1 /* 2 * Copyright (c) 2016-2019 The Linux Foundation. All rights reserved. 3 * Copyright (c) 2002-2010, Atheros Communications Inc. 4 * 5 * Permission to use, copy, modify, and/or distribute this software for any 6 * purpose with or without fee is hereby granted, provided that the above 7 * copyright notice and this permission notice appear in all copies. 8 * 9 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 10 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 11 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 12 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 13 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN 14 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF 15 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 16 */ 17 18 /** 19 * DOC: This file contains NOL related functionality, NOL being the non 20 * occupancy list. After radar has been detected in a particular channel, 21 * the channel cannot be used for a period of 30 minutes which is called 22 * the non occupancy. The NOL is basically a list of all the channels that 23 * radar has been detected on. Each channel has a 30 minute timer associated 24 * with it. This file contains the functionality to add a channel to the NOL, 25 * the NOL timer function and the functionality to remove a channel from the 26 * NOL when its time is up. 27 */ 28 29 #include "../dfs.h" 30 #include "../dfs_channel.h" 31 #include "../dfs_ioctl_private.h" 32 #include "../dfs_internal.h" 33 #include <qdf_time.h> 34 #include <wlan_dfs_mlme_api.h> 35 #include <wlan_objmgr_vdev_obj.h> 36 #include <wlan_dfs_utils_api.h> 37 #include <wlan_reg_services_api.h> 38 #if defined(WLAN_DFS_PARTIAL_OFFLOAD) && defined(HOST_DFS_SPOOF_TEST) 39 #include "../dfs_process_radar_found_ind.h" 40 #include "../dfs_partial_offload_radar.h" 41 #endif 42 43 void dfs_set_update_nol_flag(struct wlan_dfs *dfs, bool val) 44 { 45 dfs->update_nol = val; 46 } 47 48 bool dfs_get_update_nol_flag(struct wlan_dfs *dfs) 49 { 50 return dfs->update_nol; 51 } 52 53 /** 54 * dfs_nol_timeout() - NOL timeout function. 55 * 56 * Clears the WLAN_CHAN_DFS_RADAR_FOUND flag for the NOL timeout channel. 57 */ 58 /* Unused function */ 59 #ifdef CONFIG_CHAN_FREQ_API 60 static os_timer_func(dfs_nol_timeout) 61 { 62 struct dfs_channel *c = NULL, lc; 63 unsigned long oldest, now; 64 struct wlan_dfs *dfs = NULL; 65 int i; 66 int nchans = 0; 67 68 c = &lc; 69 70 OS_GET_TIMER_ARG(dfs, struct wlan_dfs *); 71 dfs_mlme_get_dfs_ch_nchans(dfs->dfs_pdev_obj, &nchans); 72 73 now = oldest = qdf_system_ticks(); 74 for (i = 0; i < nchans; i++) { 75 dfs_mlme_get_dfs_channels_for_freq 76 (dfs->dfs_pdev_obj, 77 &c->dfs_ch_freq, 78 &c->dfs_ch_flags, 79 &c->dfs_ch_flagext, 80 &c->dfs_ch_ieee, 81 &c->dfs_ch_vhtop_ch_freq_seg1, 82 &c->dfs_ch_vhtop_ch_freq_seg2, 83 &c->dfs_ch_mhz_freq_seg1, 84 &c->dfs_ch_mhz_freq_seg2, 85 i); 86 if (WLAN_IS_CHAN_RADAR(c)) { 87 if (qdf_system_time_after_eq(now, 88 dfs->dfs_nol_event[i] + 89 dfs_get_nol_timeout(dfs))) { 90 c->dfs_ch_flagext &= ~WLAN_CHAN_DFS_RADAR_FOUND; 91 if (c->dfs_ch_flags & WLAN_CHAN_DFS_RADAR) { 92 /* 93 * NB: do this here so we get only one 94 * msg instead of one for every channel 95 * table entry. 96 */ 97 dfs_debug(dfs, WLAN_DEBUG_DFS, 98 "radar on channel %u (%u MHz) cleared after timeout", 99 c->dfs_ch_ieee, 100 c->dfs_ch_freq); 101 } 102 } else if (dfs->dfs_nol_event[i] < oldest) { 103 oldest = dfs->dfs_nol_event[i]; 104 } 105 } 106 } 107 if (oldest != now) { 108 /* Arrange to process next channel up for a status change. */ 109 qdf_timer_mod(&dfs->dfs_nol_timer, 110 dfs_get_nol_timeout(dfs) - 111 qdf_system_ticks_to_msecs(qdf_system_ticks())); 112 } 113 } 114 #else 115 #ifdef CONFIG_CHAN_NUM_API 116 static os_timer_func(dfs_nol_timeout) 117 { 118 struct dfs_channel *c = NULL, lc; 119 unsigned long oldest, now; 120 struct wlan_dfs *dfs = NULL; 121 int i; 122 int nchans = 0; 123 124 c = &lc; 125 126 OS_GET_TIMER_ARG(dfs, struct wlan_dfs *); 127 dfs_mlme_get_dfs_ch_nchans(dfs->dfs_pdev_obj, &nchans); 128 129 now = oldest = qdf_system_ticks(); 130 for (i = 0; i < nchans; i++) { 131 dfs_mlme_get_dfs_ch_channels(dfs->dfs_pdev_obj, 132 &(c->dfs_ch_freq), 133 &(c->dfs_ch_flags), 134 &(c->dfs_ch_flagext), 135 &(c->dfs_ch_ieee), 136 &(c->dfs_ch_vhtop_ch_freq_seg1), 137 &(c->dfs_ch_vhtop_ch_freq_seg2), 138 i); 139 if (WLAN_IS_CHAN_RADAR(c)) { 140 if (qdf_system_time_after_eq(now, 141 dfs->dfs_nol_event[i] + 142 dfs_get_nol_timeout(dfs))) { 143 c->dfs_ch_flagext &= 144 ~WLAN_CHAN_DFS_RADAR_FOUND; 145 if (c->dfs_ch_flags & 146 WLAN_CHAN_DFS_RADAR) { 147 /* 148 * NB: do this here so we get only one 149 * msg instead of one for every channel 150 * table entry. 151 */ 152 dfs_debug(dfs, WLAN_DEBUG_DFS, 153 "radar on channel %u (%u MHz) cleared after timeout", 154 155 c->dfs_ch_ieee, 156 c->dfs_ch_freq); 157 } 158 } else if (dfs->dfs_nol_event[i] < oldest) 159 oldest = dfs->dfs_nol_event[i]; 160 } 161 } 162 if (oldest != now) { 163 /* Arrange to process next channel up for a status change. */ 164 qdf_timer_mod(&dfs->dfs_nol_timer, 165 dfs_get_nol_timeout(dfs) - 166 qdf_system_ticks_to_msecs(qdf_system_ticks())); 167 } 168 } 169 #endif 170 #endif 171 172 /** 173 * dfs_nol_elem_free_work_cb - Free NOL element 174 * 175 * Free the NOL element memory 176 */ 177 static void dfs_nol_elem_free_work_cb(void *context) 178 { 179 struct wlan_dfs *dfs = (struct wlan_dfs *)context; 180 struct dfs_nolelem *nol_head; 181 182 while (true) { 183 WLAN_DFSNOL_LOCK(dfs); 184 185 nol_head = TAILQ_FIRST(&dfs->dfs_nol_free_list); 186 if (nol_head) { 187 TAILQ_REMOVE(&dfs->dfs_nol_free_list, nol_head, 188 nolelem_list); 189 WLAN_DFSNOL_UNLOCK(dfs); 190 191 qdf_timer_free(&nol_head->nol_timer); 192 qdf_mem_free(nol_head); 193 } else { 194 WLAN_DFSNOL_UNLOCK(dfs); 195 break; 196 } 197 } 198 } 199 200 void dfs_nol_timer_init(struct wlan_dfs *dfs) 201 { 202 qdf_timer_init(NULL, 203 &(dfs->dfs_nol_timer), 204 dfs_nol_timeout, 205 (void *)(dfs), 206 QDF_TIMER_TYPE_WAKE_APPS); 207 } 208 209 void dfs_nol_attach(struct wlan_dfs *dfs) 210 { 211 dfs->wlan_dfs_nol_timeout = DFS_NOL_TIMEOUT_S; 212 dfs_nol_timer_init(dfs); 213 qdf_create_work(NULL, &dfs->dfs_nol_elem_free_work, 214 dfs_nol_elem_free_work_cb, dfs); 215 TAILQ_INIT(&dfs->dfs_nol_free_list); 216 dfs->dfs_use_nol = 1; 217 WLAN_DFSNOL_LOCK_CREATE(dfs); 218 } 219 220 void dfs_nol_detach(struct wlan_dfs *dfs) 221 { 222 dfs_nol_timer_cleanup(dfs); 223 qdf_flush_work(&dfs->dfs_nol_elem_free_work); 224 qdf_destroy_work(NULL, &dfs->dfs_nol_elem_free_work); 225 WLAN_DFSNOL_LOCK_DESTROY(dfs); 226 } 227 228 void dfs_nol_timer_detach(struct wlan_dfs *dfs) 229 { 230 qdf_timer_free(&dfs->dfs_nol_timer); 231 } 232 233 /** 234 * dfs_nol_delete() - Delete the given frequency/chwidth from the NOL. 235 * @dfs: Pointer to wlan_dfs structure. 236 * @delfreq: Freq to delete. 237 * @delchwidth: Channel width to delete. 238 */ 239 static void dfs_nol_delete(struct wlan_dfs *dfs, 240 uint16_t delfreq, 241 uint16_t delchwidth) 242 { 243 struct dfs_nolelem *nol, **prev_next; 244 245 if (!dfs) { 246 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "dfs is NULL"); 247 return; 248 } 249 250 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL, 251 "remove channel=%d/%d MHz from NOL", 252 delfreq, delchwidth); 253 prev_next = &(dfs->dfs_nol); 254 nol = dfs->dfs_nol; 255 while (nol) { 256 if (nol->nol_freq == delfreq && 257 nol->nol_chwidth == delchwidth) { 258 *prev_next = nol->nol_next; 259 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL, 260 "removing channel %d/%dMHz from NOL tstamp=%d", 261 nol->nol_freq, 262 nol->nol_chwidth, 263 (qdf_system_ticks_to_msecs 264 (qdf_system_ticks()) / 1000)); 265 TAILQ_INSERT_TAIL(&dfs->dfs_nol_free_list, 266 nol, nolelem_list); 267 nol = *prev_next; 268 269 /* Update the NOL counter. */ 270 dfs->dfs_nol_count--; 271 272 /* Be paranoid! */ 273 if (dfs->dfs_nol_count < 0) { 274 dfs_info(NULL, WLAN_DEBUG_DFS_ALWAYS, "dfs_nol_count < 0; eek!"); 275 dfs->dfs_nol_count = 0; 276 } 277 278 } else { 279 prev_next = &(nol->nol_next); 280 nol = nol->nol_next; 281 } 282 } 283 } 284 285 /** 286 * dfs_remove_from_nol() - Remove the freq from NOL list. 287 * 288 * When NOL times out, this function removes the channel from NOL list. 289 */ 290 #ifdef CONFIG_CHAN_FREQ_API 291 static os_timer_func(dfs_remove_from_nol) 292 { 293 struct dfs_nolelem *nol_arg; 294 struct wlan_dfs *dfs; 295 uint16_t delfreq; 296 uint16_t delchwidth; 297 uint8_t chan; 298 299 OS_GET_TIMER_ARG(nol_arg, struct dfs_nolelem *); 300 301 dfs = nol_arg->nol_dfs; 302 delfreq = nol_arg->nol_freq; 303 delchwidth = nol_arg->nol_chwidth; 304 305 /* Delete the given NOL entry. */ 306 DFS_NOL_DELETE_CHAN_LOCKED(dfs, delfreq, delchwidth); 307 308 /* Update the wireless stack with the new NOL. */ 309 dfs_nol_update(dfs); 310 311 dfs_mlme_nol_timeout_notification(dfs->dfs_pdev_obj); 312 chan = utils_dfs_freq_to_chan(delfreq); 313 utils_dfs_deliver_event(dfs->dfs_pdev_obj, delfreq, 314 WLAN_EV_NOL_FINISHED); 315 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL, 316 "remove channel %d from nol", chan); 317 utils_dfs_unmark_precac_nol_for_freq(dfs->dfs_pdev_obj, delfreq); 318 utils_dfs_reg_update_nol_chan_for_freq(dfs->dfs_pdev_obj, 319 &delfreq, 1, DFS_NOL_RESET); 320 utils_dfs_save_nol(dfs->dfs_pdev_obj); 321 } 322 #else 323 #ifdef CONFIG_CHAN_NUM_API 324 static os_timer_func(dfs_remove_from_nol) 325 { 326 struct dfs_nolelem *nol_arg; 327 struct wlan_dfs *dfs; 328 uint16_t delfreq; 329 uint16_t delchwidth; 330 uint8_t chan; 331 332 OS_GET_TIMER_ARG(nol_arg, struct dfs_nolelem *); 333 334 dfs = nol_arg->nol_dfs; 335 delfreq = nol_arg->nol_freq; 336 delchwidth = nol_arg->nol_chwidth; 337 338 /* Delete the given NOL entry. */ 339 DFS_NOL_DELETE_CHAN_LOCKED(dfs, delfreq, delchwidth); 340 341 /* Update the wireless stack with the new NOL. */ 342 dfs_nol_update(dfs); 343 344 dfs_mlme_nol_timeout_notification(dfs->dfs_pdev_obj); 345 chan = utils_dfs_freq_to_chan(delfreq); 346 utils_dfs_deliver_event(dfs->dfs_pdev_obj, delfreq, 347 WLAN_EV_NOL_FINISHED); 348 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL, 349 "remove channel %d from nol", chan); 350 utils_dfs_unmark_precac_nol(dfs->dfs_pdev_obj, chan); 351 utils_dfs_reg_update_nol_ch(dfs->dfs_pdev_obj, 352 &chan, 1, DFS_NOL_RESET); 353 utils_dfs_save_nol(dfs->dfs_pdev_obj); 354 } 355 #endif 356 #endif 357 358 void dfs_print_nol(struct wlan_dfs *dfs) 359 { 360 struct dfs_nolelem *nol; 361 int i = 0; 362 uint32_t diff_ms, remaining_sec; 363 364 if (!dfs) { 365 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "dfs is NULL"); 366 return; 367 } 368 369 nol = dfs->dfs_nol; 370 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL, "NOL"); 371 while (nol) { 372 diff_ms = qdf_system_ticks_to_msecs(qdf_system_ticks() - 373 nol->nol_start_ticks); 374 diff_ms = (nol->nol_timeout_ms - diff_ms); 375 remaining_sec = diff_ms / 1000; /* Convert to seconds */ 376 dfs_info(NULL, WLAN_DEBUG_DFS_ALWAYS, 377 "nol:%d channel=%d MHz width=%d MHz time left=%u seconds nol starttick=%llu", 378 i++, nol->nol_freq, 379 nol->nol_chwidth, 380 remaining_sec, 381 (uint64_t)nol->nol_start_ticks); 382 nol = nol->nol_next; 383 } 384 } 385 386 void dfs_print_nolhistory(struct wlan_dfs *dfs) 387 { 388 struct dfs_channel *chan_list; 389 int i, j; 390 int nchans; 391 392 if (!dfs) { 393 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "dfs is NULL"); 394 return; 395 } 396 397 nchans = dfs_get_num_chans(); 398 399 chan_list = qdf_mem_malloc(nchans * sizeof(*chan_list)); 400 if (!chan_list) 401 return; 402 403 utils_dfs_get_nol_history_chan_list(dfs->dfs_pdev_obj, 404 (void *)chan_list, &nchans); 405 if (!nchans) { 406 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "zero chans"); 407 qdf_mem_free(chan_list); 408 return; 409 } 410 411 for (i = 0, j = 0; i < nchans; i++, j++) 412 dfs_info(NULL, WLAN_DEBUG_DFS_ALWAYS, 413 "nolhistory = %d channel = %d MHz", 414 j, chan_list[i].dfs_ch_freq); 415 416 qdf_mem_free(chan_list); 417 } 418 419 void dfs_get_nol(struct wlan_dfs *dfs, 420 struct dfsreq_nolelem *dfs_nol, 421 int *nchan) 422 { 423 struct dfs_nolelem *nol; 424 425 *nchan = 0; 426 427 if (!dfs) { 428 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "dfs is NULL"); 429 return; 430 } 431 432 nol = dfs->dfs_nol; 433 while (nol) { 434 dfs_nol[*nchan].nol_freq = nol->nol_freq; 435 dfs_nol[*nchan].nol_chwidth = nol->nol_chwidth; 436 dfs_nol[*nchan].nol_start_ticks = nol->nol_start_ticks; 437 dfs_nol[*nchan].nol_timeout_ms = nol->nol_timeout_ms; 438 ++(*nchan); 439 nol = nol->nol_next; 440 } 441 } 442 443 #ifdef CONFIG_CHAN_FREQ_API 444 void dfs_set_nol(struct wlan_dfs *dfs, 445 struct dfsreq_nolelem *dfs_nol, 446 int nchan) 447 { 448 #define TIME_IN_MS 1000 449 uint32_t nol_time_lft_ms; 450 struct dfs_channel chan; 451 int i; 452 453 if (!dfs) { 454 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "dfs is NULL"); 455 return; 456 } 457 458 for (i = 0; i < nchan; i++) { 459 nol_time_lft_ms = 460 qdf_system_ticks_to_msecs(qdf_system_ticks() - 461 dfs_nol[i].nol_start_ticks); 462 463 if (nol_time_lft_ms < dfs_nol[i].nol_timeout_ms) { 464 chan.dfs_ch_freq = dfs_nol[i].nol_freq; 465 chan.dfs_ch_flags = 0; 466 chan.dfs_ch_flagext = 0; 467 nol_time_lft_ms = 468 (dfs_nol[i].nol_timeout_ms - nol_time_lft_ms); 469 470 DFS_NOL_ADD_CHAN_LOCKED(dfs, chan.dfs_ch_freq, 471 (nol_time_lft_ms / TIME_IN_MS)); 472 utils_dfs_reg_update_nol_chan_for_freq(dfs->dfs_pdev_obj, 473 &chan.dfs_ch_freq, 474 1, DFS_NOL_SET); 475 } 476 } 477 #undef TIME_IN_MS 478 dfs_nol_update(dfs); 479 } 480 #else 481 #ifdef CONFIG_CHAN_NUM_API 482 void dfs_set_nol(struct wlan_dfs *dfs, 483 struct dfsreq_nolelem *dfs_nol, 484 int nchan) 485 { 486 #define TIME_IN_MS 1000 487 uint32_t nol_time_left_ms; 488 struct dfs_channel chan; 489 int i; 490 uint8_t chan_num; 491 492 if (!dfs) { 493 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "dfs is NULL"); 494 return; 495 } 496 497 for (i = 0; i < nchan; i++) { 498 nol_time_left_ms = 499 qdf_system_ticks_to_msecs(qdf_system_ticks() - 500 dfs_nol[i].nol_start_ticks); 501 502 if (nol_time_left_ms < dfs_nol[i].nol_timeout_ms) { 503 chan.dfs_ch_freq = dfs_nol[i].nol_freq; 504 chan.dfs_ch_flags = 0; 505 chan.dfs_ch_flagext = 0; 506 nol_time_left_ms = 507 (dfs_nol[i].nol_timeout_ms - nol_time_left_ms); 508 509 DFS_NOL_ADD_CHAN_LOCKED(dfs, chan.dfs_ch_freq, 510 (nol_time_left_ms / TIME_IN_MS)); 511 chan_num = utils_dfs_freq_to_chan(chan.dfs_ch_freq); 512 utils_dfs_reg_update_nol_ch(dfs->dfs_pdev_obj, 513 &chan_num, 1, DFS_NOL_SET); 514 } 515 } 516 #undef TIME_IN_MS 517 dfs_nol_update(dfs); 518 } 519 #endif 520 #endif 521 522 void dfs_nol_addchan(struct wlan_dfs *dfs, 523 uint16_t freq, 524 uint32_t dfs_nol_timeout) 525 { 526 #define TIME_IN_MS 1000 527 #define TIME_IN_US (TIME_IN_MS * 1000) 528 struct dfs_nolelem *nol, *elem, *prev; 529 /* For now, assume all events are 20MHz wide. */ 530 int ch_width = 20; 531 532 if (!dfs) { 533 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "dfs is NULL"); 534 return; 535 } 536 nol = dfs->dfs_nol; 537 prev = dfs->dfs_nol; 538 elem = NULL; 539 while (nol) { 540 if ((nol->nol_freq == freq) && 541 (nol->nol_chwidth == ch_width)) { 542 nol->nol_start_ticks = qdf_system_ticks(); 543 nol->nol_timeout_ms = dfs_nol_timeout * TIME_IN_MS; 544 545 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL, 546 "Update OS Ticks for NOL %d MHz / %d MHz", 547 nol->nol_freq, nol->nol_chwidth); 548 549 qdf_timer_stop(&nol->nol_timer); 550 qdf_timer_mod(&nol->nol_timer, 551 dfs_nol_timeout * TIME_IN_MS); 552 return; 553 } 554 prev = nol; 555 nol = nol->nol_next; 556 } 557 558 /* Add a new element to the NOL. */ 559 elem = (struct dfs_nolelem *)qdf_mem_malloc(sizeof(struct dfs_nolelem)); 560 if (!elem) 561 goto bad; 562 563 qdf_mem_zero(elem, sizeof(*elem)); 564 elem->nol_dfs = dfs; 565 elem->nol_freq = freq; 566 elem->nol_chwidth = ch_width; 567 elem->nol_start_ticks = qdf_system_ticks(); 568 elem->nol_timeout_ms = dfs_nol_timeout*TIME_IN_MS; 569 elem->nol_next = NULL; 570 if (prev) { 571 prev->nol_next = elem; 572 } else { 573 /* This is the first element in the NOL. */ 574 dfs->dfs_nol = elem; 575 } 576 577 qdf_timer_init(NULL, 578 &elem->nol_timer, dfs_remove_from_nol, 579 elem, QDF_TIMER_TYPE_WAKE_APPS); 580 581 qdf_timer_mod(&elem->nol_timer, dfs_nol_timeout * TIME_IN_MS); 582 583 /* Update the NOL counter. */ 584 dfs->dfs_nol_count++; 585 586 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL, 587 "new NOL channel %d MHz / %d MHz", 588 elem->nol_freq, elem->nol_chwidth); 589 return; 590 591 bad: 592 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL | WLAN_DEBUG_DFS, 593 "failed to allocate memory for nol entry"); 594 595 #undef TIME_IN_MS 596 #undef TIME_IN_US 597 } 598 599 void dfs_get_nol_chfreq_and_chwidth(struct dfsreq_nolelem *dfs_nol, 600 uint32_t *nol_chfreq, 601 uint32_t *nol_chwidth, 602 int index) 603 { 604 if (!dfs_nol) 605 return; 606 607 *nol_chfreq = dfs_nol[index].nol_freq; 608 *nol_chwidth = dfs_nol[index].nol_chwidth; 609 } 610 611 void dfs_nol_update(struct wlan_dfs *dfs) 612 { 613 struct dfsreq_nolelem *dfs_nol; 614 int nlen; 615 616 if (!dfs->dfs_nol_count) { 617 dfs_debug(dfs, WLAN_DEBUG_DFS_NOL, "dfs_nol_count is zero"); 618 dfs_mlme_clist_update(dfs->dfs_pdev_obj, NULL, 0); 619 return; 620 } 621 622 /* 623 * Allocate enough entries to store the NOL. At least on Linux 624 * (don't ask why), if you allocate a 0 entry array, the 625 * returned pointer is 0x10. Make sure you're aware of this 626 * when you start debugging. 627 */ 628 dfs_nol = (struct dfsreq_nolelem *)qdf_mem_malloc( 629 sizeof(struct dfsreq_nolelem) * dfs->dfs_nol_count); 630 631 /* 632 * XXX TODO: if this fails, just schedule a task to retry 633 * updating the NOL at a later stage. That way the NOL 634 * update _DOES_ happen - hopefully the failure was just 635 * temporary. 636 */ 637 if (!dfs_nol) 638 return; 639 640 DFS_GET_NOL_LOCKED(dfs, dfs_nol, &nlen); 641 642 /* Be suitably paranoid for now. */ 643 if (nlen != dfs->dfs_nol_count) 644 dfs_info(NULL, WLAN_DEBUG_DFS_ALWAYS, "nlen (%d) != dfs->dfs_nol_count (%d)!", 645 nlen, dfs->dfs_nol_count); 646 647 /* 648 * Call the driver layer to have it recalculate the NOL flags 649 * for each driver/umac channel. If the list is empty, pass 650 * NULL instead of dfs_nol. The operating system may have some 651 * special representation for "malloc a 0 byte memory region" 652 * - for example, Linux 2.6.38-13 (ubuntu) returns 0x10 rather 653 * than a valid allocation (and is likely not NULL so the 654 * pointer doesn't match NULL checks in any later code. 655 */ 656 dfs_mlme_clist_update(dfs->dfs_pdev_obj, 657 (nlen > 0) ? dfs_nol : NULL, 658 nlen); 659 660 qdf_mem_free(dfs_nol); 661 } 662 663 void dfs_nol_free_list(struct wlan_dfs *dfs) 664 { 665 struct dfs_nolelem *nol = dfs->dfs_nol, *prev; 666 667 while (nol) { 668 prev = nol; 669 nol = nol->nol_next; 670 qdf_mem_free(prev); 671 /* Update the NOL counter. */ 672 dfs->dfs_nol_count--; 673 674 if (dfs->dfs_nol_count < 0) { 675 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "dfs_nol_count < 0"); 676 ASSERT(0); 677 } 678 } 679 680 dfs->dfs_nol = NULL; 681 } 682 683 #ifdef CONFIG_CHAN_FREQ_API 684 void dfs_nol_timer_cleanup(struct wlan_dfs *dfs) 685 { 686 struct dfs_nolelem *nol; 687 uint16_t nol_freq; 688 689 while (true) { 690 WLAN_DFSNOL_LOCK(dfs); 691 692 nol = dfs->dfs_nol; 693 if (nol) { 694 dfs->dfs_nol = nol->nol_next; 695 dfs->dfs_nol_count--; 696 nol_freq = nol->nol_freq; 697 WLAN_DFSNOL_UNLOCK(dfs); 698 utils_dfs_reg_update_nol_chan_for_freq( 699 dfs->dfs_pdev_obj, 700 &nol_freq, 701 1, 702 DFS_NOL_RESET); 703 704 qdf_timer_free(&nol->nol_timer); 705 qdf_mem_free(nol); 706 } else { 707 WLAN_DFSNOL_UNLOCK(dfs); 708 break; 709 } 710 } 711 } 712 #else 713 #ifdef CONFIG_CHAN_NUM_API 714 void dfs_nol_timer_cleanup(struct wlan_dfs *dfs) 715 { 716 struct dfs_nolelem *nol; 717 uint8_t nol_chan; 718 719 while (true) { 720 WLAN_DFSNOL_LOCK(dfs); 721 722 nol = dfs->dfs_nol; 723 if (nol) { 724 dfs->dfs_nol = nol->nol_next; 725 dfs->dfs_nol_count--; 726 nol_chan = utils_dfs_freq_to_chan(nol->nol_freq); 727 WLAN_DFSNOL_UNLOCK(dfs); 728 utils_dfs_reg_update_nol_ch(dfs->dfs_pdev_obj, 729 &nol_chan, 730 1, 731 DFS_NOL_RESET); 732 733 qdf_timer_free(&nol->nol_timer); 734 qdf_mem_free(nol); 735 } else { 736 WLAN_DFSNOL_UNLOCK(dfs); 737 break; 738 } 739 } 740 } 741 #endif 742 #endif 743 744 void dfs_nol_workqueue_cleanup(struct wlan_dfs *dfs) 745 { 746 qdf_flush_work(&dfs->dfs_nol_elem_free_work); 747 } 748 749 int dfs_get_use_nol(struct wlan_dfs *dfs) 750 { 751 return dfs->dfs_use_nol; 752 } 753 754 int dfs_get_nol_timeout(struct wlan_dfs *dfs) 755 { 756 return dfs->wlan_dfs_nol_timeout; 757 } 758 759 void dfs_getnol(struct wlan_dfs *dfs, void *dfs_nolinfo) 760 { 761 struct dfsreq_nolinfo *nolinfo = (struct dfsreq_nolinfo *)dfs_nolinfo; 762 763 DFS_GET_NOL_LOCKED(dfs, nolinfo->dfs_nol, &(nolinfo->dfs_ch_nchans)); 764 } 765 766 #ifdef CONFIG_CHAN_FREQ_API 767 void dfs_clear_nolhistory(struct wlan_dfs *dfs) 768 { 769 struct dfs_channel *chan_list; 770 int nchans = 0; 771 bool sta_opmode; 772 773 if (!dfs->dfs_is_stadfs_enabled) 774 return; 775 776 sta_opmode = dfs_mlme_is_opmode_sta(dfs->dfs_pdev_obj); 777 if (!sta_opmode) 778 return; 779 780 nchans = dfs_get_num_chans(); 781 782 chan_list = qdf_mem_malloc(nchans * sizeof(*chan_list)); 783 if (!chan_list) 784 return; 785 786 utils_dfs_get_nol_history_chan_list(dfs->dfs_pdev_obj, 787 (void *)chan_list, &nchans); 788 if (!nchans) { 789 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "zero chans"); 790 qdf_mem_free(chan_list); 791 return; 792 } 793 794 utils_dfs_reg_update_nol_history_chan_for_freq(dfs->dfs_pdev_obj, 795 (void *)chan_list, nchans, 796 DFS_NOL_HISTORY_RESET); 797 798 qdf_mem_free(chan_list); 799 } 800 #else 801 #ifdef CONFIG_CHAN_NUM_API 802 void dfs_clear_nolhistory(struct wlan_dfs *dfs) 803 { 804 struct dfs_channel *chan_list; 805 int nchans = 0; 806 bool sta_opmode; 807 808 if (!dfs->dfs_is_stadfs_enabled) 809 return; 810 811 sta_opmode = dfs_mlme_is_opmode_sta(dfs->dfs_pdev_obj); 812 if (!sta_opmode) 813 return; 814 815 nchans = dfs_get_num_chans(); 816 817 chan_list = qdf_mem_malloc(nchans * sizeof(*chan_list)); 818 if (!chan_list) 819 return; 820 821 utils_dfs_get_nol_history_chan_list(dfs->dfs_pdev_obj, 822 (void *)chan_list, &nchans); 823 if (!nchans) { 824 dfs_err(dfs, WLAN_DEBUG_DFS_ALWAYS, "zero chans"); 825 qdf_mem_free(chan_list); 826 return; 827 } 828 829 utils_dfs_reg_update_nol_history_ch(dfs->dfs_pdev_obj, 830 (void *)chan_list, nchans, 831 DFS_NOL_HISTORY_RESET); 832 833 qdf_mem_free(chan_list); 834 } 835 #endif 836 #endif 837 838 #if defined(WLAN_DFS_PARTIAL_OFFLOAD) && defined(HOST_DFS_SPOOF_TEST) && \ 839 defined(CONFIG_CHAN_FREQ_API) 840 void dfs_remove_spoof_channel_from_nol(struct wlan_dfs *dfs) 841 { 842 struct dfs_nolelem *nol; 843 uint16_t freq_list[NUM_CHANNELS_160MHZ]; 844 int i, nchans = 0; 845 846 nchans = dfs_get_bonding_channels_for_freq(dfs, 847 &dfs->dfs_radar_found_chan, 848 SEG_ID_PRIMARY, 849 DETECTOR_ID_0, 850 freq_list); 851 852 WLAN_DFSNOL_LOCK(dfs); 853 for (i = 0; i < nchans && i < NUM_CHANNELS_160MHZ; i++) { 854 nol = dfs->dfs_nol; 855 while (nol) { 856 if (nol->nol_freq == freq_list[i]) { 857 OS_SET_TIMER(&nol->nol_timer, 0); 858 break; 859 } 860 nol = nol->nol_next; 861 } 862 } 863 WLAN_DFSNOL_UNLOCK(dfs); 864 865 utils_dfs_reg_update_nol_chan_for_freq(dfs->dfs_pdev_obj, 866 freq_list, nchans, DFS_NOL_RESET); 867 } 868 #else 869 #if defined(WLAN_DFS_PARTIAL_OFFLOAD) && defined(HOST_DFS_SPOOF_TEST) && \ 870 defined(CONFIG_CHAN_NUM_API) 871 void dfs_remove_spoof_channel_from_nol(struct wlan_dfs *dfs) 872 { 873 struct dfs_nolelem *nol; 874 uint8_t channels[NUM_CHANNELS_160MHZ]; 875 int i, nchans = 0; 876 877 nchans = dfs_get_bonding_channels(dfs, 878 &dfs->dfs_radar_found_chan, 879 SEG_ID_PRIMARY, 880 DETECTOR_ID_0, 881 channels); 882 883 WLAN_DFSNOL_LOCK(dfs); 884 for (i = 0; i < nchans && i < NUM_CHANNELS_160MHZ; i++) { 885 nol = dfs->dfs_nol; 886 while (nol) { 887 if (nol->nol_freq == (uint16_t)utils_dfs_chan_to_freq( 888 channels[i])) { 889 OS_SET_TIMER(&nol->nol_timer, 0); 890 break; 891 } 892 nol = nol->nol_next; 893 } 894 } 895 WLAN_DFSNOL_UNLOCK(dfs); 896 897 utils_dfs_reg_update_nol_ch(dfs->dfs_pdev_obj, 898 channels, nchans, DFS_NOL_RESET); 899 } 900 #endif 901 #endif 902