644. #endif
  4645. qdf_mem_copy(wds_ev->event_type, ev->event_type,
  4646. sizeof(wds_ev->event_type));
  4647. for (i = 0; i < 4; i++) {
  4648. wds_ev->peer_mac[i] =
  4649. ((u_int8_t *)&(ev->peer_mac.mac_addr31to0))[i];
  4650. wds_ev->dest_mac[i] =
  4651. ((u_int8_t *)&(ev->dest_mac.mac_addr31to0))[i];
  4652. }
  4653. for (i = 0; i < 2; i++) {
  4654. wds_ev->peer_mac[4+i] =
  4655. ((u_int8_t *)&(ev->peer_mac.mac_addr47to32))[i];
  4656. wds_ev->dest_mac[4+i] =
  4657. ((u_int8_t *)&(ev->dest_mac.mac_addr47to32))[i];
  4658. }
  4659. return QDF_STATUS_SUCCESS;
  4660. }
  4661. /**
  4662. * extract_dcs_interference_type_non_tlv() - extract dcs interference type
  4663. * from event
  4664. * @wmi_handle: wmi handle
  4665. * @param evt_buf: pointer to event buffer
  4666. * @param interference_type: Pointer to hold interference type
  4667. *
  4668. * Return: 0 for success or error code
  4669. */
  4670. static QDF_STATUS extract_dcs_interference_type_non_tlv(
  4671. wmi_unified_t wmi_handle,
  4672. void *evt_buf, uint32_t *interference_type)
  4673. {
  4674. wmi_dcs_interference_event_t *ev =
  4675. (wmi_dcs_interference_event_t *) evt_buf;
  4676. *interference_type = ev->interference_type;
  4677. return QDF_STATUS_SUCCESS;
  4678. }
  4679. /*
  4680. * extract_dcs_cw_int_non_tlv() - extract dcs cw interference from event
  4681. * @wmi_handle: wmi handle
  4682. * @param evt_buf: pointer to event buffer
  4683. * @param cw_int: Pointer to hold cw interference
  4684. *
  4685. * Return: 0 for success or error code
  4686. */
  4687. static QDF_STATUS extract_dcs_cw_int_non_tlv(wmi_unified_t wmi_handle,
  4688. void *evt_buf,
  4689. wmi_host_ath_dcs_cw_int *cw_int)
  4690. {
  4691. wmi_dcs_interference_event_t *ev =
  4692. (wmi_dcs_interference_event_t *) evt_buf;
  4693. qdf_mem_copy(cw_int, &ev->int_event.cw_int, sizeof(*cw_int));
  4694. return QDF_STATUS_SUCCESS;
  4695. }
  4696. /**
  4697. * extract_dcs_im_tgt_stats_non_tlv() - extract dcs im target stats from event
  4698. * @wmi_handle: wmi handle
  4699. * @param evt_buf: pointer to event buffer
  4700. * @param wlan_stat: Pointer to hold wlan stats
  4701. *
  4702. * Return: 0 for success or error code
  4703. */
  4704. static QDF_STATUS extract_dcs_im_tgt_stats_non_tlv(wmi_unified_t wmi_handle,
  4705. void *evt_buf,
  4706. wmi_host_dcs_im_tgt_stats_t *wlan_stat)
  4707. {
  4708. wmi_dcs_interference_event_t *ev =
  4709. (wmi_dcs_interference_event_t *) evt_buf;
  4710. qdf_mem_copy(wlan_stat, &ev->int_event.wlan_stat,
  4711. sizeof(wmi_host_dcs_im_tgt_stats_t));
  4712. return QDF_STATUS_SUCCESS;
  4713. }
  4714. /**
  4715. * extract_fips_event_error_status_non_tlv() - extract fips event error status
  4716. * @wmi_handle: wmi handle
  4717. * @param evt_buf: pointer to event buffer
  4718. * @param err_status: Pointer to hold error status
  4719. *
  4720. * Return: 0 for success or error code
  4721. */
  4722. static QDF_STATUS extract_fips_event_error_status_non_tlv(
  4723. wmi_unified_t wmi_handle, void *evt_buf,
  4724. uint32_t *err_status)
  4725. {
  4726. wmi_pdev_fips_event *event = (wmi_pdev_fips_event *)evt_buf;
  4727. *err_status = event->error_status;
  4728. return QDF_STATUS_SUCCESS;
  4729. }
  4730. /**
  4731. * extract_fips_event_data_non_tlv() - extract fips event data
  4732. * @wmi_handle: wmi handle
  4733. * @param evt_buf: pointer to event buffer
  4734. * @param data_len: Pointer to hold fips data length
  4735. * @param data: Double pointer to hold fips data
  4736. *
  4737. * Return: 0 for success or error code
  4738. */
  4739. static QDF_STATUS extract_fips_event_data_non_tlv(wmi_unified_t wmi_handle,
  4740. void *evt_buf,
  4741. uint32_t *data_len, uint32_t **data)
  4742. {
  4743. wmi_pdev_fips_event *event = (wmi_pdev_fips_event *)evt_buf;
  4744. #ifdef BIG_ENDIAN_HOST
  4745. {
  4746. /*****************LE to BE conversion*************************/
  4747. /* Assigning unaligned space to copy the data */
  4748. unsigned char *data_unaligned = qdf_mem_malloc(NULL,
  4749. (sizeof(u_int8_t)*event->data_len + FIPS_ALIGN));
  4750. u_int8_t *data_aligned = NULL;
  4751. int c;
  4752. /* Checking if kmalloc does succesful allocation */
  4753. if (data_unaligned == NULL)
  4754. return QDF_STATUS_E_FAILURE;
  4755. /* Checking if space is alligned */
  4756. if (!FIPS_IS_ALIGNED(data_unaligned, FIPS_ALIGN)) {
  4757. /* align the data space */
  4758. data_aligned =
  4759. (u_int8_t *)FIPS_ALIGNTO(data_unaligned, FIPS_ALIGN);
  4760. } else {
  4761. data_aligned = (u_int8_t *)data_unaligned;
  4762. }
  4763. /* memset and copy content from data to data aligned */
  4764. OS_MEMSET(data_aligned, 0, event->data_len);
  4765. OS_MEMCPY(data_aligned, event->data, event->data_len);
  4766. /* Endianness to LE */
  4767. for (c = 0; c < event->data_len/4; c++) {
  4768. *((u_int32_t *)data_aligned+c) =
  4769. qdf_os_le32_to_cpu(*((u_int32_t *)data_aligned+c));
  4770. }
  4771. /* Copy content to event->data */
  4772. OS_MEMCPY(event->data, data_aligned, event->data_len);
  4773. /* clean up allocated space */
  4774. qdf_mem_free(data_unaligned);
  4775. data_aligned = NULL;
  4776. data_unaligned = NULL;
  4777. /*************************************************************/
  4778. }
  4779. #endif
  4780. *data = event->data;
  4781. *data_len = event->data_len;
  4782. return QDF_STATUS_SUCCESS;
  4783. }
  4784. /**
  4785. * extract_vdev_start_resp_non_tlv() - extract vdev start response
  4786. * @wmi_handle: wmi handle
  4787. * @param evt_buf: pointer to event buffer
  4788. * @param vdev_rsp: Pointer to hold vdev response
  4789. *
  4790. * Return: 0 for success or error code
  4791. */
  4792. static QDF_STATUS extract_vdev_start_resp_non_tlv(wmi_unified_t wmi_handle,
  4793. void *evt_buf,
  4794. wmi_host_vdev_start_resp *vdev_rsp)
  4795. {
  4796. wmi_vdev_start_response_event *ev =
  4797. (wmi_vdev_start_response_event *) evt_buf;
  4798. qdf_mem_zero(vdev_rsp, sizeof(*vdev_rsp));
  4799. vdev_rsp->vdev_id = ev->vdev_id;
  4800. vdev_rsp->requestor_id = ev->requestor_id;
  4801. vdev_rsp->resp_type = ev->resp_type;
  4802. vdev_rsp->status = ev->status;
  4803. return QDF_STATUS_SUCCESS;
  4804. }
  4805. /**
  4806. * extract_tbttoffset_update_params_non_tlv() - extract tbtt offset update param
  4807. * @wmi_handle: wmi handle
  4808. * @param evt_buf: pointer to event buffer
  4809. * @param vdev_map: Pointer to hold vdev map
  4810. * @param tbttoffset_list: Pointer to tbtt offset list
  4811. *
  4812. * Return: 0 for success or error code
  4813. */
  4814. QDF_STATUS extract_tbttoffset_update_params_non_tlv(void *wmi_hdl,
  4815. void *evt_buf,
  4816. uint32_t *vdev_map, uint32_t **tbttoffset_list)
  4817. {
  4818. wmi_tbtt_offset_event *tbtt_offset_event =
  4819. (wmi_tbtt_offset_event *)evt_buf;
  4820. *vdev_map = tbtt_offset_event->vdev_map;
  4821. *tbttoffset_list = tbtt_offset_event->tbttoffset_list;
  4822. return QDF_STATUS_SUCCESS;
  4823. }
  4824. /**
  4825. * extract_mgmt_rx_params_non_tlv() - extract management rx params from event
  4826. * @wmi_handle: wmi handle
  4827. * @param evt_buf: pointer to event buffer
  4828. * @param hdr: Pointer to hold header
  4829. * @param bufp: Pointer to hold pointer to rx param buffer
  4830. *
  4831. * Return: 0 for success or error code
  4832. */
  4833. static QDF_STATUS extract_mgmt_rx_params_non_tlv(wmi_unified_t wmi_handle,
  4834. void *evt_buf,
  4835. wmi_host_mgmt_rx_hdr *hdr, uint8_t **bufp)
  4836. {
  4837. wmi_mgmt_rx_event *ev = (wmi_mgmt_rx_event *)evt_buf;
  4838. hdr->channel = ev->hdr.channel;
  4839. hdr->snr = ev->hdr.snr;
  4840. hdr->rate = ev->hdr.rate;
  4841. hdr->phy_mode = ev->hdr.phy_mode;
  4842. hdr->buf_len = ev->hdr.buf_len;
  4843. hdr->status = ev->hdr.status;
  4844. *bufp = ev->bufp;
  4845. return QDF_STATUS_SUCCESS;
  4846. }
  4847. /**
  4848. * extract_vdev_stopped_param_non_tlv() - extract vdev stop param from event
  4849. * @wmi_handle: wmi handle
  4850. * @param evt_buf: pointer to event buffer
  4851. * @param vdev_id: Pointer to hold vdev identifier
  4852. *
  4853. * Return: 0 for success or error code
  4854. */
  4855. static QDF_STATUS extract_vdev_stopped_param_non_tlv(wmi_unified_t wmi_handle,
  4856. void *evt_buf,
  4857. uint32_t *vdev_id)
  4858. {
  4859. wmi_vdev_stopped_event *event = (wmi_vdev_stopped_event *)evt_buf;
  4860. *vdev_id = event->vdev_id;
  4861. return QDF_STATUS_SUCCESS;
  4862. }
  4863. /**
  4864. * extract_vdev_roam_param_non_tlv() - extract vdev roam param from event
  4865. * @wmi_handle: wmi handle
  4866. * @param evt_buf: pointer to event buffer
  4867. * @param param: Pointer to hold roam param
  4868. *
  4869. * Return: 0 for success or error code
  4870. */
  4871. static QDF_STATUS extract_vdev_roam_param_non_tlv(wmi_unified_t wmi_handle,
  4872. void *evt_buf,
  4873. wmi_host_roam_event *param)
  4874. {
  4875. wmi_roam_event *evt = (wmi_roam_event *)evt_buf;
  4876. qdf_mem_zero(param, sizeof(*param));
  4877. param->vdev_id = evt->vdev_id;
  4878. param->reason = evt->reason;
  4879. return QDF_STATUS_SUCCESS;
  4880. }
  4881. /**
  4882. * extract_vdev_scan_ev_param_non_tlv() - extract vdev scan param from event
  4883. * @wmi_handle: wmi handle
  4884. * @param evt_buf: pointer to event buffer
  4885. * @param param: Pointer to hold vdev scan param
  4886. *
  4887. * Return: 0 for success or error code
  4888. */
  4889. static QDF_STATUS extract_vdev_scan_ev_param_non_tlv(wmi_unified_t wmi_handle,
  4890. void *evt_buf,
  4891. wmi_host_scan_event *param)
  4892. {
  4893. wmi_scan_event *evt = (wmi_scan_event *)evt_buf;
  4894. qdf_mem_zero(param, sizeof(*param));
  4895. switch (evt->event) {
  4896. case WMI_SCAN_EVENT_STARTED:
  4897. param->event = WMI_HOST_SCAN_EVENT_STARTED;
  4898. break;
  4899. case WMI_SCAN_EVENT_COMPLETED:
  4900. param->event = WMI_HOST_SCAN_EVENT_COMPLETED;
  4901. break;
  4902. case WMI_SCAN_EVENT_BSS_CHANNEL:
  4903. param->event = WMI_HOST_SCAN_EVENT_BSS_CHANNEL;
  4904. break;
  4905. case WMI_SCAN_EVENT_FOREIGN_CHANNEL:
  4906. param->event = WMI_HOST_SCAN_EVENT_FOREIGN_CHANNEL;
  4907. break;
  4908. case WMI_SCAN_EVENT_DEQUEUED:
  4909. param->event = WMI_HOST_SCAN_EVENT_DEQUEUED;
  4910. break;
  4911. case WMI_SCAN_EVENT_PREEMPTED:
  4912. param->event = WMI_HOST_SCAN_EVENT_PREEMPTED;
  4913. break;
  4914. case WMI_SCAN_EVENT_START_FAILED:
  4915. param->event = WMI_HOST_SCAN_EVENT_START_FAILED;
  4916. break;
  4917. case WMI_SCAN_EVENT_RESTARTED:
  4918. param->event = WMI_HOST_SCAN_EVENT_RESTARTED;
  4919. break;
  4920. case WMI_HOST_SCAN_EVENT_FOREIGN_CHANNEL_EXIT:
  4921. param->event = WMI_HOST_SCAN_EVENT_FOREIGN_CHANNEL_EXIT;
  4922. break;
  4923. case WMI_SCAN_EVENT_INVALID:
  4924. param->event = WMI_HOST_SCAN_EVENT_INVALID;
  4925. break;
  4926. case WMI_SCAN_EVENT_MAX:
  4927. default:
  4928. param->event = WMI_HOST_SCAN_EVENT_MAX;
  4929. break;
  4930. };
  4931. switch (evt->reason) {
  4932. case WMI_SCAN_REASON_NONE:
  4933. param->reason = WMI_HOST_SCAN_REASON_NONE;
  4934. break;
  4935. case WMI_SCAN_REASON_COMPLETED:
  4936. param->reason = WMI_HOST_SCAN_REASON_COMPLETED;
  4937. break;
  4938. case WMI_SCAN_REASON_CANCELLED:
  4939. param->reason = WMI_HOST_SCAN_REASON_CANCELLED;
  4940. break;
  4941. case WMI_SCAN_REASON_PREEMPTED:
  4942. param->reason = WMI_HOST_SCAN_REASON_PREEMPTED;
  4943. break;
  4944. case WMI_SCAN_REASON_TIMEDOUT:
  4945. param->reason = WMI_HOST_SCAN_REASON_TIMEDOUT;
  4946. break;
  4947. case WMI_SCAN_REASON_INTERNAL_FAILURE:
  4948. param->reason = WMI_HOST_SCAN_REASON_INTERNAL_FAILURE;
  4949. break;
  4950. case WMI_SCAN_REASON_MAX:
  4951. default:
  4952. param->reason = WMI_HOST_SCAN_REASON_MAX;
  4953. break;
  4954. };
  4955. param->channel_freq = evt->channel_freq;
  4956. param->requestor = evt->requestor;
  4957. param->scan_id = evt->scan_id;
  4958. param->vdev_id = evt->vdev_id;
  4959. return QDF_STATUS_SUCCESS;
  4960. }
  4961. /**
  4962. * extract_mu_ev_param_non_tlv() - extract mu param from event
  4963. * @wmi_handle: wmi handle
  4964. * @param evt_buf: pointer to event buffer
  4965. * @param param: Pointer to hold mu report
  4966. *
  4967. * Return: 0 for success or error code
  4968. */
  4969. QDF_STATUS extract_mu_ev_param_non_tlv(wmi_unified_t wmi_handle, void *evt_buf,
  4970. wmi_host_mu_report_event *param)
  4971. {
  4972. wmi_mu_report_event *event = (wmi_mu_report_event *)evt_buf;
  4973. param->mu_request_id = event->mu_request_id;
  4974. param->status_reason = event->status_reason;
  4975. qdf_mem_copy(param->total_mu, event->total_mu, sizeof(param->total_mu));
  4976. param->num_active_bssid = event->num_active_bssid;
  4977. return QDF_STATUS_SUCCESS;
  4978. }
  4979. /**
  4980. * extract_pdev_tpc_config_ev_param_non_tlv() - extract pdev tpc configuration
  4981. * param from event
  4982. * @wmi_handle: wmi handle
  4983. * @param evt_buf: pointer to event buffer
  4984. * @param param: Pointer to hold tpc configuration
  4985. *
  4986. * Return: 0 for success or error code
  4987. */
  4988. QDF_STATUS extract_pdev_tpc_config_ev_param_non_tlv(wmi_unified_t wmi_handle,
  4989. void *evt_buf,
  4990. wmi_host_pdev_tpc_config_event *param)
  4991. {
  4992. wmi_pdev_tpc_config_event *event = (wmi_pdev_tpc_config_event *)evt_buf;
  4993. param->regDomain = event->regDomain;
  4994. param->chanFreq = event->chanFreq;
  4995. param->phyMode = event->phyMode;
  4996. param->twiceAntennaReduction = event->twiceAntennaReduction;
  4997. param->twiceMaxRDPower = event->twiceMaxRDPower;
  4998. param->powerLimit = event->powerLimit;
  4999. param->rateMax = event->rateMax;
  5000. param->numTxChain = event->numTxChain;
  5001. param->ctl = event->ctl;
  5002. param->flags = event->flags;
  5003. qdf_mem_copy(param->maxRegAllowedPower, event->maxRegAllowedPower,
  5004. sizeof(param->maxRegAllowedPower));
  5005. qdf_mem_copy(param->maxRegAllowedPowerAGCDD,
  5006. event->maxRegAllowedPowerAGCDD,
  5007. sizeof(param->maxRegAllowedPowerAGCDD));
  5008. qdf_mem_copy(param->maxRegAllowedPowerAGSTBC,
  5009. event->maxRegAllowedPowerAGSTBC,
  5010. sizeof(param->maxRegAllowedPowerAGSTBC));
  5011. qdf_mem_copy(param->maxRegAllowedPowerAGTXBF,
  5012. event->maxRegAllowedPowerAGTXBF,
  5013. sizeof(param->maxRegAllowedPowerAGTXBF));
  5014. qdf_mem_copy(param->ratesArray, event->ratesArray,
  5015. sizeof(param->ratesArray));
  5016. return QDF_STATUS_SUCCESS;
  5017. }
  5018. /**
  5019. * extract_nfcal_power_ev_param_non_tlv() - extract noise floor calibration
  5020. * power param from event
  5021. * @wmi_handle: wmi handle
  5022. * @param evt_buf: pointer to event buffer
  5023. * @param param: Pointer to hold nf cal power param
  5024. *
  5025. * Return: 0 for success or error code
  5026. */
  5027. QDF_STATUS extract_nfcal_power_ev_param_non_tlv(wmi_unified_t wmi_handle,
  5028. void *evt_buf,
  5029. wmi_host_pdev_nfcal_power_all_channels_event *param)
  5030. {
  5031. wmi_pdev_nfcal_power_all_channels_event *event =
  5032. (wmi_pdev_nfcal_power_all_channels_event *)evt_buf;
  5033. qdf_mem_copy(param->nfdBr, event->nfdBr, sizeof(param->nfdBr));
  5034. qdf_mem_copy(param->nfdBm, event->nfdBm, sizeof(param->nfdBm));
  5035. qdf_mem_copy(param->freqNum, event->freqNum, sizeof(param->freqNum));
  5036. return QDF_STATUS_SUCCESS;
  5037. }
  5038. /**
  5039. * extract_pdev_tpc_ev_param_non_tlv() - extract tpc param from event
  5040. * @wmi_handle: wmi handle
  5041. * @param evt_buf: pointer to event buffer
  5042. * @param param: Pointer to hold tpc param
  5043. *
  5044. * Return: 0 for success or error code
  5045. */
  5046. QDF_STATUS extract_pdev_tpc_ev_param_non_tlv(wmi_unified_t wmi_handle,
  5047. void *evt_buf,
  5048. wmi_host_pdev_tpc_event *param)
  5049. {
  5050. wmi_pdev_tpc_event *event = (wmi_pdev_tpc_event *)evt_buf;
  5051. qdf_mem_copy(param->tpc, event->tpc, sizeof(param->tpc));
  5052. return QDF_STATUS_SUCCESS;
  5053. }
  5054. /**
  5055. * extract_pdev_generic_buffer_ev_param_non_tlv() - extract pdev generic buffer
  5056. * from event
  5057. * @wmi_handle: wmi handle
  5058. * @param evt_buf: pointer to event buffer
  5059. * @param param: Pointer to generic buffer param
  5060. *
  5061. * Return: 0 for success or error code
  5062. */
  5063. QDF_STATUS extract_pdev_generic_buffer_ev_param_non_tlv(
  5064. wmi_unified_t wmi_handle, void *evt_buf,
  5065. wmi_host_pdev_generic_buffer_event *param)
  5066. {
  5067. wmi_pdev_generic_buffer_event *event =
  5068. (wmi_pdev_generic_buffer_event *)evt_buf;
  5069. param->buf_type = event->buf_type;
  5070. param->frag_id = event->frag_id;
  5071. param->more_frag = event->more_frag;
  5072. param->buf_len = event->buf_len;
  5073. qdf_mem_copy(param->buf_info, event->buf_info, event->buf_len);
  5074. return QDF_STATUS_SUCCESS;
  5075. }
  5076. /**
  5077. * extract_gpio_input_ev_param_non_tlv() - extract gpio input param from event
  5078. * @wmi_handle: wmi handle
  5079. * @param evt_buf: pointer to event buffer
  5080. * @param gpio_num: Pointer to hold gpio number
  5081. *
  5082. * Return: 0 for success or error code
  5083. */
  5084. static QDF_STATUS extract_gpio_input_ev_param_non_tlv(wmi_unified_t wmi_handle,
  5085. void *evt_buf, uint32_t *gpio_num)
  5086. {
  5087. wmi_gpio_input_event *ev = (wmi_gpio_input_event *) evt_buf;
  5088. *gpio_num = ev->gpio_num;
  5089. return QDF_STATUS_SUCCESS;
  5090. }
  5091. /**
  5092. * extract_pdev_reserve_ast_ev_param_non_tlv() - extract reserve ast entry
  5093. * param from event
  5094. * @wmi_handle: wmi handle
  5095. * @param evt_buf: pointer to event buffer
  5096. * @param result: Pointer to hold reserve ast entry param
  5097. *
  5098. * Return: 0 for success or error code
  5099. */
  5100. static QDF_STATUS extract_pdev_reserve_ast_ev_param_non_tlv(
  5101. wmi_unified_t wmi_handle,
  5102. void *evt_buf, uint32_t *result)
  5103. {
  5104. wmi_pdev_reserve_ast_entry_event *ev =
  5105. (wmi_pdev_reserve_ast_entry_event *) evt_buf;
  5106. *result = ev->result;
  5107. return QDF_STATUS_SUCCESS;
  5108. }
  5109. /**
  5110. * extract_swba_vdev_map_non_tlv() - extract swba vdev map from event
  5111. * @wmi_handle: wmi handle
  5112. * @param evt_buf: pointer to event buffer
  5113. * @param vdev_map: Pointer to hold vdev map
  5114. *
  5115. * Return: 0 for success or error code
  5116. */
  5117. static QDF_STATUS extract_swba_vdev_map_non_tlv(wmi_unified_t wmi_handle,
  5118. void *evt_buf,
  5119. uint32_t *vdev_map)
  5120. {
  5121. wmi_host_swba_event *swba_event = (wmi_host_swba_event *)evt_buf;
  5122. *vdev_map = swba_event->vdev_map;
  5123. return QDF_STATUS_SUCCESS;
  5124. }
  5125. /**
  5126. * extract_swba_tim_info_non_tlv() - extract swba tim info from event
  5127. * @wmi_handle: wmi handle
  5128. * @param evt_buf: pointer to event buffer
  5129. * @param idx: Index to bcn info
  5130. * @param tim_info: Pointer to hold tim info
  5131. *
  5132. * Return: 0 for success or error code
  5133. */
  5134. static QDF_STATUS extract_swba_tim_info_non_tlv(wmi_unified_t wmi_handle,
  5135. void *evt_buf,
  5136. uint32_t idx, wmi_host_tim_info *tim_info)
  5137. {
  5138. wmi_host_swba_event *swba_event = (wmi_host_swba_event *)evt_buf;
  5139. wmi_bcn_info *bcn_info;
  5140. bcn_info = &swba_event->bcn_info[idx];
  5141. tim_info->tim_len = bcn_info->tim_info.tim_len;
  5142. tim_info->tim_mcast = bcn_info->tim_info.tim_mcast;
  5143. qdf_mem_copy(tim_info->tim_bitmap, bcn_info->tim_info.tim_bitmap,
  5144. (sizeof(uint32_t) * WMI_TIM_BITMAP_ARRAY_SIZE));
  5145. tim_info->tim_changed = bcn_info->tim_info.tim_changed;
  5146. tim_info->tim_num_ps_pending = bcn_info->tim_info.tim_num_ps_pending;
  5147. return QDF_STATUS_SUCCESS;
  5148. }
  5149. /**
  5150. * extract_swba_noa_info_non_tlv() - extract swba NoA information from event
  5151. * @wmi_handle: wmi handle
  5152. * @param evt_buf: pointer to event buffer
  5153. * @param idx: Index to bcn info
  5154. * @param p2p_desc: Pointer to hold p2p NoA info
  5155. *
  5156. * Return: 0 for success or error code
  5157. */
  5158. static QDF_STATUS extract_swba_noa_info_non_tlv(wmi_unified_t wmi_handle,
  5159. void *evt_buf,
  5160. uint32_t idx, wmi_host_p2p_noa_info *p2p_desc)
  5161. {
  5162. wmi_host_swba_event *swba_event = (wmi_host_swba_event *)evt_buf;
  5163. wmi_p2p_noa_info *p2p_noa_info;
  5164. wmi_bcn_info *bcn_info;
  5165. uint8_t i = 0;
  5166. bcn_info = &swba_event->bcn_info[idx];
  5167. p2p_noa_info = &bcn_info->p2p_noa_info;
  5168. p2p_desc->modified = false;
  5169. p2p_desc->num_descriptors = 0;
  5170. if (WMI_UNIFIED_NOA_ATTR_IS_MODIFIED(p2p_noa_info)) {
  5171. p2p_desc->modified = true;
  5172. p2p_desc->index =
  5173. (uint8_t) WMI_UNIFIED_NOA_ATTR_INDEX_GET(p2p_noa_info);
  5174. p2p_desc->oppPS =
  5175. (uint8_t) WMI_UNIFIED_NOA_ATTR_OPP_PS_GET(p2p_noa_info);
  5176. p2p_desc->ctwindow =
  5177. (uint8_t) WMI_UNIFIED_NOA_ATTR_CTWIN_GET(p2p_noa_info);
  5178. p2p_desc->num_descriptors =
  5179. (uint8_t) WMI_UNIFIED_NOA_ATTR_NUM_DESC_GET(p2p_noa_info);
  5180. for (i = 0; i < p2p_desc->num_descriptors; i++) {
  5181. p2p_desc->noa_descriptors[i].type_count =
  5182. (uint8_t) p2p_noa_info->noa_descriptors[i].
  5183. type_count;
  5184. p2p_desc->noa_descriptors[i].duration =
  5185. p2p_noa_info->noa_descriptors[i].duration;
  5186. p2p_desc->noa_descriptors[i].interval =
  5187. p2p_noa_info->noa_descriptors[i].interval;
  5188. p2p_desc->noa_descriptors[i].start_time =
  5189. p2p_noa_info->noa_descriptors[i].start_time;
  5190. }
  5191. }
  5192. return QDF_STATUS_SUCCESS;
  5193. }
  5194. /**
  5195. * extract_peer_sta_ps_statechange_ev_non_tlv() - extract peer sta ps state
  5196. * from event
  5197. * @wmi_handle: wmi handle
  5198. * @param evt_buf: pointer to event buffer
  5199. * @param ev: Pointer to hold peer param and ps state
  5200. *
  5201. * Return: 0 for success or error code
  5202. */
  5203. QDF_STATUS extract_peer_sta_ps_statechange_ev_non_tlv(wmi_unified_t wmi_handle,
  5204. void *evt_buf, wmi_host_peer_sta_ps_statechange_event *ev)
  5205. {
  5206. wmi_peer_sta_ps_statechange_event *event =
  5207. (wmi_peer_sta_ps_statechange_event *)evt_buf;
  5208. WMI_MAC_ADDR_TO_CHAR_ARRAY(&event->peer_macaddr, ev->peer_macaddr);
  5209. ev->peer_ps_state = event->peer_ps_state;
  5210. return QDF_STATUS_SUCCESS;
  5211. }
  5212. /**
  5213. * extract_peer_sta_kickout_ev_non_tlv() - extract peer sta kickout event
  5214. * @wmi_handle: wmi handle
  5215. * @param evt_buf: pointer to event buffer
  5216. * @param ev: Pointer to hold peer param
  5217. *
  5218. * Return: 0 for success or error code
  5219. */
  5220. QDF_STATUS extract_peer_sta_kickout_ev_non_tlv(wmi_unified_t wmi_handle,
  5221. void *evt_buf,
  5222. wmi_host_peer_sta_kickout_event *ev)
  5223. {
  5224. wmi_peer_sta_kickout_event *kickout_event =
  5225. (wmi_peer_sta_kickout_event *)evt_buf;
  5226. WMI_MAC_ADDR_TO_CHAR_ARRAY(&kickout_event->peer_macaddr,
  5227. ev->peer_macaddr);
  5228. /**Following not available in legacy wmi*/
  5229. ev->reason = 0;
  5230. ev->rssi = 0;
  5231. return QDF_STATUS_SUCCESS;
  5232. }
  5233. /**
  5234. * extract_peer_ratecode_list_ev_non_tlv() - extract peer ratecode from event
  5235. * @wmi_handle: wmi handle
  5236. * @param evt_buf: pointer to event buffer
  5237. * @param peer_mac: Pointer to hold peer mac address
  5238. * @param rate_cap: Pointer to hold ratecode
  5239. *
  5240. * Return: 0 for success or error code
  5241. */
  5242. QDF_STATUS extract_peer_ratecode_list_ev_non_tlv(wmi_unified_t wmi_handle,
  5243. void *evt_buf,
  5244. uint8_t *peer_mac, wmi_sa_rate_cap *rate_cap)
  5245. {
  5246. wmi_peer_ratecode_list_event_t *rate_event =
  5247. (wmi_peer_ratecode_list_event_t *)evt_buf;
  5248. int i, htindex, j;
  5249. uint8_t shift = 0;
  5250. WMI_MAC_ADDR_TO_CHAR_ARRAY(&rate_event->peer_macaddr, peer_mac);
  5251. htindex = 0;
  5252. rate_cap->ratecount[0] =
  5253. ((rate_event->peer_rate_info.ratecount) & SA_MASK_BYTE);
  5254. rate_cap->ratecount[1] =
  5255. ((rate_event->peer_rate_info.ratecount >> 8) & SA_MASK_BYTE);
  5256. rate_cap->ratecount[2] =
  5257. ((rate_event->peer_rate_info.ratecount >> 16) & SA_MASK_BYTE);
  5258. rate_cap->ratecount[3] =
  5259. ((rate_event->peer_rate_info.ratecount >> 24) & SA_MASK_BYTE);
  5260. if (rate_cap->ratecount[0]) {
  5261. for (i = 0; i < SA_MAX_LEGACY_RATE_DWORDS; i++) {
  5262. for (j = 0; j < SA_BYTES_IN_DWORD; j++) {
  5263. rate_cap->ratecode_legacy[htindex] =
  5264. ((rate_event->peer_rate_info.ratecode_legacy[i]
  5265. >> (8*j)) & SA_MASK_BYTE);
  5266. htindex++;
  5267. }
  5268. }
  5269. }
  5270. htindex = 0;
  5271. for (i = 0; i < SA_MAX_HT_RATE_DWORDS; i++) {
  5272. for (j = 0; j < SA_BYTES_IN_DWORD; j++) {
  5273. shift = (8*j);
  5274. rate_cap->ratecode_20[htindex] =
  5275. ((rate_event->peer_rate_info.ratecode_20[i]
  5276. >> (shift)) & SA_MASK_BYTE);
  5277. rate_cap->ratecode_40[htindex] =
  5278. ((rate_event->peer_rate_info.ratecode_40[i]
  5279. >> (shift)) & SA_MASK_BYTE);
  5280. rate_cap->ratecode_80[htindex] =
  5281. ((rate_event->peer_rate_info.ratecode_80[i]
  5282. >> (shift)) & SA_MASK_BYTE);
  5283. htindex++;
  5284. }
  5285. }
  5286. return QDF_STATUS_SUCCESS;
  5287. }
  5288. /**
  5289. * extract_rtt_header_internal_non_tlv() - extract internal rtt header from
  5290. * event
  5291. * @param ev: pointer to internal rtt event header
  5292. * @param hdr: Pointer to received rtt event header
  5293. *
  5294. * Return: None
  5295. */
  5296. static void extract_rtt_header_internal_non_tlv(wmi_host_rtt_event_hdr *ev,
  5297. wmi_rtt_event_hdr *hdr)
  5298. {
  5299. ev->req_id = WMI_RTT_REQ_ID_GET(hdr->req_id);
  5300. ev->result = (hdr->req_id & 0xffff0000) >> 16;
  5301. ev->meas_type = WMI_RTT_REPORT_MEAS_TYPE_GET(hdr->req_id);
  5302. ev->report_type = WMI_RTT_REPORT_REPORT_TYPE_GET(hdr->req_id);
  5303. ev->v3_status = WMI_RTT_REPORT_V3_STATUS_GET(hdr->req_id);
  5304. ev->v3_finish = WMI_RTT_REPORT_V3_FINISH_GET(hdr->req_id);
  5305. ev->v3_tm_start = WMI_RTT_REPORT_V3_TM_START_GET(hdr->req_id);
  5306. ev->num_ap = WMI_RTT_REPORT_NUM_AP_GET(hdr->req_id);
  5307. WMI_MAC_ADDR_TO_CHAR_ARRAY(&hdr->dest_mac, ev->dest_mac);
  5308. }
  5309. /**
  5310. * extract_rtt_error_report_ev_non_tlv() - extract rtt error report from event
  5311. * @wmi_handle: wmi handle
  5312. * @param evt_buf: pointer to event buffer
  5313. * @param wds_ev: Pointer to hold rtt error report
  5314. *
  5315. * Return: 0 for success or error code
  5316. */
  5317. static QDF_STATUS extract_rtt_error_report_ev_non_tlv(wmi_unified_t wmi_handle,
  5318. void *evt_buf,
  5319. wmi_host_rtt_error_report_event *ev)
  5320. {
  5321. wmi_rtt_error_report_event *error_report =
  5322. (wmi_rtt_error_report_event *) evt_buf;
  5323. extract_rtt_header_internal_non_tlv(&ev->hdr, &error_report->header);
  5324. ev->reject_reason = error_report->reject_reason;
  5325. return QDF_STATUS_SUCCESS;
  5326. }
  5327. /**
  5328. * extract_rtt_hdr_non_tlv() - extract rtt header from event
  5329. * @wmi_handle: wmi handle
  5330. * @param evt_buf: pointer to event buffer
  5331. * @param ev: Pointer to hold rtt header
  5332. *
  5333. * Return: 0 for success or error code
  5334. */
  5335. QDF_STATUS extract_rtt_hdr_non_tlv(wmi_unified_t wmi_handle, void *evt_buf,
  5336. wmi_host_rtt_event_hdr *ev)
  5337. {
  5338. wmi_rtt_event_hdr *hdr = (wmi_rtt_event_hdr *) evt_buf;
  5339. extract_rtt_header_internal_non_tlv(ev, hdr);
  5340. return QDF_STATUS_SUCCESS;
  5341. }
  5342. /**
  5343. * copy_rtt_report_cfr
  5344. * @ev: pointer to destination event pointer
  5345. * @report_type: report type recieved in event
  5346. * @p: pointer to event data
  5347. * @hdump: pointer to destination buffer
  5348. * @hdump_len: length of dest buffer
  5349. *
  5350. * Return: Pointer to current offset in p
  5351. */
  5352. static uint8_t *copy_rtt_report_cfr(wmi_host_rtt_meas_event *ev,
  5353. uint8_t report_type, uint8_t *p,
  5354. uint8_t *hdump, int16_t hdump_len)
  5355. {
  5356. uint8_t index, i;
  5357. uint8_t *tmp, *temp1, *temp2;
  5358. #define TONE_LEGACY_20M 53
  5359. #define TONE_VHT_20M 56
  5360. #define TONE_VHT_40M 117
  5361. #define TONE_VHT_80M 242
  5362. int tone_number[4] = {
  5363. TONE_LEGACY_20M, TONE_VHT_20M, TONE_VHT_40M, TONE_VHT_80M};
  5364. #define MEM_ALIGN(x) ((((x)<<1)+3) & 0xFFFC)
  5365. /* the buffer size of 1 chain for each BW 0-3 */
  5366. u_int16_t bw_size[4] = {
  5367. MEM_ALIGN(TONE_LEGACY_20M),
  5368. MEM_ALIGN(TONE_VHT_20M),
  5369. MEM_ALIGN(TONE_VHT_40M),
  5370. MEM_ALIGN(TONE_VHT_80M)
  5371. };
  5372. if (hdump == NULL) {
  5373. qdf_print("Destination buffer is NULL\n");
  5374. return p;
  5375. }
  5376. temp1 = temp2 = hdump;
  5377. for (index = 0; index < 4; index++) {
  5378. if (ev->chain_mask & (1 << index)) {
  5379. if (index == 0)
  5380. ev->rssi0 = *((u_int32_t *)p);
  5381. if (index == 1)
  5382. ev->rssi1 = *((u_int32_t *)p);
  5383. if (index == 2)
  5384. ev->rssi2 = *((u_int32_t *)p);
  5385. if (index == 3)
  5386. ev->rssi3 = *((u_int32_t *)p);
  5387. p += sizeof(u_int32_t);
  5388. if (report_type == WMI_RTT_REPORT_CFR) {
  5389. tmp = p + bw_size[ev->bw];
  5390. ev->txrxchain_mask = tone_number[ev->bw];
  5391. temp2 = temp2 + bw_size[ev->bw];
  5392. for (i = 0; (i < tone_number[ev->bw]); i++) {
  5393. qdf_mem_copy(temp1, p, 2);
  5394. temp1 += 2;
  5395. p += 2;
  5396. hdump_len -= 2;
  5397. if (hdump_len <= 0)
  5398. break;
  5399. }
  5400. temp1 = temp2;
  5401. p = tmp;
  5402. }
  5403. }
  5404. }
  5405. return p;
  5406. }
  5407. /**
  5408. * extract_rtt_ev_non_tlv() - extract rtt event
  5409. * @wmi_handle: wmi handle
  5410. * @param evt_buf: Pointer to event buffer
  5411. * @param ev: Pointer to hold rtt event
  5412. * @param hdump: Pointer to hold hex dump
  5413. * @param hdump_len: hex dump length
  5414. *
  5415. * Return: 0 for success or error code
  5416. */
  5417. QDF_STATUS extract_rtt_ev_non_tlv(wmi_unified_t wmi_handle, void *evt_buf,
  5418. wmi_host_rtt_meas_event *ev, uint8_t *hdump, uint16_t h_len)
  5419. {
  5420. wmi_rtt_meas_event *body = (wmi_rtt_meas_event *) evt_buf;
  5421. uint8_t meas_type, report_type;
  5422. uint8_t *p;
  5423. int16_t hdump_len = h_len;
  5424. A_TIME64 *time;
  5425. if (body) {
  5426. meas_type = WMI_RTT_REPORT_MEAS_TYPE_GET(body->header.req_id);
  5427. report_type =
  5428. WMI_RTT_REPORT_REPORT_TYPE_GET(body->header.req_id);
  5429. ev->chain_mask = WMI_RTT_REPORT_RX_CHAIN_GET(body->rx_chain);
  5430. ev->bw = WMI_RTT_REPORT_RX_BW_GET(body->rx_chain);
  5431. ev->tod = ((u_int64_t) body->tod.time32) << 32;
  5432. ev->tod |= body->tod.time0; /*tmp1 is the 64 bit tod*/
  5433. ev->toa = ((u_int64_t) body->toa.time32) << 32;
  5434. ev->toa |= body->toa.time0;
  5435. p = (u_int8_t *) (++body);
  5436. /* if the measurement is TMR, we should have T3 and T4 */
  5437. if (meas_type == RTT_MEAS_FRAME_TMR) {
  5438. time = (A_TIME64 *) body;
  5439. ev->t3 = (u_int64_t) (time->time32) << 32;
  5440. ev->t3 |= time->time0;
  5441. time++;
  5442. ev->t4 = (u_int64_t)(time->time32) << 32;
  5443. ev->t4 |= time->time0;
  5444. p = (u_int8_t *) (++time);
  5445. } else {
  5446. ev->t3 = 0;
  5447. ev->t4 = 0;
  5448. }
  5449. ev->rssi0 = 0;
  5450. ev->rssi1 = 0;
  5451. ev->rssi2 = 0;
  5452. ev->rssi3 = 0;
  5453. p = copy_rtt_report_cfr(ev, report_type, p, hdump, hdump_len);
  5454. } else {
  5455. qdf_print("Error!body is NULL\n");
  5456. return QDF_STATUS_E_FAILURE;
  5457. }
  5458. return QDF_STATUS_SUCCESS;
  5459. }
  5460. /**
  5461. * extract_thermal_stats_non_tlv() - extract thermal stats from event
  5462. * @wmi_handle: wmi handle
  5463. * @param evt_buf: Pointer to event buffer
  5464. * @param temp: Pointer to hold extracted temperature
  5465. * @param level: Pointer to hold extracted level
  5466. *
  5467. * Return: 0 for success or error code
  5468. */
  5469. QDF_STATUS extract_thermal_stats_non_tlv(wmi_unified_t wmi_handle,
  5470. void *evt_buf,
  5471. uint32_t *temp, uint32_t *level)
  5472. {
  5473. tt_stats_t *tt_stats_event = NULL;
  5474. tt_stats_event = (tt_stats_t *) evt_buf;
  5475. *temp = tt_stats_event->temp;
  5476. *level = tt_stats_event->level;
  5477. return QDF_STATUS_SUCCESS;
  5478. }
  5479. /**
  5480. * extract_thermal_level_stats_non_tlv() - extract thermal level stats from
  5481. * event
  5482. * @wmi_handle: wmi handle
  5483. * @param evt_buf: pointer to event buffer
  5484. * @param idx: Index to level stats
  5485. * @param levelcount: Pointer to hold levelcount
  5486. * @param dccount: Pointer to hold dccount
  5487. *
  5488. * Return: 0 for success or error code
  5489. */
  5490. QDF_STATUS extract_thermal_level_stats_non_tlv(wmi_unified_t wmi_handle,
  5491. void *evt_buf,
  5492. uint8_t idx, uint32_t *levelcount, uint32_t *dccount)
  5493. {
  5494. tt_stats_t *tt_stats_event = NULL;
  5495. tt_stats_event = (tt_stats_t *) evt_buf;
  5496. if (idx < TT_LEVELS) {
  5497. *levelcount = tt_stats_event->levstats[idx].levelcount;
  5498. *dccount = tt_stats_event->levstats[idx].dccount;
  5499. return QDF_STATUS_SUCCESS;
  5500. }
  5501. return QDF_STATUS_E_FAILURE;
  5502. }
  5503. /**
  5504. * extract_comb_phyerr_non_tlv() - extract comb phy error from event
  5505. * @wmi_handle: wmi handle
  5506. * @param evt_buf: pointer to event buffer
  5507. * @param datalen: data length of event buffer
  5508. * @param buf_offset: Pointer to hold value of current event buffer offset
  5509. * post extraction
  5510. * @param phyer: Pointer to hold phyerr
  5511. *
  5512. * Return: 0 for success or error code
  5513. */
  5514. QDF_STATUS extract_comb_phyerr_non_tlv(wmi_unified_t wmi_handle, void *evt_buf,
  5515. uint16_t datalen, uint16_t *buf_offset,
  5516. wmi_host_phyerr_t *phyerr)
  5517. {
  5518. wmi_comb_phyerr_rx_event *pe;
  5519. #if ATH_PHYERR_DEBUG
  5520. int i;
  5521. #endif /* ATH_PHYERR_DEBUG */
  5522. uint8_t *data;
  5523. data = (uint8_t *) evt_buf;
  5524. #if ATH_PHYERR_DEBUG
  5525. qdf_print("%s: data=%p, datalen=%d\n", __func__, data, datalen);
  5526. /* XXX for now */
  5527. for (i = 0; i < datalen; i++) {
  5528. qdf_print("%02X ", data[i]);
  5529. if (i % 32 == 31)
  5530. qdf_print("\n");
  5531. }
  5532. qdf_print("\n");
  5533. #endif /* ATH_PHYERR_DEBUG */
  5534. /* Ensure it's at least the size of the header */
  5535. if (datalen < sizeof(*pe)) {
  5536. return QDF_STATUS_E_FAILURE;
  5537. /* XXX what should errors be? */
  5538. }
  5539. pe = (wmi_comb_phyerr_rx_event *) data;
  5540. #if ATH_PHYERR_DEBUG
  5541. qdf_print("%s: pe->hdr.num_phyerr_events=%d\n",
  5542. __func__,
  5543. pe->hdr.num_phyerr_events);
  5544. #endif /* ATH_PHYERR_DEBUG */
  5545. /*
  5546. * Reconstruct the 64 bit event TSF. This isn't from the MAC, it's
  5547. * at the time the event was sent to us, the TSF value will be
  5548. * in the future.
  5549. */
  5550. phyerr->tsf64 = pe->hdr.tsf_l32;
  5551. phyerr->tsf64 |= (((uint64_t) pe->hdr.tsf_u32) << 32);
  5552. *buf_offset = sizeof(pe->hdr);
  5553. return QDF_STATUS_SUCCESS;
  5554. }
  5555. /**
  5556. * extract_single_phyerr_non_tlv() - extract single phy error from event
  5557. * @wmi_handle: wmi handle
  5558. * @param evt_buf: pointer to event buffer
  5559. * @param datalen: data length of event buffer
  5560. * @param buf_offset: Pointer to hold value of current event buffer offset
  5561. * post extraction
  5562. * @param phyerr: Pointer to hold phyerr
  5563. *
  5564. * Return: 0 for success or error code
  5565. */
  5566. QDF_STATUS extract_single_phyerr_non_tlv(wmi_unified_t wmi_handle,
  5567. void *evt_buf,
  5568. uint16_t datalen, uint16_t *buf_offset,
  5569. wmi_host_phyerr_t *phyerr)
  5570. {
  5571. wmi_single_phyerr_rx_event *ev;
  5572. #if ATH_PHYERR_DEBUG
  5573. int i;
  5574. #endif /* ATH_PHYERR_DEBUG */
  5575. int n = 0;
  5576. uint8_t *data;
  5577. n = (int) *buf_offset;
  5578. data = (uint8_t *) evt_buf;
  5579. /* Loop over the bufp, extracting out phyerrors */
  5580. /*
  5581. * XXX wmi_unified_comb_phyerr_rx_event.bufp is a char pointer,
  5582. * which isn't correct here - what we have received here
  5583. * is an array of TLV-style PHY errors.
  5584. */
  5585. if (n < datalen) {
  5586. /* ensure there's at least space for the header */
  5587. if ((datalen - n) < sizeof(ev->hdr)) {
  5588. qdf_print(
  5589. "%s: not enough space? (datalen=%d, n=%d, hdr=%d bytes\n",
  5590. __func__,
  5591. datalen,
  5592. n,
  5593. sizeof(ev->hdr));
  5594. return QDF_STATUS_SUCCESS;
  5595. }
  5596. /*
  5597. * Obtain a pointer to the beginning of the current event.
  5598. * data[0] is the beginning of the WMI payload.
  5599. */
  5600. ev = (wmi_single_phyerr_rx_event *) &data[n];
  5601. /*
  5602. * Sanity check the buffer length of the event against
  5603. * what we currently have.
  5604. *
  5605. * Since buf_len is 32 bits, we check if it overflows
  5606. * a large 32 bit value. It's not 0x7fffffff because
  5607. * we increase n by (buf_len + sizeof(hdr)), which would
  5608. * in itself cause n to overflow.
  5609. *
  5610. * If "int" is 64 bits then this becomes a moot point.
  5611. */
  5612. if (ev->hdr.buf_len > 0x7f000000) {
  5613. qdf_print("%s: buf_len is garbage? (0x%x\n)\n",
  5614. __func__,
  5615. ev->hdr.buf_len);
  5616. return QDF_STATUS_SUCCESS;
  5617. }
  5618. if (n + ev->hdr.buf_len > datalen) {
  5619. qdf_print("%s: buf_len exceeds available space "
  5620. "(n=%d, buf_len=%d, datalen=%d\n",
  5621. __func__,
  5622. n,
  5623. ev->hdr.buf_len,
  5624. datalen);
  5625. return QDF_STATUS_SUCCESS;
  5626. }
  5627. phyerr->phy_err_code = WMI_UNIFIED_PHYERRCODE_GET(&ev->hdr);
  5628. #if ATH_PHYERR_DEBUG
  5629. qdf_print("%s: len=%d, tsf=0x%08x, rssi = 0x%x/0x%x/0x%x/0x%x, "
  5630. "comb rssi = 0x%x, phycode=%d\n",
  5631. __func__,
  5632. ev->hdr.buf_len,
  5633. ev->hdr.tsf_timestamp,
  5634. ev->hdr.rssi_chain0,
  5635. ev->hdr.rssi_chain1,
  5636. ev->hdr.rssi_chain2,
  5637. ev->hdr.rssi_chain3,
  5638. WMI_UNIFIED_RSSI_COMB_GET(&ev->hdr),
  5639. phyerr->phy_err_code);
  5640. /*
  5641. * For now, unroll this loop - the chain 'value' field isn't
  5642. * a variable but glued together into a macro field definition.
  5643. * Grr. :-)
  5644. */
  5645. qdf_print(
  5646. "%s: chain 0: raw=0x%08x; pri20=%d sec20=%d sec40=%d sec80=%d\n",
  5647. __func__,
  5648. ev->hdr.rssi_chain0,
  5649. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 0, PRI20),
  5650. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 0, SEC20),
  5651. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 0, SEC40),
  5652. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 0, SEC80));
  5653. qdf_print(
  5654. "%s: chain 1: raw=0x%08x: pri20=%d sec20=%d sec40=%d sec80=%d\n",
  5655. __func__,
  5656. ev->hdr.rssi_chain1,
  5657. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 1, PRI20),
  5658. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 1, SEC20),
  5659. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 1, SEC40),
  5660. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 1, SEC80));
  5661. qdf_print(
  5662. "%s: chain 2: raw=0x%08x: pri20=%d sec20=%d sec40=%d sec80=%d\n",
  5663. __func__,
  5664. ev->hdr.rssi_chain2,
  5665. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 2, PRI20),
  5666. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 2, SEC20),
  5667. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 2, SEC40),
  5668. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 2, SEC80));
  5669. qdf_print(
  5670. "%s: chain 3: raw=0x%08x: pri20=%d sec20=%d sec40=%d sec80=%d\n",
  5671. __func__,
  5672. ev->hdr.rssi_chain3,
  5673. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 3, PRI20),
  5674. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 3, SEC20),
  5675. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 3, SEC40),
  5676. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 3, SEC80));
  5677. qdf_print(
  5678. "%s: freq_info_1=0x%08x, freq_info_2=0x%08x\n",
  5679. __func__, ev->hdr.freq_info_1, ev->hdr.freq_info_2);
  5680. /*
  5681. * The NF chain values are signed and are negative - hence
  5682. * the cast evilness.
  5683. */
  5684. qdf_print(
  5685. "%s: nfval[1]=0x%08x, nfval[2]=0x%08x, nf=%d/%d/%d/%d, "
  5686. "freq1=%d, freq2=%d, cw=%d\n",
  5687. __func__,
  5688. ev->hdr.nf_list_1,
  5689. ev->hdr.nf_list_2,
  5690. (int) WMI_UNIFIED_NF_CHAIN_GET(&ev->hdr, 0),
  5691. (int) WMI_UNIFIED_NF_CHAIN_GET(&ev->hdr, 1),
  5692. (int) WMI_UNIFIED_NF_CHAIN_GET(&ev->hdr, 2),
  5693. (int) WMI_UNIFIED_NF_CHAIN_GET(&ev->hdr, 3),
  5694. WMI_UNIFIED_FREQ_INFO_GET(&ev->hdr, 1),
  5695. WMI_UNIFIED_FREQ_INFO_GET(&ev->hdr, 2),
  5696. WMI_UNIFIED_CHWIDTH_GET(&ev->hdr));
  5697. #endif /* ATH_PHYERR_DEBUG */
  5698. #if ATH_SUPPORT_DFS
  5699. /*
  5700. * If required, pass radar events to the dfs pattern matching
  5701. * code.
  5702. *
  5703. * Don't pass radar events with no buffer payload.
  5704. */
  5705. phyerr->tsf_timestamp = ev->hdr.tsf_timestamp;
  5706. phyerr->bufp = &ev->bufp[0];
  5707. phyerr->buf_len = ev->hdr.buf_len;
  5708. #endif /* ATH_SUPPORT_DFS */
  5709. #if ATH_SUPPORT_SPECTRAL
  5710. /*
  5711. * If required, pass spectral events to the spectral module
  5712. *
  5713. */
  5714. if (phyerr->phy_err_code == WMI_HOST_PHY_ERROR_FALSE_RADAR_EXT
  5715. || phyerr->phy_err_code == WMI_HOST_PHY_ERROR_SPECTRAL_SCAN) {
  5716. if (ev->hdr.buf_len > 0) {
  5717. /* Initialize the NF values to Zero. */
  5718. phyerr->rf_info.noise_floor[0] =
  5719. WMI_UNIFIED_NF_CHAIN_GET(&ev->hdr, 0);
  5720. phyerr->rf_info.noise_floor[1] =
  5721. WMI_UNIFIED_NF_CHAIN_GET(&ev->hdr, 1);
  5722. phyerr->rf_info.noise_floor[2] =
  5723. WMI_UNIFIED_NF_CHAIN_GET(&ev->hdr, 2);
  5724. phyerr->rf_info.noise_floor[3] =
  5725. WMI_UNIFIED_NF_CHAIN_GET(&ev->hdr, 3);
  5726. /* populate the rf info */
  5727. phyerr->rf_info.rssi_comb =
  5728. WMI_UNIFIED_RSSI_COMB_GET(&ev->hdr);
  5729. /* Need to unroll loop due to macro
  5730. * constraints
  5731. * chain 0 */
  5732. phyerr->rf_info.pc_rssi_info[0].rssi_pri20 =
  5733. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 0, PRI20);
  5734. phyerr->rf_info.pc_rssi_info[0].rssi_sec20 =
  5735. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 0, SEC20);
  5736. phyerr->rf_info.pc_rssi_info[0].rssi_sec40 =
  5737. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 0, SEC40);
  5738. phyerr->rf_info.pc_rssi_info[0].rssi_sec80 =
  5739. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 0, SEC80);
  5740. /* chain 1 */
  5741. phyerr->rf_info.pc_rssi_info[1].rssi_pri20 =
  5742. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 1, PRI20);
  5743. phyerr->rf_info.pc_rssi_info[1].rssi_sec20 =
  5744. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 1, SEC20);
  5745. phyerr->rf_info.pc_rssi_info[1].rssi_sec40 =
  5746. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 1, SEC40);
  5747. phyerr->rf_info.pc_rssi_info[1].rssi_sec80 =
  5748. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 1, SEC80);
  5749. /* chain 2 */
  5750. phyerr->rf_info.pc_rssi_info[2].rssi_pri20 =
  5751. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 2, PRI20);
  5752. phyerr->rf_info.pc_rssi_info[2].rssi_sec20 =
  5753. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 2, SEC20);
  5754. phyerr->rf_info.pc_rssi_info[2].rssi_sec40 =
  5755. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 2, SEC40);
  5756. phyerr->rf_info.pc_rssi_info[2].rssi_sec80 =
  5757. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 2, SEC80);
  5758. /* chain 3 */
  5759. phyerr->rf_info.pc_rssi_info[3].rssi_pri20 =
  5760. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 3, PRI20);
  5761. phyerr->rf_info.pc_rssi_info[3].rssi_sec20 =
  5762. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 3, SEC20);
  5763. phyerr->rf_info.pc_rssi_info[3].rssi_sec40 =
  5764. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 3, SEC40);
  5765. phyerr->rf_info.pc_rssi_info[3].rssi_sec80 =
  5766. WMI_UNIFIED_RSSI_CHAN_GET(&ev->hdr, 3, SEC80);
  5767. phyerr->chan_info.center_freq1 =
  5768. WMI_UNIFIED_FREQ_INFO_GET(&ev->hdr, 1);
  5769. phyerr->chan_info.center_freq2 =
  5770. WMI_UNIFIED_FREQ_INFO_GET(&ev->hdr, 2);
  5771. }
  5772. }
  5773. #endif /* ATH_SUPPORT_SPECTRAL */
  5774. /*
  5775. * Advance the buffer pointer to the next PHY error.
  5776. * buflen is the length of this payload, so we need to
  5777. * advance past the current header _AND_ the payload.
  5778. */
  5779. n += sizeof(*ev) + ev->hdr.buf_len;
  5780. }
  5781. *buf_offset = n;
  5782. return QDF_STATUS_SUCCESS;
  5783. }
  5784. /**
  5785. * extract_composite_phyerr_non_tlv() - extract composite phy error from event
  5786. * @wmi_handle: wmi handle
  5787. * @param evt_buf: pointer to event buffer
  5788. * @param datalen: Length of event buffer
  5789. * @param phyerr: Pointer to hold phy error
  5790. *
  5791. * Return: 0 for success or error code
  5792. */
  5793. QDF_STATUS extract_composite_phyerr_non_tlv(wmi_unified_t wmi_handle,
  5794. void *evt_buf,
  5795. uint16_t datalen, wmi_host_phyerr_t *phyerr)
  5796. {
  5797. wmi_composite_phyerr_rx_event *pe;
  5798. wmi_composite_phyerr_rx_hdr *ph;
  5799. /* Ensure it's at least the size of the header */
  5800. if (datalen < sizeof(*pe)) {
  5801. return QDF_STATUS_E_FAILURE;
  5802. /* XXX what should errors be? */
  5803. }
  5804. pe = (wmi_composite_phyerr_rx_event *) evt_buf;
  5805. ph = &pe->hdr;
  5806. /*
  5807. * Reconstruct the 64 bit event TSF. This isn't from the MAC, it's
  5808. * at the time the event was sent to us, the TSF value will be
  5809. * in the future.
  5810. */
  5811. phyerr->tsf64 = ph->tsf_l32;
  5812. phyerr->tsf64 |= (((uint64_t) ph->tsf_u32) << 32);
  5813. phyerr->tsf_timestamp = ph->tsf_timestamp;
  5814. phyerr->bufp = &pe->bufp[0];
  5815. phyerr->buf_len = ph->buf_len;
  5816. phyerr->phy_err_mask0 = ph->phy_err_mask0;
  5817. phyerr->phy_err_mask1 = ph->phy_err_mask1;
  5818. /* Handle Spectral PHY Error */
  5819. if ((ph->phy_err_mask0 & WMI_HOST_AR900B_SPECTRAL_PHYERR_MASK)) {
  5820. #if ATH_SUPPORT_SPECTRAL
  5821. if (ph->buf_len > 0) {
  5822. /* Initialize the NF values to Zero. */
  5823. phyerr->rf_info.noise_floor[0] =
  5824. WMI_UNIFIED_NF_CHAIN_GET(ph, 0);
  5825. phyerr->rf_info.noise_floor[1] =
  5826. WMI_UNIFIED_NF_CHAIN_GET(ph, 1);
  5827. phyerr->rf_info.noise_floor[2] =
  5828. WMI_UNIFIED_NF_CHAIN_GET(ph, 2);
  5829. phyerr->rf_info.noise_floor[3] =
  5830. WMI_UNIFIED_NF_CHAIN_GET(ph, 3);
  5831. /* populate the rf info */
  5832. phyerr->rf_info.rssi_comb =
  5833. WMI_UNIFIED_RSSI_COMB_GET(ph);
  5834. /* Need to unroll loop due to macro constraints */
  5835. /* chain 0 */
  5836. phyerr->rf_info.pc_rssi_info[0].rssi_pri20 =
  5837. WMI_UNIFIED_RSSI_CHAN_GET(ph, 0, PRI20);
  5838. phyerr->rf_info.pc_rssi_info[0].rssi_sec20 =
  5839. WMI_UNIFIED_RSSI_CHAN_GET(ph, 0, SEC20);
  5840. phyerr->rf_info.pc_rssi_info[0].rssi_sec40 =
  5841. WMI_UNIFIED_RSSI_CHAN_GET(ph, 0, SEC40);
  5842. phyerr->rf_info.pc_rssi_info[0].rssi_sec80 =
  5843. WMI_UNIFIED_RSSI_CHAN_GET(ph, 0, SEC80);
  5844. /* chain 1 */
  5845. phyerr->rf_info.pc_rssi_info[1].rssi_pri20 =
  5846. WMI_UNIFIED_RSSI_CHAN_GET(ph, 1, PRI20);
  5847. phyerr->rf_info.pc_rssi_info[1].rssi_sec20 =
  5848. WMI_UNIFIED_RSSI_CHAN_GET(ph, 1, SEC20);
  5849. phyerr->rf_info.pc_rssi_info[1].rssi_sec40 =
  5850. WMI_UNIFIED_RSSI_CHAN_GET(ph, 1, SEC40);
  5851. phyerr->rf_info.pc_rssi_info[1].rssi_sec80 =
  5852. WMI_UNIFIED_RSSI_CHAN_GET(ph, 1, SEC80);
  5853. /* chain 2 */
  5854. phyerr->rf_info.pc_rssi_info[2].rssi_pri20 =
  5855. WMI_UNIFIED_RSSI_CHAN_GET(ph, 2, PRI20);
  5856. phyerr->rf_info.pc_rssi_info[2].rssi_sec20 =
  5857. WMI_UNIFIED_RSSI_CHAN_GET(ph, 2, SEC20);
  5858. phyerr->rf_info.pc_rssi_info[2].rssi_sec40 =
  5859. WMI_UNIFIED_RSSI_CHAN_GET(ph, 2, SEC40);
  5860. phyerr->rf_info.pc_rssi_info[2].rssi_sec80 =
  5861. WMI_UNIFIED_RSSI_CHAN_GET(ph, 2, SEC80);
  5862. /* chain 3 */
  5863. phyerr->rf_info.pc_rssi_info[3].rssi_pri20 =
  5864. WMI_UNIFIED_RSSI_CHAN_GET(ph, 3, PRI20);
  5865. phyerr->rf_info.pc_rssi_info[3].rssi_sec20 =
  5866. WMI_UNIFIED_RSSI_CHAN_GET(ph, 3, SEC20);
  5867. phyerr->rf_info.pc_rssi_info[3].rssi_sec40 =
  5868. WMI_UNIFIED_RSSI_CHAN_GET(ph, 3, SEC40);
  5869. phyerr->rf_info.pc_rssi_info[3].rssi_sec80 =
  5870. WMI_UNIFIED_RSSI_CHAN_GET(ph, 3, SEC80);
  5871. phyerr->chan_info.center_freq1 =
  5872. WMI_UNIFIED_FREQ_INFO_GET(ph, 1);
  5873. phyerr->chan_info.center_freq2 =
  5874. WMI_UNIFIED_FREQ_INFO_GET(ph, 2);
  5875. }
  5876. #endif /* ATH_SUPPORT_SPECTRAL */
  5877. }
  5878. return QDF_STATUS_SUCCESS;
  5879. }
  5880. /**
  5881. * extract_all_stats_counts_non_tlv() - extract all stats count from event
  5882. * @wmi_handle: wmi handle
  5883. * @param evt_buf: pointer to event buffer
  5884. * @param stats_param: Pointer to hold stats count
  5885. *
  5886. * Return: 0 for success or error code
  5887. */
  5888. static QDF_STATUS extract_all_stats_counts_non_tlv(wmi_unified_t wmi_handle,
  5889. void *evt_buf,
  5890. wmi_host_stats_event *stats_param)
  5891. {
  5892. wmi_stats_event *ev = (wmi_stats_event *) evt_buf;
  5893. switch (ev->stats_id) {
  5894. case WMI_REQUEST_PEER_STAT:
  5895. stats_param->stats_id |= WMI_HOST_REQUEST_PEER_STAT;
  5896. break;
  5897. case WMI_REQUEST_AP_STAT:
  5898. stats_param->stats_id |= WMI_HOST_REQUEST_AP_STAT;
  5899. break;
  5900. case WMI_REQUEST_INST_STAT:
  5901. stats_param->stats_id |= WMI_HOST_REQUEST_INST_STAT;
  5902. break;
  5903. case WMI_REQUEST_PEER_EXTD_STAT:
  5904. stats_param->stats_id |= WMI_HOST_REQUEST_PEER_EXTD_STAT;
  5905. break;
  5906. case WMI_REQUEST_VDEV_EXTD_STAT:
  5907. stats_param->stats_id |= WMI_HOST_REQUEST_VDEV_EXTD_STAT;
  5908. break;
  5909. default:
  5910. stats_param->stats_id = 0;
  5911. break;
  5912. }
  5913. stats_param->num_pdev_stats = ev->num_pdev_stats;
  5914. stats_param->num_pdev_ext_stats = ev->num_pdev_ext_stats;
  5915. stats_param->num_vdev_stats = ev->num_vdev_stats;
  5916. stats_param->num_peer_stats = ev->num_peer_stats;
  5917. stats_param->num_bcnflt_stats = ev->num_bcnflt_stats;
  5918. stats_param->num_chan_stats = 0;
  5919. return QDF_STATUS_SUCCESS;
  5920. }
  5921. /**
  5922. * extract_pdev_stats_non_tlv() - extract pdev stats from event
  5923. * @wmi_handle: wmi handle
  5924. * @param evt_buf: pointer to event buffer
  5925. * @param index: Index into pdev stats
  5926. * @param pdev_stats: Pointer to hold pdev stats
  5927. *
  5928. * Return: 0 for success or error code
  5929. */
  5930. static QDF_STATUS extract_pdev_stats_non_tlv(wmi_unified_t wmi_handle,
  5931. void *evt_buf,
  5932. uint32_t index, wmi_host_pdev_stats *pdev_stats)
  5933. {
  5934. if (index < ((wmi_stats_event *)evt_buf)->num_pdev_stats) {
  5935. wmi_pdev_stats *ev =
  5936. (wmi_pdev_stats *) ((((wmi_stats_event *)evt_buf)->data) +
  5937. (index * sizeof(wmi_pdev_stats)));
  5938. /* direct copy possible since wmi_host_pdev_stats is same as
  5939. * wmi_pdev_stats for non-tlv */
  5940. /* qdf_mem_copy(pdev_stats, ev, sizeof(wmi_pdev_stats));*/
  5941. pdev_stats->chan_nf = ev->chan_nf;
  5942. pdev_stats->tx_frame_count = ev->tx_frame_count;
  5943. pdev_stats->rx_frame_count = ev->rx_frame_count;
  5944. pdev_stats->rx_clear_count = ev->rx_clear_count;
  5945. pdev_stats->cycle_count = ev->cycle_count;
  5946. pdev_stats->phy_err_count = ev->phy_err_count;
  5947. pdev_stats->chan_tx_pwr = ev->chan_tx_pwr;
  5948. #define tx_stats (pdev_stats->pdev_stats.tx)
  5949. #define ev_tx_stats (ev->pdev_stats.tx)
  5950. /* Tx Stats */
  5951. tx_stats.comp_queued = ev_tx_stats.comp_queued;
  5952. tx_stats.comp_delivered = ev_tx_stats.comp_delivered;
  5953. tx_stats.msdu_enqued = ev_tx_stats.msdu_enqued;
  5954. tx_stats.mpdu_enqued = ev_tx_stats.mpdu_enqued;
  5955. tx_stats.wmm_drop = ev_tx_stats.wmm_drop;
  5956. tx_stats.local_enqued = ev_tx_stats.local_enqued;
  5957. tx_stats.local_freed = ev_tx_stats.local_freed;
  5958. tx_stats.hw_queued = ev_tx_stats.hw_queued;
  5959. tx_stats.hw_reaped = ev_tx_stats.hw_reaped;
  5960. tx_stats.underrun = ev_tx_stats.underrun;
  5961. tx_stats.hw_paused = ev_tx_stats.hw_paused;
  5962. tx_stats.tx_abort = ev_tx_stats.tx_abort;
  5963. tx_stats.mpdus_requed = ev_tx_stats.mpdus_requed;
  5964. tx_stats.tx_xretry = ev_tx_stats.tx_xretry;
  5965. tx_stats.data_rc = ev_tx_stats.data_rc;
  5966. tx_stats.self_triggers = ev_tx_stats.self_triggers;
  5967. tx_stats.sw_retry_failure = ev_tx_stats.sw_retry_failure;
  5968. tx_stats.illgl_rate_phy_err = ev_tx_stats.illgl_rate_phy_err;
  5969. tx_stats.pdev_cont_xretry = ev_tx_stats.pdev_cont_xretry;
  5970. tx_stats.pdev_tx_timeout = ev_tx_stats.pdev_tx_timeout;
  5971. tx_stats.pdev_resets = ev_tx_stats.pdev_resets;
  5972. tx_stats.stateless_tid_alloc_failure =
  5973. ev_tx_stats.stateless_tid_alloc_failure;
  5974. tx_stats.phy_underrun = ev_tx_stats.phy_underrun;
  5975. tx_stats.txop_ovf = ev_tx_stats.txop_ovf;
  5976. tx_stats.seq_posted = ev_tx_stats.seq_posted;
  5977. tx_stats.seq_failed_queueing = ev_tx_stats.seq_failed_queueing;
  5978. tx_stats.seq_completed = ev_tx_stats.seq_completed;
  5979. tx_stats.seq_restarted = ev_tx_stats.seq_restarted;
  5980. tx_stats.mu_seq_posted = ev_tx_stats.mu_seq_posted;
  5981. tx_stats.mpdus_sw_flush = ev_tx_stats.mpdus_sw_flush;
  5982. tx_stats.mpdus_hw_filter = ev_tx_stats.mpdus_hw_filter;
  5983. tx_stats.mpdus_truncated = ev_tx_stats.mpdus_truncated;
  5984. tx_stats.mpdus_ack_failed = ev_tx_stats.mpdus_ack_failed;
  5985. tx_stats.mpdus_expired = ev_tx_stats.mpdus_expired;
  5986. /* Only NON-TLV */
  5987. tx_stats.mc_drop = ev_tx_stats.mc_drop;
  5988. /* Only TLV */
  5989. tx_stats.tx_ko = 0;
  5990. #define rx_stats (pdev_stats->pdev_stats.rx)
  5991. #define ev_rx_stats (ev->pdev_stats.rx)
  5992. /* Rx Stats */
  5993. rx_stats.mid_ppdu_route_change =
  5994. ev_rx_stats.mid_ppdu_route_change;
  5995. rx_stats.status_rcvd = ev_rx_stats.status_rcvd;
  5996. rx_stats.r0_frags = ev_rx_stats.r0_frags;
  5997. rx_stats.r1_frags = ev_rx_stats.r1_frags;
  5998. rx_stats.r2_frags = ev_rx_stats.r2_frags;
  5999. /* Only TLV */
  6000. rx_stats.r3_frags = 0;
  6001. rx_stats.htt_msdus = ev_rx_stats.htt_msdus;
  6002. rx_stats.htt_mpdus = ev_rx_stats.htt_mpdus;
  6003. rx_stats.loc_msdus = ev_rx_stats.loc_msdus;
  6004. rx_stats.loc_mpdus = ev_rx_stats.loc_mpdus;
  6005. rx_stats.oversize_amsdu = ev_rx_stats.oversize_amsdu;
  6006. rx_stats.phy_errs = ev_rx_stats.phy_errs;
  6007. rx_stats.phy_err_drop = ev_rx_stats.phy_err_drop;
  6008. rx_stats.mpdu_errs = ev_rx_stats.mpdu_errs;
  6009. rx_stats.pdev_rx_timeout = ev_rx_stats.pdev_rx_timeout;
  6010. rx_stats.rx_ovfl_errs = ev_rx_stats.rx_ovfl_errs;
  6011. /* mem stats */
  6012. pdev_stats->pdev_stats.mem.iram_free_size =
  6013. ev->pdev_stats.mem.iram_free_size;
  6014. pdev_stats->pdev_stats.mem.dram_free_size =
  6015. ev->pdev_stats.mem.dram_free_size;
  6016. /* Only Non-TLV */
  6017. pdev_stats->pdev_stats.mem.sram_free_size =
  6018. ev->pdev_stats.mem.sram_free_size;
  6019. /* Peer stats */
  6020. /* Only TLV */
  6021. pdev_stats->pdev_stats.peer.dummy = 0;
  6022. /* Only NON-TLV */
  6023. pdev_stats->ackRcvBad = ev->ackRcvBad;
  6024. pdev_stats->rtsBad = ev->rtsBad;
  6025. pdev_stats->rtsGood = ev->rtsGood;
  6026. pdev_stats->fcsBad = ev->fcsBad;
  6027. pdev_stats->noBeacons = ev->noBeacons;
  6028. pdev_stats->mib_int_count = ev->mib_int_count;
  6029. }
  6030. return QDF_STATUS_SUCCESS;
  6031. }
  6032. /**
  6033. * extract_pdev_ext_stats_non_tlv() - extract extended pdev stats from event
  6034. * @wmi_handle: wmi handle
  6035. * @param evt_buf: pointer to event buffer
  6036. * @param index: Index into extended pdev stats
  6037. * @param pdev_ext_stats: Pointer to hold extended pdev stats
  6038. *
  6039. * Return: 0 for success or error code
  6040. */
  6041. static QDF_STATUS extract_pdev_ext_stats_non_tlv(wmi_unified_t wmi_handle,
  6042. void *evt_buf,
  6043. uint32_t index, wmi_host_pdev_ext_stats *pdev_ext_stats)
  6044. {
  6045. if (index < ((wmi_stats_event *)evt_buf)->num_pdev_ext_stats) {
  6046. wmi_pdev_ext_stats *ev =
  6047. (wmi_pdev_ext_stats *) ((((wmi_stats_event *)evt_buf)->data) +
  6048. ((((wmi_stats_event *)evt_buf)->num_pdev_stats) *
  6049. sizeof(wmi_pdev_stats)) +
  6050. (index * sizeof(wmi_pdev_ext_stats)));
  6051. /* Copy content to event->data */
  6052. OS_MEMCPY(pdev_ext_stats, ev, sizeof(wmi_pdev_ext_stats));
  6053. }
  6054. return QDF_STATUS_SUCCESS;
  6055. }
  6056. /**
  6057. * extract_vdev_stats_non_tlv() - extract vdev stats from event
  6058. * @wmi_handle: wmi handle
  6059. * @param evt_buf: pointer to event buffer
  6060. * @param index: Index into vdev stats
  6061. * @param vdev_stats: Pointer to hold vdev stats
  6062. *
  6063. * Return: 0 for success or error code
  6064. */
  6065. static QDF_STATUS extract_vdev_stats_non_tlv(wmi_unified_t wmi_handle,
  6066. void *evt_buf, uint32_t index, wmi_host_vdev_stats *vdev_stats)
  6067. {
  6068. if (index < ((wmi_stats_event *)evt_buf)->num_vdev_stats) {
  6069. wmi_vdev_stats *ev =
  6070. (wmi_vdev_stats *) ((((wmi_stats_event *)evt_buf)->data) +
  6071. ((((wmi_stats_event *)evt_buf)->num_pdev_stats) *
  6072. sizeof(wmi_pdev_stats)) +
  6073. ((((wmi_stats_event *)evt_buf)->num_pdev_ext_stats) *
  6074. sizeof(wmi_pdev_ext_stats)) +
  6075. (index * sizeof(wmi_vdev_stats)));
  6076. OS_MEMSET(vdev_stats, 0, sizeof(wmi_host_vdev_stats));
  6077. vdev_stats->vdev_id = ev->vdev_id;
  6078. }
  6079. return QDF_STATUS_SUCCESS;
  6080. }
  6081. /**
  6082. * extract_peer_stats_non_tlv() - extract peer stats from event
  6083. * @wmi_handle: wmi handle
  6084. * @param evt_buf: pointer to event buffer
  6085. * @param index: Index into peer stats
  6086. * @param peer_stats: Pointer to hold peer stats
  6087. *
  6088. * Return: 0 for success or error code
  6089. */
  6090. static QDF_STATUS extract_peer_stats_non_tlv(wmi_unified_t wmi_handle,
  6091. void *evt_buf, uint32_t index, wmi_host_peer_stats *peer_stats)
  6092. {
  6093. if (index < ((wmi_stats_event *)evt_buf)->num_peer_stats) {
  6094. wmi_peer_stats *ev =
  6095. (wmi_peer_stats *) ((((wmi_stats_event *)evt_buf)->data) +
  6096. ((((wmi_stats_event *)evt_buf)->num_pdev_stats) *
  6097. sizeof(wmi_pdev_stats)) +
  6098. ((((wmi_stats_event *)evt_buf)->num_pdev_ext_stats) *
  6099. sizeof(wmi_pdev_ext_stats)) +
  6100. ((((wmi_stats_event *)evt_buf)->num_vdev_stats) *
  6101. sizeof(wmi_vdev_stats)) +
  6102. (index * sizeof(wmi_peer_stats)));
  6103. OS_MEMCPY(&(peer_stats->peer_macaddr), &(ev->peer_macaddr),
  6104. sizeof(wmi_mac_addr));
  6105. peer_stats->peer_rssi = ev->peer_rssi;
  6106. peer_stats->peer_rssi_seq_num = ev->peer_rssi_seq_num;
  6107. peer_stats->peer_tx_rate = ev->peer_tx_rate;
  6108. peer_stats->peer_rx_rate = ev->peer_rx_rate;
  6109. peer_stats->currentper = ev->currentper;
  6110. peer_stats->retries = ev->retries;
  6111. peer_stats->txratecount = ev->txratecount;
  6112. peer_stats->max4msframelen = ev->max4msframelen;
  6113. peer_stats->totalsubframes = ev->totalsubframes;
  6114. peer_stats->txbytes = ev->txbytes;
  6115. OS_MEMCPY(peer_stats->nobuffs, ev->nobuffs,
  6116. sizeof(peer_stats->nobuffs));
  6117. OS_MEMCPY(peer_stats->excretries, ev->excretries,
  6118. sizeof(peer_stats->excretries));
  6119. peer_stats->peer_rssi_changed = ev->peer_rssi_changed;
  6120. }
  6121. return QDF_STATUS_SUCCESS;
  6122. }
  6123. /**
  6124. * extract_bcnflt_stats_non_tlv() - extract bcn fault stats from event
  6125. * @wmi_handle: wmi handle
  6126. * @param evt_buf: pointer to event buffer
  6127. * @param index: Index into bcn fault stats
  6128. * @param bcnflt_stats: Pointer to hold bcn fault stats
  6129. *
  6130. * Return: 0 for success or error code
  6131. */
  6132. static QDF_STATUS extract_bcnflt_stats_non_tlv(wmi_unified_t wmi_handle,
  6133. void *evt_buf, uint32_t index, wmi_host_bcnflt_stats *bcnflt_stats)
  6134. {
  6135. return QDF_STATUS_SUCCESS;
  6136. }
  6137. /**
  6138. * extract_peer_extd_stats_non_tlv() - extract extended peer stats from event
  6139. * @wmi_handle: wmi handle
  6140. * @param evt_buf: pointer to event buffer
  6141. * @param index: Index into extended peer stats
  6142. * @param peer_extd_stats: Pointer to hold extended peer stats
  6143. *
  6144. * Return: 0 for success or error code
  6145. */
  6146. static QDF_STATUS extract_peer_extd_stats_non_tlv(wmi_unified_t wmi_handle,
  6147. void *evt_buf, uint32_t index,
  6148. wmi_host_peer_extd_stats *peer_extd_stats)
  6149. {
  6150. if (WMI_REQUEST_PEER_EXTD_STAT &
  6151. ((wmi_stats_event *)evt_buf)->stats_id) {
  6152. if (index < ((wmi_stats_event *)evt_buf)->num_peer_stats) {
  6153. wmi_peer_extd_stats *ev = (wmi_peer_extd_stats *)
  6154. ((((wmi_stats_event *)evt_buf)->data) +
  6155. ((((wmi_stats_event *)evt_buf)->num_pdev_stats) *
  6156. sizeof(wmi_pdev_stats)) +
  6157. ((((wmi_stats_event *)evt_buf)->num_pdev_ext_stats) *
  6158. sizeof(wmi_pdev_ext_stats)) +
  6159. ((((wmi_stats_event *)evt_buf)->num_vdev_stats) *
  6160. sizeof(wmi_vdev_stats)) +
  6161. ((((wmi_stats_event *)evt_buf)->num_peer_stats) *
  6162. sizeof(wmi_peer_stats)) +
  6163. (index * sizeof(wmi_peer_extd_stats)));
  6164. OS_MEMCPY(peer_extd_stats, ev,
  6165. sizeof(wmi_host_peer_extd_stats));
  6166. }
  6167. }
  6168. return QDF_STATUS_SUCCESS;
  6169. }
  6170. /**
  6171. * extract_vdev_extd_stats_non_tlv() - extract extended vdev stats from event
  6172. * @wmi_handle: wmi handle
  6173. * @param evt_buf: pointer to event buffer
  6174. * @param index: Index into extended vdev stats
  6175. * @param vdev_extd_stats: Pointer to hold extended vdev stats
  6176. *
  6177. * Return: 0 for success or error code
  6178. */
  6179. static QDF_STATUS extract_vdev_extd_stats_non_tlv(wmi_unified_t wmi_handle,
  6180. void *evt_buf, uint32_t index,
  6181. wmi_host_vdev_extd_stats *vdev_extd_stats)
  6182. {
  6183. if (WMI_REQUEST_PEER_EXTD_STAT &
  6184. ((wmi_stats_event *)evt_buf)->stats_id) {
  6185. if (index < ((wmi_stats_event *)evt_buf)->num_vdev_stats) {
  6186. wmi_vdev_extd_stats *ev = (wmi_vdev_extd_stats *)
  6187. ((((wmi_stats_event *)evt_buf)->data) +
  6188. ((((wmi_stats_event *)evt_buf)->num_pdev_stats) *
  6189. sizeof(wmi_pdev_stats)) +
  6190. ((((wmi_stats_event *)evt_buf)->num_pdev_ext_stats) *
  6191. sizeof(wmi_pdev_ext_stats)) +
  6192. ((((wmi_stats_event *)evt_buf)->num_vdev_stats) *
  6193. sizeof(wmi_vdev_stats)) +
  6194. ((((wmi_stats_event *)evt_buf)->num_peer_stats) *
  6195. sizeof(wmi_peer_stats)) +
  6196. ((((wmi_stats_event *)evt_buf)->num_peer_stats) *
  6197. sizeof(wmi_peer_extd_stats)) +
  6198. (index * sizeof(wmi_vdev_extd_stats)));
  6199. OS_MEMCPY(vdev_extd_stats, ev,
  6200. sizeof(wmi_host_vdev_extd_stats));
  6201. }
  6202. }
  6203. return QDF_STATUS_SUCCESS;
  6204. }
  6205. /**
  6206. * extract_chan_stats_non_tlv() - extract chan stats from event
  6207. * @wmi_handle: wmi handle
  6208. * @param evt_buf: pointer to event buffer
  6209. * @param index: Index into chan stats
  6210. * @param vdev_extd_stats: Pointer to hold chan stats
  6211. *
  6212. * Return: 0 for success or error code
  6213. */
  6214. static QDF_STATUS extract_chan_stats_non_tlv(wmi_unified_t wmi_handle,
  6215. void *evt_buf,
  6216. uint32_t index, wmi_host_chan_stats *chan_stats)
  6217. {
  6218. /* Non-TLV doesnt have num_chan_stats */
  6219. return QDF_STATUS_SUCCESS;
  6220. }
  6221. /**
  6222. * extract_profile_ctx_non_tlv() - extract profile context from event
  6223. * @wmi_handle: wmi handle
  6224. * @param evt_buf: pointer to event buffer
  6225. * @param profile_ctx: Pointer to hold profile context
  6226. *
  6227. * Return: 0 for success or error code
  6228. */
  6229. static QDF_STATUS extract_profile_ctx_non_tlv(wmi_unified_t wmi_handle,
  6230. void *evt_buf,
  6231. wmi_host_wlan_profile_ctx_t *profile_ctx)
  6232. {
  6233. wmi_profile_stats_event *profile_ev =
  6234. (wmi_profile_stats_event *)evt_buf;
  6235. qdf_mem_copy(profile_ctx, &(profile_ev->profile_ctx),
  6236. sizeof(wmi_host_wlan_profile_ctx_t));
  6237. return QDF_STATUS_SUCCESS;
  6238. }
  6239. /**
  6240. * extract_profile_data_non_tlv() - extract profile data from event
  6241. * @wmi_handle: wmi handle
  6242. * @param evt_buf: pointer to event buffer
  6243. * @param profile_data: Pointer to hold profile data
  6244. *
  6245. * Return: 0 for success or error code
  6246. */
  6247. static QDF_STATUS extract_profile_data_non_tlv(wmi_unified_t wmi_handle,
  6248. void *evt_buf, uint8_t idx,
  6249. wmi_host_wlan_profile_t *profile_data)
  6250. {
  6251. wmi_profile_stats_event *profile_ev =
  6252. (wmi_profile_stats_event *)evt_buf;
  6253. if (idx > profile_ev->profile_ctx.bin_count)
  6254. return QDF_STATUS_E_INVAL;
  6255. qdf_mem_copy(profile_data, &profile_ev->profile_data[idx],
  6256. sizeof(wmi_host_wlan_profile_t));
  6257. return QDF_STATUS_SUCCESS;
  6258. }
  6259. /**
  6260. * extract_chan_info_event_non_tlv() - extract chan information from event
  6261. * @wmi_handle: wmi handle
  6262. * @param evt_buf: pointer to event buffer
  6263. * @param chan_info: Pointer to hold chan information
  6264. *
  6265. * Return: 0 for success or error code
  6266. */
  6267. static QDF_STATUS extract_chan_info_event_non_tlv(wmi_unified_t wmi_handle,
  6268. void *evt_buf,
  6269. wmi_host_chan_info_event *chan_info)
  6270. {
  6271. wmi_chan_info_event *chan_info_ev = (wmi_chan_info_event *)evt_buf;
  6272. chan_info->err_code = chan_info_ev->err_code;
  6273. chan_info->freq = chan_info_ev->freq;
  6274. chan_info->cmd_flags = chan_info_ev->cmd_flags;
  6275. chan_info->noise_floor = chan_info_ev->noise_floor;
  6276. chan_info->rx_clear_count = chan_info_ev->rx_clear_count;
  6277. chan_info->cycle_count = chan_info_ev->cycle_count;
  6278. chan_info->rx_11b_mode_data_duration =
  6279. chan_info_ev->rx_11b_mode_data_duration;
  6280. /* ONLY NON-TLV */
  6281. chan_info->chan_tx_pwr_range = chan_info_ev->chan_tx_pwr_range;
  6282. chan_info->chan_tx_pwr_tp = chan_info_ev->chan_tx_pwr_tp;
  6283. chan_info->rx_frame_count = chan_info_ev->rx_frame_count;
  6284. return QDF_STATUS_SUCCESS;
  6285. }
  6286. /**
  6287. * extract_channel_hopping_event_non_tlv() - extract channel hopping param
  6288. * from event
  6289. * @wmi_handle: wmi handle
  6290. * @param evt_buf: pointer to event buffer
  6291. * @param ch_hopping: Pointer to hold channel hopping param
  6292. *
  6293. * Return: 0 for success or error code
  6294. */
  6295. static QDF_STATUS extract_channel_hopping_event_non_tlv(
  6296. wmi_unified_t wmi_handle, void *evt_buf,
  6297. wmi_host_pdev_channel_hopping_event *ch_hopping)
  6298. {
  6299. wmi_pdev_channel_hopping_event *event =
  6300. (wmi_pdev_channel_hopping_event *)evt_buf;
  6301. ch_hopping->noise_floor_report_iter = event->noise_floor_report_iter;
  6302. ch_hopping->noise_floor_total_iter = event->noise_floor_total_iter;
  6303. return QDF_STATUS_SUCCESS;
  6304. }
  6305. /**
  6306. * extract_bss_chan_info_event_non_tlv() - extract bss channel information
  6307. * from event
  6308. * @wmi_handle: wmi handle
  6309. * @param evt_buf: pointer to event buffer
  6310. * @param bss_chan_info: Pointer to hold bss channel information
  6311. *
  6312. * Return: 0 for success or error code
  6313. */
  6314. static QDF_STATUS extract_bss_chan_info_event_non_tlv(wmi_unified_t wmi_handle,
  6315. void *evt_buf, wmi_host_pdev_bss_chan_info_event *bss_chan_info)
  6316. {
  6317. wmi_pdev_bss_chan_info_event *event =
  6318. (wmi_pdev_bss_chan_info_event *)evt_buf;
  6319. qdf_mem_copy(bss_chan_info, event,
  6320. sizeof(wmi_pdev_bss_chan_info_event));
  6321. return QDF_STATUS_SUCCESS;
  6322. }
  6323. /**
  6324. * extract_inst_rssi_stats_event_non_tlv() - extract inst rssi stats from event
  6325. * @wmi_handle: wmi handle
  6326. * @param evt_buf: pointer to event buffer
  6327. * @param inst_rssi_resp: Pointer to hold inst rssi response
  6328. *
  6329. * Return: 0 for success or error code
  6330. */
  6331. static QDF_STATUS extract_inst_rssi_stats_event_non_tlv(
  6332. wmi_unified_t wmi_handle, void *evt_buf,
  6333. wmi_host_inst_stats_resp *inst_rssi_resp)
  6334. {
  6335. wmi_inst_stats_resp *event = (wmi_inst_stats_resp *)evt_buf;
  6336. qdf_mem_copy(inst_rssi_resp, event, sizeof(wmi_inst_stats_resp));
  6337. return QDF_STATUS_SUCCESS;
  6338. }
  6339. /**
  6340. * extract_tx_data_traffic_ctrl_ev_non_tlv() - extract tx data traffic control
  6341. * from event
  6342. * @wmi_handle: wmi handle
  6343. * @param evt_buf: pointer to event buffer
  6344. * @param index: Index into chan stats
  6345. * @param ev: Pointer to hold data traffic control
  6346. *
  6347. * Return: 0 for success or error code
  6348. */
  6349. static QDF_STATUS extract_tx_data_traffic_ctrl_ev_non_tlv(
  6350. wmi_unified_t wmi_handle, void *evt_buf,
  6351. wmi_host_tx_data_traffic_ctrl_event *ev)
  6352. {
  6353. wmi_tx_data_traffic_ctrl_event *evt =
  6354. (wmi_tx_data_traffic_ctrl_event *)evt_buf;
  6355. ev->peer_ast_idx = evt->peer_ast_idx;
  6356. ev->vdev_id = evt->vdev_id;
  6357. ev->ctrl_cmd = evt->ctrl_cmd;
  6358. return QDF_STATUS_SUCCESS;
  6359. }
  6360. struct wmi_ops non_tlv_ops = {
  6361. .send_vdev_create_cmd = send_vdev_create_cmd_non_tlv,
  6362. .send_vdev_delete_cmd = send_vdev_delete_cmd_non_tlv,
  6363. .send_vdev_down_cmd = send_vdev_down_cmd_non_tlv,
  6364. .send_peer_flush_tids_cmd = send_peer_flush_tids_cmd_non_tlv,
  6365. .send_peer_param_cmd = send_peer_param_cmd_non_tlv,
  6366. .send_vdev_up_cmd = send_vdev_up_cmd_non_tlv,
  6367. .send_peer_create_cmd = send_peer_create_cmd_non_tlv,
  6368. .send_peer_delete_cmd = send_peer_delete_cmd_non_tlv,
  6369. .send_green_ap_ps_cmd = send_green_ap_ps_cmd_non_tlv,
  6370. .send_pdev_utf_cmd = send_pdev_utf_cmd_non_tlv,
  6371. .send_pdev_param_cmd = send_pdev_param_cmd_non_tlv,
  6372. .send_suspend_cmd = send_suspend_cmd_non_tlv,
  6373. .send_resume_cmd = send_resume_cmd_non_tlv,
  6374. .send_wow_enable_cmd = send_wow_enable_cmd_non_tlv,
  6375. .send_set_ap_ps_param_cmd = send_set_ap_ps_param_cmd_non_tlv,
  6376. .send_set_sta_ps_param_cmd = send_set_sta_ps_param_cmd_non_tlv,
  6377. .send_crash_inject_cmd = send_crash_inject_cmd_non_tlv,
  6378. .send_dbglog_cmd = send_dbglog_cmd_non_tlv,
  6379. .send_vdev_set_param_cmd = send_vdev_set_param_cmd_non_tlv,
  6380. .send_stats_request_cmd = send_stats_request_cmd_non_tlv,
  6381. .send_packet_log_enable_cmd = send_packet_log_enable_cmd_non_tlv,
  6382. .send_packet_log_disable_cmd = send_packet_log_disable_cmd_non_tlv,
  6383. .send_beacon_send_cmd = send_beacon_send_cmd_non_tlv,
  6384. .send_peer_assoc_cmd = send_peer_assoc_cmd_non_tlv,
  6385. .send_scan_start_cmd = send_scan_start_cmd_non_tlv,
  6386. .send_scan_stop_cmd = send_scan_stop_cmd_non_tlv,
  6387. .send_scan_chan_list_cmd = send_scan_chan_list_cmd_non_tlv,
  6388. .send_pdev_get_tpc_config_cmd = send_pdev_get_tpc_config_cmd_non_tlv,
  6389. .send_set_atf_cmd = send_set_atf_cmd_non_tlv,
  6390. .send_pdev_fips_cmd = send_pdev_fips_cmd_non_tlv,
  6391. .send_wlan_profile_enable_cmd = send_wlan_profile_enable_cmd_non_tlv,
  6392. .send_wlan_profile_trigger_cmd = send_wlan_profile_trigger_cmd_non_tlv,
  6393. .send_pdev_set_chan_cmd = send_pdev_set_chan_cmd_non_tlv,
  6394. .send_set_ht_ie_cmd = send_set_ht_ie_cmd_non_tlv,
  6395. .send_set_vht_ie_cmd = send_set_vht_ie_cmd_non_tlv,
  6396. .send_wmm_update_cmd = send_wmm_update_cmd_non_tlv,
  6397. .send_set_ant_switch_tbl_cmd = send_set_ant_switch_tbl_cmd_non_tlv,
  6398. .send_set_ratepwr_table_cmd = send_set_ratepwr_table_cmd_non_tlv,
  6399. .send_get_ratepwr_table_cmd = send_get_ratepwr_table_cmd_non_tlv,
  6400. .send_set_ctl_table_cmd = send_set_ctl_table_cmd_non_tlv,
  6401. .send_set_mimogain_table_cmd = send_set_mimogain_table_cmd_non_tlv,
  6402. .send_set_ratepwr_chainmsk_cmd = send_set_ratepwr_chainmsk_cmd_non_tlv,
  6403. .send_set_macaddr_cmd = send_set_macaddr_cmd_non_tlv,
  6404. .send_pdev_scan_start_cmd = send_pdev_scan_start_cmd_non_tlv,
  6405. .send_pdev_scan_end_cmd = send_pdev_scan_end_cmd_non_tlv,
  6406. .send_set_acparams_cmd = send_set_acparams_cmd_non_tlv,
  6407. .send_set_vap_dscp_tid_map_cmd = send_set_vap_dscp_tid_map_cmd_non_tlv,
  6408. .send_proxy_ast_reserve_cmd = send_proxy_ast_reserve_cmd_non_tlv,
  6409. .send_pdev_qvit_cmd = send_pdev_qvit_cmd_non_tlv,
  6410. .send_mcast_group_update_cmd = send_mcast_group_update_cmd_non_tlv,
  6411. .send_peer_add_wds_entry_cmd = send_peer_add_wds_entry_cmd_non_tlv,
  6412. .send_peer_del_wds_entry_cmd = send_peer_del_wds_entry_cmd_non_tlv,
  6413. .send_peer_update_wds_entry_cmd =
  6414. send_peer_update_wds_entry_cmd_non_tlv,
  6415. .send_phyerr_enable_cmd = send_phyerr_enable_cmd_non_tlv,
  6416. .send_phyerr_disable_cmd = send_phyerr_disable_cmd_non_tlv,
  6417. .send_smart_ant_enable_cmd = send_smart_ant_enable_cmd_non_tlv,
  6418. .send_smart_ant_set_rx_ant_cmd = send_smart_ant_set_rx_ant_cmd_non_tlv,
  6419. .send_smart_ant_set_tx_ant_cmd = send_smart_ant_set_tx_ant_cmd_non_tlv,
  6420. .send_smart_ant_set_training_info_cmd =
  6421. send_smart_ant_set_training_info_cmd_non_tlv,
  6422. .send_smart_ant_set_node_config_cmd =
  6423. send_smart_ant_set_node_config_cmd_non_tlv,
  6424. .send_smart_ant_enable_tx_feedback_cmd =
  6425. send_smart_ant_enable_tx_feedback_cmd_non_tlv,
  6426. .send_vdev_spectral_configure_cmd =
  6427. send_vdev_spectral_configure_cmd_non_tlv,
  6428. .send_vdev_spectral_enable_cmd =
  6429. send_vdev_spectral_enable_cmd_non_tlv,
  6430. .send_bss_chan_info_request_cmd =
  6431. send_bss_chan_info_request_cmd_non_tlv,
  6432. .send_thermal_mitigation_param_cmd =
  6433. send_thermal_mitigation_param_cmd_non_tlv,
  6434. .send_vdev_start_cmd = send_vdev_start_cmd_non_tlv,
  6435. .send_vdev_stop_cmd = send_vdev_stop_cmd_non_tlv,
  6436. .send_vdev_set_neighbour_rx_cmd =
  6437. send_vdev_set_neighbour_rx_cmd_non_tlv,
  6438. .send_vdev_set_fwtest_param_cmd =
  6439. send_vdev_set_fwtest_param_cmd_non_tlv,
  6440. .send_vdev_config_ratemask_cmd = send_vdev_config_ratemask_cmd_non_tlv,
  6441. .send_vdev_install_key_cmd = send_vdev_install_key_cmd_non_tlv,
  6442. .send_wow_wakeup_cmd = send_wow_wakeup_cmd_non_tlv,
  6443. .send_wow_add_wakeup_event_cmd = send_wow_add_wakeup_event_cmd_non_tlv,
  6444. .send_wow_add_wakeup_pattern_cmd =
  6445. send_wow_add_wakeup_pattern_cmd_non_tlv,
  6446. .send_wow_remove_wakeup_pattern_cmd =
  6447. send_wow_remove_wakeup_pattern_cmd_non_tlv,
  6448. .send_pdev_set_regdomain_cmd =
  6449. send_pdev_set_regdomain_cmd_non_tlv,
  6450. .send_set_quiet_mode_cmd = send_set_quiet_mode_cmd_non_tlv,
  6451. .send_set_beacon_filter_cmd = send_set_beacon_filter_cmd_non_tlv,
  6452. .send_remove_beacon_filter_cmd = send_remove_beacon_filter_cmd_non_tlv,
  6453. .send_mgmt_cmd = send_mgmt_cmd_non_tlv,
  6454. .send_addba_clearresponse_cmd = send_addba_clearresponse_cmd_non_tlv,
  6455. .send_addba_send_cmd = send_addba_send_cmd_non_tlv,
  6456. .send_delba_send_cmd = send_delba_send_cmd_non_tlv,
  6457. .send_addba_setresponse_cmd = send_addba_setresponse_cmd_non_tlv,
  6458. .send_singleamsdu_cmd = send_singleamsdu_cmd_non_tlv,
  6459. .send_set_qboost_param_cmd = send_set_qboost_param_cmd_non_tlv,
  6460. .send_mu_scan_cmd = send_mu_scan_cmd_non_tlv,
  6461. .send_lteu_config_cmd = send_lteu_config_cmd_non_tlv,
  6462. .send_set_ps_mode_cmd = send_set_ps_mode_cmd_non_tlv,
  6463. .init_cmd_send = init_cmd_send_non_tlv,
  6464. .send_ext_resource_config = send_ext_resource_config_non_tlv,
  6465. #if 0
  6466. .send_bcn_prb_template_cmd = send_bcn_prb_template_cmd_non_tlv,
  6467. #endif
  6468. .send_nf_dbr_dbm_info_get_cmd = send_nf_dbr_dbm_info_get_cmd_non_tlv,
  6469. .send_packet_power_info_get_cmd =
  6470. send_packet_power_info_get_cmd_non_tlv,
  6471. .send_gpio_config_cmd = send_gpio_config_cmd_non_tlv,
  6472. .send_gpio_output_cmd = send_gpio_output_cmd_non_tlv,
  6473. .send_rtt_meas_req_test_cmd = send_rtt_meas_req_test_cmd_non_tlv,
  6474. .send_rtt_meas_req_cmd = send_rtt_meas_req_cmd_non_tlv,
  6475. .send_lci_set_cmd = send_lci_set_cmd_non_tlv,
  6476. .send_rtt_keepalive_req_cmd = send_rtt_keepalive_req_cmd_non_tlv,
  6477. .send_periodic_chan_stats_config_cmd =
  6478. send_periodic_chan_stats_config_cmd_non_tlv,
  6479. .get_target_cap_from_service_ready = extract_service_ready_non_tlv,
  6480. .extract_fw_version = extract_fw_version_non_tlv,
  6481. .extract_fw_abi_version = extract_fw_abi_version_non_tlv,
  6482. .extract_hal_reg_cap = extract_hal_reg_cap_non_tlv,
  6483. .extract_host_mem_req = extract_host_mem_req_non_tlv,
  6484. .save_service_bitmap = save_service_bitmap_non_tlv,
  6485. .is_service_enabled = is_service_enabled_non_tlv,
  6486. .save_fw_version = save_fw_version_in_service_ready_non_tlv,
  6487. .check_and_update_fw_version =
  6488. ready_check_and_update_fw_version_non_tlv,
  6489. .extract_dbglog_data_len = extract_dbglog_data_len_non_tlv,
  6490. .ready_extract_init_status = ready_extract_init_status_non_tlv,
  6491. .ready_extract_mac_addr = ready_extract_mac_addr_non_tlv,
  6492. .extract_wds_addr_event = extract_wds_addr_event_non_tlv,
  6493. .extract_dcs_interference_type = extract_dcs_interference_type_non_tlv,
  6494. .extract_dcs_cw_int = extract_dcs_cw_int_non_tlv,
  6495. .extract_dcs_im_tgt_stats = extract_dcs_im_tgt_stats_non_tlv,
  6496. .extract_vdev_start_resp = extract_vdev_start_resp_non_tlv,
  6497. .extract_tbttoffset_update_params =
  6498. extract_tbttoffset_update_params_non_tlv,
  6499. .extract_mgmt_rx_params = extract_mgmt_rx_params_non_tlv,
  6500. .extract_vdev_stopped_param = extract_vdev_stopped_param_non_tlv,
  6501. .extract_vdev_roam_param = extract_vdev_roam_param_non_tlv,
  6502. .extract_vdev_scan_ev_param = extract_vdev_scan_ev_param_non_tlv,
  6503. .extract_mu_ev_param = extract_mu_ev_param_non_tlv,
  6504. .extract_pdev_tpc_config_ev_param =
  6505. extract_pdev_tpc_config_ev_param_non_tlv,
  6506. .extract_nfcal_power_ev_param = extract_nfcal_power_ev_param_non_tlv,
  6507. .extract_pdev_tpc_ev_param = extract_pdev_tpc_ev_param_non_tlv,
  6508. .extract_pdev_generic_buffer_ev_param =
  6509. extract_pdev_generic_buffer_ev_param_non_tlv,
  6510. .extract_gpio_input_ev_param = extract_gpio_input_ev_param_non_tlv,
  6511. .extract_pdev_reserve_ast_ev_param =
  6512. extract_pdev_reserve_ast_ev_param_non_tlv,
  6513. .extract_swba_vdev_map = extract_swba_vdev_map_non_tlv,
  6514. .extract_swba_tim_info = extract_swba_tim_info_non_tlv,
  6515. .extract_peer_sta_ps_statechange_ev =
  6516. extract_peer_sta_ps_statechange_ev_non_tlv,
  6517. .extract_peer_sta_kickout_ev = extract_peer_sta_kickout_ev_non_tlv,
  6518. .extract_peer_ratecode_list_ev = extract_peer_ratecode_list_ev_non_tlv,
  6519. .extract_comb_phyerr = extract_comb_phyerr_non_tlv,
  6520. .extract_single_phyerr = extract_single_phyerr_non_tlv,
  6521. .extract_composite_phyerr = extract_composite_phyerr_non_tlv,
  6522. .extract_rtt_hdr = extract_rtt_hdr_non_tlv,
  6523. .extract_rtt_ev = extract_rtt_ev_non_tlv,
  6524. .extract_rtt_error_report_ev = extract_rtt_error_report_ev_non_tlv,
  6525. .extract_all_stats_count = extract_all_stats_counts_non_tlv,
  6526. .extract_pdev_stats = extract_pdev_stats_non_tlv,
  6527. .extract_pdev_ext_stats = extract_pdev_ext_stats_non_tlv,
  6528. .extract_vdev_stats = extract_vdev_stats_non_tlv,
  6529. .extract_peer_stats = extract_peer_stats_non_tlv,
  6530. .extract_bcnflt_stats = extract_bcnflt_stats_non_tlv,
  6531. .extract_peer_extd_stats = extract_peer_extd_stats_non_tlv,
  6532. .extract_chan_stats = extract_chan_stats_non_tlv,
  6533. .extract_thermal_stats = extract_thermal_stats_non_tlv,
  6534. .extract_thermal_level_stats = extract_thermal_level_stats_non_tlv,
  6535. .extract_profile_ctx = extract_profile_ctx_non_tlv,
  6536. .extract_profile_data = extract_profile_data_non_tlv,
  6537. .extract_chan_info_event = extract_chan_info_event_non_tlv,
  6538. .extract_channel_hopping_event = extract_channel_hopping_event_non_tlv,
  6539. .extract_bss_chan_info_event = extract_bss_chan_info_event_non_tlv,
  6540. .extract_inst_rssi_stats_event = extract_inst_rssi_stats_event_non_tlv,
  6541. .extract_tx_data_traffic_ctrl_ev =
  6542. extract_tx_data_traffic_ctrl_ev_non_tlv,
  6543. .extract_vdev_extd_stats = extract_vdev_extd_stats_non_tlv,
  6544. .extract_fips_event_data = extract_fips_event_data_non_tlv,
  6545. .extract_fips_event_error_status =
  6546. extract_fips_event_error_status_non_tlv,
  6547. };
  6548. /**
  6549. * populate_non_tlv_service() - populates wmi services
  6550. *
  6551. * @param wmi_service: Pointer to hold wmi_service
  6552. * Return: None
  6553. */
  6554. static void populate_non_tlv_service(uint32_t *wmi_service)
  6555. {
  6556. wmi_service[wmi_service_beacon_offload] = WMI_SERVICE_BEACON_OFFLOAD;
  6557. wmi_service[wmi_service_scan_offload] = WMI_SERVICE_SCAN_OFFLOAD;
  6558. wmi_service[wmi_service_roam_offload] = WMI_SERVICE_ROAM_OFFLOAD;
  6559. wmi_service[wmi_service_bcn_miss_offload] =
  6560. WMI_SERVICE_BCN_MISS_OFFLOAD;
  6561. wmi_service[wmi_service_sta_pwrsave] = WMI_SERVICE_STA_PWRSAVE;
  6562. wmi_service[wmi_service_sta_advanced_pwrsave] =
  6563. WMI_SERVICE_STA_ADVANCED_PWRSAVE;
  6564. wmi_service[wmi_service_ap_uapsd] = WMI_SERVICE_AP_UAPSD;
  6565. wmi_service[wmi_service_ap_dfs] = WMI_SERVICE_AP_DFS;
  6566. wmi_service[wmi_service_11ac] = WMI_SERVICE_11AC;
  6567. wmi_service[wmi_service_blockack] = WMI_SERVICE_BLOCKACK;
  6568. wmi_service[wmi_service_phyerr] = WMI_SERVICE_PHYERR;
  6569. wmi_service[wmi_service_bcn_filter] = WMI_SERVICE_BCN_FILTER;
  6570. wmi_service[wmi_service_rtt] = WMI_SERVICE_RTT;
  6571. wmi_service[wmi_service_ratectrl] = WMI_SERVICE_RATECTRL;
  6572. wmi_service[wmi_service_wow] = WMI_SERVICE_WOW;
  6573. wmi_service[wmi_service_ratectrl_cache] = WMI_SERVICE_RATECTRL_CACHE;
  6574. wmi_service[wmi_service_iram_tids] = WMI_SERVICE_IRAM_TIDS;
  6575. wmi_service[wmi_service_burst] = WMI_SERVICE_BURST;
  6576. wmi_service[wmi_service_smart_antenna_sw_support] =
  6577. WMI_SERVICE_SMART_ANTENNA_SW_SUPPORT;
  6578. wmi_service[wmi_service_gtk_offload] = WMI_SERVICE_GTK_OFFLOAD;
  6579. wmi_service[wmi_service_scan_sch] = WMI_SERVICE_SCAN_SCH;
  6580. wmi_service[wmi_service_csa_offload] = WMI_SERVICE_CSA_OFFLOAD;
  6581. wmi_service[wmi_service_chatter] = WMI_SERVICE_CHATTER;
  6582. wmi_service[wmi_service_coex_freqavoid] = WMI_SERVICE_COEX_FREQAVOID;
  6583. wmi_service[wmi_service_packet_power_save] =
  6584. WMI_SERVICE_PACKET_POWER_SAVE;
  6585. wmi_service[wmi_service_force_fw_hang] = WMI_SERVICE_FORCE_FW_HANG;
  6586. wmi_service[wmi_service_smart_antenna_hw_support] =
  6587. WMI_SERVICE_SMART_ANTENNA_HW_SUPPORT;
  6588. wmi_service[wmi_service_gpio] = WMI_SERVICE_GPIO;
  6589. wmi_service[wmi_sta_uapsd_basic_auto_trig] =
  6590. WMI_STA_UAPSD_BASIC_AUTO_TRIG;
  6591. wmi_service[wmi_sta_uapsd_var_auto_trig] = WMI_STA_UAPSD_VAR_AUTO_TRIG;
  6592. wmi_service[wmi_service_sta_keep_alive] = WMI_SERVICE_STA_KEEP_ALIVE;
  6593. wmi_service[wmi_service_tx_encap] = WMI_SERVICE_TX_ENCAP;
  6594. wmi_service[wmi_service_ap_ps_detect_out_of_sync] =
  6595. WMI_SERVICE_AP_PS_DETECT_OUT_OF_SYNC;
  6596. wmi_service[wmi_service_early_rx] =
  6597. WMI_SERVICE_EARLY_RX;
  6598. wmi_service[wmi_service_enhanced_proxy_sta] =
  6599. WMI_SERVICE_ENHANCED_PROXY_STA;
  6600. wmi_service[wmi_service_tt] = WMI_SERVICE_TT;
  6601. wmi_service[wmi_service_atf] = WMI_SERVICE_ATF;
  6602. wmi_service[wmi_service_peer_caching] = WMI_SERVICE_PEER_CACHING;
  6603. wmi_service[wmi_service_coex_gpio] = WMI_SERVICE_COEX_GPIO;
  6604. wmi_service[wmi_service_aux_spectral_intf] =
  6605. WMI_SERVICE_AUX_SPECTRAL_INTF;
  6606. wmi_service[wmi_service_aux_chan_load_intf] =
  6607. WMI_SERVICE_AUX_CHAN_LOAD_INTF;
  6608. wmi_service[wmi_service_bss_channel_info_64] =
  6609. WMI_SERVICE_BSS_CHANNEL_INFO_64;
  6610. wmi_service[wmi_service_ext_res_cfg_support] =
  6611. WMI_SERVICE_EXT_RES_CFG_SUPPORT;
  6612. wmi_service[wmi_service_mesh] = WMI_SERVICE_MESH;
  6613. wmi_service[wmi_service_restrt_chnl_support] =
  6614. WMI_SERVICE_RESTRT_CHNL_SUPPORT;
  6615. wmi_service[wmi_service_peer_stats] = WMI_SERVICE_PEER_STATS;
  6616. wmi_service[wmi_service_mesh_11s] = WMI_SERVICE_MESH_11S;
  6617. wmi_service[wmi_service_periodic_chan_stat_support] =
  6618. WMI_SERVICE_PERIODIC_CHAN_STAT_SUPPORT;
  6619. wmi_service[wmi_service_tx_mode_push_only] =
  6620. WMI_SERVICE_TX_MODE_PUSH_ONLY;
  6621. wmi_service[wmi_service_tx_mode_push_pull] =
  6622. WMI_SERVICE_TX_MODE_PUSH_PULL;
  6623. wmi_service[wmi_service_tx_mode_dynamic] = WMI_SERVICE_TX_MODE_DYNAMIC;
  6624. wmi_service[wmi_service_roam_scan_offload] = WMI_SERVICE_UNAVAILABLE;
  6625. wmi_service[wmi_service_arpns_offload] = WMI_SERVICE_UNAVAILABLE;
  6626. wmi_service[wmi_service_nlo] = WMI_SERVICE_UNAVAILABLE;
  6627. wmi_service[wmi_service_sta_dtim_ps_modulated_dtim] =
  6628. WMI_SERVICE_UNAVAILABLE;
  6629. wmi_service[wmi_service_sta_smps] = WMI_SERVICE_UNAVAILABLE;
  6630. wmi_service[wmi_service_fwtest] = WMI_SERVICE_UNAVAILABLE;
  6631. wmi_service[wmi_service_sta_wmmac] = WMI_SERVICE_UNAVAILABLE;
  6632. wmi_service[wmi_service_tdls] = WMI_SERVICE_UNAVAILABLE;
  6633. wmi_service[wmi_service_mcc_bcn_interval_change] =
  6634. WMI_SERVICE_UNAVAILABLE;
  6635. wmi_service[wmi_service_adaptive_ocs] = WMI_SERVICE_UNAVAILABLE;
  6636. wmi_service[wmi_service_ba_ssn_support] = WMI_SERVICE_UNAVAILABLE;
  6637. wmi_service[wmi_service_filter_ipsec_natkeepalive] =
  6638. WMI_SERVICE_UNAVAILABLE;
  6639. wmi_service[wmi_service_wlan_hb] = WMI_SERVICE_UNAVAILABLE;
  6640. wmi_service[wmi_service_lte_ant_share_support] =
  6641. WMI_SERVICE_UNAVAILABLE;
  6642. wmi_service[wmi_service_batch_scan] = WMI_SERVICE_UNAVAILABLE;
  6643. wmi_service[wmi_service_qpower] = WMI_SERVICE_UNAVAILABLE;
  6644. wmi_service[wmi_service_plmreq] = WMI_SERVICE_UNAVAILABLE;
  6645. wmi_service[wmi_service_thermal_mgmt] = WMI_SERVICE_UNAVAILABLE;
  6646. wmi_service[wmi_service_rmc] = WMI_SERVICE_UNAVAILABLE;
  6647. wmi_service[wmi_service_mhf_offload] = WMI_SERVICE_UNAVAILABLE;
  6648. wmi_service[wmi_service_coex_sar] = WMI_SERVICE_UNAVAILABLE;
  6649. wmi_service[wmi_service_bcn_txrate_override] = WMI_SERVICE_UNAVAILABLE;
  6650. wmi_service[wmi_service_nan] = WMI_SERVICE_UNAVAILABLE;
  6651. wmi_service[wmi_service_l1ss_stat] = WMI_SERVICE_UNAVAILABLE;
  6652. wmi_service[wmi_service_estimate_linkspeed] = WMI_SERVICE_UNAVAILABLE;
  6653. wmi_service[wmi_service_obss_scan] = WMI_SERVICE_UNAVAILABLE;
  6654. wmi_service[wmi_service_tdls_offchan] = WMI_SERVICE_UNAVAILABLE;
  6655. wmi_service[wmi_service_tdls_uapsd_buffer_sta] =
  6656. WMI_SERVICE_UNAVAILABLE;
  6657. wmi_service[wmi_service_tdls_uapsd_sleep_sta] = WMI_SERVICE_UNAVAILABLE;
  6658. wmi_service[wmi_service_ibss_pwrsave] = WMI_SERVICE_UNAVAILABLE;
  6659. wmi_service[wmi_service_lpass] = WMI_SERVICE_UNAVAILABLE;
  6660. wmi_service[wmi_service_extscan] = WMI_SERVICE_UNAVAILABLE;
  6661. wmi_service[wmi_service_d0wow] = WMI_SERVICE_UNAVAILABLE;
  6662. wmi_service[wmi_service_hsoffload] = WMI_SERVICE_UNAVAILABLE;
  6663. wmi_service[wmi_service_roam_ho_offload] = WMI_SERVICE_UNAVAILABLE;
  6664. wmi_service[wmi_service_rx_full_reorder] = WMI_SERVICE_UNAVAILABLE;
  6665. wmi_service[wmi_service_dhcp_offload] = WMI_SERVICE_UNAVAILABLE;
  6666. wmi_service[wmi_service_sta_rx_ipa_offload_support] =
  6667. WMI_SERVICE_UNAVAILABLE;
  6668. wmi_service[wmi_service_mdns_offload] = WMI_SERVICE_UNAVAILABLE;
  6669. wmi_service[wmi_service_sap_auth_offload] = WMI_SERVICE_UNAVAILABLE;
  6670. wmi_service[wmi_service_dual_band_simultaneous_support] =
  6671. WMI_SERVICE_UNAVAILABLE;
  6672. wmi_service[wmi_service_ocb] = WMI_SERVICE_UNAVAILABLE;
  6673. wmi_service[wmi_service_ap_arpns_offload] = WMI_SERVICE_UNAVAILABLE;
  6674. wmi_service[wmi_service_per_band_chainmask_support] =
  6675. WMI_SERVICE_UNAVAILABLE;
  6676. wmi_service[wmi_service_packet_filter_offload] =
  6677. WMI_SERVICE_UNAVAILABLE;
  6678. wmi_service[wmi_service_mgmt_tx_htt] = WMI_SERVICE_UNAVAILABLE;
  6679. wmi_service[wmi_service_mgmt_tx_wmi] = WMI_SERVICE_UNAVAILABLE;
  6680. wmi_service[wmi_service_ext_msg] = WMI_SERVICE_UNAVAILABLE;
  6681. wmi_service[wmi_service_mawc] = WMI_SERVICE_UNAVAILABLE;
  6682. }
  6683. /**
  6684. * populate_non_tlv_event_id() - populates wmi event ids
  6685. *
  6686. * @param event_ids: Pointer to hold event ids
  6687. * Return: None
  6688. */
  6689. static void populate_non_tlv_events_id(uint32_t *event_ids)
  6690. {
  6691. event_ids[wmi_service_ready_event_id] = WMI_SERVICE_READY_EVENTID;
  6692. event_ids[wmi_ready_event_id] = WMI_READY_EVENTID;
  6693. event_ids[wmi_dbg_msg_event_id] = WMI_DEBUG_MESG_EVENTID;
  6694. event_ids[wmi_scan_event_id] = WMI_SCAN_EVENTID;
  6695. event_ids[wmi_echo_event_id] = WMI_ECHO_EVENTID;
  6696. event_ids[wmi_update_stats_event_id] = WMI_UPDATE_STATS_EVENTID;
  6697. event_ids[wmi_inst_rssi_stats_event_id] = WMI_INST_RSSI_STATS_EVENTID;
  6698. event_ids[wmi_vdev_start_resp_event_id] = WMI_VDEV_START_RESP_EVENTID;
  6699. event_ids[wmi_vdev_standby_req_event_id] = WMI_VDEV_STANDBY_REQ_EVENTID;
  6700. event_ids[wmi_vdev_resume_req_event_id] = WMI_VDEV_RESUME_REQ_EVENTID;
  6701. event_ids[wmi_vdev_stopped_event_id] = WMI_VDEV_STOPPED_EVENTID;
  6702. event_ids[wmi_peer_sta_kickout_event_id] = WMI_PEER_STA_KICKOUT_EVENTID;
  6703. event_ids[wmi_host_swba_event_id] = WMI_HOST_SWBA_EVENTID;
  6704. event_ids[wmi_tbttoffset_update_event_id] =
  6705. WMI_TBTTOFFSET_UPDATE_EVENTID;
  6706. event_ids[wmi_mgmt_rx_event_id] = WMI_MGMT_RX_EVENTID;
  6707. event_ids[wmi_chan_info_event_id] = WMI_CHAN_INFO_EVENTID;
  6708. event_ids[wmi_phyerr_event_id] = WMI_PHYERR_EVENTID;
  6709. event_ids[wmi_roam_event_id] = WMI_ROAM_EVENTID;
  6710. event_ids[wmi_profile_match] = WMI_PROFILE_MATCH;
  6711. event_ids[wmi_debug_print_event_id] = WMI_DEBUG_PRINT_EVENTID;
  6712. event_ids[wmi_pdev_qvit_event_id] = WMI_PDEV_QVIT_EVENTID;
  6713. event_ids[wmi_wlan_profile_data_event_id] =
  6714. WMI_WLAN_PROFILE_DATA_EVENTID;
  6715. event_ids[wmi_rtt_meas_report_event_id] =
  6716. WMI_RTT_MEASUREMENT_REPORT_EVENTID;
  6717. event_ids[wmi_tsf_meas_report_event_id] =
  6718. WMI_TSF_MEASUREMENT_REPORT_EVENTID;
  6719. event_ids[wmi_rtt_error_report_event_id] = WMI_RTT_ERROR_REPORT_EVENTID;
  6720. event_ids[wmi_rtt_keepalive_event_id] = WMI_RTT_KEEPALIVE_EVENTID;
  6721. event_ids[wmi_oem_cap_event_id] = WMI_OEM_CAPABILITY_EVENTID;
  6722. event_ids[wmi_oem_meas_report_event_id] =
  6723. WMI_OEM_MEASUREMENT_REPORT_EVENTID;
  6724. event_ids[wmi_oem_report_event_id] = WMI_OEM_ERROR_REPORT_EVENTID;
  6725. event_ids[wmi_nan_event_id] = WMI_NAN_EVENTID;
  6726. event_ids[wmi_wow_wakeup_host_event_id] = WMI_WOW_WAKEUP_HOST_EVENTID;
  6727. event_ids[wmi_gtk_offload_status_event_id] =
  6728. WMI_GTK_OFFLOAD_STATUS_EVENTID;
  6729. event_ids[wmi_gtk_rekey_fail_event_id] = WMI_GTK_REKEY_FAIL_EVENTID;
  6730. event_ids[wmi_dcs_interference_event_id] = WMI_DCS_INTERFERENCE_EVENTID;
  6731. event_ids[wmi_pdev_tpc_config_event_id] = WMI_PDEV_TPC_CONFIG_EVENTID;
  6732. event_ids[wmi_csa_handling_event_id] = WMI_CSA_HANDLING_EVENTID;
  6733. event_ids[wmi_gpio_input_event_id] = WMI_GPIO_INPUT_EVENTID;
  6734. event_ids[wmi_peer_ratecode_list_event_id] =
  6735. WMI_PEER_RATECODE_LIST_EVENTID;
  6736. event_ids[wmi_generic_buffer_event_id] = WMI_GENERIC_BUFFER_EVENTID;
  6737. event_ids[wmi_mcast_buf_release_event_id] =
  6738. WMI_MCAST_BUF_RELEASE_EVENTID;
  6739. event_ids[wmi_mcast_list_ageout_event_id] =
  6740. WMI_MCAST_LIST_AGEOUT_EVENTID;
  6741. event_ids[wmi_vdev_get_keepalive_event_id] =
  6742. WMI_VDEV_GET_KEEPALIVE_EVENTID;
  6743. event_ids[wmi_wds_peer_event_id] = WMI_WDS_PEER_EVENTID;
  6744. event_ids[wmi_peer_sta_ps_statechg_event_id] =
  6745. WMI_PEER_STA_PS_STATECHG_EVENTID;
  6746. event_ids[wmi_pdev_fips_event_id] = WMI_PDEV_FIPS_EVENTID;
  6747. event_ids[wmi_tt_stats_event_id] = WMI_TT_STATS_EVENTID;
  6748. event_ids[wmi_pdev_channel_hopping_event_id] =
  6749. WMI_PDEV_CHANNEL_HOPPING_EVENTID;
  6750. event_ids[wmi_pdev_ani_cck_level_event_id] =
  6751. WMI_PDEV_ANI_CCK_LEVEL_EVENTID;
  6752. event_ids[wmi_pdev_ani_ofdm_level_event_id] =
  6753. WMI_PDEV_ANI_OFDM_LEVEL_EVENTID;
  6754. event_ids[wmi_pdev_reserve_ast_entry_event_id] =
  6755. WMI_PDEV_RESERVE_AST_ENTRY_EVENTID;
  6756. event_ids[wmi_pdev_nfcal_power_event_id] = WMI_PDEV_NFCAL_POWER_EVENTID;
  6757. event_ids[wmi_pdev_tpc_event_id] = WMI_PDEV_TPC_EVENTID;
  6758. event_ids[wmi_pdev_get_ast_info_event_id] =
  6759. WMI_PDEV_GET_AST_INFO_EVENTID;
  6760. event_ids[wmi_pdev_temperature_event_id] = WMI_PDEV_TEMPERATURE_EVENTID;
  6761. event_ids[wmi_pdev_nfcal_power_all_channels_event_id] =
  6762. WMI_PDEV_NFCAL_POWER_ALL_CHANNELS_EVENTID;
  6763. event_ids[wmi_pdev_bss_chan_info_event_id] =
  6764. WMI_PDEV_BSS_CHAN_INFO_EVENTID;
  6765. event_ids[wmi_mu_report_event_id] = WMI_MU_REPORT_EVENTID;
  6766. event_ids[wmi_tx_data_traffic_ctrl_event_id] =
  6767. WMI_TX_DATA_TRAFFIC_CTRL_EVENTID;
  6768. event_ids[wmi_pdev_utf_event_id] = WMI_PDEV_UTF_EVENTID;
  6769. }
  6770. /**
  6771. * populate_pdev_param_non_tlv() - populates pdev params
  6772. *
  6773. * @param pdev_param: Pointer to hold pdev params
  6774. * Return: None
  6775. */
  6776. static void populate_pdev_param_non_tlv(uint32_t *pdev_param)
  6777. {
  6778. pdev_param[wmi_pdev_param_tx_chain_mask] = WMI_PDEV_PARAM_TX_CHAIN_MASK;
  6779. pdev_param[wmi_pdev_param_rx_chain_mask] = WMI_PDEV_PARAM_RX_CHAIN_MASK;
  6780. pdev_param[wmi_pdev_param_txpower_limit2g] =
  6781. WMI_PDEV_PARAM_TXPOWER_LIMIT2G;
  6782. pdev_param[wmi_pdev_param_txpower_limit5g] =
  6783. WMI_PDEV_PARAM_TXPOWER_LIMIT5G;
  6784. pdev_param[wmi_pdev_param_txpower_scale] = WMI_PDEV_PARAM_TXPOWER_SCALE;
  6785. pdev_param[wmi_pdev_param_beacon_gen_mode] =
  6786. WMI_PDEV_PARAM_BEACON_GEN_MODE;
  6787. pdev_param[wmi_pdev_param_beacon_tx_mode] =
  6788. WMI_PDEV_PARAM_BEACON_TX_MODE;
  6789. pdev_param[wmi_pdev_param_resmgr_offchan_mode] =
  6790. WMI_PDEV_PARAM_RESMGR_OFFCHAN_MODE;
  6791. pdev_param[wmi_pdev_param_protection_mode] =
  6792. WMI_PDEV_PARAM_PROTECTION_MODE;
  6793. pdev_param[wmi_pdev_param_dynamic_bw] = WMI_PDEV_PARAM_DYNAMIC_BW;
  6794. pdev_param[wmi_pdev_param_non_agg_sw_retry_th] =
  6795. WMI_PDEV_PARAM_NON_AGG_SW_RETRY_TH;
  6796. pdev_param[wmi_pdev_param_agg_sw_retry_th] =
  6797. WMI_PDEV_PARAM_AGG_SW_RETRY_TH;
  6798. pdev_param[wmi_pdev_param_sta_kickout_th] =
  6799. WMI_PDEV_PARAM_STA_KICKOUT_TH;
  6800. pdev_param[wmi_pdev_param_ac_aggrsize_scaling] =
  6801. WMI_PDEV_PARAM_AC_AGGRSIZE_SCALING;
  6802. pdev_param[wmi_pdev_param_ltr_enable] = WMI_PDEV_PARAM_LTR_ENABLE;
  6803. pdev_param[wmi_pdev_param_ltr_ac_latency_be] =
  6804. WMI_PDEV_PARAM_LTR_AC_LATENCY_BE;
  6805. pdev_param[wmi_pdev_param_ltr_ac_latency_bk] =
  6806. WMI_PDEV_PARAM_LTR_AC_LATENCY_BK;
  6807. pdev_param[wmi_pdev_param_ltr_ac_latency_vi] =
  6808. WMI_PDEV_PARAM_LTR_AC_LATENCY_VI;
  6809. pdev_param[wmi_pdev_param_ltr_ac_latency_vo] =
  6810. WMI_PDEV_PARAM_LTR_AC_LATENCY_VO;
  6811. pdev_param[wmi_pdev_param_ltr_ac_latency_timeout] =
  6812. WMI_PDEV_PARAM_LTR_AC_LATENCY_TIMEOUT;
  6813. pdev_param[wmi_pdev_param_ltr_sleep_override] =
  6814. WMI_PDEV_PARAM_LTR_SLEEP_OVERRIDE;
  6815. pdev_param[wmi_pdev_param_ltr_rx_override] =
  6816. WMI_PDEV_PARAM_LTR_RX_OVERRIDE;
  6817. pdev_param[wmi_pdev_param_ltr_tx_activity_timeout] =
  6818. WMI_PDEV_PARAM_LTR_TX_ACTIVITY_TIMEOUT;
  6819. pdev_param[wmi_pdev_param_l1ss_enable] = WMI_PDEV_PARAM_L1SS_ENABLE;
  6820. pdev_param[wmi_pdev_param_dsleep_enable] = WMI_PDEV_PARAM_DSLEEP_ENABLE;
  6821. pdev_param[wmi_pdev_param_pcielp_txbuf_flush] =
  6822. WMI_PDEV_PARAM_PCIELP_TXBUF_FLUSH;
  6823. pdev_param[wmi_pdev_param_pcielp_txbuf_watermark] =
  6824. WMI_PDEV_PARAM_PCIELP_TXBUF_WATERMARK;
  6825. pdev_param[wmi_pdev_param_pcielp_txbuf_tmo_en] =
  6826. WMI_PDEV_PARAM_PCIELP_TXBUF_TMO_EN;
  6827. pdev_param[wmi_pdev_param_pcielp_txbuf_tmo_value] =
  6828. WMI_PDEV_PARAM_PCIELP_TXBUF_TMO_VALUE;
  6829. pdev_param[wmi_pdev_param_pdev_stats_update_period] =
  6830. WMI_PDEV_PARAM_PDEV_STATS_UPDATE_PERIOD;
  6831. pdev_param[wmi_pdev_param_vdev_stats_update_period] =
  6832. WMI_PDEV_PARAM_VDEV_STATS_UPDATE_PERIOD;
  6833. pdev_param[wmi_pdev_param_peer_stats_update_period] =
  6834. WMI_PDEV_PARAM_PEER_STATS_UPDATE_PERIOD;
  6835. pdev_param[wmi_pdev_param_bcnflt_stats_update_period] =
  6836. WMI_PDEV_PARAM_BCNFLT_STATS_UPDATE_PERIOD;
  6837. pdev_param[wmi_pdev_param_pmf_qos] =
  6838. WMI_PDEV_PARAM_PMF_QOS;
  6839. pdev_param[wmi_pdev_param_arp_ac_override] =
  6840. WMI_PDEV_PARAM_ARP_AC_OVERRIDE;
  6841. pdev_param[wmi_pdev_param_dcs] =
  6842. WMI_PDEV_PARAM_DCS;
  6843. pdev_param[wmi_pdev_param_ani_enable] = WMI_PDEV_PARAM_ANI_ENABLE;
  6844. pdev_param[wmi_pdev_param_ani_poll_period] =
  6845. WMI_PDEV_PARAM_ANI_POLL_PERIOD;
  6846. pdev_param[wmi_pdev_param_ani_listen_period] =
  6847. WMI_PDEV_PARAM_ANI_LISTEN_PERIOD;
  6848. pdev_param[wmi_pdev_param_ani_ofdm_level] =
  6849. WMI_PDEV_PARAM_ANI_OFDM_LEVEL;
  6850. pdev_param[wmi_pdev_param_ani_cck_level] = WMI_PDEV_PARAM_ANI_CCK_LEVEL;
  6851. pdev_param[wmi_pdev_param_dyntxchain] = WMI_PDEV_PARAM_DYNTXCHAIN;
  6852. pdev_param[wmi_pdev_param_proxy_sta] = WMI_PDEV_PARAM_PROXY_STA;
  6853. pdev_param[wmi_pdev_param_idle_ps_config] =
  6854. WMI_PDEV_PARAM_IDLE_PS_CONFIG;
  6855. pdev_param[wmi_pdev_param_power_gating_sleep] =
  6856. WMI_PDEV_PARAM_POWER_GATING_SLEEP;
  6857. pdev_param[wmi_pdev_param_aggr_burst] = WMI_PDEV_PARAM_AGGR_BURST;
  6858. pdev_param[wmi_pdev_param_rx_decap_mode] = WMI_PDEV_PARAM_RX_DECAP_MODE;
  6859. pdev_param[wmi_pdev_param_fast_channel_reset] =
  6860. WMI_PDEV_PARAM_FAST_CHANNEL_RESET;
  6861. pdev_param[wmi_pdev_param_burst_dur] = WMI_PDEV_PARAM_BURST_DUR;
  6862. pdev_param[wmi_pdev_param_burst_enable] = WMI_PDEV_PARAM_BURST_ENABLE;
  6863. pdev_param[wmi_pdev_param_smart_antenna_default_antenna] =
  6864. WMI_PDEV_PARAM_SMART_ANTENNA_DEFAULT_ANTENNA;
  6865. pdev_param[wmi_pdev_param_igmpmld_override] =
  6866. WMI_PDEV_PARAM_IGMPMLD_OVERRIDE;
  6867. pdev_param[wmi_pdev_param_igmpmld_tid] =
  6868. WMI_PDEV_PARAM_IGMPMLD_TID;
  6869. pdev_param[wmi_pdev_param_antenna_gain] = WMI_PDEV_PARAM_ANTENNA_GAIN;
  6870. pdev_param[wmi_pdev_param_rx_filter] = WMI_PDEV_PARAM_RX_FILTER;
  6871. pdev_param[wmi_pdev_set_mcast_to_ucast_tid] =
  6872. WMI_PDEV_SET_MCAST_TO_UCAST_TID;
  6873. pdev_param[wmi_pdev_param_proxy_sta_mode] =
  6874. WMI_PDEV_PARAM_PROXY_STA_MODE;
  6875. pdev_param[wmi_pdev_param_set_mcast2ucast_mode] =
  6876. WMI_PDEV_PARAM_SET_MCAST2UCAST_MODE;
  6877. pdev_param[wmi_pdev_param_set_mcast2ucast_buffer] =
  6878. WMI_PDEV_PARAM_SET_MCAST2UCAST_BUFFER;
  6879. pdev_param[wmi_pdev_param_remove_mcast2ucast_buffer] =
  6880. WMI_PDEV_PARAM_REMOVE_MCAST2UCAST_BUFFER;
  6881. pdev_param[wmi_pdev_peer_sta_ps_statechg_enable] =
  6882. WMI_PDEV_PEER_STA_PS_STATECHG_ENABLE;
  6883. pdev_param[wmi_pdev_param_igmpmld_ac_override] =
  6884. WMI_PDEV_PARAM_IGMPMLD_AC_OVERRIDE;
  6885. pdev_param[wmi_pdev_param_block_interbss] =
  6886. WMI_PDEV_PARAM_BLOCK_INTERBSS;
  6887. pdev_param[wmi_pdev_param_set_disable_reset_cmdid] =
  6888. WMI_PDEV_PARAM_SET_DISABLE_RESET_CMDID;
  6889. pdev_param[wmi_pdev_param_set_msdu_ttl_cmdid] =
  6890. WMI_PDEV_PARAM_SET_MSDU_TTL_CMDID;
  6891. pdev_param[wmi_pdev_param_set_ppdu_duration_cmdid] =
  6892. WMI_PDEV_PARAM_SET_PPDU_DURATION_CMDID;
  6893. pdev_param[wmi_pdev_param_txbf_sound_period_cmdid] =
  6894. WMI_PDEV_PARAM_TXBF_SOUND_PERIOD_CMDID;
  6895. pdev_param[wmi_pdev_param_set_promisc_mode_cmdid] =
  6896. WMI_PDEV_PARAM_SET_PROMISC_MODE_CMDID;
  6897. pdev_param[wmi_pdev_param_set_burst_mode_cmdid] =
  6898. WMI_PDEV_PARAM_SET_BURST_MODE_CMDID;
  6899. pdev_param[wmi_pdev_param_en_stats] = WMI_PDEV_PARAM_EN_STATS;
  6900. pdev_param[wmi_pdev_param_mu_group_policy] =
  6901. WMI_PDEV_PARAM_MU_GROUP_POLICY;
  6902. pdev_param[wmi_pdev_param_noise_detection] =
  6903. WMI_PDEV_PARAM_NOISE_DETECTION;
  6904. pdev_param[wmi_pdev_param_noise_threshold] =
  6905. WMI_PDEV_PARAM_NOISE_THRESHOLD;
  6906. pdev_param[wmi_pdev_param_dpd_enable] =
  6907. WMI_PDEV_PARAM_DPD_ENABLE;
  6908. pdev_param[wmi_pdev_param_set_mcast_bcast_echo] =
  6909. WMI_PDEV_PARAM_SET_MCAST_BCAST_ECHO;
  6910. pdev_param[wmi_pdev_param_atf_strict_sch] =
  6911. WMI_PDEV_PARAM_ATF_STRICT_SCH;
  6912. pdev_param[wmi_pdev_param_atf_sched_duration] =
  6913. WMI_PDEV_PARAM_ATF_SCHED_DURATION;
  6914. pdev_param[wmi_pdev_param_ant_plzn] = WMI_PDEV_PARAM_ANT_PLZN;
  6915. pdev_param[wmi_pdev_param_mgmt_retry_limit] =
  6916. WMI_PDEV_PARAM_MGMT_RETRY_LIMIT;
  6917. pdev_param[wmi_pdev_param_sensitivity_level] =
  6918. WMI_PDEV_PARAM_SENSITIVITY_LEVEL;
  6919. pdev_param[wmi_pdev_param_signed_txpower_2g] =
  6920. WMI_PDEV_PARAM_SIGNED_TXPOWER_2G;
  6921. pdev_param[wmi_pdev_param_signed_txpower_5g] =
  6922. WMI_PDEV_PARAM_SIGNED_TXPOWER_5G;
  6923. pdev_param[wmi_pdev_param_enable_per_tid_amsdu] =
  6924. WMI_PDEV_PARAM_ENABLE_PER_TID_AMSDU;
  6925. pdev_param[wmi_pdev_param_enable_per_tid_ampdu] =
  6926. WMI_PDEV_PARAM_ENABLE_PER_TID_AMPDU;
  6927. pdev_param[wmi_pdev_param_cca_threshold] = WMI_PDEV_PARAM_CCA_THRESHOLD;
  6928. pdev_param[wmi_pdev_param_rts_fixed_rate] =
  6929. WMI_PDEV_PARAM_RTS_FIXED_RATE;
  6930. pdev_param[wmi_pdev_param_cal_period] = WMI_PDEV_PARAM_CAL_PERIOD;
  6931. pdev_param[wmi_pdev_param_pdev_reset] = WMI_PDEV_PARAM_PDEV_RESET;
  6932. pdev_param[wmi_pdev_param_wapi_mbssid_offset] =
  6933. WMI_PDEV_PARAM_WAPI_MBSSID_OFFSET;
  6934. pdev_param[wmi_pdev_param_arp_srcaddr] = WMI_PDEV_PARAM_ARP_SRCADDR;
  6935. pdev_param[wmi_pdev_param_arp_dstaddr] = WMI_PDEV_PARAM_ARP_DSTADDR;
  6936. pdev_param[wmi_pdev_param_txpower_decr_db] =
  6937. WMI_PDEV_PARAM_TXPOWER_DECR_DB;
  6938. pdev_param[wmi_pdev_param_rx_batchmode] = WMI_PDEV_PARAM_RX_BATCHMODE;
  6939. pdev_param[wmi_pdev_param_packet_aggr_delay] =
  6940. WMI_PDEV_PARAM_PACKET_AGGR_DELAY;
  6941. pdev_param[wmi_pdev_param_atf_obss_noise_sch] =
  6942. WMI_PDEV_PARAM_ATF_OBSS_NOISE_SCH;
  6943. pdev_param[wmi_pdev_param_atf_obss_noise_scaling_factor] =
  6944. WMI_PDEV_PARAM_ATF_OBSS_NOISE_SCALING_FACTOR;
  6945. pdev_param[wmi_pdev_param_cust_txpower_scale] =
  6946. WMI_PDEV_PARAM_CUST_TXPOWER_SCALE;
  6947. pdev_param[wmi_pdev_param_atf_dynamic_enable] =
  6948. WMI_PDEV_PARAM_ATF_DYNAMIC_ENABLE;
  6949. pdev_param[wmi_pdev_param_atf_ssid_group_policy] =
  6950. WMI_PDEV_PARAM_ATF_SSID_GROUP_POLICY;
  6951. pdev_param[wmi_pdev_param_rfkill_enable] = WMI_UNAVAILABLE_PARAM;
  6952. pdev_param[wmi_pdev_param_hw_rfkill_config] = WMI_UNAVAILABLE_PARAM;
  6953. pdev_param[wmi_pdev_param_low_power_rf_enable] = WMI_UNAVAILABLE_PARAM;
  6954. pdev_param[wmi_pdev_param_l1ss_track] = WMI_UNAVAILABLE_PARAM;
  6955. pdev_param[wmi_pdev_param_hyst_en] = WMI_UNAVAILABLE_PARAM;
  6956. pdev_param[wmi_pdev_param_power_collapse_enable] =
  6957. WMI_UNAVAILABLE_PARAM;
  6958. pdev_param[wmi_pdev_param_led_sys_state] = WMI_UNAVAILABLE_PARAM;
  6959. pdev_param[wmi_pdev_param_led_enable] = WMI_UNAVAILABLE_PARAM;
  6960. pdev_param[wmi_pdev_param_audio_over_wlan_latency] =
  6961. WMI_UNAVAILABLE_PARAM;
  6962. pdev_param[wmi_pdev_param_audio_over_wlan_enable] =
  6963. WMI_UNAVAILABLE_PARAM;
  6964. pdev_param[wmi_pdev_param_whal_mib_stats_update_enable] =
  6965. WMI_UNAVAILABLE_PARAM;
  6966. pdev_param[wmi_pdev_param_vdev_rate_stats_update_period] =
  6967. WMI_UNAVAILABLE_PARAM;
  6968. pdev_param[wmi_pdev_param_cts_cbw] = WMI_UNAVAILABLE_PARAM;
  6969. pdev_param[wmi_pdev_param_wnts_config] = WMI_UNAVAILABLE_PARAM;
  6970. pdev_param[wmi_pdev_param_adaptive_early_rx_enable] =
  6971. WMI_UNAVAILABLE_PARAM;
  6972. pdev_param[wmi_pdev_param_adaptive_early_rx_min_sleep_slop] =
  6973. WMI_UNAVAILABLE_PARAM;
  6974. pdev_param[wmi_pdev_param_adaptive_early_rx_inc_dec_step] =
  6975. WMI_UNAVAILABLE_PARAM;
  6976. pdev_param[wmi_pdev_param_early_rx_fix_sleep_slop] =
  6977. WMI_UNAVAILABLE_PARAM;
  6978. pdev_param[wmi_pdev_param_bmiss_based_adaptive_bto_enable] =
  6979. WMI_UNAVAILABLE_PARAM;
  6980. pdev_param[wmi_pdev_param_bmiss_bto_min_bcn_timeout] =
  6981. WMI_UNAVAILABLE_PARAM;
  6982. pdev_param[wmi_pdev_param_bmiss_bto_inc_dec_step] =
  6983. WMI_UNAVAILABLE_PARAM;
  6984. pdev_param[wmi_pdev_param_bto_fix_bcn_timeout] =
  6985. WMI_UNAVAILABLE_PARAM;
  6986. pdev_param[wmi_pdev_param_ce_based_adaptive_bto_enable] =
  6987. WMI_UNAVAILABLE_PARAM;
  6988. pdev_param[wmi_pdev_param_ce_bto_combo_ce_value] =
  6989. WMI_UNAVAILABLE_PARAM;
  6990. pdev_param[wmi_pdev_param_tx_chain_mask_2g] = WMI_UNAVAILABLE_PARAM;
  6991. pdev_param[wmi_pdev_param_rx_chain_mask_2g] = WMI_UNAVAILABLE_PARAM;
  6992. pdev_param[wmi_pdev_param_tx_chain_mask_5g] = WMI_UNAVAILABLE_PARAM;
  6993. pdev_param[wmi_pdev_param_rx_chain_mask_5g] = WMI_UNAVAILABLE_PARAM;
  6994. pdev_param[wmi_pdev_param_tx_chain_mask_cck] = WMI_UNAVAILABLE_PARAM;
  6995. pdev_param[wmi_pdev_param_tx_chain_mask_1ss] = WMI_UNAVAILABLE_PARAM;
  6996. }
  6997. /**
  6998. * populate_vdev_param_non_tlv() - populates vdev params
  6999. *
  7000. * @param vdev_param: Pointer to hold vdev params
  7001. * Return: None
  7002. */
  7003. static void populate_vdev_param_non_tlv(uint32_t *vdev_param)
  7004. {
  7005. vdev_param[wmi_vdev_param_rts_threshold] = WMI_VDEV_PARAM_RTS_THRESHOLD;
  7006. vdev_param[wmi_vdev_param_fragmentation_threshold] =
  7007. WMI_VDEV_PARAM_FRAGMENTATION_THRESHOLD;
  7008. vdev_param[wmi_vdev_param_beacon_interval] =
  7009. WMI_VDEV_PARAM_BEACON_INTERVAL;
  7010. vdev_param[wmi_vdev_param_listen_interval] =
  7011. WMI_VDEV_PARAM_LISTEN_INTERVAL;
  7012. vdev_param[wmi_vdev_param_multicast_rate] =
  7013. WMI_VDEV_PARAM_MULTICAST_RATE;
  7014. vdev_param[wmi_vdev_param_mgmt_tx_rate] =
  7015. WMI_VDEV_PARAM_MGMT_TX_RATE;
  7016. vdev_param[wmi_vdev_param_slot_time] = WMI_VDEV_PARAM_SLOT_TIME;
  7017. vdev_param[wmi_vdev_param_preamble] = WMI_VDEV_PARAM_PREAMBLE;
  7018. vdev_param[wmi_vdev_param_swba_time] = WMI_VDEV_PARAM_SWBA_TIME;
  7019. vdev_param[wmi_vdev_stats_update_period] = WMI_VDEV_STATS_UPDATE_PERIOD;
  7020. vdev_param[wmi_vdev_pwrsave_ageout_time] = WMI_VDEV_PWRSAVE_AGEOUT_TIME;
  7021. vdev_param[wmi_vdev_host_swba_interval] = WMI_VDEV_HOST_SWBA_INTERVAL;
  7022. vdev_param[wmi_vdev_param_dtim_period] = WMI_VDEV_PARAM_DTIM_PERIOD;
  7023. vdev_param[wmi_vdev_oc_scheduler_air_time_limit] =
  7024. WMI_VDEV_OC_SCHEDULER_AIR_TIME_LIMIT;
  7025. vdev_param[wmi_vdev_param_wds] = WMI_VDEV_PARAM_WDS;
  7026. vdev_param[wmi_vdev_param_atim_window] = WMI_VDEV_PARAM_ATIM_WINDOW;
  7027. vdev_param[wmi_vdev_param_bmiss_count_max] =
  7028. WMI_VDEV_PARAM_BMISS_COUNT_MAX;
  7029. vdev_param[wmi_vdev_param_bmiss_first_bcnt] =
  7030. WMI_VDEV_PARAM_BMISS_FIRST_BCNT;
  7031. vdev_param[wmi_vdev_param_bmiss_final_bcnt] =
  7032. WMI_VDEV_PARAM_BMISS_FINAL_BCNT;
  7033. vdev_param[wmi_vdev_param_feature_wmm] = WMI_VDEV_PARAM_FEATURE_WMM;
  7034. vdev_param[wmi_vdev_param_chwidth] = WMI_VDEV_PARAM_CHWIDTH;
  7035. vdev_param[wmi_vdev_param_chextoffset] = WMI_VDEV_PARAM_CHEXTOFFSET;
  7036. vdev_param[wmi_vdev_param_disable_htprotection] =
  7037. WMI_VDEV_PARAM_DISABLE_HTPROTECTION;
  7038. vdev_param[wmi_vdev_param_sta_quickkickout] =
  7039. WMI_VDEV_PARAM_STA_QUICKKICKOUT;
  7040. vdev_param[wmi_vdev_param_mgmt_rate] = WMI_VDEV_PARAM_MGMT_RATE;
  7041. vdev_param[wmi_vdev_param_protection_mode] =
  7042. WMI_VDEV_PARAM_PROTECTION_MODE;
  7043. vdev_param[wmi_vdev_param_fixed_rate] = WMI_VDEV_PARAM_FIXED_RATE;
  7044. vdev_param[wmi_vdev_param_sgi] = WMI_VDEV_PARAM_SGI;
  7045. vdev_param[wmi_vdev_param_ldpc] = WMI_VDEV_PARAM_LDPC;
  7046. vdev_param[wmi_vdev_param_tx_stbc] = WMI_VDEV_PARAM_TX_STBC;
  7047. vdev_param[wmi_vdev_param_rx_stbc] = WMI_VDEV_PARAM_RX_STBC;
  7048. vdev_param[wmi_vdev_param_intra_bss_fwd] = WMI_VDEV_PARAM_INTRA_BSS_FWD;
  7049. vdev_param[wmi_vdev_param_def_keyid] = WMI_VDEV_PARAM_DEF_KEYID;
  7050. vdev_param[wmi_vdev_param_nss] = WMI_VDEV_PARAM_NSS;
  7051. vdev_param[wmi_vdev_param_bcast_data_rate] =
  7052. WMI_VDEV_PARAM_BCAST_DATA_RATE;
  7053. vdev_param[wmi_vdev_param_mcast_data_rate] =
  7054. WMI_VDEV_PARAM_MCAST_DATA_RATE;
  7055. vdev_param[wmi_vdev_param_mcast_indicate] =
  7056. WMI_VDEV_PARAM_MCAST_INDICATE;
  7057. vdev_param[wmi_vdev_param_dhcp_indicate] = WMI_VDEV_PARAM_DHCP_INDICATE;
  7058. vdev_param[wmi_vdev_param_unknown_dest_indicate] =
  7059. WMI_VDEV_PARAM_UNKNOWN_DEST_INDICATE;
  7060. vdev_param[wmi_vdev_param_ap_keepalive_min_idle_inactive_time_secs] =
  7061. WMI_VDEV_PARAM_AP_KEEPALIVE_MIN_IDLE_INACTIVE_TIME_SECS;
  7062. vdev_param[wmi_vdev_param_ap_keepalive_max_idle_inactive_time_secs] =
  7063. WMI_VDEV_PARAM_AP_KEEPALIVE_MAX_IDLE_INACTIVE_TIME_SECS;
  7064. vdev_param[wmi_vdev_param_ap_keepalive_max_unresponsive_time_secs] =
  7065. WMI_VDEV_PARAM_AP_KEEPALIVE_MAX_UNRESPONSIVE_TIME_SECS;
  7066. vdev_param[wmi_vdev_param_ap_enable_nawds] =
  7067. WMI_VDEV_PARAM_AP_ENABLE_NAWDS;
  7068. vdev_param[wmi_vdev_param_mcast2ucast_set] =
  7069. WMI_VDEV_PARAM_MCAST2UCAST_SET;
  7070. vdev_param[wmi_vdev_param_enable_rtscts] = WMI_VDEV_PARAM_ENABLE_RTSCTS;
  7071. vdev_param[wmi_vdev_param_rc_num_retries] =
  7072. WMI_VDEV_PARAM_RC_NUM_RETRIES;
  7073. vdev_param[wmi_vdev_param_txbf] = WMI_VDEV_PARAM_TXBF;
  7074. vdev_param[wmi_vdev_param_packet_powersave] =
  7075. WMI_VDEV_PARAM_PACKET_POWERSAVE;
  7076. vdev_param[wmi_vdev_param_drop_unencry] = WMI_VDEV_PARAM_DROP_UNENCRY;
  7077. vdev_param[wmi_vdev_param_tx_encap_type] = WMI_VDEV_PARAM_TX_ENCAP_TYPE;
  7078. vdev_param[wmi_vdev_param_ap_detect_out_of_sync_sleeping_sta_time_secs]
  7079. = WMI_VDEV_PARAM_AP_DETECT_OUT_OF_SYNC_SLEEPING_STA_TIME_SECS;
  7080. vdev_param[wmi_vdev_param_cabq_maxdur] = WMI_VDEV_PARAM_CABQ_MAXDUR;
  7081. vdev_param[wmi_vdev_param_mfptest_set] = WMI_VDEV_PARAM_MFPTEST_SET;
  7082. vdev_param[wmi_vdev_param_rts_fixed_rate] =
  7083. WMI_VDEV_PARAM_RTS_FIXED_RATE;
  7084. vdev_param[wmi_vdev_param_vht_sgimask] = WMI_VDEV_PARAM_VHT_SGIMASK;
  7085. vdev_param[wmi_vdev_param_vht80_ratemask] =
  7086. WMI_VDEV_PARAM_VHT80_RATEMASK;
  7087. vdev_param[wmi_vdev_param_early_rx_adjust_enable] =
  7088. WMI_VDEV_PARAM_EARLY_RX_ADJUST_ENABLE;
  7089. vdev_param[wmi_vdev_param_early_rx_tgt_bmiss_num] =
  7090. WMI_VDEV_PARAM_EARLY_RX_TGT_BMISS_NUM;
  7091. vdev_param[wmi_vdev_param_early_rx_bmiss_sample_cycle] =
  7092. WMI_VDEV_PARAM_EARLY_RX_BMISS_SAMPLE_CYCLE;
  7093. vdev_param[wmi_vdev_param_early_rx_slop_step] =
  7094. WMI_VDEV_PARAM_EARLY_RX_SLOP_STEP;
  7095. vdev_param[wmi_vdev_param_early_rx_init_slop] =
  7096. WMI_VDEV_PARAM_EARLY_RX_INIT_SLOP;
  7097. vdev_param[wmi_vdev_param_early_rx_adjust_pause] =
  7098. WMI_VDEV_PARAM_EARLY_RX_ADJUST_PAUSE;
  7099. vdev_param[wmi_vdev_param_proxy_sta] = WMI_VDEV_PARAM_PROXY_STA;
  7100. vdev_param[wmi_vdev_param_meru_vc] = WMI_VDEV_PARAM_MERU_VC;
  7101. vdev_param[wmi_vdev_param_rx_decap_type] = WMI_VDEV_PARAM_RX_DECAP_TYPE;
  7102. vdev_param[wmi_vdev_param_bw_nss_ratemask] =
  7103. WMI_VDEV_PARAM_BW_NSS_RATEMASK;
  7104. vdev_param[wmi_vdev_param_sensor_ap] = WMI_VDEV_PARAM_SENSOR_AP;
  7105. vdev_param[wmi_vdev_param_beacon_rate] = WMI_VDEV_PARAM_BEACON_RATE;
  7106. vdev_param[wmi_vdev_param_dtim_enable_cts] =
  7107. WMI_VDEV_PARAM_DTIM_ENABLE_CTS;
  7108. vdev_param[wmi_vdev_param_sta_kickout] = WMI_VDEV_PARAM_STA_KICKOUT;
  7109. }
  7110. #endif
  7111. /**
  7112. * wmi_get_non_tlv_ops() - gives pointer to wmi tlv ops
  7113. *
  7114. * Return: pointer to wmi tlv ops
  7115. */
  7116. void wmi_non_tlv_attach(struct wmi_unified *wmi_handle)
  7117. {
  7118. #ifdef WMI_NON_TLV_SUPPORT
  7119. wmi_handle->ops = &non_tlv_ops;
  7120. populate_non_tlv_service(wmi_handle->services);
  7121. populate_non_tlv_events_id(wmi_handle->wmi_events);
  7122. populate_pdev_param_non_tlv(wmi_handle->pdev_param);
  7123. populate_vdev_param_non_tlv(wmi_handle->vdev_param);
  7124. #else
  7125. qdf_print("%s: Not supported\n", __func__);
  7126. #endif
  7127. }