1 /*
2 * Copyright (c) 2010 Broadcom Corporation
3 *
4 * Permission to use, copy, modify, and/or distribute this software for any
5 * purpose with or without fee is hereby granted, provided that the above
6 * copyright notice and this permission notice appear in all copies.
7 *
8 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
9 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
10 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
11 * SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
12 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION
13 * OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
14 * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
15 */
16 #include <linux/kernel.h>
17 #include <linux/ctype.h>
18 #include <linux/etherdevice.h>
19 #include <net/mac80211.h>
20
21 #include <bcmdefs.h>
22 #include <bcmdevs.h>
23 #include <bcmutils.h>
24 #include <bcmwifi.h>
25 #include <siutils.h>
26 #include <pcicfg.h>
27 #include <bcmsrom.h>
28 #include <wlioctl.h>
29 #include <sbhnddma.h>
30 #include <hnddma.h>
31 #include <hndpmu.h>
32
33 #include "d11.h"
34 #include "wlc_types.h"
35 #include "wlc_cfg.h"
36 #include "wlc_rate.h"
37 #include "wlc_scb.h"
38 #include "wlc_pub.h"
39 #include "wlc_key.h"
40 #include "wlc_bsscfg.h"
41 #include "phy/wlc_phy_hal.h"
42 #include "wlc_channel.h"
43 #include "wlc_main.h"
44 #include "wlc_bmac.h"
45 #include "wlc_phy_hal.h"
46 #include "wlc_phy_shim.h"
47 #include "wlc_antsel.h"
48 #include "wlc_stf.h"
49 #include "wlc_ampdu.h"
50 #include "wl_export.h"
51 #include "wlc_alloc.h"
52 #include "wl_dbg.h"
53
54 /*
55 * Disable statistics counting for WME
56 */
57 #define WLCNTSET(a, b)
58 #define WLCNTINCR(a)
59 #define WLCNTADD(a, b)
60
61 /*
62 * WPA(2) definitions
63 */
64 #define RSN_CAP_4_REPLAY_CNTRS 2
65 #define RSN_CAP_16_REPLAY_CNTRS 3
66
67 #define WPA_CAP_4_REPLAY_CNTRS RSN_CAP_4_REPLAY_CNTRS
68 #define WPA_CAP_16_REPLAY_CNTRS RSN_CAP_16_REPLAY_CNTRS
69
70 /*
71 * Indication for txflowcontrol that all priority bits in
72 * TXQ_STOP_FOR_PRIOFC_MASK are to be considered.
73 */
74 #define ALLPRIO -1
75
76 /*
77 * buffer length needed for wlc_format_ssid
78 * 32 SSID chars, max of 4 chars for each SSID char "\xFF", plus NULL.
79 */
80 #define SSID_FMT_BUF_LEN ((4 * IEEE80211_MAX_SSID_LEN) + 1)
81
82 #define TIMER_INTERVAL_WATCHDOG 1000 /* watchdog timer, in unit of ms */
83 #define TIMER_INTERVAL_RADIOCHK 800 /* radio monitor timer, in unit of ms */
84
85 #ifndef WLC_MPC_MAX_DELAYCNT
86 #define WLC_MPC_MAX_DELAYCNT 10 /* Max MPC timeout, in unit of watchdog */
87 #endif
88 #define WLC_MPC_MIN_DELAYCNT 1 /* Min MPC timeout, in unit of watchdog */
89 #define WLC_MPC_THRESHOLD 3 /* MPC count threshold level */
90
91 #define BEACON_INTERVAL_DEFAULT 100 /* beacon interval, in unit of 1024TU */
92 #define DTIM_INTERVAL_DEFAULT 3 /* DTIM interval, in unit of beacon interval */
93
94 /* Scale down delays to accommodate QT slow speed */
95 #define BEACON_INTERVAL_DEF_QT 20 /* beacon interval, in unit of 1024TU */
96 #define DTIM_INTERVAL_DEF_QT 1 /* DTIM interval, in unit of beacon interval */
97
98 #define TBTT_ALIGN_LEEWAY_US 100 /* min leeway before first TBTT in us */
99
100 /*
101 * driver maintains internal 'tick'(wlc->pub->now) which increments in 1s OS timer(soft
102 * watchdog) it is not a wall clock and won't increment when driver is in "down" state
103 * this low resolution driver tick can be used for maintenance tasks such as phy
104 * calibration and scb update
105 */
106
107 /* watchdog trigger mode: OSL timer or TBTT */
108 #define WLC_WATCHDOG_TBTT(wlc) \
109 (wlc->stas_associated > 0 && wlc->PM != PM_OFF && wlc->pub->align_wd_tbtt)
110
111 /* To inform the ucode of the last mcast frame posted so that it can clear moredata bit */
112 #define BCMCFID(wlc, fid) wlc_bmac_write_shm((wlc)->hw, M_BCMC_FID, (fid))
113
114 #define WLC_WAR16165(wlc) (wlc->pub->sih->bustype == PCI_BUS && \
115 (!AP_ENAB(wlc->pub)) && (wlc->war16165))
116
117 /* debug/trace */
118 uint wl_msg_level =
119 #if defined(BCMDBG)
120 WL_ERROR_VAL;
121 #else
122 0;
123 #endif /* BCMDBG */
124
125 /* Find basic rate for a given rate */
126 #define WLC_BASIC_RATE(wlc, rspec) (IS_MCS(rspec) ? \
127 (wlc)->band->basic_rate[mcs_table[rspec & RSPEC_RATE_MASK].leg_ofdm] : \
128 (wlc)->band->basic_rate[rspec & RSPEC_RATE_MASK])
129
130 #define FRAMETYPE(r, mimoframe) (IS_MCS(r) ? mimoframe : (IS_CCK(r) ? FT_CCK : FT_OFDM))
131
132 #define RFDISABLE_DEFAULT 10000000 /* rfdisable delay timer 500 ms, runs of ALP clock */
133
134 #define WLC_TEMPSENSE_PERIOD 10 /* 10 second timeout */
135
136 #define SCAN_IN_PROGRESS(x) 0
137
138 #define EPI_VERSION_NUM 0x054b0b00
139
140 #ifdef BCMDBG
141 /* pointer to most recently allocated wl/wlc */
142 static struct wlc_info *wlc_info_dbg = (struct wlc_info *) (NULL);
143 #endif
144
145 /* IOVar table */
146
147 /* Parameter IDs, for use only internally to wlc -- in the wlc_iovars
148 * table and by the wlc_doiovar() function. No ordering is imposed:
149 * the table is keyed by name, and the function uses a switch.
150 */
151 enum {
152 IOV_MPC = 1,
153 IOV_RTSTHRESH,
154 IOV_QTXPOWER,
155 IOV_BCN_LI_BCN, /* Beacon listen interval in # of beacons */
156 IOV_LAST /* In case of a need to check max ID number */
157 };
158
159 const bcm_iovar_t wlc_iovars[] = {
160 {"mpc", IOV_MPC, (0), IOVT_BOOL, 0},
161 {"rtsthresh", IOV_RTSTHRESH, (IOVF_WHL), IOVT_UINT16, 0},
162 {"qtxpower", IOV_QTXPOWER, (IOVF_WHL), IOVT_UINT32, 0},
163 {"bcn_li_bcn", IOV_BCN_LI_BCN, (0), IOVT_UINT8, 0},
164 {NULL, 0, 0, 0, 0}
165 };
166
167 const u8 prio2fifo[NUMPRIO] = {
168 TX_AC_BE_FIFO, /* 0 BE AC_BE Best Effort */
169 TX_AC_BK_FIFO, /* 1 BK AC_BK Background */
170 TX_AC_BK_FIFO, /* 2 -- AC_BK Background */
171 TX_AC_BE_FIFO, /* 3 EE AC_BE Best Effort */
172 TX_AC_VI_FIFO, /* 4 CL AC_VI Video */
173 TX_AC_VI_FIFO, /* 5 VI AC_VI Video */
174 TX_AC_VO_FIFO, /* 6 VO AC_VO Voice */
175 TX_AC_VO_FIFO /* 7 NC AC_VO Voice */
176 };
177
178 /* precedences numbers for wlc queues. These are twice as may levels as
179 * 802.1D priorities.
180 * Odd numbers are used for HI priority traffic at same precedence levels
181 * These constants are used ONLY by wlc_prio2prec_map. Do not use them elsewhere.
182 */
183 #define _WLC_PREC_NONE 0 /* None = - */
184 #define _WLC_PREC_BK 2 /* BK - Background */
185 #define _WLC_PREC_BE 4 /* BE - Best-effort */
186 #define _WLC_PREC_EE 6 /* EE - Excellent-effort */
187 #define _WLC_PREC_CL 8 /* CL - Controlled Load */
188 #define _WLC_PREC_VI 10 /* Vi - Video */
189 #define _WLC_PREC_VO 12 /* Vo - Voice */
190 #define _WLC_PREC_NC 14 /* NC - Network Control */
191
192 /* 802.1D Priority to precedence queue mapping */
193 const u8 wlc_prio2prec_map[] = {
194 _WLC_PREC_BE, /* 0 BE - Best-effort */
195 _WLC_PREC_BK, /* 1 BK - Background */
196 _WLC_PREC_NONE, /* 2 None = - */
197 _WLC_PREC_EE, /* 3 EE - Excellent-effort */
198 _WLC_PREC_CL, /* 4 CL - Controlled Load */
199 _WLC_PREC_VI, /* 5 Vi - Video */
200 _WLC_PREC_VO, /* 6 Vo - Voice */
201 _WLC_PREC_NC, /* 7 NC - Network Control */
202 };
203
204 /* Sanity check for tx_prec_map and fifo synchup
205 * Either there are some packets pending for the fifo, else if fifo is empty then
206 * all the corresponding precmap bits should be set
207 */
208 #define WLC_TX_FIFO_CHECK(wlc, fifo) (TXPKTPENDGET((wlc), (fifo)) || \
209 (TXPKTPENDGET((wlc), (fifo)) == 0 && \
210 ((wlc)->tx_prec_map & (wlc)->fifo2prec_map[(fifo)]) == \
211 (wlc)->fifo2prec_map[(fifo)]))
212
213 /* TX FIFO number to WME/802.1E Access Category */
214 const u8 wme_fifo2ac[] = { AC_BK, AC_BE, AC_VI, AC_VO, AC_BE, AC_BE };
215
216 /* WME/802.1E Access Category to TX FIFO number */
217 static const u8 wme_ac2fifo[] = { 1, 0, 2, 3 };
218
219 static bool in_send_q = false;
220
221 /* Shared memory location index for various AC params */
222 #define wme_shmemacindex(ac) wme_ac2fifo[ac]
223
224 #ifdef BCMDBG
225 static const char *fifo_names[] = {
226 "AC_BK", "AC_BE", "AC_VI", "AC_VO", "BCMC", "ATIM" };
227 #else
228 static const char fifo_names[6][0];
229 #endif
230
231 static const u8 acbitmap2maxprio[] = {
232 PRIO_8021D_BE, PRIO_8021D_BE, PRIO_8021D_BK, PRIO_8021D_BK,
233 PRIO_8021D_VI, PRIO_8021D_VI, PRIO_8021D_VI, PRIO_8021D_VI,
234 PRIO_8021D_VO, PRIO_8021D_VO, PRIO_8021D_VO, PRIO_8021D_VO,
235 PRIO_8021D_VO, PRIO_8021D_VO, PRIO_8021D_VO, PRIO_8021D_VO
236 };
237
238 /* currently the best mechanism for determining SIFS is the band in use */
239 #define SIFS(band) ((band)->bandtype == WLC_BAND_5G ? APHY_SIFS_TIME : BPHY_SIFS_TIME);
240
241 /* value for # replay counters currently supported */
242 #define WLC_REPLAY_CNTRS_VALUE WPA_CAP_16_REPLAY_CNTRS
243
244 /* local prototypes */
245 static u16 BCMFASTPATH wlc_d11hdrs_mac80211(struct wlc_info *wlc,
246 struct ieee80211_hw *hw,
247 struct sk_buff *p,
248 struct scb *scb, uint frag,
249 uint nfrags, uint queue,
250 uint next_frag_len,
251 wsec_key_t *key,
252 ratespec_t rspec_override);
253
254 static void wlc_ctrupd_cache(u16 cur_stat, u16 *macstat_snapshot, u32 *macstat);
255 static void wlc_bss_default_init(struct wlc_info *wlc);
256 static void wlc_ucode_mac_upd(struct wlc_info *wlc);
257 static ratespec_t mac80211_wlc_set_nrate(struct wlc_info *wlc,
258 struct wlcband *cur_band, u32 int_val);
259 static void wlc_tx_prec_map_init(struct wlc_info *wlc);
260 static void wlc_watchdog(void *arg);
261 static void wlc_watchdog_by_timer(void *arg);
262 static u16 wlc_rate_shm_offset(struct wlc_info *wlc, u8 rate);
263 static int wlc_set_rateset(struct wlc_info *wlc, wlc_rateset_t *rs_arg);
264 static int wlc_iovar_rangecheck(struct wlc_info *wlc, u32 val,
265 const bcm_iovar_t *vi);
266 static u8 wlc_local_constraint_qdbm(struct wlc_info *wlc);
267
268 /* send and receive */
269 static struct wlc_txq_info *wlc_txq_alloc(struct wlc_info *wlc);
270 static void wlc_txq_free(struct wlc_info *wlc,
271 struct wlc_txq_info *qi);
272 static void wlc_txflowcontrol_signal(struct wlc_info *wlc,
273 struct wlc_txq_info *qi,
274 bool on, int prio);
275 static void wlc_txflowcontrol_reset(struct wlc_info *wlc);
276 static u16 wlc_compute_airtime(struct wlc_info *wlc, ratespec_t rspec,
277 uint length);
278 static void wlc_compute_cck_plcp(ratespec_t rate, uint length, u8 *plcp);
279 static void wlc_compute_ofdm_plcp(ratespec_t rate, uint length, u8 *plcp);
280 static void wlc_compute_mimo_plcp(ratespec_t rate, uint length, u8 *plcp);
281 static u16 wlc_compute_frame_dur(struct wlc_info *wlc, ratespec_t rate,
282 u8 preamble_type, uint next_frag_len);
283 static void wlc_recvctl(struct wlc_info *wlc,
284 d11rxhdr_t *rxh, struct sk_buff *p);
285 static uint wlc_calc_frame_len(struct wlc_info *wlc, ratespec_t rate,
286 u8 preamble_type, uint dur);
287 static uint wlc_calc_ack_time(struct wlc_info *wlc, ratespec_t rate,
288 u8 preamble_type);
289 static uint wlc_calc_cts_time(struct wlc_info *wlc, ratespec_t rate,
290 u8 preamble_type);
291 /* interrupt, up/down, band */
292 static void wlc_setband(struct wlc_info *wlc, uint bandunit);
293 static chanspec_t wlc_init_chanspec(struct wlc_info *wlc);
294 static void wlc_bandinit_ordered(struct wlc_info *wlc, chanspec_t chanspec);
295 static void wlc_bsinit(struct wlc_info *wlc);
296 static int wlc_duty_cycle_set(struct wlc_info *wlc, int duty_cycle, bool isOFDM,
297 bool writeToShm);
298 static void wlc_radio_hwdisable_upd(struct wlc_info *wlc);
299 static bool wlc_radio_monitor_start(struct wlc_info *wlc);
300 static void wlc_radio_timer(void *arg);
301 static void wlc_radio_enable(struct wlc_info *wlc);
302 static void wlc_radio_upd(struct wlc_info *wlc);
303
304 /* scan, association, BSS */
305 static uint wlc_calc_ba_time(struct wlc_info *wlc, ratespec_t rate,
306 u8 preamble_type);
307 static void wlc_update_mimo_band_bwcap(struct wlc_info *wlc, u8 bwcap);
308 static void wlc_ht_update_sgi_rx(struct wlc_info *wlc, int val);
309 static void wlc_ht_update_ldpc(struct wlc_info *wlc, s8 val);
310 static void wlc_war16165(struct wlc_info *wlc, bool tx);
311
312 static void wlc_wme_retries_write(struct wlc_info *wlc);
313 static bool wlc_attach_stf_ant_init(struct wlc_info *wlc);
314 static uint wlc_attach_module(struct wlc_info *wlc);
315 static void wlc_detach_module(struct wlc_info *wlc);
316 static void wlc_timers_deinit(struct wlc_info *wlc);
317 static void wlc_down_led_upd(struct wlc_info *wlc);
318 static uint wlc_down_del_timer(struct wlc_info *wlc);
319 static void wlc_ofdm_rateset_war(struct wlc_info *wlc);
320 static int _wlc_ioctl(struct wlc_info *wlc, int cmd, void *arg, int len,
321 struct wlc_if *wlcif);
322
323 #if defined(BCMDBG)
wlc_get_rcmta(struct wlc_info * wlc,int idx,u8 * addr)324 void wlc_get_rcmta(struct wlc_info *wlc, int idx, u8 *addr)
325 {
326 d11regs_t *regs = wlc->regs;
327 u32 v32;
328
329 WL_TRACE("wl%d: %s\n", WLCWLUNIT(wlc), __func__);
330
331 W_REG(®s->objaddr, (OBJADDR_RCMTA_SEL | (idx * 2)));
332 (void)R_REG(®s->objaddr);
333 v32 = R_REG(®s->objdata);
334 addr[0] = (u8) v32;
335 addr[1] = (u8) (v32 >> 8);
336 addr[2] = (u8) (v32 >> 16);
337 addr[3] = (u8) (v32 >> 24);
338 W_REG(®s->objaddr, (OBJADDR_RCMTA_SEL | ((idx * 2) + 1)));
339 (void)R_REG(®s->objaddr);
340 v32 = R_REG(®s->objdata);
341 addr[4] = (u8) v32;
342 addr[5] = (u8) (v32 >> 8);
343 }
344 #endif /* defined(BCMDBG) */
345
346 /* keep the chip awake if needed */
wlc_stay_awake(struct wlc_info * wlc)347 bool wlc_stay_awake(struct wlc_info *wlc)
348 {
349 return true;
350 }
351
352 /* conditions under which the PM bit should be set in outgoing frames and STAY_AWAKE is meaningful
353 */
wlc_ps_allowed(struct wlc_info * wlc)354 bool wlc_ps_allowed(struct wlc_info *wlc)
355 {
356 int idx;
357 struct wlc_bsscfg *cfg;
358
359 /* disallow PS when one of the following global conditions meets */
360 if (!wlc->pub->associated || !wlc->PMenabled || wlc->PM_override)
361 return false;
362
363 /* disallow PS when one of these meets when not scanning */
364 if (!wlc->PMblocked) {
365 if (AP_ACTIVE(wlc) || wlc->monitor)
366 return false;
367 }
368
369 FOREACH_AS_STA(wlc, idx, cfg) {
370 /* disallow PS when one of the following bsscfg specific conditions meets */
371 if (!cfg->BSS || !WLC_PORTOPEN(cfg))
372 return false;
373
374 if (!cfg->dtim_programmed)
375 return false;
376 }
377
378 return true;
379 }
380
wlc_reset(struct wlc_info * wlc)381 void wlc_reset(struct wlc_info *wlc)
382 {
383 WL_TRACE("wl%d: wlc_reset\n", wlc->pub->unit);
384
385 wlc->check_for_unaligned_tbtt = false;
386
387 /* slurp up hw mac counters before core reset */
388 wlc_statsupd(wlc);
389
390 /* reset our snapshot of macstat counters */
391 memset((char *)wlc->core->macstat_snapshot, 0,
392 sizeof(macstat_t));
393
394 wlc_bmac_reset(wlc->hw);
395 wlc_ampdu_reset(wlc->ampdu);
396 wlc->txretried = 0;
397
398 }
399
wlc_fatal_error(struct wlc_info * wlc)400 void wlc_fatal_error(struct wlc_info *wlc)
401 {
402 WL_ERROR("wl%d: fatal error, reinitializing\n", wlc->pub->unit);
403 wl_init(wlc->wl);
404 }
405
406 /* Return the channel the driver should initialize during wlc_init.
407 * the channel may have to be changed from the currently configured channel
408 * if other configurations are in conflict (bandlocked, 11n mode disabled,
409 * invalid channel for current country, etc.)
410 */
wlc_init_chanspec(struct wlc_info * wlc)411 static chanspec_t wlc_init_chanspec(struct wlc_info *wlc)
412 {
413 chanspec_t chanspec =
414 1 | WL_CHANSPEC_BW_20 | WL_CHANSPEC_CTL_SB_NONE |
415 WL_CHANSPEC_BAND_2G;
416
417 /* make sure the channel is on the supported band if we are band-restricted */
418 if (wlc->bandlocked || NBANDS(wlc) == 1) {
419 ASSERT(CHSPEC_WLCBANDUNIT(chanspec) == wlc->band->bandunit);
420 }
421 ASSERT(wlc_valid_chanspec_db(wlc->cmi, chanspec));
422 return chanspec;
423 }
424
425 struct scb global_scb;
426
wlc_init_scb(struct wlc_info * wlc,struct scb * scb)427 static void wlc_init_scb(struct wlc_info *wlc, struct scb *scb)
428 {
429 int i;
430 scb->flags = SCB_WMECAP | SCB_HTCAP;
431 for (i = 0; i < NUMPRIO; i++)
432 scb->seqnum[i] = 0;
433 }
434
wlc_init(struct wlc_info * wlc)435 void wlc_init(struct wlc_info *wlc)
436 {
437 d11regs_t *regs;
438 chanspec_t chanspec;
439 int i;
440 struct wlc_bsscfg *bsscfg;
441 bool mute = false;
442
443 WL_TRACE("wl%d: wlc_init\n", wlc->pub->unit);
444
445 regs = wlc->regs;
446
447 /* This will happen if a big-hammer was executed. In that case, we want to go back
448 * to the channel that we were on and not new channel
449 */
450 if (wlc->pub->associated)
451 chanspec = wlc->home_chanspec;
452 else
453 chanspec = wlc_init_chanspec(wlc);
454
455 wlc_bmac_init(wlc->hw, chanspec, mute);
456
457 wlc->seckeys = wlc_bmac_read_shm(wlc->hw, M_SECRXKEYS_PTR) * 2;
458 if (wlc->machwcap & MCAP_TKIPMIC)
459 wlc->tkmickeys =
460 wlc_bmac_read_shm(wlc->hw, M_TKMICKEYS_PTR) * 2;
461
462 /* update beacon listen interval */
463 wlc_bcn_li_upd(wlc);
464 wlc->bcn_wait_prd =
465 (u8) (wlc_bmac_read_shm(wlc->hw, M_NOSLPZNATDTIM) >> 10);
466 ASSERT(wlc->bcn_wait_prd > 0);
467
468 /* the world is new again, so is our reported rate */
469 wlc_reprate_init(wlc);
470
471 /* write ethernet address to core */
472 FOREACH_BSS(wlc, i, bsscfg) {
473 wlc_set_mac(bsscfg);
474 wlc_set_bssid(bsscfg);
475 }
476
477 /* Update tsf_cfprep if associated and up */
478 if (wlc->pub->associated) {
479 FOREACH_BSS(wlc, i, bsscfg) {
480 if (bsscfg->up) {
481 u32 bi;
482
483 /* get beacon period and convert to uS */
484 bi = bsscfg->current_bss->beacon_period << 10;
485 /*
486 * update since init path would reset
487 * to default value
488 */
489 W_REG(®s->tsf_cfprep,
490 (bi << CFPREP_CBI_SHIFT));
491
492 /* Update maccontrol PM related bits */
493 wlc_set_ps_ctrl(wlc);
494
495 break;
496 }
497 }
498 }
499
500 wlc_key_hw_init_all(wlc);
501
502 wlc_bandinit_ordered(wlc, chanspec);
503
504 wlc_init_scb(wlc, &global_scb);
505
506 /* init probe response timeout */
507 wlc_write_shm(wlc, M_PRS_MAXTIME, wlc->prb_resp_timeout);
508
509 /* init max burst txop (framebursting) */
510 wlc_write_shm(wlc, M_MBURST_TXOP,
511 (wlc->
512 _rifs ? (EDCF_AC_VO_TXOP_AP << 5) : MAXFRAMEBURST_TXOP));
513
514 /* initialize maximum allowed duty cycle */
515 wlc_duty_cycle_set(wlc, wlc->tx_duty_cycle_ofdm, true, true);
516 wlc_duty_cycle_set(wlc, wlc->tx_duty_cycle_cck, false, true);
517
518 /* Update some shared memory locations related to max AMPDU size allowed to received */
519 wlc_ampdu_shm_upd(wlc->ampdu);
520
521 /* band-specific inits */
522 wlc_bsinit(wlc);
523
524 /* Enable EDCF mode (while the MAC is suspended) */
525 if (EDCF_ENAB(wlc->pub)) {
526 OR_REG(®s->ifs_ctl, IFS_USEEDCF);
527 wlc_edcf_setparams(wlc->cfg, false);
528 }
529
530 /* Init precedence maps for empty FIFOs */
531 wlc_tx_prec_map_init(wlc);
532
533 /* read the ucode version if we have not yet done so */
534 if (wlc->ucode_rev == 0) {
535 wlc->ucode_rev =
536 wlc_read_shm(wlc, M_BOM_REV_MAJOR) << NBITS(u16);
537 wlc->ucode_rev |= wlc_read_shm(wlc, M_BOM_REV_MINOR);
538 }
539
540 /* ..now really unleash hell (allow the MAC out of suspend) */
541 wlc_enable_mac(wlc);
542
543 /* clear tx flow control */
544 wlc_txflowcontrol_reset(wlc);
545
546 /* clear tx data fifo suspends */
547 wlc->tx_suspended = false;
548
549 /* enable the RF Disable Delay timer */
550 W_REG(&wlc->regs->rfdisabledly, RFDISABLE_DEFAULT);
551
552 /* initialize mpc delay */
553 wlc->mpc_delay_off = wlc->mpc_dlycnt = WLC_MPC_MIN_DELAYCNT;
554
555 /*
556 * Initialize WME parameters; if they haven't been set by some other
557 * mechanism (IOVar, etc) then read them from the hardware.
558 */
559 if (WLC_WME_RETRY_SHORT_GET(wlc, 0) == 0) { /* Uninitialized; read from HW */
560 int ac;
561
562 ASSERT(wlc->clk);
563 for (ac = 0; ac < AC_COUNT; ac++) {
564 wlc->wme_retries[ac] =
565 wlc_read_shm(wlc, M_AC_TXLMT_ADDR(ac));
566 }
567 }
568 }
569
wlc_mac_bcn_promisc_change(struct wlc_info * wlc,bool promisc)570 void wlc_mac_bcn_promisc_change(struct wlc_info *wlc, bool promisc)
571 {
572 wlc->bcnmisc_monitor = promisc;
573 wlc_mac_bcn_promisc(wlc);
574 }
575
wlc_mac_bcn_promisc(struct wlc_info * wlc)576 void wlc_mac_bcn_promisc(struct wlc_info *wlc)
577 {
578 if ((AP_ENAB(wlc->pub) && (N_ENAB(wlc->pub) || wlc->band->gmode)) ||
579 wlc->bcnmisc_ibss || wlc->bcnmisc_scan || wlc->bcnmisc_monitor)
580 wlc_mctrl(wlc, MCTL_BCNS_PROMISC, MCTL_BCNS_PROMISC);
581 else
582 wlc_mctrl(wlc, MCTL_BCNS_PROMISC, 0);
583 }
584
585 /* set or clear maccontrol bits MCTL_PROMISC and MCTL_KEEPCONTROL */
wlc_mac_promisc(struct wlc_info * wlc)586 void wlc_mac_promisc(struct wlc_info *wlc)
587 {
588 u32 promisc_bits = 0;
589
590 /* promiscuous mode just sets MCTL_PROMISC
591 * Note: APs get all BSS traffic without the need to set the MCTL_PROMISC bit
592 * since all BSS data traffic is directed at the AP
593 */
594 if (PROMISC_ENAB(wlc->pub) && !AP_ENAB(wlc->pub) && !wlc->wet)
595 promisc_bits |= MCTL_PROMISC;
596
597 /* monitor mode needs both MCTL_PROMISC and MCTL_KEEPCONTROL
598 * Note: monitor mode also needs MCTL_BCNS_PROMISC, but that is
599 * handled in wlc_mac_bcn_promisc()
600 */
601 if (MONITOR_ENAB(wlc))
602 promisc_bits |= MCTL_PROMISC | MCTL_KEEPCONTROL;
603
604 wlc_mctrl(wlc, MCTL_PROMISC | MCTL_KEEPCONTROL, promisc_bits);
605 }
606
607 /* check if hps and wake states of sw and hw are in sync */
wlc_ps_check(struct wlc_info * wlc)608 bool wlc_ps_check(struct wlc_info *wlc)
609 {
610 bool res = true;
611 bool hps, wake;
612 bool wake_ok;
613
614 if (!AP_ACTIVE(wlc)) {
615 u32 tmp;
616 tmp = R_REG(&wlc->regs->maccontrol);
617
618 /*
619 * If deviceremoved is detected, then don't take any action as
620 * this can be called in any context. Assume that caller will
621 * take care of the condition. This is just to avoid assert
622 */
623 if (tmp == 0xffffffff) {
624 WL_ERROR("wl%d: %s: dead chip\n",
625 wlc->pub->unit, __func__);
626 return DEVICEREMOVED(wlc);
627 }
628
629 hps = PS_ALLOWED(wlc);
630
631 if (hps != ((tmp & MCTL_HPS) != 0)) {
632 int idx;
633 struct wlc_bsscfg *cfg;
634 WL_ERROR("wl%d: hps not sync, sw %d, maccontrol 0x%x\n",
635 wlc->pub->unit, hps, tmp);
636 FOREACH_BSS(wlc, idx, cfg) {
637 if (!BSSCFG_STA(cfg))
638 continue;
639 }
640
641 res = false;
642 }
643 /* For a monolithic build the wake check can be exact since it looks at wake
644 * override bits. The MCTL_WAKE bit should match the 'wake' value.
645 */
646 wake = STAY_AWAKE(wlc) || wlc->hw->wake_override;
647 wake_ok = (wake == ((tmp & MCTL_WAKE) != 0));
648 if (hps && !wake_ok) {
649 WL_ERROR("wl%d: wake not sync, sw %d maccontrol 0x%x\n",
650 wlc->pub->unit, wake, tmp);
651 res = false;
652 }
653 }
654 ASSERT(res);
655 return res;
656 }
657
658 /* push sw hps and wake state through hardware */
wlc_set_ps_ctrl(struct wlc_info * wlc)659 void wlc_set_ps_ctrl(struct wlc_info *wlc)
660 {
661 u32 v1, v2;
662 bool hps, wake;
663 bool awake_before;
664
665 hps = PS_ALLOWED(wlc);
666 wake = hps ? (STAY_AWAKE(wlc)) : true;
667
668 WL_TRACE("wl%d: wlc_set_ps_ctrl: hps %d wake %d\n",
669 wlc->pub->unit, hps, wake);
670
671 v1 = R_REG(&wlc->regs->maccontrol);
672 v2 = 0;
673 if (hps)
674 v2 |= MCTL_HPS;
675 if (wake)
676 v2 |= MCTL_WAKE;
677
678 wlc_mctrl(wlc, MCTL_WAKE | MCTL_HPS, v2);
679
680 awake_before = ((v1 & MCTL_WAKE) || ((v1 & MCTL_HPS) == 0));
681
682 if (wake && !awake_before)
683 wlc_bmac_wait_for_wake(wlc->hw);
684
685 }
686
687 /*
688 * Write this BSS config's MAC address to core.
689 * Updates RXE match engine.
690 */
wlc_set_mac(struct wlc_bsscfg * cfg)691 int wlc_set_mac(struct wlc_bsscfg *cfg)
692 {
693 int err = 0;
694 struct wlc_info *wlc = cfg->wlc;
695
696 if (cfg == wlc->cfg) {
697 /* enter the MAC addr into the RXE match registers */
698 wlc_set_addrmatch(wlc, RCM_MAC_OFFSET, cfg->cur_etheraddr);
699 }
700
701 wlc_ampdu_macaddr_upd(wlc);
702
703 return err;
704 }
705
706 /* Write the BSS config's BSSID address to core (set_bssid in d11procs.tcl).
707 * Updates RXE match engine.
708 */
wlc_set_bssid(struct wlc_bsscfg * cfg)709 void wlc_set_bssid(struct wlc_bsscfg *cfg)
710 {
711 struct wlc_info *wlc = cfg->wlc;
712
713 /* if primary config, we need to update BSSID in RXE match registers */
714 if (cfg == wlc->cfg) {
715 wlc_set_addrmatch(wlc, RCM_BSSID_OFFSET, cfg->BSSID);
716 }
717 #ifdef SUPPORT_HWKEYS
718 else if (BSSCFG_STA(cfg) && cfg->BSS) {
719 wlc_rcmta_add_bssid(wlc, cfg);
720 }
721 #endif
722 }
723
724 /*
725 * Suspend the the MAC and update the slot timing
726 * for standard 11b/g (20us slots) or shortslot 11g (9us slots).
727 */
wlc_switch_shortslot(struct wlc_info * wlc,bool shortslot)728 void wlc_switch_shortslot(struct wlc_info *wlc, bool shortslot)
729 {
730 int idx;
731 struct wlc_bsscfg *cfg;
732
733 ASSERT(wlc->band->gmode);
734
735 /* use the override if it is set */
736 if (wlc->shortslot_override != WLC_SHORTSLOT_AUTO)
737 shortslot = (wlc->shortslot_override == WLC_SHORTSLOT_ON);
738
739 if (wlc->shortslot == shortslot)
740 return;
741
742 wlc->shortslot = shortslot;
743
744 /* update the capability based on current shortslot mode */
745 FOREACH_BSS(wlc, idx, cfg) {
746 if (!cfg->associated)
747 continue;
748 cfg->current_bss->capability &=
749 ~WLAN_CAPABILITY_SHORT_SLOT_TIME;
750 if (wlc->shortslot)
751 cfg->current_bss->capability |=
752 WLAN_CAPABILITY_SHORT_SLOT_TIME;
753 }
754
755 wlc_bmac_set_shortslot(wlc->hw, shortslot);
756 }
757
wlc_local_constraint_qdbm(struct wlc_info * wlc)758 static u8 wlc_local_constraint_qdbm(struct wlc_info *wlc)
759 {
760 u8 local;
761 s16 local_max;
762
763 local = WLC_TXPWR_MAX;
764 if (wlc->pub->associated &&
765 (wf_chspec_ctlchan(wlc->chanspec) ==
766 wf_chspec_ctlchan(wlc->home_chanspec))) {
767
768 /* get the local power constraint if we are on the AP's
769 * channel [802.11h, 7.3.2.13]
770 */
771 /* Clamp the value between 0 and WLC_TXPWR_MAX w/o overflowing the target */
772 local_max =
773 (wlc->txpwr_local_max -
774 wlc->txpwr_local_constraint) * WLC_TXPWR_DB_FACTOR;
775 if (local_max > 0 && local_max < WLC_TXPWR_MAX)
776 return (u8) local_max;
777 if (local_max < 0)
778 return 0;
779 }
780
781 return local;
782 }
783
784 /* propagate home chanspec to all bsscfgs in case bsscfg->current_bss->chanspec is referenced */
wlc_set_home_chanspec(struct wlc_info * wlc,chanspec_t chanspec)785 void wlc_set_home_chanspec(struct wlc_info *wlc, chanspec_t chanspec)
786 {
787 if (wlc->home_chanspec != chanspec) {
788 int idx;
789 struct wlc_bsscfg *cfg;
790
791 wlc->home_chanspec = chanspec;
792
793 FOREACH_BSS(wlc, idx, cfg) {
794 if (!cfg->associated)
795 continue;
796
797 cfg->current_bss->chanspec = chanspec;
798 }
799
800 }
801 }
802
wlc_set_phy_chanspec(struct wlc_info * wlc,chanspec_t chanspec)803 static void wlc_set_phy_chanspec(struct wlc_info *wlc, chanspec_t chanspec)
804 {
805 /* Save our copy of the chanspec */
806 wlc->chanspec = chanspec;
807
808 /* Set the chanspec and power limits for this locale after computing
809 * any 11h local tx power constraints.
810 */
811 wlc_channel_set_chanspec(wlc->cmi, chanspec,
812 wlc_local_constraint_qdbm(wlc));
813
814 if (wlc->stf->ss_algosel_auto)
815 wlc_stf_ss_algo_channel_get(wlc, &wlc->stf->ss_algo_channel,
816 chanspec);
817
818 wlc_stf_ss_update(wlc, wlc->band);
819
820 }
821
wlc_set_chanspec(struct wlc_info * wlc,chanspec_t chanspec)822 void wlc_set_chanspec(struct wlc_info *wlc, chanspec_t chanspec)
823 {
824 uint bandunit;
825 bool switchband = false;
826 chanspec_t old_chanspec = wlc->chanspec;
827
828 if (!wlc_valid_chanspec_db(wlc->cmi, chanspec)) {
829 WL_ERROR("wl%d: %s: Bad channel %d\n",
830 wlc->pub->unit, __func__, CHSPEC_CHANNEL(chanspec));
831 ASSERT(wlc_valid_chanspec_db(wlc->cmi, chanspec));
832 return;
833 }
834
835 /* Switch bands if necessary */
836 if (NBANDS(wlc) > 1) {
837 bandunit = CHSPEC_WLCBANDUNIT(chanspec);
838 if (wlc->band->bandunit != bandunit || wlc->bandinit_pending) {
839 switchband = true;
840 if (wlc->bandlocked) {
841 WL_ERROR("wl%d: %s: chspec %d band is locked!\n",
842 wlc->pub->unit, __func__,
843 CHSPEC_CHANNEL(chanspec));
844 return;
845 }
846 /* BMAC_NOTE: should the setband call come after the wlc_bmac_chanspec() ?
847 * if the setband updates (wlc_bsinit) use low level calls to inspect and
848 * set state, the state inspected may be from the wrong band, or the
849 * following wlc_bmac_set_chanspec() may undo the work.
850 */
851 wlc_setband(wlc, bandunit);
852 }
853 }
854
855 ASSERT(N_ENAB(wlc->pub) || !CHSPEC_IS40(chanspec));
856
857 /* sync up phy/radio chanspec */
858 wlc_set_phy_chanspec(wlc, chanspec);
859
860 /* init antenna selection */
861 if (CHSPEC_WLC_BW(old_chanspec) != CHSPEC_WLC_BW(chanspec)) {
862 wlc_antsel_init(wlc->asi);
863
864 /* Fix the hardware rateset based on bw.
865 * Mainly add MCS32 for 40Mhz, remove MCS 32 for 20Mhz
866 */
867 wlc_rateset_bw_mcs_filter(&wlc->band->hw_rateset,
868 wlc->band->
869 mimo_cap_40 ? CHSPEC_WLC_BW(chanspec)
870 : 0);
871 }
872
873 /* update some mac configuration since chanspec changed */
874 wlc_ucode_mac_upd(wlc);
875 }
876
877 #if defined(BCMDBG)
wlc_get_current_txpwr(struct wlc_info * wlc,void * pwr,uint len)878 static int wlc_get_current_txpwr(struct wlc_info *wlc, void *pwr, uint len)
879 {
880 txpwr_limits_t txpwr;
881 tx_power_t power;
882 tx_power_legacy_t *old_power = NULL;
883 int r, c;
884 uint qdbm;
885 bool override;
886
887 if (len == sizeof(tx_power_legacy_t))
888 old_power = (tx_power_legacy_t *) pwr;
889 else if (len < sizeof(tx_power_t))
890 return BCME_BUFTOOSHORT;
891
892 memset(&power, 0, sizeof(tx_power_t));
893
894 power.chanspec = WLC_BAND_PI_RADIO_CHANSPEC;
895 if (wlc->pub->associated)
896 power.local_chanspec = wlc->home_chanspec;
897
898 /* Return the user target tx power limits for the various rates. Note wlc_phy.c's
899 * public interface only implements getting and setting a single value for all of
900 * rates, so we need to fill the array ourselves.
901 */
902 wlc_phy_txpower_get(wlc->band->pi, &qdbm, &override);
903 for (r = 0; r < WL_TX_POWER_RATES; r++) {
904 power.user_limit[r] = (u8) qdbm;
905 }
906
907 power.local_max = wlc->txpwr_local_max * WLC_TXPWR_DB_FACTOR;
908 power.local_constraint =
909 wlc->txpwr_local_constraint * WLC_TXPWR_DB_FACTOR;
910
911 power.antgain[0] = wlc->bandstate[BAND_2G_INDEX]->antgain;
912 power.antgain[1] = wlc->bandstate[BAND_5G_INDEX]->antgain;
913
914 wlc_channel_reg_limits(wlc->cmi, power.chanspec, &txpwr);
915
916 #if WL_TX_POWER_CCK_NUM != WLC_NUM_RATES_CCK
917 #error "WL_TX_POWER_CCK_NUM != WLC_NUM_RATES_CCK"
918 #endif
919
920 /* CCK tx power limits */
921 for (c = 0, r = WL_TX_POWER_CCK_FIRST; c < WL_TX_POWER_CCK_NUM;
922 c++, r++)
923 power.reg_limit[r] = txpwr.cck[c];
924
925 #if WL_TX_POWER_OFDM_NUM != WLC_NUM_RATES_OFDM
926 #error "WL_TX_POWER_OFDM_NUM != WLC_NUM_RATES_OFDM"
927 #endif
928
929 /* 20 MHz OFDM SISO tx power limits */
930 for (c = 0, r = WL_TX_POWER_OFDM_FIRST; c < WL_TX_POWER_OFDM_NUM;
931 c++, r++)
932 power.reg_limit[r] = txpwr.ofdm[c];
933
934 if (WLC_PHY_11N_CAP(wlc->band)) {
935
936 /* 20 MHz OFDM CDD tx power limits */
937 for (c = 0, r = WL_TX_POWER_OFDM20_CDD_FIRST;
938 c < WL_TX_POWER_OFDM_NUM; c++, r++)
939 power.reg_limit[r] = txpwr.ofdm_cdd[c];
940
941 /* 40 MHz OFDM SISO tx power limits */
942 for (c = 0, r = WL_TX_POWER_OFDM40_SISO_FIRST;
943 c < WL_TX_POWER_OFDM_NUM; c++, r++)
944 power.reg_limit[r] = txpwr.ofdm_40_siso[c];
945
946 /* 40 MHz OFDM CDD tx power limits */
947 for (c = 0, r = WL_TX_POWER_OFDM40_CDD_FIRST;
948 c < WL_TX_POWER_OFDM_NUM; c++, r++)
949 power.reg_limit[r] = txpwr.ofdm_40_cdd[c];
950
951 #if WL_TX_POWER_MCS_1_STREAM_NUM != WLC_NUM_RATES_MCS_1_STREAM
952 #error "WL_TX_POWER_MCS_1_STREAM_NUM != WLC_NUM_RATES_MCS_1_STREAM"
953 #endif
954
955 /* 20MHz MCS0-7 SISO tx power limits */
956 for (c = 0, r = WL_TX_POWER_MCS20_SISO_FIRST;
957 c < WLC_NUM_RATES_MCS_1_STREAM; c++, r++)
958 power.reg_limit[r] = txpwr.mcs_20_siso[c];
959
960 /* 20MHz MCS0-7 CDD tx power limits */
961 for (c = 0, r = WL_TX_POWER_MCS20_CDD_FIRST;
962 c < WLC_NUM_RATES_MCS_1_STREAM; c++, r++)
963 power.reg_limit[r] = txpwr.mcs_20_cdd[c];
964
965 /* 20MHz MCS0-7 STBC tx power limits */
966 for (c = 0, r = WL_TX_POWER_MCS20_STBC_FIRST;
967 c < WLC_NUM_RATES_MCS_1_STREAM; c++, r++)
968 power.reg_limit[r] = txpwr.mcs_20_stbc[c];
969
970 /* 40MHz MCS0-7 SISO tx power limits */
971 for (c = 0, r = WL_TX_POWER_MCS40_SISO_FIRST;
972 c < WLC_NUM_RATES_MCS_1_STREAM; c++, r++)
973 power.reg_limit[r] = txpwr.mcs_40_siso[c];
974
975 /* 40MHz MCS0-7 CDD tx power limits */
976 for (c = 0, r = WL_TX_POWER_MCS40_CDD_FIRST;
977 c < WLC_NUM_RATES_MCS_1_STREAM; c++, r++)
978 power.reg_limit[r] = txpwr.mcs_40_cdd[c];
979
980 /* 40MHz MCS0-7 STBC tx power limits */
981 for (c = 0, r = WL_TX_POWER_MCS40_STBC_FIRST;
982 c < WLC_NUM_RATES_MCS_1_STREAM; c++, r++)
983 power.reg_limit[r] = txpwr.mcs_40_stbc[c];
984
985 #if WL_TX_POWER_MCS_2_STREAM_NUM != WLC_NUM_RATES_MCS_2_STREAM
986 #error "WL_TX_POWER_MCS_2_STREAM_NUM != WLC_NUM_RATES_MCS_2_STREAM"
987 #endif
988
989 /* 20MHz MCS8-15 SDM tx power limits */
990 for (c = 0, r = WL_TX_POWER_MCS20_SDM_FIRST;
991 c < WLC_NUM_RATES_MCS_2_STREAM; c++, r++)
992 power.reg_limit[r] = txpwr.mcs_20_mimo[c];
993
994 /* 40MHz MCS8-15 SDM tx power limits */
995 for (c = 0, r = WL_TX_POWER_MCS40_SDM_FIRST;
996 c < WLC_NUM_RATES_MCS_2_STREAM; c++, r++)
997 power.reg_limit[r] = txpwr.mcs_40_mimo[c];
998
999 /* MCS 32 */
1000 power.reg_limit[WL_TX_POWER_MCS_32] = txpwr.mcs32;
1001 }
1002
1003 wlc_phy_txpower_get_current(wlc->band->pi, &power,
1004 CHSPEC_CHANNEL(power.chanspec));
1005
1006 /* copy the tx_power_t struct to the return buffer,
1007 * or convert to a tx_power_legacy_t struct
1008 */
1009 if (!old_power) {
1010 memcpy(pwr, &power, sizeof(tx_power_t));
1011 } else {
1012 int band_idx = CHSPEC_IS2G(power.chanspec) ? 0 : 1;
1013
1014 memset(old_power, 0, sizeof(tx_power_legacy_t));
1015
1016 old_power->txpwr_local_max = power.local_max;
1017 old_power->txpwr_local_constraint = power.local_constraint;
1018 if (CHSPEC_IS2G(power.chanspec)) {
1019 old_power->txpwr_chan_reg_max = txpwr.cck[0];
1020 old_power->txpwr_est_Pout[band_idx] =
1021 power.est_Pout_cck;
1022 old_power->txpwr_est_Pout_gofdm = power.est_Pout[0];
1023 } else {
1024 old_power->txpwr_chan_reg_max = txpwr.ofdm[0];
1025 old_power->txpwr_est_Pout[band_idx] = power.est_Pout[0];
1026 }
1027 old_power->txpwr_antgain[0] = power.antgain[0];
1028 old_power->txpwr_antgain[1] = power.antgain[1];
1029
1030 for (r = 0; r < NUM_PWRCTRL_RATES; r++) {
1031 old_power->txpwr_band_max[r] = power.user_limit[r];
1032 old_power->txpwr_limit[r] = power.reg_limit[r];
1033 old_power->txpwr_target[band_idx][r] = power.target[r];
1034 if (CHSPEC_IS2G(power.chanspec))
1035 old_power->txpwr_bphy_cck_max[r] =
1036 power.board_limit[r];
1037 else
1038 old_power->txpwr_aphy_max[r] =
1039 power.board_limit[r];
1040 }
1041 }
1042
1043 return 0;
1044 }
1045 #endif /* defined(BCMDBG) */
1046
wlc_watchdog_backup_bi(struct wlc_info * wlc)1047 static u32 wlc_watchdog_backup_bi(struct wlc_info *wlc)
1048 {
1049 u32 bi;
1050 bi = 2 * wlc->cfg->current_bss->dtim_period *
1051 wlc->cfg->current_bss->beacon_period;
1052 if (wlc->bcn_li_dtim)
1053 bi *= wlc->bcn_li_dtim;
1054 else if (wlc->bcn_li_bcn)
1055 /* recalculate bi based on bcn_li_bcn */
1056 bi = 2 * wlc->bcn_li_bcn * wlc->cfg->current_bss->beacon_period;
1057
1058 if (bi < 2 * TIMER_INTERVAL_WATCHDOG)
1059 bi = 2 * TIMER_INTERVAL_WATCHDOG;
1060 return bi;
1061 }
1062
1063 /* Change to run the watchdog either from a periodic timer or from tbtt handler.
1064 * Call watchdog from tbtt handler if tbtt is true, watchdog timer otherwise.
1065 */
wlc_watchdog_upd(struct wlc_info * wlc,bool tbtt)1066 void wlc_watchdog_upd(struct wlc_info *wlc, bool tbtt)
1067 {
1068 /* make sure changing watchdog driver is allowed */
1069 if (!wlc->pub->up || !wlc->pub->align_wd_tbtt)
1070 return;
1071 if (!tbtt && wlc->WDarmed) {
1072 wl_del_timer(wlc->wl, wlc->wdtimer);
1073 wlc->WDarmed = false;
1074 }
1075
1076 /* stop watchdog timer and use tbtt interrupt to drive watchdog */
1077 if (tbtt && wlc->WDarmed) {
1078 wl_del_timer(wlc->wl, wlc->wdtimer);
1079 wlc->WDarmed = false;
1080 wlc->WDlast = OSL_SYSUPTIME();
1081 }
1082 /* arm watchdog timer and drive the watchdog there */
1083 else if (!tbtt && !wlc->WDarmed) {
1084 wl_add_timer(wlc->wl, wlc->wdtimer, TIMER_INTERVAL_WATCHDOG,
1085 true);
1086 wlc->WDarmed = true;
1087 }
1088 if (tbtt && !wlc->WDarmed) {
1089 wl_add_timer(wlc->wl, wlc->wdtimer, wlc_watchdog_backup_bi(wlc),
1090 true);
1091 wlc->WDarmed = true;
1092 }
1093 }
1094
wlc_lowest_basic_rspec(struct wlc_info * wlc,wlc_rateset_t * rs)1095 ratespec_t wlc_lowest_basic_rspec(struct wlc_info *wlc, wlc_rateset_t *rs)
1096 {
1097 ratespec_t lowest_basic_rspec;
1098 uint i;
1099
1100 /* Use the lowest basic rate */
1101 lowest_basic_rspec = rs->rates[0] & RATE_MASK;
1102 for (i = 0; i < rs->count; i++) {
1103 if (rs->rates[i] & WLC_RATE_FLAG) {
1104 lowest_basic_rspec = rs->rates[i] & RATE_MASK;
1105 break;
1106 }
1107 }
1108 #if NCONF
1109 /* pick siso/cdd as default for OFDM (note no basic rate MCSs are supported yet) */
1110 if (IS_OFDM(lowest_basic_rspec)) {
1111 lowest_basic_rspec |= (wlc->stf->ss_opmode << RSPEC_STF_SHIFT);
1112 }
1113 #endif
1114
1115 return lowest_basic_rspec;
1116 }
1117
1118 /* This function changes the phytxctl for beacon based on current beacon ratespec AND txant
1119 * setting as per this table:
1120 * ratespec CCK ant = wlc->stf->txant
1121 * OFDM ant = 3
1122 */
wlc_beacon_phytxctl_txant_upd(struct wlc_info * wlc,ratespec_t bcn_rspec)1123 void wlc_beacon_phytxctl_txant_upd(struct wlc_info *wlc, ratespec_t bcn_rspec)
1124 {
1125 u16 phyctl;
1126 u16 phytxant = wlc->stf->phytxant;
1127 u16 mask = PHY_TXC_ANT_MASK;
1128
1129 /* for non-siso rates or default setting, use the available chains */
1130 if (WLC_PHY_11N_CAP(wlc->band)) {
1131 phytxant = wlc_stf_phytxchain_sel(wlc, bcn_rspec);
1132 }
1133
1134 phyctl = wlc_read_shm(wlc, M_BCN_PCTLWD);
1135 phyctl = (phyctl & ~mask) | phytxant;
1136 wlc_write_shm(wlc, M_BCN_PCTLWD, phyctl);
1137 }
1138
1139 /* centralized protection config change function to simplify debugging, no consistency checking
1140 * this should be called only on changes to avoid overhead in periodic function
1141 */
wlc_protection_upd(struct wlc_info * wlc,uint idx,int val)1142 void wlc_protection_upd(struct wlc_info *wlc, uint idx, int val)
1143 {
1144 WL_TRACE("wlc_protection_upd: idx %d, val %d\n", idx, val);
1145
1146 switch (idx) {
1147 case WLC_PROT_G_SPEC:
1148 wlc->protection->_g = (bool) val;
1149 break;
1150 case WLC_PROT_G_OVR:
1151 wlc->protection->g_override = (s8) val;
1152 break;
1153 case WLC_PROT_G_USER:
1154 wlc->protection->gmode_user = (u8) val;
1155 break;
1156 case WLC_PROT_OVERLAP:
1157 wlc->protection->overlap = (s8) val;
1158 break;
1159 case WLC_PROT_N_USER:
1160 wlc->protection->nmode_user = (s8) val;
1161 break;
1162 case WLC_PROT_N_CFG:
1163 wlc->protection->n_cfg = (s8) val;
1164 break;
1165 case WLC_PROT_N_CFG_OVR:
1166 wlc->protection->n_cfg_override = (s8) val;
1167 break;
1168 case WLC_PROT_N_NONGF:
1169 wlc->protection->nongf = (bool) val;
1170 break;
1171 case WLC_PROT_N_NONGF_OVR:
1172 wlc->protection->nongf_override = (s8) val;
1173 break;
1174 case WLC_PROT_N_PAM_OVR:
1175 wlc->protection->n_pam_override = (s8) val;
1176 break;
1177 case WLC_PROT_N_OBSS:
1178 wlc->protection->n_obss = (bool) val;
1179 break;
1180
1181 default:
1182 ASSERT(0);
1183 break;
1184 }
1185
1186 }
1187
wlc_ht_update_sgi_rx(struct wlc_info * wlc,int val)1188 static void wlc_ht_update_sgi_rx(struct wlc_info *wlc, int val)
1189 {
1190 wlc->ht_cap.cap_info &= ~(IEEE80211_HT_CAP_SGI_20 |
1191 IEEE80211_HT_CAP_SGI_40);
1192 wlc->ht_cap.cap_info |= (val & WLC_N_SGI_20) ?
1193 IEEE80211_HT_CAP_SGI_20 : 0;
1194 wlc->ht_cap.cap_info |= (val & WLC_N_SGI_40) ?
1195 IEEE80211_HT_CAP_SGI_40 : 0;
1196
1197 if (wlc->pub->up) {
1198 wlc_update_beacon(wlc);
1199 wlc_update_probe_resp(wlc, true);
1200 }
1201 }
1202
wlc_ht_update_ldpc(struct wlc_info * wlc,s8 val)1203 static void wlc_ht_update_ldpc(struct wlc_info *wlc, s8 val)
1204 {
1205 wlc->stf->ldpc = val;
1206
1207 wlc->ht_cap.cap_info &= ~IEEE80211_HT_CAP_LDPC_CODING;
1208 if (wlc->stf->ldpc != OFF)
1209 wlc->ht_cap.cap_info |= IEEE80211_HT_CAP_LDPC_CODING;
1210
1211 if (wlc->pub->up) {
1212 wlc_update_beacon(wlc);
1213 wlc_update_probe_resp(wlc, true);
1214 wlc_phy_ldpc_override_set(wlc->band->pi, (val ? true : false));
1215 }
1216 }
1217
1218 /*
1219 * ucode, hwmac update
1220 * Channel dependent updates for ucode and hw
1221 */
wlc_ucode_mac_upd(struct wlc_info * wlc)1222 static void wlc_ucode_mac_upd(struct wlc_info *wlc)
1223 {
1224 /* enable or disable any active IBSSs depending on whether or not
1225 * we are on the home channel
1226 */
1227 if (wlc->home_chanspec == WLC_BAND_PI_RADIO_CHANSPEC) {
1228 if (wlc->pub->associated) {
1229 /* BMAC_NOTE: This is something that should be fixed in ucode inits.
1230 * I think that the ucode inits set up the bcn templates and shm values
1231 * with a bogus beacon. This should not be done in the inits. If ucode needs
1232 * to set up a beacon for testing, the test routines should write it down,
1233 * not expect the inits to populate a bogus beacon.
1234 */
1235 if (WLC_PHY_11N_CAP(wlc->band)) {
1236 wlc_write_shm(wlc, M_BCN_TXTSF_OFFSET,
1237 wlc->band->bcntsfoff);
1238 }
1239 }
1240 } else {
1241 /* disable an active IBSS if we are not on the home channel */
1242 }
1243
1244 /* update the various promisc bits */
1245 wlc_mac_bcn_promisc(wlc);
1246 wlc_mac_promisc(wlc);
1247 }
1248
wlc_bandinit_ordered(struct wlc_info * wlc,chanspec_t chanspec)1249 static void wlc_bandinit_ordered(struct wlc_info *wlc, chanspec_t chanspec)
1250 {
1251 wlc_rateset_t default_rateset;
1252 uint parkband;
1253 uint i, band_order[2];
1254
1255 WL_TRACE("wl%d: wlc_bandinit_ordered\n", wlc->pub->unit);
1256 /*
1257 * We might have been bandlocked during down and the chip power-cycled (hibernate).
1258 * figure out the right band to park on
1259 */
1260 if (wlc->bandlocked || NBANDS(wlc) == 1) {
1261 ASSERT(CHSPEC_WLCBANDUNIT(chanspec) == wlc->band->bandunit);
1262
1263 parkband = wlc->band->bandunit; /* updated in wlc_bandlock() */
1264 band_order[0] = band_order[1] = parkband;
1265 } else {
1266 /* park on the band of the specified chanspec */
1267 parkband = CHSPEC_WLCBANDUNIT(chanspec);
1268
1269 /* order so that parkband initialize last */
1270 band_order[0] = parkband ^ 1;
1271 band_order[1] = parkband;
1272 }
1273
1274 /* make each band operational, software state init */
1275 for (i = 0; i < NBANDS(wlc); i++) {
1276 uint j = band_order[i];
1277
1278 wlc->band = wlc->bandstate[j];
1279
1280 wlc_default_rateset(wlc, &default_rateset);
1281
1282 /* fill in hw_rate */
1283 wlc_rateset_filter(&default_rateset, &wlc->band->hw_rateset,
1284 false, WLC_RATES_CCK_OFDM, RATE_MASK,
1285 (bool) N_ENAB(wlc->pub));
1286
1287 /* init basic rate lookup */
1288 wlc_rate_lookup_init(wlc, &default_rateset);
1289 }
1290
1291 /* sync up phy/radio chanspec */
1292 wlc_set_phy_chanspec(wlc, chanspec);
1293 }
1294
1295 /* band-specific init */
WLBANDINITFN(wlc_bsinit)1296 static void WLBANDINITFN(wlc_bsinit) (struct wlc_info *wlc)
1297 {
1298 WL_TRACE("wl%d: wlc_bsinit: bandunit %d\n",
1299 wlc->pub->unit, wlc->band->bandunit);
1300
1301 /* write ucode ACK/CTS rate table */
1302 wlc_set_ratetable(wlc);
1303
1304 /* update some band specific mac configuration */
1305 wlc_ucode_mac_upd(wlc);
1306
1307 /* init antenna selection */
1308 wlc_antsel_init(wlc->asi);
1309
1310 }
1311
1312 /* switch to and initialize new band */
WLBANDINITFN(wlc_setband)1313 static void WLBANDINITFN(wlc_setband) (struct wlc_info *wlc, uint bandunit)
1314 {
1315 int idx;
1316 struct wlc_bsscfg *cfg;
1317
1318 ASSERT(NBANDS(wlc) > 1);
1319 ASSERT(!wlc->bandlocked);
1320 ASSERT(bandunit != wlc->band->bandunit || wlc->bandinit_pending);
1321
1322 wlc->band = wlc->bandstate[bandunit];
1323
1324 if (!wlc->pub->up)
1325 return;
1326
1327 /* wait for at least one beacon before entering sleeping state */
1328 wlc->PMawakebcn = true;
1329 FOREACH_AS_STA(wlc, idx, cfg)
1330 cfg->PMawakebcn = true;
1331 wlc_set_ps_ctrl(wlc);
1332
1333 /* band-specific initializations */
1334 wlc_bsinit(wlc);
1335 }
1336
1337 /* Initialize a WME Parameter Info Element with default STA parameters from WMM Spec, Table 12 */
wlc_wme_initparams_sta(struct wlc_info * wlc,wme_param_ie_t * pe)1338 void wlc_wme_initparams_sta(struct wlc_info *wlc, wme_param_ie_t *pe)
1339 {
1340 static const wme_param_ie_t stadef = {
1341 WME_OUI,
1342 WME_TYPE,
1343 WME_SUBTYPE_PARAM_IE,
1344 WME_VER,
1345 0,
1346 0,
1347 {
1348 {EDCF_AC_BE_ACI_STA, EDCF_AC_BE_ECW_STA,
1349 cpu_to_le16(EDCF_AC_BE_TXOP_STA)},
1350 {EDCF_AC_BK_ACI_STA, EDCF_AC_BK_ECW_STA,
1351 cpu_to_le16(EDCF_AC_BK_TXOP_STA)},
1352 {EDCF_AC_VI_ACI_STA, EDCF_AC_VI_ECW_STA,
1353 cpu_to_le16(EDCF_AC_VI_TXOP_STA)},
1354 {EDCF_AC_VO_ACI_STA, EDCF_AC_VO_ECW_STA,
1355 cpu_to_le16(EDCF_AC_VO_TXOP_STA)}
1356 }
1357 };
1358
1359 ASSERT(sizeof(*pe) == WME_PARAM_IE_LEN);
1360 memcpy(pe, &stadef, sizeof(*pe));
1361 }
1362
wlc_wme_setparams(struct wlc_info * wlc,u16 aci,void * arg,bool suspend)1363 void wlc_wme_setparams(struct wlc_info *wlc, u16 aci, void *arg, bool suspend)
1364 {
1365 int i;
1366 shm_acparams_t acp_shm;
1367 u16 *shm_entry;
1368 struct ieee80211_tx_queue_params *params = arg;
1369
1370 ASSERT(wlc);
1371
1372 /* Only apply params if the core is out of reset and has clocks */
1373 if (!wlc->clk) {
1374 WL_ERROR("wl%d: %s : no-clock\n", wlc->pub->unit, __func__);
1375 return;
1376 }
1377
1378 /*
1379 * AP uses AC params from wme_param_ie_ap.
1380 * AP advertises AC params from wme_param_ie.
1381 * STA uses AC params from wme_param_ie.
1382 */
1383
1384 wlc->wme_admctl = 0;
1385
1386 do {
1387 memset((char *)&acp_shm, 0, sizeof(shm_acparams_t));
1388 /* find out which ac this set of params applies to */
1389 ASSERT(aci < AC_COUNT);
1390 /* set the admission control policy for this AC */
1391 /* wlc->wme_admctl |= 1 << aci; *//* should be set ?? seems like off by default */
1392
1393 /* fill in shm ac params struct */
1394 acp_shm.txop = le16_to_cpu(params->txop);
1395 /* convert from units of 32us to us for ucode */
1396 wlc->edcf_txop[aci & 0x3] = acp_shm.txop =
1397 EDCF_TXOP2USEC(acp_shm.txop);
1398 acp_shm.aifs = (params->aifs & EDCF_AIFSN_MASK);
1399
1400 if (aci == AC_VI && acp_shm.txop == 0
1401 && acp_shm.aifs < EDCF_AIFSN_MAX)
1402 acp_shm.aifs++;
1403
1404 if (acp_shm.aifs < EDCF_AIFSN_MIN
1405 || acp_shm.aifs > EDCF_AIFSN_MAX) {
1406 WL_ERROR("wl%d: wlc_edcf_setparams: bad aifs %d\n",
1407 wlc->pub->unit, acp_shm.aifs);
1408 continue;
1409 }
1410
1411 acp_shm.cwmin = params->cw_min;
1412 acp_shm.cwmax = params->cw_max;
1413 acp_shm.cwcur = acp_shm.cwmin;
1414 acp_shm.bslots =
1415 R_REG(&wlc->regs->tsf_random) & acp_shm.cwcur;
1416 acp_shm.reggap = acp_shm.bslots + acp_shm.aifs;
1417 /* Indicate the new params to the ucode */
1418 acp_shm.status = wlc_read_shm(wlc, (M_EDCF_QINFO +
1419 wme_shmemacindex(aci) *
1420 M_EDCF_QLEN +
1421 M_EDCF_STATUS_OFF));
1422 acp_shm.status |= WME_STATUS_NEWAC;
1423
1424 /* Fill in shm acparam table */
1425 shm_entry = (u16 *) &acp_shm;
1426 for (i = 0; i < (int)sizeof(shm_acparams_t); i += 2)
1427 wlc_write_shm(wlc,
1428 M_EDCF_QINFO +
1429 wme_shmemacindex(aci) * M_EDCF_QLEN + i,
1430 *shm_entry++);
1431
1432 } while (0);
1433
1434 if (suspend)
1435 wlc_suspend_mac_and_wait(wlc);
1436
1437 if (suspend)
1438 wlc_enable_mac(wlc);
1439
1440 }
1441
wlc_edcf_setparams(struct wlc_bsscfg * cfg,bool suspend)1442 void wlc_edcf_setparams(struct wlc_bsscfg *cfg, bool suspend)
1443 {
1444 struct wlc_info *wlc = cfg->wlc;
1445 uint aci, i, j;
1446 edcf_acparam_t *edcf_acp;
1447 shm_acparams_t acp_shm;
1448 u16 *shm_entry;
1449
1450 ASSERT(cfg);
1451 ASSERT(wlc);
1452
1453 /* Only apply params if the core is out of reset and has clocks */
1454 if (!wlc->clk)
1455 return;
1456
1457 /*
1458 * AP uses AC params from wme_param_ie_ap.
1459 * AP advertises AC params from wme_param_ie.
1460 * STA uses AC params from wme_param_ie.
1461 */
1462
1463 edcf_acp = (edcf_acparam_t *) &wlc->wme_param_ie.acparam[0];
1464
1465 wlc->wme_admctl = 0;
1466
1467 for (i = 0; i < AC_COUNT; i++, edcf_acp++) {
1468 memset((char *)&acp_shm, 0, sizeof(shm_acparams_t));
1469 /* find out which ac this set of params applies to */
1470 aci = (edcf_acp->ACI & EDCF_ACI_MASK) >> EDCF_ACI_SHIFT;
1471 ASSERT(aci < AC_COUNT);
1472 /* set the admission control policy for this AC */
1473 if (edcf_acp->ACI & EDCF_ACM_MASK) {
1474 wlc->wme_admctl |= 1 << aci;
1475 }
1476
1477 /* fill in shm ac params struct */
1478 acp_shm.txop = le16_to_cpu(edcf_acp->TXOP);
1479 /* convert from units of 32us to us for ucode */
1480 wlc->edcf_txop[aci] = acp_shm.txop =
1481 EDCF_TXOP2USEC(acp_shm.txop);
1482 acp_shm.aifs = (edcf_acp->ACI & EDCF_AIFSN_MASK);
1483
1484 if (aci == AC_VI && acp_shm.txop == 0
1485 && acp_shm.aifs < EDCF_AIFSN_MAX)
1486 acp_shm.aifs++;
1487
1488 if (acp_shm.aifs < EDCF_AIFSN_MIN
1489 || acp_shm.aifs > EDCF_AIFSN_MAX) {
1490 WL_ERROR("wl%d: wlc_edcf_setparams: bad aifs %d\n",
1491 wlc->pub->unit, acp_shm.aifs);
1492 continue;
1493 }
1494
1495 /* CWmin = 2^(ECWmin) - 1 */
1496 acp_shm.cwmin = EDCF_ECW2CW(edcf_acp->ECW & EDCF_ECWMIN_MASK);
1497 /* CWmax = 2^(ECWmax) - 1 */
1498 acp_shm.cwmax = EDCF_ECW2CW((edcf_acp->ECW & EDCF_ECWMAX_MASK)
1499 >> EDCF_ECWMAX_SHIFT);
1500 acp_shm.cwcur = acp_shm.cwmin;
1501 acp_shm.bslots =
1502 R_REG(&wlc->regs->tsf_random) & acp_shm.cwcur;
1503 acp_shm.reggap = acp_shm.bslots + acp_shm.aifs;
1504 /* Indicate the new params to the ucode */
1505 acp_shm.status = wlc_read_shm(wlc, (M_EDCF_QINFO +
1506 wme_shmemacindex(aci) *
1507 M_EDCF_QLEN +
1508 M_EDCF_STATUS_OFF));
1509 acp_shm.status |= WME_STATUS_NEWAC;
1510
1511 /* Fill in shm acparam table */
1512 shm_entry = (u16 *) &acp_shm;
1513 for (j = 0; j < (int)sizeof(shm_acparams_t); j += 2)
1514 wlc_write_shm(wlc,
1515 M_EDCF_QINFO +
1516 wme_shmemacindex(aci) * M_EDCF_QLEN + j,
1517 *shm_entry++);
1518 }
1519
1520 if (suspend)
1521 wlc_suspend_mac_and_wait(wlc);
1522
1523 if (AP_ENAB(wlc->pub) && WME_ENAB(wlc->pub)) {
1524 wlc_update_beacon(wlc);
1525 wlc_update_probe_resp(wlc, false);
1526 }
1527
1528 if (suspend)
1529 wlc_enable_mac(wlc);
1530
1531 }
1532
wlc_timers_init(struct wlc_info * wlc,int unit)1533 bool wlc_timers_init(struct wlc_info *wlc, int unit)
1534 {
1535 wlc->wdtimer = wl_init_timer(wlc->wl, wlc_watchdog_by_timer,
1536 wlc, "watchdog");
1537 if (!wlc->wdtimer) {
1538 WL_ERROR("wl%d: wl_init_timer for wdtimer failed\n", unit);
1539 goto fail;
1540 }
1541
1542 wlc->radio_timer = wl_init_timer(wlc->wl, wlc_radio_timer,
1543 wlc, "radio");
1544 if (!wlc->radio_timer) {
1545 WL_ERROR("wl%d: wl_init_timer for radio_timer failed\n", unit);
1546 goto fail;
1547 }
1548
1549 return true;
1550
1551 fail:
1552 return false;
1553 }
1554
1555 /*
1556 * Initialize wlc_info default values ...
1557 * may get overrides later in this function
1558 */
wlc_info_init(struct wlc_info * wlc,int unit)1559 void wlc_info_init(struct wlc_info *wlc, int unit)
1560 {
1561 int i;
1562 /* Assume the device is there until proven otherwise */
1563 wlc->device_present = true;
1564
1565 /* set default power output percentage to 100 percent */
1566 wlc->txpwr_percent = 100;
1567
1568 /* Save our copy of the chanspec */
1569 wlc->chanspec = CH20MHZ_CHSPEC(1);
1570
1571 /* initialize CCK preamble mode to unassociated state */
1572 wlc->shortpreamble = false;
1573
1574 wlc->legacy_probe = true;
1575
1576 /* various 802.11g modes */
1577 wlc->shortslot = false;
1578 wlc->shortslot_override = WLC_SHORTSLOT_AUTO;
1579
1580 wlc->barker_overlap_control = true;
1581 wlc->barker_preamble = WLC_BARKER_SHORT_ALLOWED;
1582 wlc->txburst_limit_override = AUTO;
1583
1584 wlc_protection_upd(wlc, WLC_PROT_G_OVR, WLC_PROTECTION_AUTO);
1585 wlc_protection_upd(wlc, WLC_PROT_G_SPEC, false);
1586
1587 wlc_protection_upd(wlc, WLC_PROT_N_CFG_OVR, WLC_PROTECTION_AUTO);
1588 wlc_protection_upd(wlc, WLC_PROT_N_CFG, WLC_N_PROTECTION_OFF);
1589 wlc_protection_upd(wlc, WLC_PROT_N_NONGF_OVR, WLC_PROTECTION_AUTO);
1590 wlc_protection_upd(wlc, WLC_PROT_N_NONGF, false);
1591 wlc_protection_upd(wlc, WLC_PROT_N_PAM_OVR, AUTO);
1592
1593 wlc_protection_upd(wlc, WLC_PROT_OVERLAP, WLC_PROTECTION_CTL_OVERLAP);
1594
1595 /* 802.11g draft 4.0 NonERP elt advertisement */
1596 wlc->include_legacy_erp = true;
1597
1598 wlc->stf->ant_rx_ovr = ANT_RX_DIV_DEF;
1599 wlc->stf->txant = ANT_TX_DEF;
1600
1601 wlc->prb_resp_timeout = WLC_PRB_RESP_TIMEOUT;
1602
1603 wlc->usr_fragthresh = DOT11_DEFAULT_FRAG_LEN;
1604 for (i = 0; i < NFIFO; i++)
1605 wlc->fragthresh[i] = DOT11_DEFAULT_FRAG_LEN;
1606 wlc->RTSThresh = DOT11_DEFAULT_RTS_LEN;
1607
1608 /* default rate fallback retry limits */
1609 wlc->SFBL = RETRY_SHORT_FB;
1610 wlc->LFBL = RETRY_LONG_FB;
1611
1612 /* default mac retry limits */
1613 wlc->SRL = RETRY_SHORT_DEF;
1614 wlc->LRL = RETRY_LONG_DEF;
1615
1616 /* init PM state */
1617 wlc->PM = PM_OFF; /* User's setting of PM mode through IOCTL */
1618 wlc->PM_override = false; /* Prevents from going to PM if our AP is 'ill' */
1619 wlc->PMenabled = false; /* Current PM state */
1620 wlc->PMpending = false; /* Tracks whether STA indicated PM in the last attempt */
1621 wlc->PMblocked = false; /* To allow blocking going into PM during RM and scans */
1622
1623 /* In WMM Auto mode, PM is allowed if association is a UAPSD association */
1624 wlc->WME_PM_blocked = false;
1625
1626 /* Init wme queuing method */
1627 wlc->wme_prec_queuing = false;
1628
1629 /* Overrides for the core to stay awake under zillion conditions Look for STAY_AWAKE */
1630 wlc->wake = false;
1631 /* Are we waiting for a response to PS-Poll that we sent */
1632 wlc->PSpoll = false;
1633
1634 /* APSD defaults */
1635 wlc->wme_apsd = true;
1636 wlc->apsd_sta_usp = false;
1637 wlc->apsd_trigger_timeout = 0; /* disable the trigger timer */
1638 wlc->apsd_trigger_ac = AC_BITMAP_ALL;
1639
1640 /* Set flag to indicate that hw keys should be used when available. */
1641 wlc->wsec_swkeys = false;
1642
1643 /* init the 4 static WEP default keys */
1644 for (i = 0; i < WSEC_MAX_DEFAULT_KEYS; i++) {
1645 wlc->wsec_keys[i] = wlc->wsec_def_keys[i];
1646 wlc->wsec_keys[i]->idx = (u8) i;
1647 }
1648
1649 wlc->_regulatory_domain = false; /* 802.11d */
1650
1651 /* WME QoS mode is Auto by default */
1652 wlc->pub->_wme = AUTO;
1653
1654 #ifdef BCMSDIODEV_ENABLED
1655 wlc->pub->_priofc = true; /* enable priority flow control for sdio dongle */
1656 #endif
1657
1658 wlc->pub->_ampdu = AMPDU_AGG_HOST;
1659 wlc->pub->bcmerror = 0;
1660 wlc->ibss_allowed = true;
1661 wlc->ibss_coalesce_allowed = true;
1662 wlc->pub->_coex = ON;
1663
1664 /* initialize mpc delay */
1665 wlc->mpc_delay_off = wlc->mpc_dlycnt = WLC_MPC_MIN_DELAYCNT;
1666
1667 wlc->pr80838_war = true;
1668 }
1669
wlc_state_bmac_sync(struct wlc_info * wlc)1670 static bool wlc_state_bmac_sync(struct wlc_info *wlc)
1671 {
1672 wlc_bmac_state_t state_bmac;
1673
1674 if (wlc_bmac_state_get(wlc->hw, &state_bmac) != 0)
1675 return false;
1676
1677 wlc->machwcap = state_bmac.machwcap;
1678 wlc_protection_upd(wlc, WLC_PROT_N_PAM_OVR,
1679 (s8) state_bmac.preamble_ovr);
1680
1681 return true;
1682 }
1683
wlc_attach_module(struct wlc_info * wlc)1684 static uint wlc_attach_module(struct wlc_info *wlc)
1685 {
1686 uint err = 0;
1687 uint unit;
1688 unit = wlc->pub->unit;
1689
1690 wlc->asi = wlc_antsel_attach(wlc);
1691 if (wlc->asi == NULL) {
1692 WL_ERROR("wl%d: wlc_attach: wlc_antsel_attach failed\n", unit);
1693 err = 44;
1694 goto fail;
1695 }
1696
1697 wlc->ampdu = wlc_ampdu_attach(wlc);
1698 if (wlc->ampdu == NULL) {
1699 WL_ERROR("wl%d: wlc_attach: wlc_ampdu_attach failed\n", unit);
1700 err = 50;
1701 goto fail;
1702 }
1703
1704 if ((wlc_stf_attach(wlc) != 0)) {
1705 WL_ERROR("wl%d: wlc_attach: wlc_stf_attach failed\n", unit);
1706 err = 68;
1707 goto fail;
1708 }
1709 fail:
1710 return err;
1711 }
1712
wlc_pub(void * wlc)1713 struct wlc_pub *wlc_pub(void *wlc)
1714 {
1715 return ((struct wlc_info *) wlc)->pub;
1716 }
1717
1718 #define CHIP_SUPPORTS_11N(wlc) 1
1719
1720 /*
1721 * The common driver entry routine. Error codes should be unique
1722 */
wlc_attach(void * wl,u16 vendor,u16 device,uint unit,bool piomode,void * regsva,uint bustype,void * btparam,uint * perr)1723 void *wlc_attach(void *wl, u16 vendor, u16 device, uint unit, bool piomode,
1724 void *regsva, uint bustype, void *btparam, uint *perr)
1725 {
1726 struct wlc_info *wlc;
1727 uint err = 0;
1728 uint j;
1729 struct wlc_pub *pub;
1730 struct wlc_txq_info *qi;
1731 uint n_disabled;
1732
1733 WL_NONE("wl%d: %s: vendor 0x%x device 0x%x\n",
1734 unit, __func__, vendor, device);
1735
1736 ASSERT(WSEC_MAX_RCMTA_KEYS <= WSEC_MAX_KEYS);
1737 ASSERT(WSEC_MAX_DEFAULT_KEYS == WLC_DEFAULT_KEYS);
1738
1739 /* some code depends on packed structures */
1740 ASSERT(sizeof(struct ethhdr) == ETH_HLEN);
1741 ASSERT(sizeof(d11regs_t) == SI_CORE_SIZE);
1742 ASSERT(sizeof(ofdm_phy_hdr_t) == D11_PHY_HDR_LEN);
1743 ASSERT(sizeof(cck_phy_hdr_t) == D11_PHY_HDR_LEN);
1744 ASSERT(sizeof(d11txh_t) == D11_TXH_LEN);
1745 ASSERT(sizeof(d11rxhdr_t) == RXHDR_LEN);
1746 ASSERT(sizeof(struct ieee80211_hdr) == DOT11_A4_HDR_LEN);
1747 ASSERT(sizeof(struct ieee80211_rts) == DOT11_RTS_LEN);
1748 ASSERT(sizeof(tx_status_t) == TXSTATUS_LEN);
1749 ASSERT(sizeof(struct ieee80211_ht_cap) == HT_CAP_IE_LEN);
1750 #ifdef BRCM_FULLMAC
1751 ASSERT(offsetof(wl_scan_params_t, channel_list) ==
1752 WL_SCAN_PARAMS_FIXED_SIZE);
1753 #endif
1754 ASSERT(IS_ALIGNED(offsetof(wsec_key_t, data), sizeof(u32)));
1755 ASSERT(ISPOWEROF2(MA_WINDOW_SZ));
1756
1757 ASSERT(sizeof(wlc_d11rxhdr_t) <= WL_HWRXOFF);
1758
1759 /*
1760 * Number of replay counters value used in WPA IE must match # rxivs
1761 * supported in wsec_key_t struct. See 802.11i/D3.0 sect. 7.3.2.17
1762 * 'RSN Information Element' figure 8 for this mapping.
1763 */
1764 ASSERT((WPA_CAP_16_REPLAY_CNTRS == WLC_REPLAY_CNTRS_VALUE
1765 && 16 == WLC_NUMRXIVS)
1766 || (WPA_CAP_4_REPLAY_CNTRS == WLC_REPLAY_CNTRS_VALUE
1767 && 4 == WLC_NUMRXIVS));
1768
1769 /* allocate struct wlc_info state and its substructures */
1770 wlc = (struct wlc_info *) wlc_attach_malloc(unit, &err, device);
1771 if (wlc == NULL)
1772 goto fail;
1773 pub = wlc->pub;
1774
1775 #if defined(BCMDBG)
1776 wlc_info_dbg = wlc;
1777 #endif
1778
1779 wlc->band = wlc->bandstate[0];
1780 wlc->core = wlc->corestate;
1781 wlc->wl = wl;
1782 pub->unit = unit;
1783 wlc->btparam = btparam;
1784 pub->_piomode = piomode;
1785 wlc->bandinit_pending = false;
1786 /* By default restrict TKIP associations from 11n STA's */
1787 wlc->ht_wsec_restriction = WLC_HT_TKIP_RESTRICT;
1788
1789 /* populate struct wlc_info with default values */
1790 wlc_info_init(wlc, unit);
1791
1792 /* update sta/ap related parameters */
1793 wlc_ap_upd(wlc);
1794
1795 /* 11n_disable nvram */
1796 n_disabled = getintvar(pub->vars, "11n_disable");
1797
1798 /* register a module (to handle iovars) */
1799 wlc_module_register(wlc->pub, wlc_iovars, "wlc_iovars", wlc,
1800 wlc_doiovar, NULL, NULL);
1801
1802 /*
1803 * low level attach steps(all hw accesses go
1804 * inside, no more in rest of the attach)
1805 */
1806 err = wlc_bmac_attach(wlc, vendor, device, unit, piomode, regsva,
1807 bustype, btparam);
1808 if (err)
1809 goto fail;
1810
1811 /* for some states, due to different info pointer(e,g, wlc, wlc_hw) or master/slave split,
1812 * HIGH driver(both monolithic and HIGH_ONLY) needs to sync states FROM BMAC portion driver
1813 */
1814 if (!wlc_state_bmac_sync(wlc)) {
1815 err = 20;
1816 goto fail;
1817 }
1818
1819 pub->phy_11ncapable = WLC_PHY_11N_CAP(wlc->band);
1820
1821 /* propagate *vars* from BMAC driver to high driver */
1822 wlc_bmac_copyfrom_vars(wlc->hw, &pub->vars, &wlc->vars_size);
1823
1824
1825 /* set maximum allowed duty cycle */
1826 wlc->tx_duty_cycle_ofdm =
1827 (u16) getintvar(pub->vars, "tx_duty_cycle_ofdm");
1828 wlc->tx_duty_cycle_cck =
1829 (u16) getintvar(pub->vars, "tx_duty_cycle_cck");
1830
1831 wlc_stf_phy_chain_calc(wlc);
1832
1833 /* txchain 1: txant 0, txchain 2: txant 1 */
1834 if (WLCISNPHY(wlc->band) && (wlc->stf->txstreams == 1))
1835 wlc->stf->txant = wlc->stf->hw_txchain - 1;
1836
1837 /* push to BMAC driver */
1838 wlc_phy_stf_chain_init(wlc->band->pi, wlc->stf->hw_txchain,
1839 wlc->stf->hw_rxchain);
1840
1841 /* pull up some info resulting from the low attach */
1842 {
1843 int i;
1844 for (i = 0; i < NFIFO; i++)
1845 wlc->core->txavail[i] = wlc->hw->txavail[i];
1846 }
1847
1848 wlc_bmac_hw_etheraddr(wlc->hw, wlc->perm_etheraddr);
1849
1850 memcpy(&pub->cur_etheraddr, &wlc->perm_etheraddr, ETH_ALEN);
1851
1852 for (j = 0; j < NBANDS(wlc); j++) {
1853 /* Use band 1 for single band 11a */
1854 if (IS_SINGLEBAND_5G(wlc->deviceid))
1855 j = BAND_5G_INDEX;
1856
1857 wlc->band = wlc->bandstate[j];
1858
1859 if (!wlc_attach_stf_ant_init(wlc)) {
1860 err = 24;
1861 goto fail;
1862 }
1863
1864 /* default contention windows size limits */
1865 wlc->band->CWmin = APHY_CWMIN;
1866 wlc->band->CWmax = PHY_CWMAX;
1867
1868 /* init gmode value */
1869 if (BAND_2G(wlc->band->bandtype)) {
1870 wlc->band->gmode = GMODE_AUTO;
1871 wlc_protection_upd(wlc, WLC_PROT_G_USER,
1872 wlc->band->gmode);
1873 }
1874
1875 /* init _n_enab supported mode */
1876 if (WLC_PHY_11N_CAP(wlc->band) && CHIP_SUPPORTS_11N(wlc)) {
1877 if (n_disabled & WLFEATURE_DISABLE_11N) {
1878 pub->_n_enab = OFF;
1879 wlc_protection_upd(wlc, WLC_PROT_N_USER, OFF);
1880 } else {
1881 pub->_n_enab = SUPPORT_11N;
1882 wlc_protection_upd(wlc, WLC_PROT_N_USER,
1883 ((pub->_n_enab ==
1884 SUPPORT_11N) ? WL_11N_2x2 :
1885 WL_11N_3x3));
1886 }
1887 }
1888
1889 /* init per-band default rateset, depend on band->gmode */
1890 wlc_default_rateset(wlc, &wlc->band->defrateset);
1891
1892 /* fill in hw_rateset (used early by WLC_SET_RATESET) */
1893 wlc_rateset_filter(&wlc->band->defrateset,
1894 &wlc->band->hw_rateset, false,
1895 WLC_RATES_CCK_OFDM, RATE_MASK,
1896 (bool) N_ENAB(wlc->pub));
1897 }
1898
1899 /* update antenna config due to wlc->stf->txant/txchain/ant_rx_ovr change */
1900 wlc_stf_phy_txant_upd(wlc);
1901
1902 /* attach each modules */
1903 err = wlc_attach_module(wlc);
1904 if (err != 0)
1905 goto fail;
1906
1907 if (!wlc_timers_init(wlc, unit)) {
1908 WL_ERROR("wl%d: %s: wlc_init_timer failed\n", unit, __func__);
1909 err = 32;
1910 goto fail;
1911 }
1912
1913 /* depend on rateset, gmode */
1914 wlc->cmi = wlc_channel_mgr_attach(wlc);
1915 if (!wlc->cmi) {
1916 WL_ERROR("wl%d: %s: wlc_channel_mgr_attach failed\n",
1917 unit, __func__);
1918 err = 33;
1919 goto fail;
1920 }
1921
1922 /* init default when all parameters are ready, i.e. ->rateset */
1923 wlc_bss_default_init(wlc);
1924
1925 /*
1926 * Complete the wlc default state initializations..
1927 */
1928
1929 /* allocate our initial queue */
1930 qi = wlc_txq_alloc(wlc);
1931 if (qi == NULL) {
1932 WL_ERROR("wl%d: %s: failed to malloc tx queue\n",
1933 unit, __func__);
1934 err = 100;
1935 goto fail;
1936 }
1937 wlc->active_queue = qi;
1938
1939 wlc->bsscfg[0] = wlc->cfg;
1940 wlc->cfg->_idx = 0;
1941 wlc->cfg->wlc = wlc;
1942 pub->txmaxpkts = MAXTXPKTS;
1943
1944 pub->_cnt->version = WL_CNT_T_VERSION;
1945 pub->_cnt->length = sizeof(struct wl_cnt);
1946
1947 WLCNTSET(pub->_wme_cnt->version, WL_WME_CNT_VERSION);
1948 WLCNTSET(pub->_wme_cnt->length, sizeof(wl_wme_cnt_t));
1949
1950 wlc_wme_initparams_sta(wlc, &wlc->wme_param_ie);
1951
1952 wlc->mimoft = FT_HT;
1953 wlc->ht_cap.cap_info = HT_CAP;
1954 if (HT_ENAB(wlc->pub))
1955 wlc->stf->ldpc = AUTO;
1956
1957 wlc->mimo_40txbw = AUTO;
1958 wlc->ofdm_40txbw = AUTO;
1959 wlc->cck_40txbw = AUTO;
1960 wlc_update_mimo_band_bwcap(wlc, WLC_N_BW_20IN2G_40IN5G);
1961
1962 /* Enable setting the RIFS Mode bit by default in HT Info IE */
1963 wlc->rifs_advert = AUTO;
1964
1965 /* Set default values of SGI */
1966 if (WLC_SGI_CAP_PHY(wlc)) {
1967 wlc_ht_update_sgi_rx(wlc, (WLC_N_SGI_20 | WLC_N_SGI_40));
1968 wlc->sgi_tx = AUTO;
1969 } else if (WLCISSSLPNPHY(wlc->band)) {
1970 wlc_ht_update_sgi_rx(wlc, (WLC_N_SGI_20 | WLC_N_SGI_40));
1971 wlc->sgi_tx = AUTO;
1972 } else {
1973 wlc_ht_update_sgi_rx(wlc, 0);
1974 wlc->sgi_tx = OFF;
1975 }
1976
1977 /* *******nvram 11n config overrides Start ********* */
1978
1979 /* apply the sgi override from nvram conf */
1980 if (n_disabled & WLFEATURE_DISABLE_11N_SGI_TX)
1981 wlc->sgi_tx = OFF;
1982
1983 if (n_disabled & WLFEATURE_DISABLE_11N_SGI_RX)
1984 wlc_ht_update_sgi_rx(wlc, 0);
1985
1986 /* apply the stbc override from nvram conf */
1987 if (n_disabled & WLFEATURE_DISABLE_11N_STBC_TX) {
1988 wlc->bandstate[BAND_2G_INDEX]->band_stf_stbc_tx = OFF;
1989 wlc->bandstate[BAND_5G_INDEX]->band_stf_stbc_tx = OFF;
1990 wlc->ht_cap.cap_info &= ~IEEE80211_HT_CAP_TX_STBC;
1991 }
1992 if (n_disabled & WLFEATURE_DISABLE_11N_STBC_RX)
1993 wlc_stf_stbc_rx_set(wlc, HT_CAP_RX_STBC_NO);
1994
1995 /* apply the GF override from nvram conf */
1996 if (n_disabled & WLFEATURE_DISABLE_11N_GF)
1997 wlc->ht_cap.cap_info &= ~IEEE80211_HT_CAP_GRN_FLD;
1998
1999 /* initialize radio_mpc_disable according to wlc->mpc */
2000 wlc_radio_mpc_upd(wlc);
2001
2002 if ((wlc->pub->sih->chip) == BCM43235_CHIP_ID) {
2003 if ((getintvar(wlc->pub->vars, "aa2g") == 7) ||
2004 (getintvar(wlc->pub->vars, "aa5g") == 7)) {
2005 wlc_bmac_antsel_set(wlc->hw, 1);
2006 }
2007 } else {
2008 wlc_bmac_antsel_set(wlc->hw, wlc->asi->antsel_avail);
2009 }
2010
2011 if (perr)
2012 *perr = 0;
2013
2014 return (void *)wlc;
2015
2016 fail:
2017 WL_ERROR("wl%d: %s: failed with err %d\n", unit, __func__, err);
2018 if (wlc)
2019 wlc_detach(wlc);
2020
2021 if (perr)
2022 *perr = err;
2023 return NULL;
2024 }
2025
wlc_attach_antgain_init(struct wlc_info * wlc)2026 static void wlc_attach_antgain_init(struct wlc_info *wlc)
2027 {
2028 uint unit;
2029 unit = wlc->pub->unit;
2030
2031 if ((wlc->band->antgain == -1) && (wlc->pub->sromrev == 1)) {
2032 /* default antenna gain for srom rev 1 is 2 dBm (8 qdbm) */
2033 wlc->band->antgain = 8;
2034 } else if (wlc->band->antgain == -1) {
2035 WL_ERROR("wl%d: %s: Invalid antennas available in srom, using 2dB\n",
2036 unit, __func__);
2037 wlc->band->antgain = 8;
2038 } else {
2039 s8 gain, fract;
2040 /* Older sroms specified gain in whole dbm only. In order
2041 * be able to specify qdbm granularity and remain backward compatible
2042 * the whole dbms are now encoded in only low 6 bits and remaining qdbms
2043 * are encoded in the hi 2 bits. 6 bit signed number ranges from
2044 * -32 - 31. Examples: 0x1 = 1 db,
2045 * 0xc1 = 1.75 db (1 + 3 quarters),
2046 * 0x3f = -1 (-1 + 0 quarters),
2047 * 0x7f = -.75 (-1 in low 6 bits + 1 quarters in hi 2 bits) = -3 qdbm.
2048 * 0xbf = -.50 (-1 in low 6 bits + 2 quarters in hi 2 bits) = -2 qdbm.
2049 */
2050 gain = wlc->band->antgain & 0x3f;
2051 gain <<= 2; /* Sign extend */
2052 gain >>= 2;
2053 fract = (wlc->band->antgain & 0xc0) >> 6;
2054 wlc->band->antgain = 4 * gain + fract;
2055 }
2056 }
2057
wlc_attach_stf_ant_init(struct wlc_info * wlc)2058 static bool wlc_attach_stf_ant_init(struct wlc_info *wlc)
2059 {
2060 int aa;
2061 uint unit;
2062 char *vars;
2063 int bandtype;
2064
2065 unit = wlc->pub->unit;
2066 vars = wlc->pub->vars;
2067 bandtype = wlc->band->bandtype;
2068
2069 /* get antennas available */
2070 aa = (s8) getintvar(vars, (BAND_5G(bandtype) ? "aa5g" : "aa2g"));
2071 if (aa == 0)
2072 aa = (s8) getintvar(vars,
2073 (BAND_5G(bandtype) ? "aa1" : "aa0"));
2074 if ((aa < 1) || (aa > 15)) {
2075 WL_ERROR("wl%d: %s: Invalid antennas available in srom (0x%x), using 3\n",
2076 unit, __func__, aa);
2077 aa = 3;
2078 }
2079
2080 /* reset the defaults if we have a single antenna */
2081 if (aa == 1) {
2082 wlc->stf->ant_rx_ovr = ANT_RX_DIV_FORCE_0;
2083 wlc->stf->txant = ANT_TX_FORCE_0;
2084 } else if (aa == 2) {
2085 wlc->stf->ant_rx_ovr = ANT_RX_DIV_FORCE_1;
2086 wlc->stf->txant = ANT_TX_FORCE_1;
2087 } else {
2088 }
2089
2090 /* Compute Antenna Gain */
2091 wlc->band->antgain =
2092 (s8) getintvar(vars, (BAND_5G(bandtype) ? "ag1" : "ag0"));
2093 wlc_attach_antgain_init(wlc);
2094
2095 return true;
2096 }
2097
2098
wlc_timers_deinit(struct wlc_info * wlc)2099 static void wlc_timers_deinit(struct wlc_info *wlc)
2100 {
2101 /* free timer state */
2102 if (wlc->wdtimer) {
2103 wl_free_timer(wlc->wl, wlc->wdtimer);
2104 wlc->wdtimer = NULL;
2105 }
2106 if (wlc->radio_timer) {
2107 wl_free_timer(wlc->wl, wlc->radio_timer);
2108 wlc->radio_timer = NULL;
2109 }
2110 }
2111
wlc_detach_module(struct wlc_info * wlc)2112 static void wlc_detach_module(struct wlc_info *wlc)
2113 {
2114 if (wlc->asi) {
2115 wlc_antsel_detach(wlc->asi);
2116 wlc->asi = NULL;
2117 }
2118
2119 if (wlc->ampdu) {
2120 wlc_ampdu_detach(wlc->ampdu);
2121 wlc->ampdu = NULL;
2122 }
2123
2124 wlc_stf_detach(wlc);
2125 }
2126
2127 /*
2128 * Return a count of the number of driver callbacks still pending.
2129 *
2130 * General policy is that wlc_detach can only dealloc/free software states. It can NOT
2131 * touch hardware registers since the d11core may be in reset and clock may not be available.
2132 * One exception is sb register access, which is possible if crystal is turned on
2133 * After "down" state, driver should avoid software timer with the exception of radio_monitor.
2134 */
wlc_detach(struct wlc_info * wlc)2135 uint wlc_detach(struct wlc_info *wlc)
2136 {
2137 uint i;
2138 uint callbacks = 0;
2139
2140 if (wlc == NULL)
2141 return 0;
2142
2143 WL_TRACE("wl%d: %s\n", wlc->pub->unit, __func__);
2144
2145 ASSERT(!wlc->pub->up);
2146
2147 callbacks += wlc_bmac_detach(wlc);
2148
2149 /* delete software timers */
2150 if (!wlc_radio_monitor_stop(wlc))
2151 callbacks++;
2152
2153 wlc_channel_mgr_detach(wlc->cmi);
2154
2155 wlc_timers_deinit(wlc);
2156
2157 wlc_detach_module(wlc);
2158
2159 /* free other state */
2160
2161
2162 #ifdef BCMDBG
2163 kfree(wlc->country_ie_override);
2164 wlc->country_ie_override = NULL;
2165 #endif /* BCMDBG */
2166
2167 {
2168 /* free dumpcb list */
2169 struct dumpcb_s *prev, *ptr;
2170 prev = ptr = wlc->dumpcb_head;
2171 while (ptr) {
2172 ptr = prev->next;
2173 kfree(prev);
2174 prev = ptr;
2175 }
2176 wlc->dumpcb_head = NULL;
2177 }
2178
2179 /* Detach from iovar manager */
2180 wlc_module_unregister(wlc->pub, "wlc_iovars", wlc);
2181
2182 while (wlc->tx_queues != NULL)
2183 wlc_txq_free(wlc, wlc->tx_queues);
2184
2185 /*
2186 * consistency check: wlc_module_register/wlc_module_unregister calls
2187 * should match therefore nothing should be left here.
2188 */
2189 for (i = 0; i < WLC_MAXMODULES; i++)
2190 ASSERT(wlc->modulecb[i].name[0] == '\0');
2191
2192 wlc_detach_mfree(wlc);
2193 return callbacks;
2194 }
2195
2196 /* update state that depends on the current value of "ap" */
wlc_ap_upd(struct wlc_info * wlc)2197 void wlc_ap_upd(struct wlc_info *wlc)
2198 {
2199 if (AP_ENAB(wlc->pub))
2200 wlc->PLCPHdr_override = WLC_PLCP_AUTO; /* AP: short not allowed, but not enforced */
2201 else
2202 wlc->PLCPHdr_override = WLC_PLCP_SHORT; /* STA-BSS; short capable */
2203
2204 /* disable vlan_mode on AP since some legacy STAs cannot rx tagged pkts */
2205 wlc->vlan_mode = AP_ENAB(wlc->pub) ? OFF : AUTO;
2206
2207 /* fixup mpc */
2208 wlc->mpc = true;
2209 }
2210
2211 /* read hwdisable state and propagate to wlc flag */
wlc_radio_hwdisable_upd(struct wlc_info * wlc)2212 static void wlc_radio_hwdisable_upd(struct wlc_info *wlc)
2213 {
2214 if (wlc->pub->wlfeatureflag & WL_SWFL_NOHWRADIO || wlc->pub->hw_off)
2215 return;
2216
2217 if (wlc_bmac_radio_read_hwdisabled(wlc->hw)) {
2218 mboolset(wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE);
2219 } else {
2220 mboolclr(wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE);
2221 }
2222 }
2223
2224 /* return true if Minimum Power Consumption should be entered, false otherwise */
wlc_is_non_delay_mpc(struct wlc_info * wlc)2225 bool wlc_is_non_delay_mpc(struct wlc_info *wlc)
2226 {
2227 return false;
2228 }
2229
wlc_ismpc(struct wlc_info * wlc)2230 bool wlc_ismpc(struct wlc_info *wlc)
2231 {
2232 return (wlc->mpc_delay_off == 0) && (wlc_is_non_delay_mpc(wlc));
2233 }
2234
wlc_radio_mpc_upd(struct wlc_info * wlc)2235 void wlc_radio_mpc_upd(struct wlc_info *wlc)
2236 {
2237 bool mpc_radio, radio_state;
2238
2239 /*
2240 * Clear the WL_RADIO_MPC_DISABLE bit when mpc feature is disabled
2241 * in case the WL_RADIO_MPC_DISABLE bit was set. Stop the radio
2242 * monitor also when WL_RADIO_MPC_DISABLE is the only reason that
2243 * the radio is going down.
2244 */
2245 if (!wlc->mpc) {
2246 if (!wlc->pub->radio_disabled)
2247 return;
2248 mboolclr(wlc->pub->radio_disabled, WL_RADIO_MPC_DISABLE);
2249 wlc_radio_upd(wlc);
2250 if (!wlc->pub->radio_disabled)
2251 wlc_radio_monitor_stop(wlc);
2252 return;
2253 }
2254
2255 /*
2256 * sync ismpc logic with WL_RADIO_MPC_DISABLE bit in wlc->pub->radio_disabled
2257 * to go ON, always call radio_upd synchronously
2258 * to go OFF, postpone radio_upd to later when context is safe(e.g. watchdog)
2259 */
2260 radio_state =
2261 (mboolisset(wlc->pub->radio_disabled, WL_RADIO_MPC_DISABLE) ? OFF :
2262 ON);
2263 mpc_radio = (wlc_ismpc(wlc) == true) ? OFF : ON;
2264
2265 if (radio_state == ON && mpc_radio == OFF)
2266 wlc->mpc_delay_off = wlc->mpc_dlycnt;
2267 else if (radio_state == OFF && mpc_radio == ON) {
2268 mboolclr(wlc->pub->radio_disabled, WL_RADIO_MPC_DISABLE);
2269 wlc_radio_upd(wlc);
2270 if (wlc->mpc_offcnt < WLC_MPC_THRESHOLD) {
2271 wlc->mpc_dlycnt = WLC_MPC_MAX_DELAYCNT;
2272 } else
2273 wlc->mpc_dlycnt = WLC_MPC_MIN_DELAYCNT;
2274 wlc->mpc_dur += OSL_SYSUPTIME() - wlc->mpc_laston_ts;
2275 }
2276 /* Below logic is meant to capture the transition from mpc off to mpc on for reasons
2277 * other than wlc->mpc_delay_off keeping the mpc off. In that case reset
2278 * wlc->mpc_delay_off to wlc->mpc_dlycnt, so that we restart the countdown of mpc_delay_off
2279 */
2280 if ((wlc->prev_non_delay_mpc == false) &&
2281 (wlc_is_non_delay_mpc(wlc) == true) && wlc->mpc_delay_off) {
2282 wlc->mpc_delay_off = wlc->mpc_dlycnt;
2283 }
2284 wlc->prev_non_delay_mpc = wlc_is_non_delay_mpc(wlc);
2285 }
2286
2287 /*
2288 * centralized radio disable/enable function,
2289 * invoke radio enable/disable after updating hwradio status
2290 */
wlc_radio_upd(struct wlc_info * wlc)2291 static void wlc_radio_upd(struct wlc_info *wlc)
2292 {
2293 if (wlc->pub->radio_disabled) {
2294 wlc_radio_disable(wlc);
2295 } else {
2296 wlc_radio_enable(wlc);
2297 }
2298 }
2299
2300 /* maintain LED behavior in down state */
wlc_down_led_upd(struct wlc_info * wlc)2301 static void wlc_down_led_upd(struct wlc_info *wlc)
2302 {
2303 ASSERT(!wlc->pub->up);
2304
2305 /* maintain LEDs while in down state, turn on sbclk if not available yet */
2306 /* turn on sbclk if necessary */
2307 if (!AP_ENAB(wlc->pub)) {
2308 wlc_pllreq(wlc, true, WLC_PLLREQ_FLIP);
2309
2310 wlc_pllreq(wlc, false, WLC_PLLREQ_FLIP);
2311 }
2312 }
2313
2314 /* update hwradio status and return it */
wlc_check_radio_disabled(struct wlc_info * wlc)2315 bool wlc_check_radio_disabled(struct wlc_info *wlc)
2316 {
2317 wlc_radio_hwdisable_upd(wlc);
2318
2319 return mboolisset(wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE) ? true : false;
2320 }
2321
wlc_radio_disable(struct wlc_info * wlc)2322 void wlc_radio_disable(struct wlc_info *wlc)
2323 {
2324 if (!wlc->pub->up) {
2325 wlc_down_led_upd(wlc);
2326 return;
2327 }
2328
2329 wlc_radio_monitor_start(wlc);
2330 wl_down(wlc->wl);
2331 }
2332
wlc_radio_enable(struct wlc_info * wlc)2333 static void wlc_radio_enable(struct wlc_info *wlc)
2334 {
2335 if (wlc->pub->up)
2336 return;
2337
2338 if (DEVICEREMOVED(wlc))
2339 return;
2340
2341 if (!wlc->down_override) { /* imposed by wl down/out ioctl */
2342 wl_up(wlc->wl);
2343 }
2344 }
2345
2346 /* periodical query hw radio button while driver is "down" */
wlc_radio_timer(void * arg)2347 static void wlc_radio_timer(void *arg)
2348 {
2349 struct wlc_info *wlc = (struct wlc_info *) arg;
2350
2351 if (DEVICEREMOVED(wlc)) {
2352 WL_ERROR("wl%d: %s: dead chip\n", wlc->pub->unit, __func__);
2353 wl_down(wlc->wl);
2354 return;
2355 }
2356
2357 /* cap mpc off count */
2358 if (wlc->mpc_offcnt < WLC_MPC_MAX_DELAYCNT)
2359 wlc->mpc_offcnt++;
2360
2361 /* validate all the reasons driver could be down and running this radio_timer */
2362 ASSERT(wlc->pub->radio_disabled || wlc->down_override);
2363 wlc_radio_hwdisable_upd(wlc);
2364 wlc_radio_upd(wlc);
2365 }
2366
wlc_radio_monitor_start(struct wlc_info * wlc)2367 static bool wlc_radio_monitor_start(struct wlc_info *wlc)
2368 {
2369 /* Don't start the timer if HWRADIO feature is disabled */
2370 if (wlc->radio_monitor || (wlc->pub->wlfeatureflag & WL_SWFL_NOHWRADIO))
2371 return true;
2372
2373 wlc->radio_monitor = true;
2374 wlc_pllreq(wlc, true, WLC_PLLREQ_RADIO_MON);
2375 wl_add_timer(wlc->wl, wlc->radio_timer, TIMER_INTERVAL_RADIOCHK, true);
2376 return true;
2377 }
2378
wlc_radio_monitor_stop(struct wlc_info * wlc)2379 bool wlc_radio_monitor_stop(struct wlc_info *wlc)
2380 {
2381 if (!wlc->radio_monitor)
2382 return true;
2383
2384 ASSERT((wlc->pub->wlfeatureflag & WL_SWFL_NOHWRADIO) !=
2385 WL_SWFL_NOHWRADIO);
2386
2387 wlc->radio_monitor = false;
2388 wlc_pllreq(wlc, false, WLC_PLLREQ_RADIO_MON);
2389 return wl_del_timer(wlc->wl, wlc->radio_timer);
2390 }
2391
2392 /* bring the driver down, but don't reset hardware */
wlc_out(struct wlc_info * wlc)2393 void wlc_out(struct wlc_info *wlc)
2394 {
2395 wlc_bmac_set_noreset(wlc->hw, true);
2396 wlc_radio_upd(wlc);
2397 wl_down(wlc->wl);
2398 wlc_bmac_set_noreset(wlc->hw, false);
2399
2400 /* core clk is true in BMAC driver due to noreset, need to mirror it in HIGH */
2401 wlc->clk = true;
2402
2403 /* This will make sure that when 'up' is done
2404 * after 'out' it'll restore hardware (especially gpios)
2405 */
2406 wlc->pub->hw_up = false;
2407 }
2408
2409 #if defined(BCMDBG)
2410 /* Verify the sanity of wlc->tx_prec_map. This can be done only by making sure that
2411 * if there is no packet pending for the FIFO, then the corresponding prec bits should be set
2412 * in prec_map. Of course, ignore this rule when block_datafifo is set
2413 */
wlc_tx_prec_map_verify(struct wlc_info * wlc)2414 static bool wlc_tx_prec_map_verify(struct wlc_info *wlc)
2415 {
2416 /* For non-WME, both fifos have overlapping prec_map. So it's an error only if both
2417 * fail the check.
2418 */
2419 if (!EDCF_ENAB(wlc->pub)) {
2420 if (!(WLC_TX_FIFO_CHECK(wlc, TX_DATA_FIFO) ||
2421 WLC_TX_FIFO_CHECK(wlc, TX_CTL_FIFO)))
2422 return false;
2423 else
2424 return true;
2425 }
2426
2427 return WLC_TX_FIFO_CHECK(wlc, TX_AC_BK_FIFO)
2428 && WLC_TX_FIFO_CHECK(wlc, TX_AC_BE_FIFO)
2429 && WLC_TX_FIFO_CHECK(wlc, TX_AC_VI_FIFO)
2430 && WLC_TX_FIFO_CHECK(wlc, TX_AC_VO_FIFO);
2431 }
2432 #endif /* BCMDBG */
2433
wlc_watchdog_by_timer(void * arg)2434 static void wlc_watchdog_by_timer(void *arg)
2435 {
2436 struct wlc_info *wlc = (struct wlc_info *) arg;
2437 wlc_watchdog(arg);
2438 if (WLC_WATCHDOG_TBTT(wlc)) {
2439 /* set to normal osl watchdog period */
2440 wl_del_timer(wlc->wl, wlc->wdtimer);
2441 wl_add_timer(wlc->wl, wlc->wdtimer, TIMER_INTERVAL_WATCHDOG,
2442 true);
2443 }
2444 }
2445
2446 /* common watchdog code */
wlc_watchdog(void * arg)2447 static void wlc_watchdog(void *arg)
2448 {
2449 struct wlc_info *wlc = (struct wlc_info *) arg;
2450 int i;
2451 struct wlc_bsscfg *cfg;
2452
2453 WL_TRACE("wl%d: wlc_watchdog\n", wlc->pub->unit);
2454
2455 if (!wlc->pub->up)
2456 return;
2457
2458 if (DEVICEREMOVED(wlc)) {
2459 WL_ERROR("wl%d: %s: dead chip\n", wlc->pub->unit, __func__);
2460 wl_down(wlc->wl);
2461 return;
2462 }
2463
2464 /* increment second count */
2465 wlc->pub->now++;
2466
2467 /* delay radio disable */
2468 if (wlc->mpc_delay_off) {
2469 if (--wlc->mpc_delay_off == 0) {
2470 mboolset(wlc->pub->radio_disabled,
2471 WL_RADIO_MPC_DISABLE);
2472 if (wlc->mpc && wlc_ismpc(wlc))
2473 wlc->mpc_offcnt = 0;
2474 wlc->mpc_laston_ts = OSL_SYSUPTIME();
2475 }
2476 }
2477
2478 /* mpc sync */
2479 wlc_radio_mpc_upd(wlc);
2480 /* radio sync: sw/hw/mpc --> radio_disable/radio_enable */
2481 wlc_radio_hwdisable_upd(wlc);
2482 wlc_radio_upd(wlc);
2483 /* if ismpc, driver should be in down state if up/down is allowed */
2484 if (wlc->mpc && wlc_ismpc(wlc))
2485 ASSERT(!wlc->pub->up);
2486 /* if radio is disable, driver may be down, quit here */
2487 if (wlc->pub->radio_disabled)
2488 return;
2489
2490 wlc_bmac_watchdog(wlc);
2491
2492 /* occasionally sample mac stat counters to detect 16-bit counter wrap */
2493 if ((wlc->pub->now % SW_TIMER_MAC_STAT_UPD) == 0)
2494 wlc_statsupd(wlc);
2495
2496 /* Manage TKIP countermeasures timers */
2497 FOREACH_BSS(wlc, i, cfg) {
2498 if (cfg->tk_cm_dt) {
2499 cfg->tk_cm_dt--;
2500 }
2501 if (cfg->tk_cm_bt) {
2502 cfg->tk_cm_bt--;
2503 }
2504 }
2505
2506 /* Call any registered watchdog handlers */
2507 for (i = 0; i < WLC_MAXMODULES; i++) {
2508 if (wlc->modulecb[i].watchdog_fn)
2509 wlc->modulecb[i].watchdog_fn(wlc->modulecb[i].hdl);
2510 }
2511
2512 if (WLCISNPHY(wlc->band) && !wlc->pub->tempsense_disable &&
2513 ((wlc->pub->now - wlc->tempsense_lasttime) >=
2514 WLC_TEMPSENSE_PERIOD)) {
2515 wlc->tempsense_lasttime = wlc->pub->now;
2516 wlc_tempsense_upd(wlc);
2517 }
2518 /* BMAC_NOTE: for HIGH_ONLY driver, this seems being called after RPC bus failed */
2519 ASSERT(wlc_bmac_taclear(wlc->hw, true));
2520
2521 /* Verify that tx_prec_map and fifos are in sync to avoid lock ups */
2522 ASSERT(wlc_tx_prec_map_verify(wlc));
2523
2524 ASSERT(wlc_ps_check(wlc));
2525 }
2526
2527 /* make interface operational */
wlc_up(struct wlc_info * wlc)2528 int wlc_up(struct wlc_info *wlc)
2529 {
2530 WL_TRACE("wl%d: %s:\n", wlc->pub->unit, __func__);
2531
2532 /* HW is turned off so don't try to access it */
2533 if (wlc->pub->hw_off || DEVICEREMOVED(wlc))
2534 return BCME_RADIOOFF;
2535
2536 if (!wlc->pub->hw_up) {
2537 wlc_bmac_hw_up(wlc->hw);
2538 wlc->pub->hw_up = true;
2539 }
2540
2541 if ((wlc->pub->boardflags & BFL_FEM)
2542 && (wlc->pub->sih->chip == BCM4313_CHIP_ID)) {
2543 if (wlc->pub->boardrev >= 0x1250
2544 && (wlc->pub->boardflags & BFL_FEM_BT)) {
2545 wlc_mhf(wlc, MHF5, MHF5_4313_GPIOCTRL,
2546 MHF5_4313_GPIOCTRL, WLC_BAND_ALL);
2547 } else {
2548 wlc_mhf(wlc, MHF4, MHF4_EXTPA_ENABLE, MHF4_EXTPA_ENABLE,
2549 WLC_BAND_ALL);
2550 }
2551 }
2552
2553 /*
2554 * Need to read the hwradio status here to cover the case where the system
2555 * is loaded with the hw radio disabled. We do not want to bring the driver up in this case.
2556 * if radio is disabled, abort up, lower power, start radio timer and return 0(for NDIS)
2557 * don't call radio_update to avoid looping wlc_up.
2558 *
2559 * wlc_bmac_up_prep() returns either 0 or BCME_RADIOOFF only
2560 */
2561 if (!wlc->pub->radio_disabled) {
2562 int status = wlc_bmac_up_prep(wlc->hw);
2563 if (status == BCME_RADIOOFF) {
2564 if (!mboolisset
2565 (wlc->pub->radio_disabled, WL_RADIO_HW_DISABLE)) {
2566 int idx;
2567 struct wlc_bsscfg *bsscfg;
2568 mboolset(wlc->pub->radio_disabled,
2569 WL_RADIO_HW_DISABLE);
2570
2571 FOREACH_BSS(wlc, idx, bsscfg) {
2572 if (!BSSCFG_STA(bsscfg)
2573 || !bsscfg->enable || !bsscfg->BSS)
2574 continue;
2575 WL_ERROR("wl%d.%d: wlc_up: rfdisable -> " "wlc_bsscfg_disable()\n",
2576 wlc->pub->unit, idx);
2577 }
2578 }
2579 } else
2580 ASSERT(!status);
2581 }
2582
2583 if (wlc->pub->radio_disabled) {
2584 wlc_radio_monitor_start(wlc);
2585 return 0;
2586 }
2587
2588 /* wlc_bmac_up_prep has done wlc_corereset(). so clk is on, set it */
2589 wlc->clk = true;
2590
2591 wlc_radio_monitor_stop(wlc);
2592
2593 /* Set EDCF hostflags */
2594 if (EDCF_ENAB(wlc->pub)) {
2595 wlc_mhf(wlc, MHF1, MHF1_EDCF, MHF1_EDCF, WLC_BAND_ALL);
2596 } else {
2597 wlc_mhf(wlc, MHF1, MHF1_EDCF, 0, WLC_BAND_ALL);
2598 }
2599
2600 if (WLC_WAR16165(wlc))
2601 wlc_mhf(wlc, MHF2, MHF2_PCISLOWCLKWAR, MHF2_PCISLOWCLKWAR,
2602 WLC_BAND_ALL);
2603
2604 wl_init(wlc->wl);
2605 wlc->pub->up = true;
2606
2607 if (wlc->bandinit_pending) {
2608 wlc_suspend_mac_and_wait(wlc);
2609 wlc_set_chanspec(wlc, wlc->default_bss->chanspec);
2610 wlc->bandinit_pending = false;
2611 wlc_enable_mac(wlc);
2612 }
2613
2614 wlc_bmac_up_finish(wlc->hw);
2615
2616 /* other software states up after ISR is running */
2617 /* start APs that were to be brought up but are not up yet */
2618 /* if (AP_ENAB(wlc->pub)) wlc_restart_ap(wlc->ap); */
2619
2620 /* Program the TX wme params with the current settings */
2621 wlc_wme_retries_write(wlc);
2622
2623 /* start one second watchdog timer */
2624 ASSERT(!wlc->WDarmed);
2625 wl_add_timer(wlc->wl, wlc->wdtimer, TIMER_INTERVAL_WATCHDOG, true);
2626 wlc->WDarmed = true;
2627
2628 /* ensure antenna config is up to date */
2629 wlc_stf_phy_txant_upd(wlc);
2630 /* ensure LDPC config is in sync */
2631 wlc_ht_update_ldpc(wlc, wlc->stf->ldpc);
2632
2633 return 0;
2634 }
2635
2636 /* Initialize the base precedence map for dequeueing from txq based on WME settings */
wlc_tx_prec_map_init(struct wlc_info * wlc)2637 static void wlc_tx_prec_map_init(struct wlc_info *wlc)
2638 {
2639 wlc->tx_prec_map = WLC_PREC_BMP_ALL;
2640 memset(wlc->fifo2prec_map, 0, NFIFO * sizeof(u16));
2641
2642 /* For non-WME, both fifos have overlapping MAXPRIO. So just disable all precedences
2643 * if either is full.
2644 */
2645 if (!EDCF_ENAB(wlc->pub)) {
2646 wlc->fifo2prec_map[TX_DATA_FIFO] = WLC_PREC_BMP_ALL;
2647 wlc->fifo2prec_map[TX_CTL_FIFO] = WLC_PREC_BMP_ALL;
2648 } else {
2649 wlc->fifo2prec_map[TX_AC_BK_FIFO] = WLC_PREC_BMP_AC_BK;
2650 wlc->fifo2prec_map[TX_AC_BE_FIFO] = WLC_PREC_BMP_AC_BE;
2651 wlc->fifo2prec_map[TX_AC_VI_FIFO] = WLC_PREC_BMP_AC_VI;
2652 wlc->fifo2prec_map[TX_AC_VO_FIFO] = WLC_PREC_BMP_AC_VO;
2653 }
2654 }
2655
wlc_down_del_timer(struct wlc_info * wlc)2656 static uint wlc_down_del_timer(struct wlc_info *wlc)
2657 {
2658 uint callbacks = 0;
2659
2660 return callbacks;
2661 }
2662
2663 /*
2664 * Mark the interface nonoperational, stop the software mechanisms,
2665 * disable the hardware, free any transient buffer state.
2666 * Return a count of the number of driver callbacks still pending.
2667 */
wlc_down(struct wlc_info * wlc)2668 uint wlc_down(struct wlc_info *wlc)
2669 {
2670
2671 uint callbacks = 0;
2672 int i;
2673 bool dev_gone = false;
2674 struct wlc_txq_info *qi;
2675
2676 WL_TRACE("wl%d: %s:\n", wlc->pub->unit, __func__);
2677
2678 /* check if we are already in the going down path */
2679 if (wlc->going_down) {
2680 WL_ERROR("wl%d: %s: Driver going down so return\n",
2681 wlc->pub->unit, __func__);
2682 return 0;
2683 }
2684 if (!wlc->pub->up)
2685 return callbacks;
2686
2687 /* in between, mpc could try to bring down again.. */
2688 wlc->going_down = true;
2689
2690 callbacks += wlc_bmac_down_prep(wlc->hw);
2691
2692 dev_gone = DEVICEREMOVED(wlc);
2693
2694 /* Call any registered down handlers */
2695 for (i = 0; i < WLC_MAXMODULES; i++) {
2696 if (wlc->modulecb[i].down_fn)
2697 callbacks +=
2698 wlc->modulecb[i].down_fn(wlc->modulecb[i].hdl);
2699 }
2700
2701 /* cancel the watchdog timer */
2702 if (wlc->WDarmed) {
2703 if (!wl_del_timer(wlc->wl, wlc->wdtimer))
2704 callbacks++;
2705 wlc->WDarmed = false;
2706 }
2707 /* cancel all other timers */
2708 callbacks += wlc_down_del_timer(wlc);
2709
2710 /* interrupt must have been blocked */
2711 ASSERT((wlc->macintmask == 0) || !wlc->pub->up);
2712
2713 wlc->pub->up = false;
2714
2715 wlc_phy_mute_upd(wlc->band->pi, false, PHY_MUTE_ALL);
2716
2717 /* clear txq flow control */
2718 wlc_txflowcontrol_reset(wlc);
2719
2720 /* flush tx queues */
2721 for (qi = wlc->tx_queues; qi != NULL; qi = qi->next) {
2722 pktq_flush(&qi->q, true, NULL, 0);
2723 ASSERT(pktq_empty(&qi->q));
2724 }
2725
2726 callbacks += wlc_bmac_down_finish(wlc->hw);
2727
2728 /* wlc_bmac_down_finish has done wlc_coredisable(). so clk is off */
2729 wlc->clk = false;
2730
2731 #ifdef BCMDBG
2732 /* Since all the packets should have been freed,
2733 * all callbacks should have been called
2734 */
2735 for (i = 1; i <= wlc->pub->tunables->maxpktcb; i++)
2736 ASSERT(wlc->pkt_callback[i].fn == NULL);
2737 #endif
2738 wlc->going_down = false;
2739 return callbacks;
2740 }
2741
2742 /* Set the current gmode configuration */
wlc_set_gmode(struct wlc_info * wlc,u8 gmode,bool config)2743 int wlc_set_gmode(struct wlc_info *wlc, u8 gmode, bool config)
2744 {
2745 int ret = 0;
2746 uint i;
2747 wlc_rateset_t rs;
2748 /* Default to 54g Auto */
2749 s8 shortslot = WLC_SHORTSLOT_AUTO; /* Advertise and use shortslot (-1/0/1 Auto/Off/On) */
2750 bool shortslot_restrict = false; /* Restrict association to stations that support shortslot
2751 */
2752 bool ignore_bcns = true; /* Ignore legacy beacons on the same channel */
2753 bool ofdm_basic = false; /* Make 6, 12, and 24 basic rates */
2754 int preamble = WLC_PLCP_LONG; /* Advertise and use short preambles (-1/0/1 Auto/Off/On) */
2755 bool preamble_restrict = false; /* Restrict association to stations that support short
2756 * preambles
2757 */
2758 struct wlcband *band;
2759
2760 /* if N-support is enabled, allow Gmode set as long as requested
2761 * Gmode is not GMODE_LEGACY_B
2762 */
2763 if (N_ENAB(wlc->pub) && gmode == GMODE_LEGACY_B)
2764 return BCME_UNSUPPORTED;
2765
2766 /* verify that we are dealing with 2G band and grab the band pointer */
2767 if (wlc->band->bandtype == WLC_BAND_2G)
2768 band = wlc->band;
2769 else if ((NBANDS(wlc) > 1) &&
2770 (wlc->bandstate[OTHERBANDUNIT(wlc)]->bandtype == WLC_BAND_2G))
2771 band = wlc->bandstate[OTHERBANDUNIT(wlc)];
2772 else
2773 return BCME_BADBAND;
2774
2775 /* Legacy or bust when no OFDM is supported by regulatory */
2776 if ((wlc_channel_locale_flags_in_band(wlc->cmi, band->bandunit) &
2777 WLC_NO_OFDM) && (gmode != GMODE_LEGACY_B))
2778 return BCME_RANGE;
2779
2780 /* update configuration value */
2781 if (config == true)
2782 wlc_protection_upd(wlc, WLC_PROT_G_USER, gmode);
2783
2784 /* Clear supported rates filter */
2785 memset(&wlc->sup_rates_override, 0, sizeof(wlc_rateset_t));
2786
2787 /* Clear rateset override */
2788 memset(&rs, 0, sizeof(wlc_rateset_t));
2789
2790 switch (gmode) {
2791 case GMODE_LEGACY_B:
2792 shortslot = WLC_SHORTSLOT_OFF;
2793 wlc_rateset_copy(&gphy_legacy_rates, &rs);
2794
2795 break;
2796
2797 case GMODE_LRS:
2798 if (AP_ENAB(wlc->pub))
2799 wlc_rateset_copy(&cck_rates, &wlc->sup_rates_override);
2800 break;
2801
2802 case GMODE_AUTO:
2803 /* Accept defaults */
2804 break;
2805
2806 case GMODE_ONLY:
2807 ofdm_basic = true;
2808 preamble = WLC_PLCP_SHORT;
2809 preamble_restrict = true;
2810 break;
2811
2812 case GMODE_PERFORMANCE:
2813 if (AP_ENAB(wlc->pub)) /* Put all rates into the Supported Rates element */
2814 wlc_rateset_copy(&cck_ofdm_rates,
2815 &wlc->sup_rates_override);
2816
2817 shortslot = WLC_SHORTSLOT_ON;
2818 shortslot_restrict = true;
2819 ofdm_basic = true;
2820 preamble = WLC_PLCP_SHORT;
2821 preamble_restrict = true;
2822 break;
2823
2824 default:
2825 /* Error */
2826 WL_ERROR("wl%d: %s: invalid gmode %d\n",
2827 wlc->pub->unit, __func__, gmode);
2828 return BCME_UNSUPPORTED;
2829 }
2830
2831 /*
2832 * If we are switching to gmode == GMODE_LEGACY_B,
2833 * clean up rate info that may refer to OFDM rates.
2834 */
2835 if ((gmode == GMODE_LEGACY_B) && (band->gmode != GMODE_LEGACY_B)) {
2836 band->gmode = gmode;
2837 if (band->rspec_override && !IS_CCK(band->rspec_override)) {
2838 band->rspec_override = 0;
2839 wlc_reprate_init(wlc);
2840 }
2841 if (band->mrspec_override && !IS_CCK(band->mrspec_override)) {
2842 band->mrspec_override = 0;
2843 }
2844 }
2845
2846 band->gmode = gmode;
2847
2848 wlc->ignore_bcns = ignore_bcns;
2849
2850 wlc->shortslot_override = shortslot;
2851
2852 if (AP_ENAB(wlc->pub)) {
2853 /* wlc->ap->shortslot_restrict = shortslot_restrict; */
2854 wlc->PLCPHdr_override =
2855 (preamble !=
2856 WLC_PLCP_LONG) ? WLC_PLCP_SHORT : WLC_PLCP_AUTO;
2857 }
2858
2859 if ((AP_ENAB(wlc->pub) && preamble != WLC_PLCP_LONG)
2860 || preamble == WLC_PLCP_SHORT)
2861 wlc->default_bss->capability |= WLAN_CAPABILITY_SHORT_PREAMBLE;
2862 else
2863 wlc->default_bss->capability &= ~WLAN_CAPABILITY_SHORT_PREAMBLE;
2864
2865 /* Update shortslot capability bit for AP and IBSS */
2866 if ((AP_ENAB(wlc->pub) && shortslot == WLC_SHORTSLOT_AUTO) ||
2867 shortslot == WLC_SHORTSLOT_ON)
2868 wlc->default_bss->capability |= WLAN_CAPABILITY_SHORT_SLOT_TIME;
2869 else
2870 wlc->default_bss->capability &=
2871 ~WLAN_CAPABILITY_SHORT_SLOT_TIME;
2872
2873 /* Use the default 11g rateset */
2874 if (!rs.count)
2875 wlc_rateset_copy(&cck_ofdm_rates, &rs);
2876
2877 if (ofdm_basic) {
2878 for (i = 0; i < rs.count; i++) {
2879 if (rs.rates[i] == WLC_RATE_6M
2880 || rs.rates[i] == WLC_RATE_12M
2881 || rs.rates[i] == WLC_RATE_24M)
2882 rs.rates[i] |= WLC_RATE_FLAG;
2883 }
2884 }
2885
2886 /* Set default bss rateset */
2887 wlc->default_bss->rateset.count = rs.count;
2888 memcpy(wlc->default_bss->rateset.rates, rs.rates,
2889 sizeof(wlc->default_bss->rateset.rates));
2890
2891 return ret;
2892 }
2893
wlc_nmode_validate(struct wlc_info * wlc,s32 nmode)2894 static int wlc_nmode_validate(struct wlc_info *wlc, s32 nmode)
2895 {
2896 int err = 0;
2897
2898 switch (nmode) {
2899
2900 case OFF:
2901 break;
2902
2903 case AUTO:
2904 case WL_11N_2x2:
2905 case WL_11N_3x3:
2906 if (!(WLC_PHY_11N_CAP(wlc->band)))
2907 err = BCME_BADBAND;
2908 break;
2909
2910 default:
2911 err = BCME_RANGE;
2912 break;
2913 }
2914
2915 return err;
2916 }
2917
wlc_set_nmode(struct wlc_info * wlc,s32 nmode)2918 int wlc_set_nmode(struct wlc_info *wlc, s32 nmode)
2919 {
2920 uint i;
2921 int err;
2922
2923 err = wlc_nmode_validate(wlc, nmode);
2924 ASSERT(err == 0);
2925 if (err)
2926 return err;
2927
2928 switch (nmode) {
2929 case OFF:
2930 wlc->pub->_n_enab = OFF;
2931 wlc->default_bss->flags &= ~WLC_BSS_HT;
2932 /* delete the mcs rates from the default and hw ratesets */
2933 wlc_rateset_mcs_clear(&wlc->default_bss->rateset);
2934 for (i = 0; i < NBANDS(wlc); i++) {
2935 memset(wlc->bandstate[i]->hw_rateset.mcs, 0,
2936 MCSSET_LEN);
2937 if (IS_MCS(wlc->band->rspec_override)) {
2938 wlc->bandstate[i]->rspec_override = 0;
2939 wlc_reprate_init(wlc);
2940 }
2941 if (IS_MCS(wlc->band->mrspec_override))
2942 wlc->bandstate[i]->mrspec_override = 0;
2943 }
2944 break;
2945
2946 case AUTO:
2947 if (wlc->stf->txstreams == WL_11N_3x3)
2948 nmode = WL_11N_3x3;
2949 else
2950 nmode = WL_11N_2x2;
2951 case WL_11N_2x2:
2952 case WL_11N_3x3:
2953 ASSERT(WLC_PHY_11N_CAP(wlc->band));
2954 /* force GMODE_AUTO if NMODE is ON */
2955 wlc_set_gmode(wlc, GMODE_AUTO, true);
2956 if (nmode == WL_11N_3x3)
2957 wlc->pub->_n_enab = SUPPORT_HT;
2958 else
2959 wlc->pub->_n_enab = SUPPORT_11N;
2960 wlc->default_bss->flags |= WLC_BSS_HT;
2961 /* add the mcs rates to the default and hw ratesets */
2962 wlc_rateset_mcs_build(&wlc->default_bss->rateset,
2963 wlc->stf->txstreams);
2964 for (i = 0; i < NBANDS(wlc); i++)
2965 memcpy(wlc->bandstate[i]->hw_rateset.mcs,
2966 wlc->default_bss->rateset.mcs, MCSSET_LEN);
2967 break;
2968
2969 default:
2970 ASSERT(0);
2971 break;
2972 }
2973
2974 return err;
2975 }
2976
wlc_set_rateset(struct wlc_info * wlc,wlc_rateset_t * rs_arg)2977 static int wlc_set_rateset(struct wlc_info *wlc, wlc_rateset_t *rs_arg)
2978 {
2979 wlc_rateset_t rs, new;
2980 uint bandunit;
2981
2982 memcpy(&rs, rs_arg, sizeof(wlc_rateset_t));
2983
2984 /* check for bad count value */
2985 if ((rs.count == 0) || (rs.count > WLC_NUMRATES))
2986 return BCME_BADRATESET;
2987
2988 /* try the current band */
2989 bandunit = wlc->band->bandunit;
2990 memcpy(&new, &rs, sizeof(wlc_rateset_t));
2991 if (wlc_rate_hwrs_filter_sort_validate
2992 (&new, &wlc->bandstate[bandunit]->hw_rateset, true,
2993 wlc->stf->txstreams))
2994 goto good;
2995
2996 /* try the other band */
2997 if (IS_MBAND_UNLOCKED(wlc)) {
2998 bandunit = OTHERBANDUNIT(wlc);
2999 memcpy(&new, &rs, sizeof(wlc_rateset_t));
3000 if (wlc_rate_hwrs_filter_sort_validate(&new,
3001 &wlc->
3002 bandstate[bandunit]->
3003 hw_rateset, true,
3004 wlc->stf->txstreams))
3005 goto good;
3006 }
3007
3008 return BCME_ERROR;
3009
3010 good:
3011 /* apply new rateset */
3012 memcpy(&wlc->default_bss->rateset, &new, sizeof(wlc_rateset_t));
3013 memcpy(&wlc->bandstate[bandunit]->defrateset, &new,
3014 sizeof(wlc_rateset_t));
3015 return 0;
3016 }
3017
3018 /* simplified integer set interface for common ioctl handler */
wlc_set(struct wlc_info * wlc,int cmd,int arg)3019 int wlc_set(struct wlc_info *wlc, int cmd, int arg)
3020 {
3021 return wlc_ioctl(wlc, cmd, (void *)&arg, sizeof(arg), NULL);
3022 }
3023
3024 /* simplified integer get interface for common ioctl handler */
wlc_get(struct wlc_info * wlc,int cmd,int * arg)3025 int wlc_get(struct wlc_info *wlc, int cmd, int *arg)
3026 {
3027 return wlc_ioctl(wlc, cmd, arg, sizeof(int), NULL);
3028 }
3029
wlc_ofdm_rateset_war(struct wlc_info * wlc)3030 static void wlc_ofdm_rateset_war(struct wlc_info *wlc)
3031 {
3032 u8 r;
3033 bool war = false;
3034
3035 if (wlc->cfg->associated)
3036 r = wlc->cfg->current_bss->rateset.rates[0];
3037 else
3038 r = wlc->default_bss->rateset.rates[0];
3039
3040 wlc_phy_ofdm_rateset_war(wlc->band->pi, war);
3041
3042 return;
3043 }
3044
3045 int
wlc_ioctl(struct wlc_info * wlc,int cmd,void * arg,int len,struct wlc_if * wlcif)3046 wlc_ioctl(struct wlc_info *wlc, int cmd, void *arg, int len,
3047 struct wlc_if *wlcif)
3048 {
3049 return _wlc_ioctl(wlc, cmd, arg, len, wlcif);
3050 }
3051
3052 /* common ioctl handler. return: 0=ok, -1=error, positive=particular error */
3053 static int
_wlc_ioctl(struct wlc_info * wlc,int cmd,void * arg,int len,struct wlc_if * wlcif)3054 _wlc_ioctl(struct wlc_info *wlc, int cmd, void *arg, int len,
3055 struct wlc_if *wlcif)
3056 {
3057 int val, *pval;
3058 bool bool_val;
3059 int bcmerror;
3060 d11regs_t *regs;
3061 uint i;
3062 struct scb *nextscb;
3063 bool ta_ok;
3064 uint band;
3065 rw_reg_t *r;
3066 struct wlc_bsscfg *bsscfg;
3067 wlc_bss_info_t *current_bss;
3068
3069 /* update bsscfg pointer */
3070 bsscfg = NULL; /* XXX: Hack bsscfg to be size one and use this globally */
3071 current_bss = NULL;
3072
3073 /* initialize the following to get rid of compiler warning */
3074 nextscb = NULL;
3075 ta_ok = false;
3076 band = 0;
3077 r = NULL;
3078
3079 /* If the device is turned off, then it's not "removed" */
3080 if (!wlc->pub->hw_off && DEVICEREMOVED(wlc)) {
3081 WL_ERROR("wl%d: %s: dead chip\n", wlc->pub->unit, __func__);
3082 wl_down(wlc->wl);
3083 return BCME_ERROR;
3084 }
3085
3086 ASSERT(!(wlc->pub->hw_off && wlc->pub->up));
3087
3088 /* default argument is generic integer */
3089 pval = arg ? (int *)arg:NULL;
3090
3091 /* This will prevent the misaligned access */
3092 if (pval && (u32) len >= sizeof(val))
3093 memcpy(&val, pval, sizeof(val));
3094 else
3095 val = 0;
3096
3097 /* bool conversion to avoid duplication below */
3098 bool_val = val != 0;
3099
3100 if (cmd != WLC_SET_CHANNEL)
3101 WL_NONE("WLC_IOCTL: cmd %d val 0x%x (%d) len %d\n",
3102 cmd, (uint)val, val, len);
3103
3104 bcmerror = 0;
3105 regs = wlc->regs;
3106
3107 /* A few commands don't need any arguments; all the others do. */
3108 switch (cmd) {
3109 case WLC_UP:
3110 case WLC_OUT:
3111 case WLC_DOWN:
3112 case WLC_DISASSOC:
3113 case WLC_RESTART:
3114 case WLC_REBOOT:
3115 case WLC_START_CHANNEL_QA:
3116 case WLC_INIT:
3117 break;
3118
3119 default:
3120 if ((arg == NULL) || (len <= 0)) {
3121 WL_ERROR("wl%d: %s: Command %d needs arguments\n",
3122 wlc->pub->unit, __func__, cmd);
3123 bcmerror = BCME_BADARG;
3124 goto done;
3125 }
3126 }
3127
3128 switch (cmd) {
3129
3130 #if defined(BCMDBG)
3131 case WLC_GET_MSGLEVEL:
3132 *pval = wl_msg_level;
3133 break;
3134
3135 case WLC_SET_MSGLEVEL:
3136 wl_msg_level = val;
3137 break;
3138 #endif
3139
3140 case WLC_GET_INSTANCE:
3141 *pval = wlc->pub->unit;
3142 break;
3143
3144 case WLC_GET_CHANNEL:{
3145 channel_info_t *ci = (channel_info_t *) arg;
3146
3147 ASSERT(len > (int)sizeof(ci));
3148
3149 ci->hw_channel =
3150 CHSPEC_CHANNEL(WLC_BAND_PI_RADIO_CHANSPEC);
3151 ci->target_channel =
3152 CHSPEC_CHANNEL(wlc->default_bss->chanspec);
3153 ci->scan_channel = 0;
3154
3155 break;
3156 }
3157
3158 case WLC_SET_CHANNEL:{
3159 chanspec_t chspec = CH20MHZ_CHSPEC(val);
3160
3161 if (val < 0 || val > MAXCHANNEL) {
3162 bcmerror = BCME_OUTOFRANGECHAN;
3163 break;
3164 }
3165
3166 if (!wlc_valid_chanspec_db(wlc->cmi, chspec)) {
3167 bcmerror = BCME_BADCHAN;
3168 break;
3169 }
3170
3171 if (!wlc->pub->up && IS_MBAND_UNLOCKED(wlc)) {
3172 if (wlc->band->bandunit !=
3173 CHSPEC_WLCBANDUNIT(chspec))
3174 wlc->bandinit_pending = true;
3175 else
3176 wlc->bandinit_pending = false;
3177 }
3178
3179 wlc->default_bss->chanspec = chspec;
3180 /* wlc_BSSinit() will sanitize the rateset before using it.. */
3181 if (wlc->pub->up &&
3182 (WLC_BAND_PI_RADIO_CHANSPEC != chspec)) {
3183 wlc_set_home_chanspec(wlc, chspec);
3184 wlc_suspend_mac_and_wait(wlc);
3185 wlc_set_chanspec(wlc, chspec);
3186 wlc_enable_mac(wlc);
3187 }
3188 break;
3189 }
3190
3191 #if defined(BCMDBG)
3192 case WLC_GET_UCFLAGS:
3193 if (!wlc->pub->up) {
3194 bcmerror = BCME_NOTUP;
3195 break;
3196 }
3197
3198 /* optional band is stored in the second integer of incoming buffer */
3199 band =
3200 (len <
3201 (int)(2 * sizeof(int))) ? WLC_BAND_AUTO : ((int *)arg)[1];
3202
3203 /* bcmerror checking */
3204 bcmerror = wlc_iocregchk(wlc, band);
3205 if (bcmerror)
3206 break;
3207
3208 if (val >= MHFMAX) {
3209 bcmerror = BCME_RANGE;
3210 break;
3211 }
3212
3213 *pval = wlc_bmac_mhf_get(wlc->hw, (u8) val, WLC_BAND_AUTO);
3214 break;
3215
3216 case WLC_SET_UCFLAGS:
3217 if (!wlc->pub->up) {
3218 bcmerror = BCME_NOTUP;
3219 break;
3220 }
3221
3222 /* optional band is stored in the second integer of incoming buffer */
3223 band =
3224 (len <
3225 (int)(2 * sizeof(int))) ? WLC_BAND_AUTO : ((int *)arg)[1];
3226
3227 /* bcmerror checking */
3228 bcmerror = wlc_iocregchk(wlc, band);
3229 if (bcmerror)
3230 break;
3231
3232 i = (u16) val;
3233 if (i >= MHFMAX) {
3234 bcmerror = BCME_RANGE;
3235 break;
3236 }
3237
3238 wlc_mhf(wlc, (u8) i, 0xffff, (u16) (val >> NBITS(u16)),
3239 WLC_BAND_AUTO);
3240 break;
3241
3242 case WLC_GET_SHMEM:
3243 ta_ok = true;
3244
3245 /* optional band is stored in the second integer of incoming buffer */
3246 band =
3247 (len <
3248 (int)(2 * sizeof(int))) ? WLC_BAND_AUTO : ((int *)arg)[1];
3249
3250 /* bcmerror checking */
3251 bcmerror = wlc_iocregchk(wlc, band);
3252 if (bcmerror)
3253 break;
3254
3255 if (val & 1) {
3256 bcmerror = BCME_BADADDR;
3257 break;
3258 }
3259
3260 *pval = wlc_read_shm(wlc, (u16) val);
3261 break;
3262
3263 case WLC_SET_SHMEM:
3264 ta_ok = true;
3265
3266 /* optional band is stored in the second integer of incoming buffer */
3267 band =
3268 (len <
3269 (int)(2 * sizeof(int))) ? WLC_BAND_AUTO : ((int *)arg)[1];
3270
3271 /* bcmerror checking */
3272 bcmerror = wlc_iocregchk(wlc, band);
3273 if (bcmerror)
3274 break;
3275
3276 if (val & 1) {
3277 bcmerror = BCME_BADADDR;
3278 break;
3279 }
3280
3281 wlc_write_shm(wlc, (u16) val,
3282 (u16) (val >> NBITS(u16)));
3283 break;
3284
3285 case WLC_R_REG: /* MAC registers */
3286 ta_ok = true;
3287 r = (rw_reg_t *) arg;
3288 band = WLC_BAND_AUTO;
3289
3290 if (len < (int)(sizeof(rw_reg_t) - sizeof(uint))) {
3291 bcmerror = BCME_BUFTOOSHORT;
3292 break;
3293 }
3294
3295 if (len >= (int)sizeof(rw_reg_t))
3296 band = r->band;
3297
3298 /* bcmerror checking */
3299 bcmerror = wlc_iocregchk(wlc, band);
3300 if (bcmerror)
3301 break;
3302
3303 if ((r->byteoff + r->size) > sizeof(d11regs_t)) {
3304 bcmerror = BCME_BADADDR;
3305 break;
3306 }
3307 if (r->size == sizeof(u32))
3308 r->val =
3309 R_REG((u32 *)((unsigned char *)(unsigned long)regs +
3310 r->byteoff));
3311 else if (r->size == sizeof(u16))
3312 r->val =
3313 R_REG((u16 *)((unsigned char *)(unsigned long)regs +
3314 r->byteoff));
3315 else
3316 bcmerror = BCME_BADADDR;
3317 break;
3318
3319 case WLC_W_REG:
3320 ta_ok = true;
3321 r = (rw_reg_t *) arg;
3322 band = WLC_BAND_AUTO;
3323
3324 if (len < (int)(sizeof(rw_reg_t) - sizeof(uint))) {
3325 bcmerror = BCME_BUFTOOSHORT;
3326 break;
3327 }
3328
3329 if (len >= (int)sizeof(rw_reg_t))
3330 band = r->band;
3331
3332 /* bcmerror checking */
3333 bcmerror = wlc_iocregchk(wlc, band);
3334 if (bcmerror)
3335 break;
3336
3337 if (r->byteoff + r->size > sizeof(d11regs_t)) {
3338 bcmerror = BCME_BADADDR;
3339 break;
3340 }
3341 if (r->size == sizeof(u32))
3342 W_REG((u32 *)((unsigned char *)(unsigned long) regs +
3343 r->byteoff), r->val);
3344 else if (r->size == sizeof(u16))
3345 W_REG((u16 *)((unsigned char *)(unsigned long) regs +
3346 r->byteoff), r->val);
3347 else
3348 bcmerror = BCME_BADADDR;
3349 break;
3350 #endif /* BCMDBG */
3351
3352 case WLC_GET_TXANT:
3353 *pval = wlc->stf->txant;
3354 break;
3355
3356 case WLC_SET_TXANT:
3357 bcmerror = wlc_stf_ant_txant_validate(wlc, (s8) val);
3358 if (bcmerror < 0)
3359 break;
3360
3361 wlc->stf->txant = (s8) val;
3362
3363 /* if down, we are done */
3364 if (!wlc->pub->up)
3365 break;
3366
3367 wlc_suspend_mac_and_wait(wlc);
3368
3369 wlc_stf_phy_txant_upd(wlc);
3370 wlc_beacon_phytxctl_txant_upd(wlc, wlc->bcn_rspec);
3371
3372 wlc_enable_mac(wlc);
3373
3374 break;
3375
3376 case WLC_GET_ANTDIV:{
3377 u8 phy_antdiv;
3378
3379 /* return configured value if core is down */
3380 if (!wlc->pub->up) {
3381 *pval = wlc->stf->ant_rx_ovr;
3382
3383 } else {
3384 if (wlc_phy_ant_rxdiv_get
3385 (wlc->band->pi, &phy_antdiv))
3386 *pval = (int)phy_antdiv;
3387 else
3388 *pval = (int)wlc->stf->ant_rx_ovr;
3389 }
3390
3391 break;
3392 }
3393 case WLC_SET_ANTDIV:
3394 /* values are -1=driver default, 0=force0, 1=force1, 2=start1, 3=start0 */
3395 if ((val < -1) || (val > 3)) {
3396 bcmerror = BCME_RANGE;
3397 break;
3398 }
3399
3400 if (val == -1)
3401 val = ANT_RX_DIV_DEF;
3402
3403 wlc->stf->ant_rx_ovr = (u8) val;
3404 wlc_phy_ant_rxdiv_set(wlc->band->pi, (u8) val);
3405 break;
3406
3407 case WLC_GET_RX_ANT:{ /* get latest used rx antenna */
3408 u16 rxstatus;
3409
3410 if (!wlc->pub->up) {
3411 bcmerror = BCME_NOTUP;
3412 break;
3413 }
3414
3415 rxstatus = R_REG(&wlc->regs->phyrxstatus0);
3416 if (rxstatus == 0xdead || rxstatus == (u16) -1) {
3417 bcmerror = BCME_ERROR;
3418 break;
3419 }
3420 *pval = (rxstatus & PRXS0_RXANT_UPSUBBAND) ? 1 : 0;
3421 break;
3422 }
3423
3424 #if defined(BCMDBG)
3425 case WLC_GET_UCANTDIV:
3426 if (!wlc->clk) {
3427 bcmerror = BCME_NOCLK;
3428 break;
3429 }
3430
3431 *pval =
3432 (wlc_bmac_mhf_get(wlc->hw, MHF1, WLC_BAND_AUTO) &
3433 MHF1_ANTDIV);
3434 break;
3435
3436 case WLC_SET_UCANTDIV:{
3437 if (!wlc->pub->up) {
3438 bcmerror = BCME_NOTUP;
3439 break;
3440 }
3441
3442 /* if multiband, band must be locked */
3443 if (IS_MBAND_UNLOCKED(wlc)) {
3444 bcmerror = BCME_NOTBANDLOCKED;
3445 break;
3446 }
3447
3448 wlc_mhf(wlc, MHF1, MHF1_ANTDIV,
3449 (val ? MHF1_ANTDIV : 0), WLC_BAND_AUTO);
3450 break;
3451 }
3452 #endif /* defined(BCMDBG) */
3453
3454 case WLC_GET_SRL:
3455 *pval = wlc->SRL;
3456 break;
3457
3458 case WLC_SET_SRL:
3459 if (val >= 1 && val <= RETRY_SHORT_MAX) {
3460 int ac;
3461 wlc->SRL = (u16) val;
3462
3463 wlc_bmac_retrylimit_upd(wlc->hw, wlc->SRL, wlc->LRL);
3464
3465 for (ac = 0; ac < AC_COUNT; ac++) {
3466 WLC_WME_RETRY_SHORT_SET(wlc, ac, wlc->SRL);
3467 }
3468 wlc_wme_retries_write(wlc);
3469 } else
3470 bcmerror = BCME_RANGE;
3471 break;
3472
3473 case WLC_GET_LRL:
3474 *pval = wlc->LRL;
3475 break;
3476
3477 case WLC_SET_LRL:
3478 if (val >= 1 && val <= 255) {
3479 int ac;
3480 wlc->LRL = (u16) val;
3481
3482 wlc_bmac_retrylimit_upd(wlc->hw, wlc->SRL, wlc->LRL);
3483
3484 for (ac = 0; ac < AC_COUNT; ac++) {
3485 WLC_WME_RETRY_LONG_SET(wlc, ac, wlc->LRL);
3486 }
3487 wlc_wme_retries_write(wlc);
3488 } else
3489 bcmerror = BCME_RANGE;
3490 break;
3491
3492 case WLC_GET_CWMIN:
3493 *pval = wlc->band->CWmin;
3494 break;
3495
3496 case WLC_SET_CWMIN:
3497 if (!wlc->clk) {
3498 bcmerror = BCME_NOCLK;
3499 break;
3500 }
3501
3502 if (val >= 1 && val <= 255) {
3503 wlc_set_cwmin(wlc, (u16) val);
3504 } else
3505 bcmerror = BCME_RANGE;
3506 break;
3507
3508 case WLC_GET_CWMAX:
3509 *pval = wlc->band->CWmax;
3510 break;
3511
3512 case WLC_SET_CWMAX:
3513 if (!wlc->clk) {
3514 bcmerror = BCME_NOCLK;
3515 break;
3516 }
3517
3518 if (val >= 255 && val <= 2047) {
3519 wlc_set_cwmax(wlc, (u16) val);
3520 } else
3521 bcmerror = BCME_RANGE;
3522 break;
3523
3524 case WLC_GET_RADIO: /* use mask if don't want to expose some internal bits */
3525 *pval = wlc->pub->radio_disabled;
3526 break;
3527
3528 case WLC_SET_RADIO:{ /* 32 bits input, higher 16 bits are mask, lower 16 bits are value to
3529 * set
3530 */
3531 u16 radiomask, radioval;
3532 uint validbits =
3533 WL_RADIO_SW_DISABLE | WL_RADIO_HW_DISABLE;
3534 mbool new = 0;
3535
3536 radiomask = (val & 0xffff0000) >> 16;
3537 radioval = val & 0x0000ffff;
3538
3539 if ((radiomask == 0) || (radiomask & ~validbits)
3540 || (radioval & ~validbits)
3541 || ((radioval & ~radiomask) != 0)) {
3542 WL_ERROR("SET_RADIO with wrong bits 0x%x\n",
3543 val);
3544 bcmerror = BCME_RANGE;
3545 break;
3546 }
3547
3548 new =
3549 (wlc->pub->radio_disabled & ~radiomask) | radioval;
3550 wlc->pub->radio_disabled = new;
3551
3552 wlc_radio_hwdisable_upd(wlc);
3553 wlc_radio_upd(wlc);
3554 break;
3555 }
3556
3557 case WLC_GET_PHYTYPE:
3558 *pval = WLC_PHYTYPE(wlc->band->phytype);
3559 break;
3560
3561 #if defined(BCMDBG)
3562 case WLC_GET_KEY:
3563 if ((val >= 0) && (val < WLC_MAX_WSEC_KEYS(wlc))) {
3564 wl_wsec_key_t key;
3565
3566 wsec_key_t *src_key = wlc->wsec_keys[val];
3567
3568 if (len < (int)sizeof(key)) {
3569 bcmerror = BCME_BUFTOOSHORT;
3570 break;
3571 }
3572
3573 memset((char *)&key, 0, sizeof(key));
3574 if (src_key) {
3575 key.index = src_key->id;
3576 key.len = src_key->len;
3577 memcpy(key.data, src_key->data, key.len);
3578 key.algo = src_key->algo;
3579 if (WSEC_SOFTKEY(wlc, src_key, bsscfg))
3580 key.flags |= WL_SOFT_KEY;
3581 if (src_key->flags & WSEC_PRIMARY_KEY)
3582 key.flags |= WL_PRIMARY_KEY;
3583
3584 memcpy(key.ea, src_key->ea, ETH_ALEN);
3585 }
3586
3587 memcpy(arg, &key, sizeof(key));
3588 } else
3589 bcmerror = BCME_BADKEYIDX;
3590 break;
3591 #endif /* defined(BCMDBG) */
3592
3593 case WLC_SET_KEY:
3594 bcmerror =
3595 wlc_iovar_op(wlc, "wsec_key", NULL, 0, arg, len, IOV_SET,
3596 wlcif);
3597 break;
3598
3599 case WLC_GET_KEY_SEQ:{
3600 wsec_key_t *key;
3601
3602 if (len < DOT11_WPA_KEY_RSC_LEN) {
3603 bcmerror = BCME_BUFTOOSHORT;
3604 break;
3605 }
3606
3607 /* Return the key's tx iv as an EAPOL sequence counter.
3608 * This will be used to supply the RSC value to a supplicant.
3609 * The format is 8 bytes, with least significant in seq[0].
3610 */
3611
3612 key = WSEC_KEY(wlc, val);
3613 if ((val >= 0) && (val < WLC_MAX_WSEC_KEYS(wlc)) &&
3614 (key != NULL)) {
3615 u8 seq[DOT11_WPA_KEY_RSC_LEN];
3616 u16 lo;
3617 u32 hi;
3618 /* group keys in WPA-NONE (IBSS only, AES and TKIP) use a global TXIV */
3619 if ((bsscfg->WPA_auth & WPA_AUTH_NONE) &&
3620 is_zero_ether_addr(key->ea)) {
3621 lo = bsscfg->wpa_none_txiv.lo;
3622 hi = bsscfg->wpa_none_txiv.hi;
3623 } else {
3624 lo = key->txiv.lo;
3625 hi = key->txiv.hi;
3626 }
3627
3628 /* format the buffer, low to high */
3629 seq[0] = lo & 0xff;
3630 seq[1] = (lo >> 8) & 0xff;
3631 seq[2] = hi & 0xff;
3632 seq[3] = (hi >> 8) & 0xff;
3633 seq[4] = (hi >> 16) & 0xff;
3634 seq[5] = (hi >> 24) & 0xff;
3635 seq[6] = 0;
3636 seq[7] = 0;
3637
3638 memcpy(arg, seq, sizeof(seq));
3639 } else {
3640 bcmerror = BCME_BADKEYIDX;
3641 }
3642 break;
3643 }
3644
3645 case WLC_GET_CURR_RATESET:{
3646 wl_rateset_t *ret_rs = (wl_rateset_t *) arg;
3647 wlc_rateset_t *rs;
3648
3649 if (bsscfg->associated)
3650 rs = ¤t_bss->rateset;
3651 else
3652 rs = &wlc->default_bss->rateset;
3653
3654 if (len < (int)(rs->count + sizeof(rs->count))) {
3655 bcmerror = BCME_BUFTOOSHORT;
3656 break;
3657 }
3658
3659 /* Copy only legacy rateset section */
3660 ret_rs->count = rs->count;
3661 memcpy(&ret_rs->rates, &rs->rates, rs->count);
3662 break;
3663 }
3664
3665 case WLC_GET_RATESET:{
3666 wlc_rateset_t rs;
3667 wl_rateset_t *ret_rs = (wl_rateset_t *) arg;
3668
3669 memset(&rs, 0, sizeof(wlc_rateset_t));
3670 wlc_default_rateset(wlc, (wlc_rateset_t *) &rs);
3671
3672 if (len < (int)(rs.count + sizeof(rs.count))) {
3673 bcmerror = BCME_BUFTOOSHORT;
3674 break;
3675 }
3676
3677 /* Copy only legacy rateset section */
3678 ret_rs->count = rs.count;
3679 memcpy(&ret_rs->rates, &rs.rates, rs.count);
3680 break;
3681 }
3682
3683 case WLC_SET_RATESET:{
3684 wlc_rateset_t rs;
3685 wl_rateset_t *in_rs = (wl_rateset_t *) arg;
3686
3687 if (len < (int)(in_rs->count + sizeof(in_rs->count))) {
3688 bcmerror = BCME_BUFTOOSHORT;
3689 break;
3690 }
3691
3692 if (in_rs->count > WLC_NUMRATES) {
3693 bcmerror = BCME_BUFTOOLONG;
3694 break;
3695 }
3696
3697 memset(&rs, 0, sizeof(wlc_rateset_t));
3698
3699 /* Copy only legacy rateset section */
3700 rs.count = in_rs->count;
3701 memcpy(&rs.rates, &in_rs->rates, rs.count);
3702
3703 /* merge rateset coming in with the current mcsset */
3704 if (N_ENAB(wlc->pub)) {
3705 if (bsscfg->associated)
3706 memcpy(rs.mcs,
3707 ¤t_bss->rateset.mcs[0],
3708 MCSSET_LEN);
3709 else
3710 memcpy(rs.mcs,
3711 &wlc->default_bss->rateset.mcs[0],
3712 MCSSET_LEN);
3713 }
3714
3715 bcmerror = wlc_set_rateset(wlc, &rs);
3716
3717 if (!bcmerror)
3718 wlc_ofdm_rateset_war(wlc);
3719
3720 break;
3721 }
3722
3723 case WLC_GET_BCNPRD:
3724 if (BSSCFG_STA(bsscfg) && bsscfg->BSS && bsscfg->associated)
3725 *pval = current_bss->beacon_period;
3726 else
3727 *pval = wlc->default_bss->beacon_period;
3728 break;
3729
3730 case WLC_SET_BCNPRD:
3731 /* range [1, 0xffff] */
3732 if (val >= DOT11_MIN_BEACON_PERIOD
3733 && val <= DOT11_MAX_BEACON_PERIOD) {
3734 wlc->default_bss->beacon_period = (u16) val;
3735 } else
3736 bcmerror = BCME_RANGE;
3737 break;
3738
3739 case WLC_GET_DTIMPRD:
3740 if (BSSCFG_STA(bsscfg) && bsscfg->BSS && bsscfg->associated)
3741 *pval = current_bss->dtim_period;
3742 else
3743 *pval = wlc->default_bss->dtim_period;
3744 break;
3745
3746 case WLC_SET_DTIMPRD:
3747 /* range [1, 0xff] */
3748 if (val >= DOT11_MIN_DTIM_PERIOD
3749 && val <= DOT11_MAX_DTIM_PERIOD) {
3750 wlc->default_bss->dtim_period = (u8) val;
3751 } else
3752 bcmerror = BCME_RANGE;
3753 break;
3754
3755 #ifdef SUPPORT_PS
3756 case WLC_GET_PM:
3757 *pval = wlc->PM;
3758 break;
3759
3760 case WLC_SET_PM:
3761 if ((val >= PM_OFF) && (val <= PM_MAX)) {
3762 wlc->PM = (u8) val;
3763 if (wlc->pub->up) {
3764 }
3765 /* Change watchdog driver to align watchdog with tbtt if possible */
3766 wlc_watchdog_upd(wlc, PS_ALLOWED(wlc));
3767 } else
3768 bcmerror = BCME_ERROR;
3769 break;
3770 #endif /* SUPPORT_PS */
3771
3772 #ifdef SUPPORT_PS
3773 #ifdef BCMDBG
3774 case WLC_GET_WAKE:
3775 if (AP_ENAB(wlc->pub)) {
3776 bcmerror = BCME_NOTSTA;
3777 break;
3778 }
3779 *pval = wlc->wake;
3780 break;
3781
3782 case WLC_SET_WAKE:
3783 if (AP_ENAB(wlc->pub)) {
3784 bcmerror = BCME_NOTSTA;
3785 break;
3786 }
3787
3788 wlc->wake = val ? true : false;
3789
3790 /* if down, we're done */
3791 if (!wlc->pub->up)
3792 break;
3793
3794 /* apply to the mac */
3795 wlc_set_ps_ctrl(wlc);
3796 break;
3797 #endif /* BCMDBG */
3798 #endif /* SUPPORT_PS */
3799
3800 case WLC_GET_REVINFO:
3801 bcmerror = wlc_get_revision_info(wlc, arg, (uint) len);
3802 break;
3803
3804 case WLC_GET_AP:
3805 *pval = (int)AP_ENAB(wlc->pub);
3806 break;
3807
3808 case WLC_GET_ATIM:
3809 if (bsscfg->associated)
3810 *pval = (int)current_bss->atim_window;
3811 else
3812 *pval = (int)wlc->default_bss->atim_window;
3813 break;
3814
3815 case WLC_SET_ATIM:
3816 wlc->default_bss->atim_window = (u32) val;
3817 break;
3818
3819 case WLC_GET_PKTCNTS:{
3820 get_pktcnt_t *pktcnt = (get_pktcnt_t *) pval;
3821 wlc_statsupd(wlc);
3822 pktcnt->rx_good_pkt = wlc->pub->_cnt->rxframe;
3823 pktcnt->rx_bad_pkt = wlc->pub->_cnt->rxerror;
3824 pktcnt->tx_good_pkt =
3825 wlc->pub->_cnt->txfrmsnt;
3826 pktcnt->tx_bad_pkt =
3827 wlc->pub->_cnt->txerror +
3828 wlc->pub->_cnt->txfail;
3829 if (len >= (int)sizeof(get_pktcnt_t)) {
3830 /* Be backward compatible - only if buffer is large enough */
3831 pktcnt->rx_ocast_good_pkt =
3832 wlc->pub->_cnt->rxmfrmocast;
3833 }
3834 break;
3835 }
3836
3837 #ifdef SUPPORT_HWKEY
3838 case WLC_GET_WSEC:
3839 bcmerror =
3840 wlc_iovar_op(wlc, "wsec", NULL, 0, arg, len, IOV_GET,
3841 wlcif);
3842 break;
3843
3844 case WLC_SET_WSEC:
3845 bcmerror =
3846 wlc_iovar_op(wlc, "wsec", NULL, 0, arg, len, IOV_SET,
3847 wlcif);
3848 break;
3849
3850 case WLC_GET_WPA_AUTH:
3851 *pval = (int)bsscfg->WPA_auth;
3852 break;
3853
3854 case WLC_SET_WPA_AUTH:
3855 /* change of WPA_Auth modifies the PS_ALLOWED state */
3856 if (BSSCFG_STA(bsscfg)) {
3857 bsscfg->WPA_auth = (u16) val;
3858 } else
3859 bsscfg->WPA_auth = (u16) val;
3860 break;
3861 #endif /* SUPPORT_HWKEY */
3862
3863 case WLC_GET_BANDLIST:
3864 /* count of number of bands, followed by each band type */
3865 *pval++ = NBANDS(wlc);
3866 *pval++ = wlc->band->bandtype;
3867 if (NBANDS(wlc) > 1)
3868 *pval++ = wlc->bandstate[OTHERBANDUNIT(wlc)]->bandtype;
3869 break;
3870
3871 case WLC_GET_BAND:
3872 *pval = wlc->bandlocked ? wlc->band->bandtype : WLC_BAND_AUTO;
3873 break;
3874
3875 case WLC_GET_PHYLIST:
3876 {
3877 unsigned char *cp = arg;
3878 if (len < 3) {
3879 bcmerror = BCME_BUFTOOSHORT;
3880 break;
3881 }
3882
3883 if (WLCISNPHY(wlc->band)) {
3884 *cp++ = 'n';
3885 } else if (WLCISLCNPHY(wlc->band)) {
3886 *cp++ = 'c';
3887 } else if (WLCISSSLPNPHY(wlc->band)) {
3888 *cp++ = 's';
3889 }
3890 *cp = '\0';
3891 break;
3892 }
3893
3894 case WLC_GET_SHORTSLOT:
3895 *pval = wlc->shortslot;
3896 break;
3897
3898 case WLC_GET_SHORTSLOT_OVERRIDE:
3899 *pval = wlc->shortslot_override;
3900 break;
3901
3902 case WLC_SET_SHORTSLOT_OVERRIDE:
3903 if ((val != WLC_SHORTSLOT_AUTO) &&
3904 (val != WLC_SHORTSLOT_OFF) && (val != WLC_SHORTSLOT_ON)) {
3905 bcmerror = BCME_RANGE;
3906 break;
3907 }
3908
3909 wlc->shortslot_override = (s8) val;
3910
3911 /* shortslot is an 11g feature, so no more work if we are
3912 * currently on the 5G band
3913 */
3914 if (BAND_5G(wlc->band->bandtype))
3915 break;
3916
3917 if (wlc->pub->up && wlc->pub->associated) {
3918 /* let watchdog or beacon processing update shortslot */
3919 } else if (wlc->pub->up) {
3920 /* unassociated shortslot is off */
3921 wlc_switch_shortslot(wlc, false);
3922 } else {
3923 /* driver is down, so just update the wlc_info value */
3924 if (wlc->shortslot_override == WLC_SHORTSLOT_AUTO) {
3925 wlc->shortslot = false;
3926 } else {
3927 wlc->shortslot =
3928 (wlc->shortslot_override ==
3929 WLC_SHORTSLOT_ON);
3930 }
3931 }
3932
3933 break;
3934
3935 case WLC_GET_LEGACY_ERP:
3936 *pval = wlc->include_legacy_erp;
3937 break;
3938
3939 case WLC_SET_LEGACY_ERP:
3940 if (wlc->include_legacy_erp == bool_val)
3941 break;
3942
3943 wlc->include_legacy_erp = bool_val;
3944
3945 if (AP_ENAB(wlc->pub) && wlc->clk) {
3946 wlc_update_beacon(wlc);
3947 wlc_update_probe_resp(wlc, true);
3948 }
3949 break;
3950
3951 case WLC_GET_GMODE:
3952 if (wlc->band->bandtype == WLC_BAND_2G)
3953 *pval = wlc->band->gmode;
3954 else if (NBANDS(wlc) > 1)
3955 *pval = wlc->bandstate[OTHERBANDUNIT(wlc)]->gmode;
3956 break;
3957
3958 case WLC_SET_GMODE:
3959 if (!wlc->pub->associated)
3960 bcmerror = wlc_set_gmode(wlc, (u8) val, true);
3961 else {
3962 bcmerror = BCME_ASSOCIATED;
3963 break;
3964 }
3965 break;
3966
3967 case WLC_GET_GMODE_PROTECTION:
3968 *pval = wlc->protection->_g;
3969 break;
3970
3971 case WLC_GET_PROTECTION_CONTROL:
3972 *pval = wlc->protection->overlap;
3973 break;
3974
3975 case WLC_SET_PROTECTION_CONTROL:
3976 if ((val != WLC_PROTECTION_CTL_OFF) &&
3977 (val != WLC_PROTECTION_CTL_LOCAL) &&
3978 (val != WLC_PROTECTION_CTL_OVERLAP)) {
3979 bcmerror = BCME_RANGE;
3980 break;
3981 }
3982
3983 wlc_protection_upd(wlc, WLC_PROT_OVERLAP, (s8) val);
3984
3985 /* Current g_protection will sync up to the specified control alg in watchdog
3986 * if the driver is up and associated.
3987 * If the driver is down or not associated, the control setting has no effect.
3988 */
3989 break;
3990
3991 case WLC_GET_GMODE_PROTECTION_OVERRIDE:
3992 *pval = wlc->protection->g_override;
3993 break;
3994
3995 case WLC_SET_GMODE_PROTECTION_OVERRIDE:
3996 if ((val != WLC_PROTECTION_AUTO) &&
3997 (val != WLC_PROTECTION_OFF) && (val != WLC_PROTECTION_ON)) {
3998 bcmerror = BCME_RANGE;
3999 break;
4000 }
4001
4002 wlc_protection_upd(wlc, WLC_PROT_G_OVR, (s8) val);
4003
4004 break;
4005
4006 case WLC_SET_SUP_RATESET_OVERRIDE:{
4007 wlc_rateset_t rs, new;
4008
4009 /* copyin */
4010 if (len < (int)sizeof(wlc_rateset_t)) {
4011 bcmerror = BCME_BUFTOOSHORT;
4012 break;
4013 }
4014 memcpy(&rs, arg, sizeof(wlc_rateset_t));
4015
4016 /* check for bad count value */
4017 if (rs.count > WLC_NUMRATES) {
4018 bcmerror = BCME_BADRATESET; /* invalid rateset */
4019 break;
4020 }
4021
4022 /* this command is only appropriate for gmode operation */
4023 if (!(wlc->band->gmode ||
4024 ((NBANDS(wlc) > 1)
4025 && wlc->bandstate[OTHERBANDUNIT(wlc)]->gmode))) {
4026 bcmerror = BCME_BADBAND; /* gmode only command when not in gmode */
4027 break;
4028 }
4029
4030 /* check for an empty rateset to clear the override */
4031 if (rs.count == 0) {
4032 memset(&wlc->sup_rates_override, 0,
4033 sizeof(wlc_rateset_t));
4034 break;
4035 }
4036
4037 /* validate rateset by comparing pre and post sorted against 11g hw rates */
4038 wlc_rateset_filter(&rs, &new, false, WLC_RATES_CCK_OFDM,
4039 RATE_MASK, BSS_N_ENAB(wlc, bsscfg));
4040 wlc_rate_hwrs_filter_sort_validate(&new,
4041 &cck_ofdm_rates,
4042 false,
4043 wlc->stf->txstreams);
4044 if (rs.count != new.count) {
4045 bcmerror = BCME_BADRATESET; /* invalid rateset */
4046 break;
4047 }
4048
4049 /* apply new rateset to the override */
4050 memcpy(&wlc->sup_rates_override, &new,
4051 sizeof(wlc_rateset_t));
4052
4053 /* update bcn and probe resp if needed */
4054 if (wlc->pub->up && AP_ENAB(wlc->pub)
4055 && wlc->pub->associated) {
4056 wlc_update_beacon(wlc);
4057 wlc_update_probe_resp(wlc, true);
4058 }
4059 break;
4060 }
4061
4062 case WLC_GET_SUP_RATESET_OVERRIDE:
4063 /* this command is only appropriate for gmode operation */
4064 if (!(wlc->band->gmode ||
4065 ((NBANDS(wlc) > 1)
4066 && wlc->bandstate[OTHERBANDUNIT(wlc)]->gmode))) {
4067 bcmerror = BCME_BADBAND; /* gmode only command when not in gmode */
4068 break;
4069 }
4070 if (len < (int)sizeof(wlc_rateset_t)) {
4071 bcmerror = BCME_BUFTOOSHORT;
4072 break;
4073 }
4074 memcpy(arg, &wlc->sup_rates_override, sizeof(wlc_rateset_t));
4075
4076 break;
4077
4078 case WLC_GET_PRB_RESP_TIMEOUT:
4079 *pval = wlc->prb_resp_timeout;
4080 break;
4081
4082 case WLC_SET_PRB_RESP_TIMEOUT:
4083 if (wlc->pub->up) {
4084 bcmerror = BCME_NOTDOWN;
4085 break;
4086 }
4087 if (val < 0 || val >= 0xFFFF) {
4088 bcmerror = BCME_RANGE; /* bad value */
4089 break;
4090 }
4091 wlc->prb_resp_timeout = (u16) val;
4092 break;
4093
4094 case WLC_GET_KEY_PRIMARY:{
4095 wsec_key_t *key;
4096
4097 /* treat the 'val' parm as the key id */
4098 key = WSEC_BSS_DEFAULT_KEY(bsscfg);
4099 if (key != NULL) {
4100 *pval = key->id == val ? true : false;
4101 } else {
4102 bcmerror = BCME_BADKEYIDX;
4103 }
4104 break;
4105 }
4106
4107 case WLC_SET_KEY_PRIMARY:{
4108 wsec_key_t *key, *old_key;
4109
4110 bcmerror = BCME_BADKEYIDX;
4111
4112 /* treat the 'val' parm as the key id */
4113 for (i = 0; i < WSEC_MAX_DEFAULT_KEYS; i++) {
4114 key = bsscfg->bss_def_keys[i];
4115 if (key != NULL && key->id == val) {
4116 old_key = WSEC_BSS_DEFAULT_KEY(bsscfg);
4117 if (old_key != NULL)
4118 old_key->flags &=
4119 ~WSEC_PRIMARY_KEY;
4120 key->flags |= WSEC_PRIMARY_KEY;
4121 bsscfg->wsec_index = i;
4122 bcmerror = BCME_OK;
4123 }
4124 }
4125 break;
4126 }
4127
4128 #ifdef BCMDBG
4129 case WLC_INIT:
4130 wl_init(wlc->wl);
4131 break;
4132 #endif
4133
4134 case WLC_SET_VAR:
4135 case WLC_GET_VAR:{
4136 char *name;
4137 /* validate the name value */
4138 name = (char *)arg;
4139 for (i = 0; i < (uint) len && *name != '\0';
4140 i++, name++)
4141 ;
4142
4143 if (i == (uint) len) {
4144 bcmerror = BCME_BUFTOOSHORT;
4145 break;
4146 }
4147 i++; /* include the null in the string length */
4148
4149 if (cmd == WLC_GET_VAR) {
4150 bcmerror =
4151 wlc_iovar_op(wlc, arg,
4152 (void *)((s8 *) arg + i),
4153 len - i, arg, len, IOV_GET,
4154 wlcif);
4155 } else
4156 bcmerror =
4157 wlc_iovar_op(wlc, arg, NULL, 0,
4158 (void *)((s8 *) arg + i),
4159 len - i, IOV_SET, wlcif);
4160
4161 break;
4162 }
4163
4164 case WLC_SET_WSEC_PMK:
4165 bcmerror = BCME_UNSUPPORTED;
4166 break;
4167
4168 #if defined(BCMDBG)
4169 case WLC_CURRENT_PWR:
4170 if (!wlc->pub->up)
4171 bcmerror = BCME_NOTUP;
4172 else
4173 bcmerror = wlc_get_current_txpwr(wlc, arg, len);
4174 break;
4175 #endif
4176
4177 case WLC_LAST:
4178 WL_ERROR("%s: WLC_LAST\n", __func__);
4179 }
4180 done:
4181
4182 if (bcmerror) {
4183 if (VALID_BCMERROR(bcmerror))
4184 wlc->pub->bcmerror = bcmerror;
4185 else {
4186 bcmerror = 0;
4187 }
4188
4189 }
4190 /* BMAC_NOTE: for HIGH_ONLY driver, this seems being called after RPC bus failed */
4191 /* In hw_off condition, IOCTLs that reach here are deemed safe but taclear would
4192 * certainly result in getting -1 for register reads. So skip ta_clear altogether
4193 */
4194 if (!(wlc->pub->hw_off))
4195 ASSERT(wlc_bmac_taclear(wlc->hw, ta_ok) || !ta_ok);
4196
4197 return bcmerror;
4198 }
4199
4200 #if defined(BCMDBG)
4201 /* consolidated register access ioctl error checking */
wlc_iocregchk(struct wlc_info * wlc,uint band)4202 int wlc_iocregchk(struct wlc_info *wlc, uint band)
4203 {
4204 /* if band is specified, it must be the current band */
4205 if ((band != WLC_BAND_AUTO) && (band != (uint) wlc->band->bandtype))
4206 return BCME_BADBAND;
4207
4208 /* if multiband and band is not specified, band must be locked */
4209 if ((band == WLC_BAND_AUTO) && IS_MBAND_UNLOCKED(wlc))
4210 return BCME_NOTBANDLOCKED;
4211
4212 /* must have core clocks */
4213 if (!wlc->clk)
4214 return BCME_NOCLK;
4215
4216 return 0;
4217 }
4218 #endif /* defined(BCMDBG) */
4219
4220 #if defined(BCMDBG)
4221 /* For some ioctls, make sure that the pi pointer matches the current phy */
wlc_iocpichk(struct wlc_info * wlc,uint phytype)4222 int wlc_iocpichk(struct wlc_info *wlc, uint phytype)
4223 {
4224 if (wlc->band->phytype != phytype)
4225 return BCME_BADBAND;
4226 return 0;
4227 }
4228 #endif
4229
4230 /* Look up the given var name in the given table */
wlc_iovar_lookup(const bcm_iovar_t * table,const char * name)4231 static const bcm_iovar_t *wlc_iovar_lookup(const bcm_iovar_t *table,
4232 const char *name)
4233 {
4234 const bcm_iovar_t *vi;
4235 const char *lookup_name;
4236
4237 /* skip any ':' delimited option prefixes */
4238 lookup_name = strrchr(name, ':');
4239 if (lookup_name != NULL)
4240 lookup_name++;
4241 else
4242 lookup_name = name;
4243
4244 ASSERT(table != NULL);
4245
4246 for (vi = table; vi->name; vi++) {
4247 if (!strcmp(vi->name, lookup_name))
4248 return vi;
4249 }
4250 /* ran to end of table */
4251
4252 return NULL; /* var name not found */
4253 }
4254
4255 /* simplified integer get interface for common WLC_GET_VAR ioctl handler */
wlc_iovar_getint(struct wlc_info * wlc,const char * name,int * arg)4256 int wlc_iovar_getint(struct wlc_info *wlc, const char *name, int *arg)
4257 {
4258 return wlc_iovar_op(wlc, name, NULL, 0, arg, sizeof(s32), IOV_GET,
4259 NULL);
4260 }
4261
4262 /* simplified integer set interface for common WLC_SET_VAR ioctl handler */
wlc_iovar_setint(struct wlc_info * wlc,const char * name,int arg)4263 int wlc_iovar_setint(struct wlc_info *wlc, const char *name, int arg)
4264 {
4265 return wlc_iovar_op(wlc, name, NULL, 0, (void *)&arg, sizeof(arg),
4266 IOV_SET, NULL);
4267 }
4268
4269 /* simplified s8 get interface for common WLC_GET_VAR ioctl handler */
wlc_iovar_gets8(struct wlc_info * wlc,const char * name,s8 * arg)4270 int wlc_iovar_gets8(struct wlc_info *wlc, const char *name, s8 *arg)
4271 {
4272 int iovar_int;
4273 int err;
4274
4275 err =
4276 wlc_iovar_op(wlc, name, NULL, 0, &iovar_int, sizeof(iovar_int),
4277 IOV_GET, NULL);
4278 if (!err)
4279 *arg = (s8) iovar_int;
4280
4281 return err;
4282 }
4283
4284 /*
4285 * register iovar table, watchdog and down handlers.
4286 * calling function must keep 'iovars' until wlc_module_unregister is called.
4287 * 'iovar' must have the last entry's name field being NULL as terminator.
4288 */
wlc_module_register(struct wlc_pub * pub,const bcm_iovar_t * iovars,const char * name,void * hdl,iovar_fn_t i_fn,watchdog_fn_t w_fn,down_fn_t d_fn)4289 int wlc_module_register(struct wlc_pub *pub, const bcm_iovar_t *iovars,
4290 const char *name, void *hdl, iovar_fn_t i_fn,
4291 watchdog_fn_t w_fn, down_fn_t d_fn)
4292 {
4293 struct wlc_info *wlc = (struct wlc_info *) pub->wlc;
4294 int i;
4295
4296 ASSERT(name != NULL);
4297 ASSERT(i_fn != NULL || w_fn != NULL || d_fn != NULL);
4298
4299 /* find an empty entry and just add, no duplication check! */
4300 for (i = 0; i < WLC_MAXMODULES; i++) {
4301 if (wlc->modulecb[i].name[0] == '\0') {
4302 strncpy(wlc->modulecb[i].name, name,
4303 sizeof(wlc->modulecb[i].name) - 1);
4304 wlc->modulecb[i].iovars = iovars;
4305 wlc->modulecb[i].hdl = hdl;
4306 wlc->modulecb[i].iovar_fn = i_fn;
4307 wlc->modulecb[i].watchdog_fn = w_fn;
4308 wlc->modulecb[i].down_fn = d_fn;
4309 return 0;
4310 }
4311 }
4312
4313 /* it is time to increase the capacity */
4314 ASSERT(i < WLC_MAXMODULES);
4315 return BCME_NORESOURCE;
4316 }
4317
4318 /* unregister module callbacks */
wlc_module_unregister(struct wlc_pub * pub,const char * name,void * hdl)4319 int wlc_module_unregister(struct wlc_pub *pub, const char *name, void *hdl)
4320 {
4321 struct wlc_info *wlc = (struct wlc_info *) pub->wlc;
4322 int i;
4323
4324 if (wlc == NULL)
4325 return BCME_NOTFOUND;
4326
4327 ASSERT(name != NULL);
4328
4329 for (i = 0; i < WLC_MAXMODULES; i++) {
4330 if (!strcmp(wlc->modulecb[i].name, name) &&
4331 (wlc->modulecb[i].hdl == hdl)) {
4332 memset(&wlc->modulecb[i], 0, sizeof(struct modulecb));
4333 return 0;
4334 }
4335 }
4336
4337 /* table not found! */
4338 return BCME_NOTFOUND;
4339 }
4340
4341 /* Write WME tunable parameters for retransmit/max rate from wlc struct to ucode */
wlc_wme_retries_write(struct wlc_info * wlc)4342 static void wlc_wme_retries_write(struct wlc_info *wlc)
4343 {
4344 int ac;
4345
4346 /* Need clock to do this */
4347 if (!wlc->clk)
4348 return;
4349
4350 for (ac = 0; ac < AC_COUNT; ac++) {
4351 wlc_write_shm(wlc, M_AC_TXLMT_ADDR(ac), wlc->wme_retries[ac]);
4352 }
4353 }
4354
4355 /* Get or set an iovar. The params/p_len pair specifies any additional
4356 * qualifying parameters (e.g. an "element index") for a get, while the
4357 * arg/len pair is the buffer for the value to be set or retrieved.
4358 * Operation (get/set) is specified by the last argument.
4359 * interface context provided by wlcif
4360 *
4361 * All pointers may point into the same buffer.
4362 */
4363 int
wlc_iovar_op(struct wlc_info * wlc,const char * name,void * params,int p_len,void * arg,int len,bool set,struct wlc_if * wlcif)4364 wlc_iovar_op(struct wlc_info *wlc, const char *name,
4365 void *params, int p_len, void *arg, int len,
4366 bool set, struct wlc_if *wlcif)
4367 {
4368 int err = 0;
4369 int val_size;
4370 const bcm_iovar_t *vi = NULL;
4371 u32 actionid;
4372 int i;
4373
4374 ASSERT(name != NULL);
4375
4376 ASSERT(len >= 0);
4377
4378 /* Get MUST have return space */
4379 ASSERT(set || (arg && len));
4380
4381 ASSERT(!(wlc->pub->hw_off && wlc->pub->up));
4382
4383 /* Set does NOT take qualifiers */
4384 ASSERT(!set || (!params && !p_len));
4385
4386 if (!set && (len == sizeof(int)) &&
4387 !(IS_ALIGNED((unsigned long)(arg), (uint) sizeof(int)))) {
4388 WL_ERROR("wl%d: %s unaligned get ptr for %s\n",
4389 wlc->pub->unit, __func__, name);
4390 ASSERT(0);
4391 }
4392
4393 /* find the given iovar name */
4394 for (i = 0; i < WLC_MAXMODULES; i++) {
4395 if (!wlc->modulecb[i].iovars)
4396 continue;
4397 vi = wlc_iovar_lookup(wlc->modulecb[i].iovars, name);
4398 if (vi)
4399 break;
4400 }
4401 /* iovar name not found */
4402 if (i >= WLC_MAXMODULES) {
4403 err = BCME_UNSUPPORTED;
4404 goto exit;
4405 }
4406
4407 /* set up 'params' pointer in case this is a set command so that
4408 * the convenience int and bool code can be common to set and get
4409 */
4410 if (params == NULL) {
4411 params = arg;
4412 p_len = len;
4413 }
4414
4415 if (vi->type == IOVT_VOID)
4416 val_size = 0;
4417 else if (vi->type == IOVT_BUFFER)
4418 val_size = len;
4419 else
4420 /* all other types are integer sized */
4421 val_size = sizeof(int);
4422
4423 actionid = set ? IOV_SVAL(vi->varid) : IOV_GVAL(vi->varid);
4424
4425 /* Do the actual parameter implementation */
4426 err = wlc->modulecb[i].iovar_fn(wlc->modulecb[i].hdl, vi, actionid,
4427 name, params, p_len, arg, len, val_size,
4428 wlcif);
4429
4430 exit:
4431 return err;
4432 }
4433
4434 int
wlc_iovar_check(struct wlc_pub * pub,const bcm_iovar_t * vi,void * arg,int len,bool set)4435 wlc_iovar_check(struct wlc_pub *pub, const bcm_iovar_t *vi, void *arg, int len,
4436 bool set)
4437 {
4438 struct wlc_info *wlc = (struct wlc_info *) pub->wlc;
4439 int err = 0;
4440 s32 int_val = 0;
4441
4442 /* check generic condition flags */
4443 if (set) {
4444 if (((vi->flags & IOVF_SET_DOWN) && wlc->pub->up) ||
4445 ((vi->flags & IOVF_SET_UP) && !wlc->pub->up)) {
4446 err = (wlc->pub->up ? BCME_NOTDOWN : BCME_NOTUP);
4447 } else if ((vi->flags & IOVF_SET_BAND)
4448 && IS_MBAND_UNLOCKED(wlc)) {
4449 err = BCME_NOTBANDLOCKED;
4450 } else if ((vi->flags & IOVF_SET_CLK) && !wlc->clk) {
4451 err = BCME_NOCLK;
4452 }
4453 } else {
4454 if (((vi->flags & IOVF_GET_DOWN) && wlc->pub->up) ||
4455 ((vi->flags & IOVF_GET_UP) && !wlc->pub->up)) {
4456 err = (wlc->pub->up ? BCME_NOTDOWN : BCME_NOTUP);
4457 } else if ((vi->flags & IOVF_GET_BAND)
4458 && IS_MBAND_UNLOCKED(wlc)) {
4459 err = BCME_NOTBANDLOCKED;
4460 } else if ((vi->flags & IOVF_GET_CLK) && !wlc->clk) {
4461 err = BCME_NOCLK;
4462 }
4463 }
4464
4465 if (err)
4466 goto exit;
4467
4468 /* length check on io buf */
4469 err = bcm_iovar_lencheck(vi, arg, len, set);
4470 if (err)
4471 goto exit;
4472
4473 /* On set, check value ranges for integer types */
4474 if (set) {
4475 switch (vi->type) {
4476 case IOVT_BOOL:
4477 case IOVT_INT8:
4478 case IOVT_INT16:
4479 case IOVT_INT32:
4480 case IOVT_UINT8:
4481 case IOVT_UINT16:
4482 case IOVT_UINT32:
4483 memcpy(&int_val, arg, sizeof(int));
4484 err = wlc_iovar_rangecheck(wlc, int_val, vi);
4485 break;
4486 }
4487 }
4488 exit:
4489 return err;
4490 }
4491
4492 /* handler for iovar table wlc_iovars */
4493 /*
4494 * IMPLEMENTATION NOTE: In order to avoid checking for get/set in each
4495 * iovar case, the switch statement maps the iovar id into separate get
4496 * and set values. If you add a new iovar to the switch you MUST use
4497 * IOV_GVAL and/or IOV_SVAL in the case labels to avoid conflict with
4498 * another case.
4499 * Please use params for additional qualifying parameters.
4500 */
4501 int
wlc_doiovar(void * hdl,const bcm_iovar_t * vi,u32 actionid,const char * name,void * params,uint p_len,void * arg,int len,int val_size,struct wlc_if * wlcif)4502 wlc_doiovar(void *hdl, const bcm_iovar_t *vi, u32 actionid,
4503 const char *name, void *params, uint p_len, void *arg, int len,
4504 int val_size, struct wlc_if *wlcif)
4505 {
4506 struct wlc_info *wlc = hdl;
4507 struct wlc_bsscfg *bsscfg;
4508 int err = 0;
4509 s32 int_val = 0;
4510 s32 int_val2 = 0;
4511 s32 *ret_int_ptr;
4512 bool bool_val;
4513 bool bool_val2;
4514 wlc_bss_info_t *current_bss;
4515
4516 WL_TRACE("wl%d: %s\n", wlc->pub->unit, __func__);
4517
4518 bsscfg = NULL;
4519 current_bss = NULL;
4520
4521 err = wlc_iovar_check(wlc->pub, vi, arg, len, IOV_ISSET(actionid));
4522 if (err != 0)
4523 return err;
4524
4525 /* convenience int and bool vals for first 8 bytes of buffer */
4526 if (p_len >= (int)sizeof(int_val))
4527 memcpy(&int_val, params, sizeof(int_val));
4528
4529 if (p_len >= (int)sizeof(int_val) * 2)
4530 memcpy(&int_val2,
4531 (void *)((unsigned long)params + sizeof(int_val)),
4532 sizeof(int_val));
4533
4534 /* convenience int ptr for 4-byte gets (requires int aligned arg) */
4535 ret_int_ptr = (s32 *) arg;
4536
4537 bool_val = (int_val != 0) ? true : false;
4538 bool_val2 = (int_val2 != 0) ? true : false;
4539
4540 WL_TRACE("wl%d: %s: id %d\n",
4541 wlc->pub->unit, __func__, IOV_ID(actionid));
4542 /* Do the actual parameter implementation */
4543 switch (actionid) {
4544 case IOV_SVAL(IOV_RTSTHRESH):
4545 wlc->RTSThresh = int_val;
4546 break;
4547
4548 case IOV_GVAL(IOV_QTXPOWER):{
4549 uint qdbm;
4550 bool override;
4551
4552 err = wlc_phy_txpower_get(wlc->band->pi, &qdbm,
4553 &override);
4554 if (err != BCME_OK)
4555 return err;
4556
4557 /* Return qdbm units */
4558 *ret_int_ptr =
4559 qdbm | (override ? WL_TXPWR_OVERRIDE : 0);
4560 break;
4561 }
4562
4563 /* As long as override is false, this only sets the *user* targets.
4564 User can twiddle this all he wants with no harm.
4565 wlc_phy_txpower_set() explicitly sets override to false if
4566 not internal or test.
4567 */
4568 case IOV_SVAL(IOV_QTXPOWER):{
4569 u8 qdbm;
4570 bool override;
4571
4572 /* Remove override bit and clip to max qdbm value */
4573 qdbm = (u8)min_t(u32, (int_val & ~WL_TXPWR_OVERRIDE), 0xff);
4574 /* Extract override setting */
4575 override = (int_val & WL_TXPWR_OVERRIDE) ? true : false;
4576 err =
4577 wlc_phy_txpower_set(wlc->band->pi, qdbm, override);
4578 break;
4579 }
4580
4581 case IOV_GVAL(IOV_MPC):
4582 *ret_int_ptr = (s32) wlc->mpc;
4583 break;
4584
4585 case IOV_SVAL(IOV_MPC):
4586 wlc->mpc = bool_val;
4587 wlc_radio_mpc_upd(wlc);
4588
4589 break;
4590
4591 case IOV_GVAL(IOV_BCN_LI_BCN):
4592 *ret_int_ptr = wlc->bcn_li_bcn;
4593 break;
4594
4595 case IOV_SVAL(IOV_BCN_LI_BCN):
4596 wlc->bcn_li_bcn = (u8) int_val;
4597 if (wlc->pub->up)
4598 wlc_bcn_li_upd(wlc);
4599 break;
4600
4601 default:
4602 WL_ERROR("wl%d: %s: unsupported\n", wlc->pub->unit, __func__);
4603 err = BCME_UNSUPPORTED;
4604 break;
4605 }
4606
4607 goto exit; /* avoid unused label warning */
4608
4609 exit:
4610 return err;
4611 }
4612
4613 static int
wlc_iovar_rangecheck(struct wlc_info * wlc,u32 val,const bcm_iovar_t * vi)4614 wlc_iovar_rangecheck(struct wlc_info *wlc, u32 val, const bcm_iovar_t *vi)
4615 {
4616 int err = 0;
4617 u32 min_val = 0;
4618 u32 max_val = 0;
4619
4620 /* Only ranged integers are checked */
4621 switch (vi->type) {
4622 case IOVT_INT32:
4623 max_val |= 0x7fffffff;
4624 /* fall through */
4625 case IOVT_INT16:
4626 max_val |= 0x00007fff;
4627 /* fall through */
4628 case IOVT_INT8:
4629 max_val |= 0x0000007f;
4630 min_val = ~max_val;
4631 if (vi->flags & IOVF_NTRL)
4632 min_val = 1;
4633 else if (vi->flags & IOVF_WHL)
4634 min_val = 0;
4635 /* Signed values are checked against max_val and min_val */
4636 if ((s32) val < (s32) min_val
4637 || (s32) val > (s32) max_val)
4638 err = BCME_RANGE;
4639 break;
4640
4641 case IOVT_UINT32:
4642 max_val |= 0xffffffff;
4643 /* fall through */
4644 case IOVT_UINT16:
4645 max_val |= 0x0000ffff;
4646 /* fall through */
4647 case IOVT_UINT8:
4648 max_val |= 0x000000ff;
4649 if (vi->flags & IOVF_NTRL)
4650 min_val = 1;
4651 if ((val < min_val) || (val > max_val))
4652 err = BCME_RANGE;
4653 break;
4654 }
4655
4656 return err;
4657 }
4658
4659 #ifdef BCMDBG
4660 static const char *supr_reason[] = {
4661 "None", "PMQ Entry", "Flush request",
4662 "Previous frag failure", "Channel mismatch",
4663 "Lifetime Expiry", "Underflow"
4664 };
4665
wlc_print_txs_status(u16 s)4666 static void wlc_print_txs_status(u16 s)
4667 {
4668 printk(KERN_DEBUG "[15:12] %d frame attempts\n",
4669 (s & TX_STATUS_FRM_RTX_MASK) >> TX_STATUS_FRM_RTX_SHIFT);
4670 printk(KERN_DEBUG " [11:8] %d rts attempts\n",
4671 (s & TX_STATUS_RTS_RTX_MASK) >> TX_STATUS_RTS_RTX_SHIFT);
4672 printk(KERN_DEBUG " [7] %d PM mode indicated\n",
4673 ((s & TX_STATUS_PMINDCTD) ? 1 : 0));
4674 printk(KERN_DEBUG " [6] %d intermediate status\n",
4675 ((s & TX_STATUS_INTERMEDIATE) ? 1 : 0));
4676 printk(KERN_DEBUG " [5] %d AMPDU\n",
4677 (s & TX_STATUS_AMPDU) ? 1 : 0);
4678 printk(KERN_DEBUG " [4:2] %d Frame Suppressed Reason (%s)\n",
4679 ((s & TX_STATUS_SUPR_MASK) >> TX_STATUS_SUPR_SHIFT),
4680 supr_reason[(s & TX_STATUS_SUPR_MASK) >> TX_STATUS_SUPR_SHIFT]);
4681 printk(KERN_DEBUG " [1] %d acked\n",
4682 ((s & TX_STATUS_ACK_RCV) ? 1 : 0));
4683 }
4684 #endif /* BCMDBG */
4685
wlc_print_txstatus(tx_status_t * txs)4686 void wlc_print_txstatus(tx_status_t *txs)
4687 {
4688 #if defined(BCMDBG)
4689 u16 s = txs->status;
4690 u16 ackphyrxsh = txs->ackphyrxsh;
4691
4692 printk(KERN_DEBUG "\ntxpkt (MPDU) Complete\n");
4693
4694 printk(KERN_DEBUG "FrameID: %04x ", txs->frameid);
4695 printk(KERN_DEBUG "TxStatus: %04x", s);
4696 printk(KERN_DEBUG "\n");
4697
4698 wlc_print_txs_status(s);
4699
4700 printk(KERN_DEBUG "LastTxTime: %04x ", txs->lasttxtime);
4701 printk(KERN_DEBUG "Seq: %04x ", txs->sequence);
4702 printk(KERN_DEBUG "PHYTxStatus: %04x ", txs->phyerr);
4703 printk(KERN_DEBUG "RxAckRSSI: %04x ",
4704 (ackphyrxsh & PRXS1_JSSI_MASK) >> PRXS1_JSSI_SHIFT);
4705 printk(KERN_DEBUG "RxAckSQ: %04x",
4706 (ackphyrxsh & PRXS1_SQ_MASK) >> PRXS1_SQ_SHIFT);
4707 printk(KERN_DEBUG "\n");
4708 #endif /* defined(BCMDBG) */
4709 }
4710
4711 static void
wlc_ctrupd_cache(u16 cur_stat,u16 * macstat_snapshot,u32 * macstat)4712 wlc_ctrupd_cache(u16 cur_stat, u16 *macstat_snapshot, u32 *macstat)
4713 {
4714 u16 v;
4715 u16 delta;
4716
4717 v = le16_to_cpu(cur_stat);
4718 delta = (u16)(v - *macstat_snapshot);
4719
4720 if (delta != 0) {
4721 *macstat += delta;
4722 *macstat_snapshot = v;
4723 }
4724 }
4725
4726 #define MACSTATUPD(name) \
4727 wlc_ctrupd_cache(macstats.name, &wlc->core->macstat_snapshot->name, &wlc->pub->_cnt->name)
4728
wlc_statsupd(struct wlc_info * wlc)4729 void wlc_statsupd(struct wlc_info *wlc)
4730 {
4731 int i;
4732 macstat_t macstats;
4733 #ifdef BCMDBG
4734 u16 delta;
4735 u16 rxf0ovfl;
4736 u16 txfunfl[NFIFO];
4737 #endif /* BCMDBG */
4738
4739 /* if driver down, make no sense to update stats */
4740 if (!wlc->pub->up)
4741 return;
4742
4743 #ifdef BCMDBG
4744 /* save last rx fifo 0 overflow count */
4745 rxf0ovfl = wlc->core->macstat_snapshot->rxf0ovfl;
4746
4747 /* save last tx fifo underflow count */
4748 for (i = 0; i < NFIFO; i++)
4749 txfunfl[i] = wlc->core->macstat_snapshot->txfunfl[i];
4750 #endif /* BCMDBG */
4751
4752 /* Read mac stats from contiguous shared memory */
4753 wlc_bmac_copyfrom_shm(wlc->hw, M_UCODE_MACSTAT,
4754 &macstats, sizeof(macstat_t));
4755
4756 /* update mac stats */
4757 MACSTATUPD(txallfrm);
4758 MACSTATUPD(txrtsfrm);
4759 MACSTATUPD(txctsfrm);
4760 MACSTATUPD(txackfrm);
4761 MACSTATUPD(txdnlfrm);
4762 MACSTATUPD(txbcnfrm);
4763 for (i = 0; i < NFIFO; i++)
4764 MACSTATUPD(txfunfl[i]);
4765 MACSTATUPD(txtplunfl);
4766 MACSTATUPD(txphyerr);
4767 MACSTATUPD(rxfrmtoolong);
4768 MACSTATUPD(rxfrmtooshrt);
4769 MACSTATUPD(rxinvmachdr);
4770 MACSTATUPD(rxbadfcs);
4771 MACSTATUPD(rxbadplcp);
4772 MACSTATUPD(rxcrsglitch);
4773 MACSTATUPD(rxstrt);
4774 MACSTATUPD(rxdfrmucastmbss);
4775 MACSTATUPD(rxmfrmucastmbss);
4776 MACSTATUPD(rxcfrmucast);
4777 MACSTATUPD(rxrtsucast);
4778 MACSTATUPD(rxctsucast);
4779 MACSTATUPD(rxackucast);
4780 MACSTATUPD(rxdfrmocast);
4781 MACSTATUPD(rxmfrmocast);
4782 MACSTATUPD(rxcfrmocast);
4783 MACSTATUPD(rxrtsocast);
4784 MACSTATUPD(rxctsocast);
4785 MACSTATUPD(rxdfrmmcast);
4786 MACSTATUPD(rxmfrmmcast);
4787 MACSTATUPD(rxcfrmmcast);
4788 MACSTATUPD(rxbeaconmbss);
4789 MACSTATUPD(rxdfrmucastobss);
4790 MACSTATUPD(rxbeaconobss);
4791 MACSTATUPD(rxrsptmout);
4792 MACSTATUPD(bcntxcancl);
4793 MACSTATUPD(rxf0ovfl);
4794 MACSTATUPD(rxf1ovfl);
4795 MACSTATUPD(rxf2ovfl);
4796 MACSTATUPD(txsfovfl);
4797 MACSTATUPD(pmqovfl);
4798 MACSTATUPD(rxcgprqfrm);
4799 MACSTATUPD(rxcgprsqovfl);
4800 MACSTATUPD(txcgprsfail);
4801 MACSTATUPD(txcgprssuc);
4802 MACSTATUPD(prs_timeout);
4803 MACSTATUPD(rxnack);
4804 MACSTATUPD(frmscons);
4805 MACSTATUPD(txnack);
4806 MACSTATUPD(txglitch_nack);
4807 MACSTATUPD(txburst);
4808 MACSTATUPD(phywatchdog);
4809 MACSTATUPD(pktengrxducast);
4810 MACSTATUPD(pktengrxdmcast);
4811
4812 #ifdef BCMDBG
4813 /* check for rx fifo 0 overflow */
4814 delta = (u16) (wlc->core->macstat_snapshot->rxf0ovfl - rxf0ovfl);
4815 if (delta)
4816 WL_ERROR("wl%d: %u rx fifo 0 overflows!\n",
4817 wlc->pub->unit, delta);
4818
4819 /* check for tx fifo underflows */
4820 for (i = 0; i < NFIFO; i++) {
4821 delta =
4822 (u16) (wlc->core->macstat_snapshot->txfunfl[i] -
4823 txfunfl[i]);
4824 if (delta)
4825 WL_ERROR("wl%d: %u tx fifo %d underflows!\n",
4826 wlc->pub->unit, delta, i);
4827 }
4828 #endif /* BCMDBG */
4829
4830 /* dot11 counter update */
4831
4832 WLCNTSET(wlc->pub->_cnt->txrts,
4833 (wlc->pub->_cnt->rxctsucast -
4834 wlc->pub->_cnt->d11cnt_txrts_off));
4835 WLCNTSET(wlc->pub->_cnt->rxcrc,
4836 (wlc->pub->_cnt->rxbadfcs - wlc->pub->_cnt->d11cnt_rxcrc_off));
4837 WLCNTSET(wlc->pub->_cnt->txnocts,
4838 ((wlc->pub->_cnt->txrtsfrm - wlc->pub->_cnt->rxctsucast) -
4839 wlc->pub->_cnt->d11cnt_txnocts_off));
4840
4841 /* merge counters from dma module */
4842 for (i = 0; i < NFIFO; i++) {
4843 if (wlc->hw->di[i]) {
4844 WLCNTADD(wlc->pub->_cnt->txnobuf,
4845 (wlc->hw->di[i])->txnobuf);
4846 WLCNTADD(wlc->pub->_cnt->rxnobuf,
4847 (wlc->hw->di[i])->rxnobuf);
4848 WLCNTADD(wlc->pub->_cnt->rxgiant,
4849 (wlc->hw->di[i])->rxgiants);
4850 dma_counterreset(wlc->hw->di[i]);
4851 }
4852 }
4853
4854 /*
4855 * Aggregate transmit and receive errors that probably resulted
4856 * in the loss of a frame are computed on the fly.
4857 */
4858 WLCNTSET(wlc->pub->_cnt->txerror,
4859 wlc->pub->_cnt->txnobuf + wlc->pub->_cnt->txnoassoc +
4860 wlc->pub->_cnt->txuflo + wlc->pub->_cnt->txrunt +
4861 wlc->pub->_cnt->dmade + wlc->pub->_cnt->dmada +
4862 wlc->pub->_cnt->dmape);
4863 WLCNTSET(wlc->pub->_cnt->rxerror,
4864 wlc->pub->_cnt->rxoflo + wlc->pub->_cnt->rxnobuf +
4865 wlc->pub->_cnt->rxfragerr + wlc->pub->_cnt->rxrunt +
4866 wlc->pub->_cnt->rxgiant + wlc->pub->_cnt->rxnoscb +
4867 wlc->pub->_cnt->rxbadsrcmac);
4868 for (i = 0; i < NFIFO; i++)
4869 wlc->pub->_cnt->rxerror += wlc->pub->_cnt->rxuflo[i];
4870 }
4871
wlc_chipmatch(u16 vendor,u16 device)4872 bool wlc_chipmatch(u16 vendor, u16 device)
4873 {
4874 if (vendor != VENDOR_BROADCOM) {
4875 WL_ERROR("wlc_chipmatch: unknown vendor id %04x\n", vendor);
4876 return false;
4877 }
4878
4879 if ((device == BCM43224_D11N_ID) || (device == BCM43225_D11N2G_ID))
4880 return true;
4881
4882 if (device == BCM4313_D11N2G_ID)
4883 return true;
4884 if ((device == BCM43236_D11N_ID) || (device == BCM43236_D11N2G_ID))
4885 return true;
4886
4887 WL_ERROR("wlc_chipmatch: unknown device id %04x\n", device);
4888 return false;
4889 }
4890
4891 #if defined(BCMDBG)
wlc_print_txdesc(d11txh_t * txh)4892 void wlc_print_txdesc(d11txh_t *txh)
4893 {
4894 u16 mtcl = le16_to_cpu(txh->MacTxControlLow);
4895 u16 mtch = le16_to_cpu(txh->MacTxControlHigh);
4896 u16 mfc = le16_to_cpu(txh->MacFrameControl);
4897 u16 tfest = le16_to_cpu(txh->TxFesTimeNormal);
4898 u16 ptcw = le16_to_cpu(txh->PhyTxControlWord);
4899 u16 ptcw_1 = le16_to_cpu(txh->PhyTxControlWord_1);
4900 u16 ptcw_1_Fbr = le16_to_cpu(txh->PhyTxControlWord_1_Fbr);
4901 u16 ptcw_1_Rts = le16_to_cpu(txh->PhyTxControlWord_1_Rts);
4902 u16 ptcw_1_FbrRts = le16_to_cpu(txh->PhyTxControlWord_1_FbrRts);
4903 u16 mainrates = le16_to_cpu(txh->MainRates);
4904 u16 xtraft = le16_to_cpu(txh->XtraFrameTypes);
4905 u8 *iv = txh->IV;
4906 u8 *ra = txh->TxFrameRA;
4907 u16 tfestfb = le16_to_cpu(txh->TxFesTimeFallback);
4908 u8 *rtspfb = txh->RTSPLCPFallback;
4909 u16 rtsdfb = le16_to_cpu(txh->RTSDurFallback);
4910 u8 *fragpfb = txh->FragPLCPFallback;
4911 u16 fragdfb = le16_to_cpu(txh->FragDurFallback);
4912 u16 mmodelen = le16_to_cpu(txh->MModeLen);
4913 u16 mmodefbrlen = le16_to_cpu(txh->MModeFbrLen);
4914 u16 tfid = le16_to_cpu(txh->TxFrameID);
4915 u16 txs = le16_to_cpu(txh->TxStatus);
4916 u16 mnmpdu = le16_to_cpu(txh->MaxNMpdus);
4917 u16 mabyte = le16_to_cpu(txh->MaxABytes_MRT);
4918 u16 mabyte_f = le16_to_cpu(txh->MaxABytes_FBR);
4919 u16 mmbyte = le16_to_cpu(txh->MinMBytes);
4920
4921 u8 *rtsph = txh->RTSPhyHeader;
4922 struct ieee80211_rts rts = txh->rts_frame;
4923 char hexbuf[256];
4924
4925 /* add plcp header along with txh descriptor */
4926 prhex("Raw TxDesc + plcp header", (unsigned char *) txh, sizeof(d11txh_t) + 48);
4927
4928 printk(KERN_DEBUG "TxCtlLow: %04x ", mtcl);
4929 printk(KERN_DEBUG "TxCtlHigh: %04x ", mtch);
4930 printk(KERN_DEBUG "FC: %04x ", mfc);
4931 printk(KERN_DEBUG "FES Time: %04x\n", tfest);
4932 printk(KERN_DEBUG "PhyCtl: %04x%s ", ptcw,
4933 (ptcw & PHY_TXC_SHORT_HDR) ? " short" : "");
4934 printk(KERN_DEBUG "PhyCtl_1: %04x ", ptcw_1);
4935 printk(KERN_DEBUG "PhyCtl_1_Fbr: %04x\n", ptcw_1_Fbr);
4936 printk(KERN_DEBUG "PhyCtl_1_Rts: %04x ", ptcw_1_Rts);
4937 printk(KERN_DEBUG "PhyCtl_1_Fbr_Rts: %04x\n", ptcw_1_FbrRts);
4938 printk(KERN_DEBUG "MainRates: %04x ", mainrates);
4939 printk(KERN_DEBUG "XtraFrameTypes: %04x ", xtraft);
4940 printk(KERN_DEBUG "\n");
4941
4942 bcm_format_hex(hexbuf, iv, sizeof(txh->IV));
4943 printk(KERN_DEBUG "SecIV: %s\n", hexbuf);
4944 bcm_format_hex(hexbuf, ra, sizeof(txh->TxFrameRA));
4945 printk(KERN_DEBUG "RA: %s\n", hexbuf);
4946
4947 printk(KERN_DEBUG "Fb FES Time: %04x ", tfestfb);
4948 bcm_format_hex(hexbuf, rtspfb, sizeof(txh->RTSPLCPFallback));
4949 printk(KERN_DEBUG "RTS PLCP: %s ", hexbuf);
4950 printk(KERN_DEBUG "RTS DUR: %04x ", rtsdfb);
4951 bcm_format_hex(hexbuf, fragpfb, sizeof(txh->FragPLCPFallback));
4952 printk(KERN_DEBUG "PLCP: %s ", hexbuf);
4953 printk(KERN_DEBUG "DUR: %04x", fragdfb);
4954 printk(KERN_DEBUG "\n");
4955
4956 printk(KERN_DEBUG "MModeLen: %04x ", mmodelen);
4957 printk(KERN_DEBUG "MModeFbrLen: %04x\n", mmodefbrlen);
4958
4959 printk(KERN_DEBUG "FrameID: %04x\n", tfid);
4960 printk(KERN_DEBUG "TxStatus: %04x\n", txs);
4961
4962 printk(KERN_DEBUG "MaxNumMpdu: %04x\n", mnmpdu);
4963 printk(KERN_DEBUG "MaxAggbyte: %04x\n", mabyte);
4964 printk(KERN_DEBUG "MaxAggbyte_fb: %04x\n", mabyte_f);
4965 printk(KERN_DEBUG "MinByte: %04x\n", mmbyte);
4966
4967 bcm_format_hex(hexbuf, rtsph, sizeof(txh->RTSPhyHeader));
4968 printk(KERN_DEBUG "RTS PLCP: %s ", hexbuf);
4969 bcm_format_hex(hexbuf, (u8 *) &rts, sizeof(txh->rts_frame));
4970 printk(KERN_DEBUG "RTS Frame: %s", hexbuf);
4971 printk(KERN_DEBUG "\n");
4972 }
4973 #endif /* defined(BCMDBG) */
4974
4975 #if defined(BCMDBG)
wlc_print_rxh(d11rxhdr_t * rxh)4976 void wlc_print_rxh(d11rxhdr_t *rxh)
4977 {
4978 u16 len = rxh->RxFrameSize;
4979 u16 phystatus_0 = rxh->PhyRxStatus_0;
4980 u16 phystatus_1 = rxh->PhyRxStatus_1;
4981 u16 phystatus_2 = rxh->PhyRxStatus_2;
4982 u16 phystatus_3 = rxh->PhyRxStatus_3;
4983 u16 macstatus1 = rxh->RxStatus1;
4984 u16 macstatus2 = rxh->RxStatus2;
4985 char flagstr[64];
4986 char lenbuf[20];
4987 static const bcm_bit_desc_t macstat_flags[] = {
4988 {RXS_FCSERR, "FCSErr"},
4989 {RXS_RESPFRAMETX, "Reply"},
4990 {RXS_PBPRES, "PADDING"},
4991 {RXS_DECATMPT, "DeCr"},
4992 {RXS_DECERR, "DeCrErr"},
4993 {RXS_BCNSENT, "Bcn"},
4994 {0, NULL}
4995 };
4996
4997 prhex("Raw RxDesc", (unsigned char *) rxh, sizeof(d11rxhdr_t));
4998
4999 bcm_format_flags(macstat_flags, macstatus1, flagstr, 64);
5000
5001 snprintf(lenbuf, sizeof(lenbuf), "0x%x", len);
5002
5003 printk(KERN_DEBUG "RxFrameSize: %6s (%d)%s\n", lenbuf, len,
5004 (rxh->PhyRxStatus_0 & PRXS0_SHORTH) ? " short preamble" : "");
5005 printk(KERN_DEBUG "RxPHYStatus: %04x %04x %04x %04x\n",
5006 phystatus_0, phystatus_1, phystatus_2, phystatus_3);
5007 printk(KERN_DEBUG "RxMACStatus: %x %s\n", macstatus1, flagstr);
5008 printk(KERN_DEBUG "RXMACaggtype: %x\n",
5009 (macstatus2 & RXS_AGGTYPE_MASK));
5010 printk(KERN_DEBUG "RxTSFTime: %04x\n", rxh->RxTSFTime);
5011 }
5012 #endif /* defined(BCMDBG) */
5013
5014 #if defined(BCMDBG)
wlc_format_ssid(char * buf,const unsigned char ssid[],uint ssid_len)5015 int wlc_format_ssid(char *buf, const unsigned char ssid[], uint ssid_len)
5016 {
5017 uint i, c;
5018 char *p = buf;
5019 char *endp = buf + SSID_FMT_BUF_LEN;
5020
5021 if (ssid_len > IEEE80211_MAX_SSID_LEN)
5022 ssid_len = IEEE80211_MAX_SSID_LEN;
5023
5024 for (i = 0; i < ssid_len; i++) {
5025 c = (uint) ssid[i];
5026 if (c == '\\') {
5027 *p++ = '\\';
5028 *p++ = '\\';
5029 } else if (isprint((unsigned char) c)) {
5030 *p++ = (char)c;
5031 } else {
5032 p += snprintf(p, (endp - p), "\\x%02X", c);
5033 }
5034 }
5035 *p = '\0';
5036 ASSERT(p < endp);
5037
5038 return (int)(p - buf);
5039 }
5040 #endif /* defined(BCMDBG) */
5041
wlc_rate_shm_offset(struct wlc_info * wlc,u8 rate)5042 static u16 wlc_rate_shm_offset(struct wlc_info *wlc, u8 rate)
5043 {
5044 return wlc_bmac_rate_shm_offset(wlc->hw, rate);
5045 }
5046
5047 /* Callback for device removed */
5048
5049 /*
5050 * Attempts to queue a packet onto a multiple-precedence queue,
5051 * if necessary evicting a lower precedence packet from the queue.
5052 *
5053 * 'prec' is the precedence number that has already been mapped
5054 * from the packet priority.
5055 *
5056 * Returns true if packet consumed (queued), false if not.
5057 */
5058 bool BCMFASTPATH
wlc_prec_enq(struct wlc_info * wlc,struct pktq * q,void * pkt,int prec)5059 wlc_prec_enq(struct wlc_info *wlc, struct pktq *q, void *pkt, int prec)
5060 {
5061 return wlc_prec_enq_head(wlc, q, pkt, prec, false);
5062 }
5063
5064 bool BCMFASTPATH
wlc_prec_enq_head(struct wlc_info * wlc,struct pktq * q,struct sk_buff * pkt,int prec,bool head)5065 wlc_prec_enq_head(struct wlc_info *wlc, struct pktq *q, struct sk_buff *pkt,
5066 int prec, bool head)
5067 {
5068 struct sk_buff *p;
5069 int eprec = -1; /* precedence to evict from */
5070
5071 /* Determine precedence from which to evict packet, if any */
5072 if (pktq_pfull(q, prec))
5073 eprec = prec;
5074 else if (pktq_full(q)) {
5075 p = pktq_peek_tail(q, &eprec);
5076 ASSERT(p != NULL);
5077 if (eprec > prec) {
5078 WL_ERROR("%s: Failing: eprec %d > prec %d\n",
5079 __func__, eprec, prec);
5080 return false;
5081 }
5082 }
5083
5084 /* Evict if needed */
5085 if (eprec >= 0) {
5086 bool discard_oldest;
5087
5088 /* Detect queueing to unconfigured precedence */
5089 ASSERT(!pktq_pempty(q, eprec));
5090
5091 discard_oldest = AC_BITMAP_TST(wlc->wme_dp, eprec);
5092
5093 /* Refuse newer packet unless configured to discard oldest */
5094 if (eprec == prec && !discard_oldest) {
5095 WL_ERROR("%s: No where to go, prec == %d\n",
5096 __func__, prec);
5097 return false;
5098 }
5099
5100 /* Evict packet according to discard policy */
5101 p = discard_oldest ? pktq_pdeq(q, eprec) : pktq_pdeq_tail(q,
5102 eprec);
5103 ASSERT(p != NULL);
5104
5105 /* Increment wme stats */
5106 if (WME_ENAB(wlc->pub)) {
5107 WLCNTINCR(wlc->pub->_wme_cnt->
5108 tx_failed[WME_PRIO2AC(p->priority)].packets);
5109 WLCNTADD(wlc->pub->_wme_cnt->
5110 tx_failed[WME_PRIO2AC(p->priority)].bytes,
5111 pkttotlen(p));
5112 }
5113 pkt_buf_free_skb(p);
5114 wlc->pub->_cnt->txnobuf++;
5115 }
5116
5117 /* Enqueue */
5118 if (head)
5119 p = pktq_penq_head(q, prec, pkt);
5120 else
5121 p = pktq_penq(q, prec, pkt);
5122 ASSERT(p != NULL);
5123
5124 return true;
5125 }
5126
wlc_txq_enq(void * ctx,struct scb * scb,struct sk_buff * sdu,uint prec)5127 void BCMFASTPATH wlc_txq_enq(void *ctx, struct scb *scb, struct sk_buff *sdu,
5128 uint prec)
5129 {
5130 struct wlc_info *wlc = (struct wlc_info *) ctx;
5131 struct wlc_txq_info *qi = wlc->active_queue; /* Check me */
5132 struct pktq *q = &qi->q;
5133 int prio;
5134
5135 prio = sdu->priority;
5136
5137 ASSERT(pktq_max(q) >= wlc->pub->tunables->datahiwat);
5138
5139 if (!wlc_prec_enq(wlc, q, sdu, prec)) {
5140 if (!EDCF_ENAB(wlc->pub)
5141 || (wlc->pub->wlfeatureflag & WL_SWFL_FLOWCONTROL))
5142 WL_ERROR("wl%d: wlc_txq_enq: txq overflow\n",
5143 wlc->pub->unit);
5144
5145 /*
5146 * XXX we might hit this condtion in case
5147 * packet flooding from mac80211 stack
5148 */
5149 pkt_buf_free_skb(sdu);
5150 wlc->pub->_cnt->txnobuf++;
5151 }
5152
5153 /* Check if flow control needs to be turned on after enqueuing the packet
5154 * Don't turn on flow control if EDCF is enabled. Driver would make the decision on what
5155 * to drop instead of relying on stack to make the right decision
5156 */
5157 if (!EDCF_ENAB(wlc->pub)
5158 || (wlc->pub->wlfeatureflag & WL_SWFL_FLOWCONTROL)) {
5159 if (pktq_len(q) >= wlc->pub->tunables->datahiwat) {
5160 wlc_txflowcontrol(wlc, qi, ON, ALLPRIO);
5161 }
5162 } else if (wlc->pub->_priofc) {
5163 if (pktq_plen(q, wlc_prio2prec_map[prio]) >=
5164 wlc->pub->tunables->datahiwat) {
5165 wlc_txflowcontrol(wlc, qi, ON, prio);
5166 }
5167 }
5168 }
5169
5170 bool BCMFASTPATH
wlc_sendpkt_mac80211(struct wlc_info * wlc,struct sk_buff * sdu,struct ieee80211_hw * hw)5171 wlc_sendpkt_mac80211(struct wlc_info *wlc, struct sk_buff *sdu,
5172 struct ieee80211_hw *hw)
5173 {
5174 u8 prio;
5175 uint fifo;
5176 void *pkt;
5177 struct scb *scb = &global_scb;
5178 struct ieee80211_hdr *d11_header = (struct ieee80211_hdr *)(sdu->data);
5179
5180 ASSERT(sdu);
5181
5182 /* 802.11 standard requires management traffic to go at highest priority */
5183 prio = ieee80211_is_data(d11_header->frame_control) ? sdu->priority :
5184 MAXPRIO;
5185 fifo = prio2fifo[prio];
5186
5187 ASSERT((uint) skb_headroom(sdu) >= TXOFF);
5188 ASSERT(!(sdu->next));
5189 ASSERT(!(sdu->prev));
5190 ASSERT(fifo < NFIFO);
5191
5192 pkt = sdu;
5193 if (unlikely
5194 (wlc_d11hdrs_mac80211(wlc, hw, pkt, scb, 0, 1, fifo, 0, NULL, 0)))
5195 return -EINVAL;
5196 wlc_txq_enq(wlc, scb, pkt, WLC_PRIO_TO_PREC(prio));
5197 wlc_send_q(wlc, wlc->active_queue);
5198
5199 wlc->pub->_cnt->ieee_tx++;
5200 return 0;
5201 }
5202
wlc_send_q(struct wlc_info * wlc,struct wlc_txq_info * qi)5203 void BCMFASTPATH wlc_send_q(struct wlc_info *wlc, struct wlc_txq_info *qi)
5204 {
5205 struct sk_buff *pkt[DOT11_MAXNUMFRAGS];
5206 int prec;
5207 u16 prec_map;
5208 int err = 0, i, count;
5209 uint fifo;
5210 struct pktq *q = &qi->q;
5211 struct ieee80211_tx_info *tx_info;
5212
5213 /* only do work for the active queue */
5214 if (qi != wlc->active_queue)
5215 return;
5216
5217 if (in_send_q)
5218 return;
5219 else
5220 in_send_q = true;
5221
5222 prec_map = wlc->tx_prec_map;
5223
5224 /* Send all the enq'd pkts that we can.
5225 * Dequeue packets with precedence with empty HW fifo only
5226 */
5227 while (prec_map && (pkt[0] = pktq_mdeq(q, prec_map, &prec))) {
5228 tx_info = IEEE80211_SKB_CB(pkt[0]);
5229 if (tx_info->flags & IEEE80211_TX_CTL_AMPDU) {
5230 err = wlc_sendampdu(wlc->ampdu, qi, pkt, prec);
5231 } else {
5232 count = 1;
5233 err = wlc_prep_pdu(wlc, pkt[0], &fifo);
5234 if (!err) {
5235 for (i = 0; i < count; i++) {
5236 wlc_txfifo(wlc, fifo, pkt[i], true, 1);
5237 }
5238 }
5239 }
5240
5241 if (err == BCME_BUSY) {
5242 pktq_penq_head(q, prec, pkt[0]);
5243 /* If send failed due to any other reason than a change in
5244 * HW FIFO condition, quit. Otherwise, read the new prec_map!
5245 */
5246 if (prec_map == wlc->tx_prec_map)
5247 break;
5248 prec_map = wlc->tx_prec_map;
5249 }
5250 }
5251
5252 /* Check if flow control needs to be turned off after sending the packet */
5253 if (!EDCF_ENAB(wlc->pub)
5254 || (wlc->pub->wlfeatureflag & WL_SWFL_FLOWCONTROL)) {
5255 if (wlc_txflowcontrol_prio_isset(wlc, qi, ALLPRIO)
5256 && (pktq_len(q) < wlc->pub->tunables->datahiwat / 2)) {
5257 wlc_txflowcontrol(wlc, qi, OFF, ALLPRIO);
5258 }
5259 } else if (wlc->pub->_priofc) {
5260 int prio;
5261 for (prio = MAXPRIO; prio >= 0; prio--) {
5262 if (wlc_txflowcontrol_prio_isset(wlc, qi, prio) &&
5263 (pktq_plen(q, wlc_prio2prec_map[prio]) <
5264 wlc->pub->tunables->datahiwat / 2)) {
5265 wlc_txflowcontrol(wlc, qi, OFF, prio);
5266 }
5267 }
5268 }
5269 in_send_q = false;
5270 }
5271
5272 /*
5273 * bcmc_fid_generate:
5274 * Generate frame ID for a BCMC packet. The frag field is not used
5275 * for MC frames so is used as part of the sequence number.
5276 */
5277 static inline u16
bcmc_fid_generate(struct wlc_info * wlc,struct wlc_bsscfg * bsscfg,d11txh_t * txh)5278 bcmc_fid_generate(struct wlc_info *wlc, struct wlc_bsscfg *bsscfg,
5279 d11txh_t *txh)
5280 {
5281 u16 frameid;
5282
5283 frameid = le16_to_cpu(txh->TxFrameID) & ~(TXFID_SEQ_MASK |
5284 TXFID_QUEUE_MASK);
5285 frameid |=
5286 (((wlc->
5287 mc_fid_counter++) << TXFID_SEQ_SHIFT) & TXFID_SEQ_MASK) |
5288 TX_BCMC_FIFO;
5289
5290 return frameid;
5291 }
5292
5293 void BCMFASTPATH
wlc_txfifo(struct wlc_info * wlc,uint fifo,struct sk_buff * p,bool commit,s8 txpktpend)5294 wlc_txfifo(struct wlc_info *wlc, uint fifo, struct sk_buff *p, bool commit,
5295 s8 txpktpend)
5296 {
5297 u16 frameid = INVALIDFID;
5298 d11txh_t *txh;
5299
5300 ASSERT(fifo < NFIFO);
5301 txh = (d11txh_t *) (p->data);
5302
5303 /* When a BC/MC frame is being committed to the BCMC fifo via DMA (NOT PIO), update
5304 * ucode or BSS info as appropriate.
5305 */
5306 if (fifo == TX_BCMC_FIFO) {
5307 frameid = le16_to_cpu(txh->TxFrameID);
5308
5309 }
5310
5311 if (WLC_WAR16165(wlc))
5312 wlc_war16165(wlc, true);
5313
5314
5315 /* Bump up pending count for if not using rpc. If rpc is used, this will be handled
5316 * in wlc_bmac_txfifo()
5317 */
5318 if (commit) {
5319 TXPKTPENDINC(wlc, fifo, txpktpend);
5320 WL_TRACE("wlc_txfifo, pktpend inc %d to %d\n",
5321 txpktpend, TXPKTPENDGET(wlc, fifo));
5322 }
5323
5324 /* Commit BCMC sequence number in the SHM frame ID location */
5325 if (frameid != INVALIDFID)
5326 BCMCFID(wlc, frameid);
5327
5328 if (dma_txfast(wlc->hw->di[fifo], p, commit) < 0) {
5329 WL_ERROR("wlc_txfifo: fatal, toss frames !!!\n");
5330 }
5331 }
5332
5333 static u16
wlc_compute_airtime(struct wlc_info * wlc,ratespec_t rspec,uint length)5334 wlc_compute_airtime(struct wlc_info *wlc, ratespec_t rspec, uint length)
5335 {
5336 u16 usec = 0;
5337 uint mac_rate = RSPEC2RATE(rspec);
5338 uint nsyms;
5339
5340 if (IS_MCS(rspec)) {
5341 /* not supported yet */
5342 ASSERT(0);
5343 } else if (IS_OFDM(rspec)) {
5344 /* nsyms = Ceiling(Nbits / (Nbits/sym))
5345 *
5346 * Nbits = length * 8
5347 * Nbits/sym = Mbps * 4 = mac_rate * 2
5348 */
5349 nsyms = CEIL((length * 8), (mac_rate * 2));
5350
5351 /* usec = symbols * usec/symbol */
5352 usec = (u16) (nsyms * APHY_SYMBOL_TIME);
5353 return usec;
5354 } else {
5355 switch (mac_rate) {
5356 case WLC_RATE_1M:
5357 usec = length << 3;
5358 break;
5359 case WLC_RATE_2M:
5360 usec = length << 2;
5361 break;
5362 case WLC_RATE_5M5:
5363 usec = (length << 4) / 11;
5364 break;
5365 case WLC_RATE_11M:
5366 usec = (length << 3) / 11;
5367 break;
5368 default:
5369 WL_ERROR("wl%d: wlc_compute_airtime: unsupported rspec 0x%x\n",
5370 wlc->pub->unit, rspec);
5371 ASSERT((const char *)"Bad phy_rate" == NULL);
5372 break;
5373 }
5374 }
5375
5376 return usec;
5377 }
5378
5379 void BCMFASTPATH
wlc_compute_plcp(struct wlc_info * wlc,ratespec_t rspec,uint length,u8 * plcp)5380 wlc_compute_plcp(struct wlc_info *wlc, ratespec_t rspec, uint length, u8 *plcp)
5381 {
5382 if (IS_MCS(rspec)) {
5383 wlc_compute_mimo_plcp(rspec, length, plcp);
5384 } else if (IS_OFDM(rspec)) {
5385 wlc_compute_ofdm_plcp(rspec, length, plcp);
5386 } else {
5387 wlc_compute_cck_plcp(rspec, length, plcp);
5388 }
5389 return;
5390 }
5391
5392 /* Rate: 802.11 rate code, length: PSDU length in octets */
wlc_compute_mimo_plcp(ratespec_t rspec,uint length,u8 * plcp)5393 static void wlc_compute_mimo_plcp(ratespec_t rspec, uint length, u8 *plcp)
5394 {
5395 u8 mcs = (u8) (rspec & RSPEC_RATE_MASK);
5396 ASSERT(IS_MCS(rspec));
5397 plcp[0] = mcs;
5398 if (RSPEC_IS40MHZ(rspec) || (mcs == 32))
5399 plcp[0] |= MIMO_PLCP_40MHZ;
5400 WLC_SET_MIMO_PLCP_LEN(plcp, length);
5401 plcp[3] = RSPEC_MIMOPLCP3(rspec); /* rspec already holds this byte */
5402 plcp[3] |= 0x7; /* set smoothing, not sounding ppdu & reserved */
5403 plcp[4] = 0; /* number of extension spatial streams bit 0 & 1 */
5404 plcp[5] = 0;
5405 }
5406
5407 /* Rate: 802.11 rate code, length: PSDU length in octets */
5408 static void BCMFASTPATH
wlc_compute_ofdm_plcp(ratespec_t rspec,u32 length,u8 * plcp)5409 wlc_compute_ofdm_plcp(ratespec_t rspec, u32 length, u8 *plcp)
5410 {
5411 u8 rate_signal;
5412 u32 tmp = 0;
5413 int rate = RSPEC2RATE(rspec);
5414
5415 ASSERT(IS_OFDM(rspec));
5416
5417 /* encode rate per 802.11a-1999 sec 17.3.4.1, with lsb transmitted first */
5418 rate_signal = rate_info[rate] & RATE_MASK;
5419 ASSERT(rate_signal != 0);
5420
5421 memset(plcp, 0, D11_PHY_HDR_LEN);
5422 D11A_PHY_HDR_SRATE((ofdm_phy_hdr_t *) plcp, rate_signal);
5423
5424 tmp = (length & 0xfff) << 5;
5425 plcp[2] |= (tmp >> 16) & 0xff;
5426 plcp[1] |= (tmp >> 8) & 0xff;
5427 plcp[0] |= tmp & 0xff;
5428
5429 return;
5430 }
5431
5432 /*
5433 * Compute PLCP, but only requires actual rate and length of pkt.
5434 * Rate is given in the driver standard multiple of 500 kbps.
5435 * le is set for 11 Mbps rate if necessary.
5436 * Broken out for PRQ.
5437 */
5438
wlc_cck_plcp_set(int rate_500,uint length,u8 * plcp)5439 static void wlc_cck_plcp_set(int rate_500, uint length, u8 *plcp)
5440 {
5441 u16 usec = 0;
5442 u8 le = 0;
5443
5444 switch (rate_500) {
5445 case WLC_RATE_1M:
5446 usec = length << 3;
5447 break;
5448 case WLC_RATE_2M:
5449 usec = length << 2;
5450 break;
5451 case WLC_RATE_5M5:
5452 usec = (length << 4) / 11;
5453 if ((length << 4) - (usec * 11) > 0)
5454 usec++;
5455 break;
5456 case WLC_RATE_11M:
5457 usec = (length << 3) / 11;
5458 if ((length << 3) - (usec * 11) > 0) {
5459 usec++;
5460 if ((usec * 11) - (length << 3) >= 8)
5461 le = D11B_PLCP_SIGNAL_LE;
5462 }
5463 break;
5464
5465 default:
5466 WL_ERROR("wlc_cck_plcp_set: unsupported rate %d\n", rate_500);
5467 rate_500 = WLC_RATE_1M;
5468 usec = length << 3;
5469 break;
5470 }
5471 /* PLCP signal byte */
5472 plcp[0] = rate_500 * 5; /* r (500kbps) * 5 == r (100kbps) */
5473 /* PLCP service byte */
5474 plcp[1] = (u8) (le | D11B_PLCP_SIGNAL_LOCKED);
5475 /* PLCP length u16, little endian */
5476 plcp[2] = usec & 0xff;
5477 plcp[3] = (usec >> 8) & 0xff;
5478 /* PLCP CRC16 */
5479 plcp[4] = 0;
5480 plcp[5] = 0;
5481 }
5482
5483 /* Rate: 802.11 rate code, length: PSDU length in octets */
wlc_compute_cck_plcp(ratespec_t rspec,uint length,u8 * plcp)5484 static void wlc_compute_cck_plcp(ratespec_t rspec, uint length, u8 *plcp)
5485 {
5486 int rate = RSPEC2RATE(rspec);
5487
5488 ASSERT(IS_CCK(rspec));
5489
5490 wlc_cck_plcp_set(rate, length, plcp);
5491 }
5492
5493 /* wlc_compute_frame_dur()
5494 *
5495 * Calculate the 802.11 MAC header DUR field for MPDU
5496 * DUR for a single frame = 1 SIFS + 1 ACK
5497 * DUR for a frame with following frags = 3 SIFS + 2 ACK + next frag time
5498 *
5499 * rate MPDU rate in unit of 500kbps
5500 * next_frag_len next MPDU length in bytes
5501 * preamble_type use short/GF or long/MM PLCP header
5502 */
5503 static u16 BCMFASTPATH
wlc_compute_frame_dur(struct wlc_info * wlc,ratespec_t rate,u8 preamble_type,uint next_frag_len)5504 wlc_compute_frame_dur(struct wlc_info *wlc, ratespec_t rate, u8 preamble_type,
5505 uint next_frag_len)
5506 {
5507 u16 dur, sifs;
5508
5509 sifs = SIFS(wlc->band);
5510
5511 dur = sifs;
5512 dur += (u16) wlc_calc_ack_time(wlc, rate, preamble_type);
5513
5514 if (next_frag_len) {
5515 /* Double the current DUR to get 2 SIFS + 2 ACKs */
5516 dur *= 2;
5517 /* add another SIFS and the frag time */
5518 dur += sifs;
5519 dur +=
5520 (u16) wlc_calc_frame_time(wlc, rate, preamble_type,
5521 next_frag_len);
5522 }
5523 return dur;
5524 }
5525
5526 /* wlc_compute_rtscts_dur()
5527 *
5528 * Calculate the 802.11 MAC header DUR field for an RTS or CTS frame
5529 * DUR for normal RTS/CTS w/ frame = 3 SIFS + 1 CTS + next frame time + 1 ACK
5530 * DUR for CTS-TO-SELF w/ frame = 2 SIFS + next frame time + 1 ACK
5531 *
5532 * cts cts-to-self or rts/cts
5533 * rts_rate rts or cts rate in unit of 500kbps
5534 * rate next MPDU rate in unit of 500kbps
5535 * frame_len next MPDU frame length in bytes
5536 */
5537 u16 BCMFASTPATH
wlc_compute_rtscts_dur(struct wlc_info * wlc,bool cts_only,ratespec_t rts_rate,ratespec_t frame_rate,u8 rts_preamble_type,u8 frame_preamble_type,uint frame_len,bool ba)5538 wlc_compute_rtscts_dur(struct wlc_info *wlc, bool cts_only, ratespec_t rts_rate,
5539 ratespec_t frame_rate, u8 rts_preamble_type,
5540 u8 frame_preamble_type, uint frame_len, bool ba)
5541 {
5542 u16 dur, sifs;
5543
5544 sifs = SIFS(wlc->band);
5545
5546 if (!cts_only) { /* RTS/CTS */
5547 dur = 3 * sifs;
5548 dur +=
5549 (u16) wlc_calc_cts_time(wlc, rts_rate,
5550 rts_preamble_type);
5551 } else { /* CTS-TO-SELF */
5552 dur = 2 * sifs;
5553 }
5554
5555 dur +=
5556 (u16) wlc_calc_frame_time(wlc, frame_rate, frame_preamble_type,
5557 frame_len);
5558 if (ba)
5559 dur +=
5560 (u16) wlc_calc_ba_time(wlc, frame_rate,
5561 WLC_SHORT_PREAMBLE);
5562 else
5563 dur +=
5564 (u16) wlc_calc_ack_time(wlc, frame_rate,
5565 frame_preamble_type);
5566 return dur;
5567 }
5568
wlc_phy_rspec_check(struct wlc_info * wlc,u16 bw,ratespec_t rspec)5569 static bool wlc_phy_rspec_check(struct wlc_info *wlc, u16 bw, ratespec_t rspec)
5570 {
5571 if (IS_MCS(rspec)) {
5572 uint mcs = rspec & RSPEC_RATE_MASK;
5573
5574 if (mcs < 8) {
5575 ASSERT(RSPEC_STF(rspec) < PHY_TXC1_MODE_SDM);
5576 } else if ((mcs >= 8) && (mcs <= 23)) {
5577 ASSERT(RSPEC_STF(rspec) == PHY_TXC1_MODE_SDM);
5578 } else if (mcs == 32) {
5579 ASSERT(RSPEC_STF(rspec) < PHY_TXC1_MODE_SDM);
5580 ASSERT(bw == PHY_TXC1_BW_40MHZ_DUP);
5581 }
5582 } else if (IS_OFDM(rspec)) {
5583 ASSERT(RSPEC_STF(rspec) < PHY_TXC1_MODE_STBC);
5584 } else {
5585 ASSERT(IS_CCK(rspec));
5586
5587 ASSERT((bw == PHY_TXC1_BW_20MHZ)
5588 || (bw == PHY_TXC1_BW_20MHZ_UP));
5589 ASSERT(RSPEC_STF(rspec) == PHY_TXC1_MODE_SISO);
5590 }
5591
5592 return true;
5593 }
5594
wlc_phytxctl1_calc(struct wlc_info * wlc,ratespec_t rspec)5595 u16 BCMFASTPATH wlc_phytxctl1_calc(struct wlc_info *wlc, ratespec_t rspec)
5596 {
5597 u16 phyctl1 = 0;
5598 u16 bw;
5599
5600 if (WLCISLCNPHY(wlc->band)) {
5601 bw = PHY_TXC1_BW_20MHZ;
5602 } else {
5603 bw = RSPEC_GET_BW(rspec);
5604 /* 10Mhz is not supported yet */
5605 if (bw < PHY_TXC1_BW_20MHZ) {
5606 WL_ERROR("wlc_phytxctl1_calc: bw %d is not supported yet, set to 20L\n",
5607 bw);
5608 bw = PHY_TXC1_BW_20MHZ;
5609 }
5610
5611 wlc_phy_rspec_check(wlc, bw, rspec);
5612 }
5613
5614 if (IS_MCS(rspec)) {
5615 uint mcs = rspec & RSPEC_RATE_MASK;
5616
5617 /* bw, stf, coding-type is part of RSPEC_PHYTXBYTE2 returns */
5618 phyctl1 = RSPEC_PHYTXBYTE2(rspec);
5619 /* set the upper byte of phyctl1 */
5620 phyctl1 |= (mcs_table[mcs].tx_phy_ctl3 << 8);
5621 } else if (IS_CCK(rspec) && !WLCISLCNPHY(wlc->band)
5622 && !WLCISSSLPNPHY(wlc->band)) {
5623 /* In CCK mode LPPHY overloads OFDM Modulation bits with CCK Data Rate */
5624 /* Eventually MIMOPHY would also be converted to this format */
5625 /* 0 = 1Mbps; 1 = 2Mbps; 2 = 5.5Mbps; 3 = 11Mbps */
5626 phyctl1 = (bw | (RSPEC_STF(rspec) << PHY_TXC1_MODE_SHIFT));
5627 } else { /* legacy OFDM/CCK */
5628 s16 phycfg;
5629 /* get the phyctl byte from rate phycfg table */
5630 phycfg = wlc_rate_legacy_phyctl(RSPEC2RATE(rspec));
5631 if (phycfg == -1) {
5632 WL_ERROR("wlc_phytxctl1_calc: wrong legacy OFDM/CCK rate\n");
5633 ASSERT(0);
5634 phycfg = 0;
5635 }
5636 /* set the upper byte of phyctl1 */
5637 phyctl1 =
5638 (bw | (phycfg << 8) |
5639 (RSPEC_STF(rspec) << PHY_TXC1_MODE_SHIFT));
5640 }
5641
5642 #ifdef BCMDBG
5643 /* phy clock must support 40Mhz if tx descriptor uses it */
5644 if ((phyctl1 & PHY_TXC1_BW_MASK) >= PHY_TXC1_BW_40MHZ) {
5645 ASSERT(CHSPEC_WLC_BW(wlc->chanspec) == WLC_40_MHZ);
5646 ASSERT(wlc->chanspec == wlc_phy_chanspec_get(wlc->band->pi));
5647 }
5648 #endif /* BCMDBG */
5649 return phyctl1;
5650 }
5651
5652 ratespec_t BCMFASTPATH
wlc_rspec_to_rts_rspec(struct wlc_info * wlc,ratespec_t rspec,bool use_rspec,u16 mimo_ctlchbw)5653 wlc_rspec_to_rts_rspec(struct wlc_info *wlc, ratespec_t rspec, bool use_rspec,
5654 u16 mimo_ctlchbw)
5655 {
5656 ratespec_t rts_rspec = 0;
5657
5658 if (use_rspec) {
5659 /* use frame rate as rts rate */
5660 rts_rspec = rspec;
5661
5662 } else if (wlc->band->gmode && wlc->protection->_g && !IS_CCK(rspec)) {
5663 /* Use 11Mbps as the g protection RTS target rate and fallback.
5664 * Use the WLC_BASIC_RATE() lookup to find the best basic rate under the
5665 * target in case 11 Mbps is not Basic.
5666 * 6 and 9 Mbps are not usually selected by rate selection, but even
5667 * if the OFDM rate we are protecting is 6 or 9 Mbps, 11 is more robust.
5668 */
5669 rts_rspec = WLC_BASIC_RATE(wlc, WLC_RATE_11M);
5670 } else {
5671 /* calculate RTS rate and fallback rate based on the frame rate
5672 * RTS must be sent at a basic rate since it is a
5673 * control frame, sec 9.6 of 802.11 spec
5674 */
5675 rts_rspec = WLC_BASIC_RATE(wlc, rspec);
5676 }
5677
5678 if (WLC_PHY_11N_CAP(wlc->band)) {
5679 /* set rts txbw to correct side band */
5680 rts_rspec &= ~RSPEC_BW_MASK;
5681
5682 /* if rspec/rspec_fallback is 40MHz, then send RTS on both 20MHz channel
5683 * (DUP), otherwise send RTS on control channel
5684 */
5685 if (RSPEC_IS40MHZ(rspec) && !IS_CCK(rts_rspec))
5686 rts_rspec |= (PHY_TXC1_BW_40MHZ_DUP << RSPEC_BW_SHIFT);
5687 else
5688 rts_rspec |= (mimo_ctlchbw << RSPEC_BW_SHIFT);
5689
5690 /* pick siso/cdd as default for ofdm */
5691 if (IS_OFDM(rts_rspec)) {
5692 rts_rspec &= ~RSPEC_STF_MASK;
5693 rts_rspec |= (wlc->stf->ss_opmode << RSPEC_STF_SHIFT);
5694 }
5695 }
5696 return rts_rspec;
5697 }
5698
5699 /*
5700 * Add d11txh_t, cck_phy_hdr_t.
5701 *
5702 * 'p' data must start with 802.11 MAC header
5703 * 'p' must allow enough bytes of local headers to be "pushed" onto the packet
5704 *
5705 * headroom == D11_PHY_HDR_LEN + D11_TXH_LEN (D11_TXH_LEN is now 104 bytes)
5706 *
5707 */
5708 static u16 BCMFASTPATH
wlc_d11hdrs_mac80211(struct wlc_info * wlc,struct ieee80211_hw * hw,struct sk_buff * p,struct scb * scb,uint frag,uint nfrags,uint queue,uint next_frag_len,wsec_key_t * key,ratespec_t rspec_override)5709 wlc_d11hdrs_mac80211(struct wlc_info *wlc, struct ieee80211_hw *hw,
5710 struct sk_buff *p, struct scb *scb, uint frag,
5711 uint nfrags, uint queue, uint next_frag_len,
5712 wsec_key_t *key, ratespec_t rspec_override)
5713 {
5714 struct ieee80211_hdr *h;
5715 d11txh_t *txh;
5716 u8 *plcp, plcp_fallback[D11_PHY_HDR_LEN];
5717 int len, phylen, rts_phylen;
5718 u16 mch, phyctl, xfts, mainrates;
5719 u16 seq = 0, mcl = 0, status = 0, frameid = 0;
5720 ratespec_t rspec[2] = { WLC_RATE_1M, WLC_RATE_1M }, rts_rspec[2] = {
5721 WLC_RATE_1M, WLC_RATE_1M};
5722 bool use_rts = false;
5723 bool use_cts = false;
5724 bool use_rifs = false;
5725 bool short_preamble[2] = { false, false };
5726 u8 preamble_type[2] = { WLC_LONG_PREAMBLE, WLC_LONG_PREAMBLE };
5727 u8 rts_preamble_type[2] = { WLC_LONG_PREAMBLE, WLC_LONG_PREAMBLE };
5728 u8 *rts_plcp, rts_plcp_fallback[D11_PHY_HDR_LEN];
5729 struct ieee80211_rts *rts = NULL;
5730 bool qos;
5731 uint ac;
5732 u32 rate_val[2];
5733 bool hwtkmic = false;
5734 u16 mimo_ctlchbw = PHY_TXC1_BW_20MHZ;
5735 #define ANTCFG_NONE 0xFF
5736 u8 antcfg = ANTCFG_NONE;
5737 u8 fbantcfg = ANTCFG_NONE;
5738 uint phyctl1_stf = 0;
5739 u16 durid = 0;
5740 struct ieee80211_tx_rate *txrate[2];
5741 int k;
5742 struct ieee80211_tx_info *tx_info;
5743 bool is_mcs[2];
5744 u16 mimo_txbw;
5745 u8 mimo_preamble_type;
5746
5747 ASSERT(queue < NFIFO);
5748
5749 /* locate 802.11 MAC header */
5750 h = (struct ieee80211_hdr *)(p->data);
5751 qos = ieee80211_is_data_qos(h->frame_control);
5752
5753 /* compute length of frame in bytes for use in PLCP computations */
5754 len = pkttotlen(p);
5755 phylen = len + FCS_LEN;
5756
5757 /* If WEP enabled, add room in phylen for the additional bytes of
5758 * ICV which MAC generates. We do NOT add the additional bytes to
5759 * the packet itself, thus phylen = packet length + ICV_LEN + FCS_LEN
5760 * in this case
5761 */
5762 if (key) {
5763 phylen += key->icv_len;
5764 }
5765
5766 /* Get tx_info */
5767 tx_info = IEEE80211_SKB_CB(p);
5768 ASSERT(tx_info);
5769
5770 /* add PLCP */
5771 plcp = skb_push(p, D11_PHY_HDR_LEN);
5772
5773 /* add Broadcom tx descriptor header */
5774 txh = (d11txh_t *) skb_push(p, D11_TXH_LEN);
5775 memset(txh, 0, D11_TXH_LEN);
5776
5777 /* setup frameid */
5778 if (tx_info->flags & IEEE80211_TX_CTL_ASSIGN_SEQ) {
5779 /* non-AP STA should never use BCMC queue */
5780 ASSERT(queue != TX_BCMC_FIFO);
5781 if (queue == TX_BCMC_FIFO) {
5782 WL_ERROR("wl%d: %s: ASSERT queue == TX_BCMC!\n",
5783 WLCWLUNIT(wlc), __func__);
5784 frameid = bcmc_fid_generate(wlc, NULL, txh);
5785 } else {
5786 /* Increment the counter for first fragment */
5787 if (tx_info->flags & IEEE80211_TX_CTL_FIRST_FRAGMENT) {
5788 SCB_SEQNUM(scb, p->priority)++;
5789 }
5790
5791 /* extract fragment number from frame first */
5792 seq = le16_to_cpu(seq) & FRAGNUM_MASK;
5793 seq |= (SCB_SEQNUM(scb, p->priority) << SEQNUM_SHIFT);
5794 h->seq_ctrl = cpu_to_le16(seq);
5795
5796 frameid = ((seq << TXFID_SEQ_SHIFT) & TXFID_SEQ_MASK) |
5797 (queue & TXFID_QUEUE_MASK);
5798 }
5799 }
5800 frameid |= queue & TXFID_QUEUE_MASK;
5801
5802 /* set the ignpmq bit for all pkts tx'd in PS mode and for beacons */
5803 if (SCB_PS(scb) || ieee80211_is_beacon(h->frame_control))
5804 mcl |= TXC_IGNOREPMQ;
5805
5806 ASSERT(hw->max_rates <= IEEE80211_TX_MAX_RATES);
5807 ASSERT(hw->max_rates == 2);
5808
5809 txrate[0] = tx_info->control.rates;
5810 txrate[1] = txrate[0] + 1;
5811
5812 ASSERT(txrate[0]->idx >= 0);
5813 /* if rate control algorithm didn't give us a fallback rate, use the primary rate */
5814 if (txrate[1]->idx < 0) {
5815 txrate[1] = txrate[0];
5816 }
5817
5818 for (k = 0; k < hw->max_rates; k++) {
5819 is_mcs[k] =
5820 txrate[k]->flags & IEEE80211_TX_RC_MCS ? true : false;
5821 if (!is_mcs[k]) {
5822 ASSERT(!(tx_info->flags & IEEE80211_TX_CTL_AMPDU));
5823 if ((txrate[k]->idx >= 0)
5824 && (txrate[k]->idx <
5825 hw->wiphy->bands[tx_info->band]->n_bitrates)) {
5826 rate_val[k] =
5827 hw->wiphy->bands[tx_info->band]->
5828 bitrates[txrate[k]->idx].hw_value;
5829 short_preamble[k] =
5830 txrate[k]->
5831 flags & IEEE80211_TX_RC_USE_SHORT_PREAMBLE ?
5832 true : false;
5833 } else {
5834 ASSERT((txrate[k]->idx >= 0) &&
5835 (txrate[k]->idx <
5836 hw->wiphy->bands[tx_info->band]->
5837 n_bitrates));
5838 rate_val[k] = WLC_RATE_1M;
5839 }
5840 } else {
5841 rate_val[k] = txrate[k]->idx;
5842 }
5843 /* Currently only support same setting for primay and fallback rates.
5844 * Unify flags for each rate into a single value for the frame
5845 */
5846 use_rts |=
5847 txrate[k]->
5848 flags & IEEE80211_TX_RC_USE_RTS_CTS ? true : false;
5849 use_cts |=
5850 txrate[k]->
5851 flags & IEEE80211_TX_RC_USE_CTS_PROTECT ? true : false;
5852
5853 if (is_mcs[k])
5854 rate_val[k] |= NRATE_MCS_INUSE;
5855
5856 rspec[k] = mac80211_wlc_set_nrate(wlc, wlc->band, rate_val[k]);
5857
5858 /* (1) RATE: determine and validate primary rate and fallback rates */
5859 if (!RSPEC_ACTIVE(rspec[k])) {
5860 ASSERT(RSPEC_ACTIVE(rspec[k]));
5861 rspec[k] = WLC_RATE_1M;
5862 } else {
5863 if (!is_multicast_ether_addr(h->addr1)) {
5864 /* set tx antenna config */
5865 wlc_antsel_antcfg_get(wlc->asi, false, false, 0,
5866 0, &antcfg, &fbantcfg);
5867 }
5868 }
5869 }
5870
5871 phyctl1_stf = wlc->stf->ss_opmode;
5872
5873 if (N_ENAB(wlc->pub)) {
5874 for (k = 0; k < hw->max_rates; k++) {
5875 /* apply siso/cdd to single stream mcs's or ofdm if rspec is auto selected */
5876 if (((IS_MCS(rspec[k]) &&
5877 IS_SINGLE_STREAM(rspec[k] & RSPEC_RATE_MASK)) ||
5878 IS_OFDM(rspec[k]))
5879 && ((rspec[k] & RSPEC_OVERRIDE_MCS_ONLY)
5880 || !(rspec[k] & RSPEC_OVERRIDE))) {
5881 rspec[k] &= ~(RSPEC_STF_MASK | RSPEC_STC_MASK);
5882
5883 /* For SISO MCS use STBC if possible */
5884 if (IS_MCS(rspec[k])
5885 && WLC_STF_SS_STBC_TX(wlc, scb)) {
5886 u8 stc;
5887
5888 ASSERT(WLC_STBC_CAP_PHY(wlc));
5889 stc = 1; /* Nss for single stream is always 1 */
5890 rspec[k] |=
5891 (PHY_TXC1_MODE_STBC <<
5892 RSPEC_STF_SHIFT) | (stc <<
5893 RSPEC_STC_SHIFT);
5894 } else
5895 rspec[k] |=
5896 (phyctl1_stf << RSPEC_STF_SHIFT);
5897 }
5898
5899 /* Is the phy configured to use 40MHZ frames? If so then pick the desired txbw */
5900 if (CHSPEC_WLC_BW(wlc->chanspec) == WLC_40_MHZ) {
5901 /* default txbw is 20in40 SB */
5902 mimo_ctlchbw = mimo_txbw =
5903 CHSPEC_SB_UPPER(WLC_BAND_PI_RADIO_CHANSPEC)
5904 ? PHY_TXC1_BW_20MHZ_UP : PHY_TXC1_BW_20MHZ;
5905
5906 if (IS_MCS(rspec[k])) {
5907 /* mcs 32 must be 40b/w DUP */
5908 if ((rspec[k] & RSPEC_RATE_MASK) == 32) {
5909 mimo_txbw =
5910 PHY_TXC1_BW_40MHZ_DUP;
5911 /* use override */
5912 } else if (wlc->mimo_40txbw != AUTO)
5913 mimo_txbw = wlc->mimo_40txbw;
5914 /* else check if dst is using 40 Mhz */
5915 else if (scb->flags & SCB_IS40)
5916 mimo_txbw = PHY_TXC1_BW_40MHZ;
5917 } else if (IS_OFDM(rspec[k])) {
5918 if (wlc->ofdm_40txbw != AUTO)
5919 mimo_txbw = wlc->ofdm_40txbw;
5920 } else {
5921 ASSERT(IS_CCK(rspec[k]));
5922 if (wlc->cck_40txbw != AUTO)
5923 mimo_txbw = wlc->cck_40txbw;
5924 }
5925 } else {
5926 /* mcs32 is 40 b/w only.
5927 * This is possible for probe packets on a STA during SCAN
5928 */
5929 if ((rspec[k] & RSPEC_RATE_MASK) == 32) {
5930 /* mcs 0 */
5931 rspec[k] = RSPEC_MIMORATE;
5932 }
5933 mimo_txbw = PHY_TXC1_BW_20MHZ;
5934 }
5935
5936 /* Set channel width */
5937 rspec[k] &= ~RSPEC_BW_MASK;
5938 if ((k == 0) || ((k > 0) && IS_MCS(rspec[k])))
5939 rspec[k] |= (mimo_txbw << RSPEC_BW_SHIFT);
5940 else
5941 rspec[k] |= (mimo_ctlchbw << RSPEC_BW_SHIFT);
5942
5943 /* Set Short GI */
5944 #ifdef NOSGIYET
5945 if (IS_MCS(rspec[k])
5946 && (txrate[k]->flags & IEEE80211_TX_RC_SHORT_GI))
5947 rspec[k] |= RSPEC_SHORT_GI;
5948 else if (!(txrate[k]->flags & IEEE80211_TX_RC_SHORT_GI))
5949 rspec[k] &= ~RSPEC_SHORT_GI;
5950 #else
5951 rspec[k] &= ~RSPEC_SHORT_GI;
5952 #endif
5953
5954 mimo_preamble_type = WLC_MM_PREAMBLE;
5955 if (txrate[k]->flags & IEEE80211_TX_RC_GREEN_FIELD)
5956 mimo_preamble_type = WLC_GF_PREAMBLE;
5957
5958 if ((txrate[k]->flags & IEEE80211_TX_RC_MCS)
5959 && (!IS_MCS(rspec[k]))) {
5960 WL_ERROR("wl%d: %s: IEEE80211_TX_RC_MCS != IS_MCS(rspec)\n",
5961 WLCWLUNIT(wlc), __func__);
5962 ASSERT(0 && "Rate mismatch");
5963 }
5964
5965 if (IS_MCS(rspec[k])) {
5966 preamble_type[k] = mimo_preamble_type;
5967
5968 /* if SGI is selected, then forced mm for single stream */
5969 if ((rspec[k] & RSPEC_SHORT_GI)
5970 && IS_SINGLE_STREAM(rspec[k] &
5971 RSPEC_RATE_MASK)) {
5972 preamble_type[k] = WLC_MM_PREAMBLE;
5973 }
5974 }
5975
5976 /* mimo bw field MUST now be valid in the rspec (it affects duration calculations) */
5977 ASSERT(VALID_RATE_DBG(wlc, rspec[0]));
5978
5979 /* should be better conditionalized */
5980 if (!IS_MCS(rspec[0])
5981 && (tx_info->control.rates[0].
5982 flags & IEEE80211_TX_RC_USE_SHORT_PREAMBLE))
5983 preamble_type[k] = WLC_SHORT_PREAMBLE;
5984
5985 ASSERT(!IS_MCS(rspec[0])
5986 || WLC_IS_MIMO_PREAMBLE(preamble_type[k]));
5987 }
5988 } else {
5989 for (k = 0; k < hw->max_rates; k++) {
5990 /* Set ctrlchbw as 20Mhz */
5991 ASSERT(!IS_MCS(rspec[k]));
5992 rspec[k] &= ~RSPEC_BW_MASK;
5993 rspec[k] |= (PHY_TXC1_BW_20MHZ << RSPEC_BW_SHIFT);
5994
5995 /* for nphy, stf of ofdm frames must follow policies */
5996 if (WLCISNPHY(wlc->band) && IS_OFDM(rspec[k])) {
5997 rspec[k] &= ~RSPEC_STF_MASK;
5998 rspec[k] |= phyctl1_stf << RSPEC_STF_SHIFT;
5999 }
6000 }
6001 }
6002
6003 /* Reset these for use with AMPDU's */
6004 txrate[0]->count = 0;
6005 txrate[1]->count = 0;
6006
6007 /* (2) PROTECTION, may change rspec */
6008 if ((ieee80211_is_data(h->frame_control) ||
6009 ieee80211_is_mgmt(h->frame_control)) &&
6010 (phylen > wlc->RTSThresh) && !is_multicast_ether_addr(h->addr1))
6011 use_rts = true;
6012
6013 /* (3) PLCP: determine PLCP header and MAC duration, fill d11txh_t */
6014 wlc_compute_plcp(wlc, rspec[0], phylen, plcp);
6015 wlc_compute_plcp(wlc, rspec[1], phylen, plcp_fallback);
6016 memcpy(&txh->FragPLCPFallback,
6017 plcp_fallback, sizeof(txh->FragPLCPFallback));
6018
6019 /* Length field now put in CCK FBR CRC field */
6020 if (IS_CCK(rspec[1])) {
6021 txh->FragPLCPFallback[4] = phylen & 0xff;
6022 txh->FragPLCPFallback[5] = (phylen & 0xff00) >> 8;
6023 }
6024
6025 /* MIMO-RATE: need validation ?? */
6026 mainrates =
6027 IS_OFDM(rspec[0]) ? D11A_PHY_HDR_GRATE((ofdm_phy_hdr_t *) plcp) :
6028 plcp[0];
6029
6030 /* DUR field for main rate */
6031 if (!ieee80211_is_pspoll(h->frame_control) &&
6032 !is_multicast_ether_addr(h->addr1) && !use_rifs) {
6033 durid =
6034 wlc_compute_frame_dur(wlc, rspec[0], preamble_type[0],
6035 next_frag_len);
6036 h->duration_id = cpu_to_le16(durid);
6037 } else if (use_rifs) {
6038 /* NAV protect to end of next max packet size */
6039 durid =
6040 (u16) wlc_calc_frame_time(wlc, rspec[0],
6041 preamble_type[0],
6042 DOT11_MAX_FRAG_LEN);
6043 durid += RIFS_11N_TIME;
6044 h->duration_id = cpu_to_le16(durid);
6045 }
6046
6047 /* DUR field for fallback rate */
6048 if (ieee80211_is_pspoll(h->frame_control))
6049 txh->FragDurFallback = h->duration_id;
6050 else if (is_multicast_ether_addr(h->addr1) || use_rifs)
6051 txh->FragDurFallback = 0;
6052 else {
6053 durid = wlc_compute_frame_dur(wlc, rspec[1],
6054 preamble_type[1], next_frag_len);
6055 txh->FragDurFallback = cpu_to_le16(durid);
6056 }
6057
6058 /* (4) MAC-HDR: MacTxControlLow */
6059 if (frag == 0)
6060 mcl |= TXC_STARTMSDU;
6061
6062 if (!is_multicast_ether_addr(h->addr1))
6063 mcl |= TXC_IMMEDACK;
6064
6065 if (BAND_5G(wlc->band->bandtype))
6066 mcl |= TXC_FREQBAND_5G;
6067
6068 if (CHSPEC_IS40(WLC_BAND_PI_RADIO_CHANSPEC))
6069 mcl |= TXC_BW_40;
6070
6071 /* set AMIC bit if using hardware TKIP MIC */
6072 if (hwtkmic)
6073 mcl |= TXC_AMIC;
6074
6075 txh->MacTxControlLow = cpu_to_le16(mcl);
6076
6077 /* MacTxControlHigh */
6078 mch = 0;
6079
6080 /* Set fallback rate preamble type */
6081 if ((preamble_type[1] == WLC_SHORT_PREAMBLE) ||
6082 (preamble_type[1] == WLC_GF_PREAMBLE)) {
6083 ASSERT((preamble_type[1] == WLC_GF_PREAMBLE) ||
6084 (!IS_MCS(rspec[1])));
6085 if (RSPEC2RATE(rspec[1]) != WLC_RATE_1M)
6086 mch |= TXC_PREAMBLE_DATA_FB_SHORT;
6087 }
6088
6089 /* MacFrameControl */
6090 memcpy(&txh->MacFrameControl, &h->frame_control, sizeof(u16));
6091 txh->TxFesTimeNormal = cpu_to_le16(0);
6092
6093 txh->TxFesTimeFallback = cpu_to_le16(0);
6094
6095 /* TxFrameRA */
6096 memcpy(&txh->TxFrameRA, &h->addr1, ETH_ALEN);
6097
6098 /* TxFrameID */
6099 txh->TxFrameID = cpu_to_le16(frameid);
6100
6101 /* TxStatus, Note the case of recreating the first frag of a suppressed frame
6102 * then we may need to reset the retry cnt's via the status reg
6103 */
6104 txh->TxStatus = cpu_to_le16(status);
6105
6106 /* extra fields for ucode AMPDU aggregation, the new fields are added to
6107 * the END of previous structure so that it's compatible in driver.
6108 */
6109 txh->MaxNMpdus = cpu_to_le16(0);
6110 txh->MaxABytes_MRT = cpu_to_le16(0);
6111 txh->MaxABytes_FBR = cpu_to_le16(0);
6112 txh->MinMBytes = cpu_to_le16(0);
6113
6114 /* (5) RTS/CTS: determine RTS/CTS PLCP header and MAC duration, furnish d11txh_t */
6115 /* RTS PLCP header and RTS frame */
6116 if (use_rts || use_cts) {
6117 if (use_rts && use_cts)
6118 use_cts = false;
6119
6120 for (k = 0; k < 2; k++) {
6121 rts_rspec[k] = wlc_rspec_to_rts_rspec(wlc, rspec[k],
6122 false,
6123 mimo_ctlchbw);
6124 }
6125
6126 if (!IS_OFDM(rts_rspec[0]) &&
6127 !((RSPEC2RATE(rts_rspec[0]) == WLC_RATE_1M) ||
6128 (wlc->PLCPHdr_override == WLC_PLCP_LONG))) {
6129 rts_preamble_type[0] = WLC_SHORT_PREAMBLE;
6130 mch |= TXC_PREAMBLE_RTS_MAIN_SHORT;
6131 }
6132
6133 if (!IS_OFDM(rts_rspec[1]) &&
6134 !((RSPEC2RATE(rts_rspec[1]) == WLC_RATE_1M) ||
6135 (wlc->PLCPHdr_override == WLC_PLCP_LONG))) {
6136 rts_preamble_type[1] = WLC_SHORT_PREAMBLE;
6137 mch |= TXC_PREAMBLE_RTS_FB_SHORT;
6138 }
6139
6140 /* RTS/CTS additions to MacTxControlLow */
6141 if (use_cts) {
6142 txh->MacTxControlLow |= cpu_to_le16(TXC_SENDCTS);
6143 } else {
6144 txh->MacTxControlLow |= cpu_to_le16(TXC_SENDRTS);
6145 txh->MacTxControlLow |= cpu_to_le16(TXC_LONGFRAME);
6146 }
6147
6148 /* RTS PLCP header */
6149 ASSERT(IS_ALIGNED((unsigned long)txh->RTSPhyHeader, sizeof(u16)));
6150 rts_plcp = txh->RTSPhyHeader;
6151 if (use_cts)
6152 rts_phylen = DOT11_CTS_LEN + FCS_LEN;
6153 else
6154 rts_phylen = DOT11_RTS_LEN + FCS_LEN;
6155
6156 wlc_compute_plcp(wlc, rts_rspec[0], rts_phylen, rts_plcp);
6157
6158 /* fallback rate version of RTS PLCP header */
6159 wlc_compute_plcp(wlc, rts_rspec[1], rts_phylen,
6160 rts_plcp_fallback);
6161 memcpy(&txh->RTSPLCPFallback, rts_plcp_fallback,
6162 sizeof(txh->RTSPLCPFallback));
6163
6164 /* RTS frame fields... */
6165 rts = (struct ieee80211_rts *)&txh->rts_frame;
6166
6167 durid = wlc_compute_rtscts_dur(wlc, use_cts, rts_rspec[0],
6168 rspec[0], rts_preamble_type[0],
6169 preamble_type[0], phylen, false);
6170 rts->duration = cpu_to_le16(durid);
6171 /* fallback rate version of RTS DUR field */
6172 durid = wlc_compute_rtscts_dur(wlc, use_cts,
6173 rts_rspec[1], rspec[1],
6174 rts_preamble_type[1],
6175 preamble_type[1], phylen, false);
6176 txh->RTSDurFallback = cpu_to_le16(durid);
6177
6178 if (use_cts) {
6179 rts->frame_control = cpu_to_le16(IEEE80211_FTYPE_CTL |
6180 IEEE80211_STYPE_CTS);
6181
6182 memcpy(&rts->ra, &h->addr2, ETH_ALEN);
6183 } else {
6184 rts->frame_control = cpu_to_le16(IEEE80211_FTYPE_CTL |
6185 IEEE80211_STYPE_RTS);
6186
6187 memcpy(&rts->ra, &h->addr1, 2 * ETH_ALEN);
6188 }
6189
6190 /* mainrate
6191 * low 8 bits: main frag rate/mcs,
6192 * high 8 bits: rts/cts rate/mcs
6193 */
6194 mainrates |= (IS_OFDM(rts_rspec[0]) ?
6195 D11A_PHY_HDR_GRATE((ofdm_phy_hdr_t *) rts_plcp) :
6196 rts_plcp[0]) << 8;
6197 } else {
6198 memset((char *)txh->RTSPhyHeader, 0, D11_PHY_HDR_LEN);
6199 memset((char *)&txh->rts_frame, 0,
6200 sizeof(struct ieee80211_rts));
6201 memset((char *)txh->RTSPLCPFallback, 0,
6202 sizeof(txh->RTSPLCPFallback));
6203 txh->RTSDurFallback = 0;
6204 }
6205
6206 #ifdef SUPPORT_40MHZ
6207 /* add null delimiter count */
6208 if ((tx_info->flags & IEEE80211_TX_CTL_AMPDU) && IS_MCS(rspec)) {
6209 txh->RTSPLCPFallback[AMPDU_FBR_NULL_DELIM] =
6210 wlc_ampdu_null_delim_cnt(wlc->ampdu, scb, rspec, phylen);
6211 }
6212 #endif
6213
6214 /* Now that RTS/RTS FB preamble types are updated, write the final value */
6215 txh->MacTxControlHigh = cpu_to_le16(mch);
6216
6217 /* MainRates (both the rts and frag plcp rates have been calculated now) */
6218 txh->MainRates = cpu_to_le16(mainrates);
6219
6220 /* XtraFrameTypes */
6221 xfts = FRAMETYPE(rspec[1], wlc->mimoft);
6222 xfts |= (FRAMETYPE(rts_rspec[0], wlc->mimoft) << XFTS_RTS_FT_SHIFT);
6223 xfts |= (FRAMETYPE(rts_rspec[1], wlc->mimoft) << XFTS_FBRRTS_FT_SHIFT);
6224 xfts |=
6225 CHSPEC_CHANNEL(WLC_BAND_PI_RADIO_CHANSPEC) << XFTS_CHANNEL_SHIFT;
6226 txh->XtraFrameTypes = cpu_to_le16(xfts);
6227
6228 /* PhyTxControlWord */
6229 phyctl = FRAMETYPE(rspec[0], wlc->mimoft);
6230 if ((preamble_type[0] == WLC_SHORT_PREAMBLE) ||
6231 (preamble_type[0] == WLC_GF_PREAMBLE)) {
6232 ASSERT((preamble_type[0] == WLC_GF_PREAMBLE)
6233 || !IS_MCS(rspec[0]));
6234 if (RSPEC2RATE(rspec[0]) != WLC_RATE_1M)
6235 phyctl |= PHY_TXC_SHORT_HDR;
6236 wlc->pub->_cnt->txprshort++;
6237 }
6238
6239 /* phytxant is properly bit shifted */
6240 phyctl |= wlc_stf_d11hdrs_phyctl_txant(wlc, rspec[0]);
6241 txh->PhyTxControlWord = cpu_to_le16(phyctl);
6242
6243 /* PhyTxControlWord_1 */
6244 if (WLC_PHY_11N_CAP(wlc->band)) {
6245 u16 phyctl1 = 0;
6246
6247 phyctl1 = wlc_phytxctl1_calc(wlc, rspec[0]);
6248 txh->PhyTxControlWord_1 = cpu_to_le16(phyctl1);
6249 phyctl1 = wlc_phytxctl1_calc(wlc, rspec[1]);
6250 txh->PhyTxControlWord_1_Fbr = cpu_to_le16(phyctl1);
6251
6252 if (use_rts || use_cts) {
6253 phyctl1 = wlc_phytxctl1_calc(wlc, rts_rspec[0]);
6254 txh->PhyTxControlWord_1_Rts = cpu_to_le16(phyctl1);
6255 phyctl1 = wlc_phytxctl1_calc(wlc, rts_rspec[1]);
6256 txh->PhyTxControlWord_1_FbrRts = cpu_to_le16(phyctl1);
6257 }
6258
6259 /*
6260 * For mcs frames, if mixedmode(overloaded with long preamble) is going to be set,
6261 * fill in non-zero MModeLen and/or MModeFbrLen
6262 * it will be unnecessary if they are separated
6263 */
6264 if (IS_MCS(rspec[0]) && (preamble_type[0] == WLC_MM_PREAMBLE)) {
6265 u16 mmodelen =
6266 wlc_calc_lsig_len(wlc, rspec[0], phylen);
6267 txh->MModeLen = cpu_to_le16(mmodelen);
6268 }
6269
6270 if (IS_MCS(rspec[1]) && (preamble_type[1] == WLC_MM_PREAMBLE)) {
6271 u16 mmodefbrlen =
6272 wlc_calc_lsig_len(wlc, rspec[1], phylen);
6273 txh->MModeFbrLen = cpu_to_le16(mmodefbrlen);
6274 }
6275 }
6276
6277 if (IS_MCS(rspec[0]))
6278 ASSERT(IS_MCS(rspec[1]));
6279
6280 ASSERT(!IS_MCS(rspec[0]) ||
6281 ((preamble_type[0] == WLC_MM_PREAMBLE) == (txh->MModeLen != 0)));
6282 ASSERT(!IS_MCS(rspec[1]) ||
6283 ((preamble_type[1] == WLC_MM_PREAMBLE) ==
6284 (txh->MModeFbrLen != 0)));
6285
6286 ac = skb_get_queue_mapping(p);
6287 if (SCB_WME(scb) && qos && wlc->edcf_txop[ac]) {
6288 uint frag_dur, dur, dur_fallback;
6289
6290 ASSERT(!is_multicast_ether_addr(h->addr1));
6291
6292 /* WME: Update TXOP threshold */
6293 if ((!(tx_info->flags & IEEE80211_TX_CTL_AMPDU)) && (frag == 0)) {
6294 frag_dur =
6295 wlc_calc_frame_time(wlc, rspec[0], preamble_type[0],
6296 phylen);
6297
6298 if (rts) {
6299 /* 1 RTS or CTS-to-self frame */
6300 dur =
6301 wlc_calc_cts_time(wlc, rts_rspec[0],
6302 rts_preamble_type[0]);
6303 dur_fallback =
6304 wlc_calc_cts_time(wlc, rts_rspec[1],
6305 rts_preamble_type[1]);
6306 /* (SIFS + CTS) + SIFS + frame + SIFS + ACK */
6307 dur += le16_to_cpu(rts->duration);
6308 dur_fallback +=
6309 le16_to_cpu(txh->RTSDurFallback);
6310 } else if (use_rifs) {
6311 dur = frag_dur;
6312 dur_fallback = 0;
6313 } else {
6314 /* frame + SIFS + ACK */
6315 dur = frag_dur;
6316 dur +=
6317 wlc_compute_frame_dur(wlc, rspec[0],
6318 preamble_type[0], 0);
6319
6320 dur_fallback =
6321 wlc_calc_frame_time(wlc, rspec[1],
6322 preamble_type[1],
6323 phylen);
6324 dur_fallback +=
6325 wlc_compute_frame_dur(wlc, rspec[1],
6326 preamble_type[1], 0);
6327 }
6328 /* NEED to set TxFesTimeNormal (hard) */
6329 txh->TxFesTimeNormal = cpu_to_le16((u16) dur);
6330 /* NEED to set fallback rate version of TxFesTimeNormal (hard) */
6331 txh->TxFesTimeFallback =
6332 cpu_to_le16((u16) dur_fallback);
6333
6334 /* update txop byte threshold (txop minus intraframe overhead) */
6335 if (wlc->edcf_txop[ac] >= (dur - frag_dur)) {
6336 {
6337 uint newfragthresh;
6338
6339 newfragthresh =
6340 wlc_calc_frame_len(wlc, rspec[0],
6341 preamble_type[0],
6342 (wlc->
6343 edcf_txop[ac] -
6344 (dur -
6345 frag_dur)));
6346 /* range bound the fragthreshold */
6347 if (newfragthresh < DOT11_MIN_FRAG_LEN)
6348 newfragthresh =
6349 DOT11_MIN_FRAG_LEN;
6350 else if (newfragthresh >
6351 wlc->usr_fragthresh)
6352 newfragthresh =
6353 wlc->usr_fragthresh;
6354 /* update the fragthresh and do txc update */
6355 if (wlc->fragthresh[queue] !=
6356 (u16) newfragthresh) {
6357 wlc->fragthresh[queue] =
6358 (u16) newfragthresh;
6359 }
6360 }
6361 } else
6362 WL_ERROR("wl%d: %s txop invalid for rate %d\n",
6363 wlc->pub->unit, fifo_names[queue],
6364 RSPEC2RATE(rspec[0]));
6365
6366 if (dur > wlc->edcf_txop[ac])
6367 WL_ERROR("wl%d: %s: %s txop exceeded phylen %d/%d dur %d/%d\n",
6368 wlc->pub->unit, __func__,
6369 fifo_names[queue],
6370 phylen, wlc->fragthresh[queue],
6371 dur, wlc->edcf_txop[ac]);
6372 }
6373 }
6374
6375 return 0;
6376 }
6377
wlc_tbtt(struct wlc_info * wlc,d11regs_t * regs)6378 void wlc_tbtt(struct wlc_info *wlc, d11regs_t *regs)
6379 {
6380 struct wlc_bsscfg *cfg = wlc->cfg;
6381
6382 wlc->pub->_cnt->tbtt++;
6383
6384 if (BSSCFG_STA(cfg)) {
6385 /* run watchdog here if the watchdog timer is not armed */
6386 if (WLC_WATCHDOG_TBTT(wlc)) {
6387 u32 cur, delta;
6388 if (wlc->WDarmed) {
6389 wl_del_timer(wlc->wl, wlc->wdtimer);
6390 wlc->WDarmed = false;
6391 }
6392
6393 cur = OSL_SYSUPTIME();
6394 delta = cur > wlc->WDlast ? cur - wlc->WDlast :
6395 (u32) ~0 - wlc->WDlast + cur + 1;
6396 if (delta >= TIMER_INTERVAL_WATCHDOG) {
6397 wlc_watchdog((void *)wlc);
6398 wlc->WDlast = cur;
6399 }
6400
6401 wl_add_timer(wlc->wl, wlc->wdtimer,
6402 wlc_watchdog_backup_bi(wlc), true);
6403 wlc->WDarmed = true;
6404 }
6405 }
6406
6407 if (!cfg->BSS) {
6408 /* DirFrmQ is now valid...defer setting until end of ATIM window */
6409 wlc->qvalid |= MCMD_DIRFRMQVAL;
6410 }
6411 }
6412
6413 /* GP timer is a freerunning 32 bit counter, decrements at 1 us rate */
wlc_hwtimer_gptimer_set(struct wlc_info * wlc,uint us)6414 void wlc_hwtimer_gptimer_set(struct wlc_info *wlc, uint us)
6415 {
6416 W_REG(&wlc->regs->gptimer, us);
6417 }
6418
wlc_hwtimer_gptimer_abort(struct wlc_info * wlc)6419 void wlc_hwtimer_gptimer_abort(struct wlc_info *wlc)
6420 {
6421 W_REG(&wlc->regs->gptimer, 0);
6422 }
6423
wlc_hwtimer_gptimer_cb(struct wlc_info * wlc)6424 static void wlc_hwtimer_gptimer_cb(struct wlc_info *wlc)
6425 {
6426 /* when interrupt is generated, the counter is loaded with last value
6427 * written and continue to decrement. So it has to be cleaned first
6428 */
6429 W_REG(&wlc->regs->gptimer, 0);
6430 }
6431
6432 /*
6433 * This fn has all the high level dpc processing from wlc_dpc.
6434 * POLICY: no macinstatus change, no bounding loop.
6435 * All dpc bounding should be handled in BMAC dpc, like txstatus and rxint
6436 */
wlc_high_dpc(struct wlc_info * wlc,u32 macintstatus)6437 void wlc_high_dpc(struct wlc_info *wlc, u32 macintstatus)
6438 {
6439 d11regs_t *regs = wlc->regs;
6440 #ifdef BCMDBG
6441 char flagstr[128];
6442 static const bcm_bit_desc_t int_flags[] = {
6443 {MI_MACSSPNDD, "MACSSPNDD"},
6444 {MI_BCNTPL, "BCNTPL"},
6445 {MI_TBTT, "TBTT"},
6446 {MI_BCNSUCCESS, "BCNSUCCESS"},
6447 {MI_BCNCANCLD, "BCNCANCLD"},
6448 {MI_ATIMWINEND, "ATIMWINEND"},
6449 {MI_PMQ, "PMQ"},
6450 {MI_NSPECGEN_0, "NSPECGEN_0"},
6451 {MI_NSPECGEN_1, "NSPECGEN_1"},
6452 {MI_MACTXERR, "MACTXERR"},
6453 {MI_NSPECGEN_3, "NSPECGEN_3"},
6454 {MI_PHYTXERR, "PHYTXERR"},
6455 {MI_PME, "PME"},
6456 {MI_GP0, "GP0"},
6457 {MI_GP1, "GP1"},
6458 {MI_DMAINT, "DMAINT"},
6459 {MI_TXSTOP, "TXSTOP"},
6460 {MI_CCA, "CCA"},
6461 {MI_BG_NOISE, "BG_NOISE"},
6462 {MI_DTIM_TBTT, "DTIM_TBTT"},
6463 {MI_PRQ, "PRQ"},
6464 {MI_PWRUP, "PWRUP"},
6465 {MI_RFDISABLE, "RFDISABLE"},
6466 {MI_TFS, "TFS"},
6467 {MI_PHYCHANGED, "PHYCHANGED"},
6468 {MI_TO, "TO"},
6469 {0, NULL}
6470 };
6471
6472 if (macintstatus & ~(MI_TBTT | MI_TXSTOP)) {
6473 bcm_format_flags(int_flags, macintstatus, flagstr,
6474 sizeof(flagstr));
6475 WL_TRACE("wl%d: macintstatus 0x%x %s\n",
6476 wlc->pub->unit, macintstatus, flagstr);
6477 }
6478 #endif /* BCMDBG */
6479
6480 if (macintstatus & MI_PRQ) {
6481 /* Process probe request FIFO */
6482 ASSERT(0 && "PRQ Interrupt in non-MBSS");
6483 }
6484
6485 /* TBTT indication */
6486 /* ucode only gives either TBTT or DTIM_TBTT, not both */
6487 if (macintstatus & (MI_TBTT | MI_DTIM_TBTT))
6488 wlc_tbtt(wlc, regs);
6489
6490 if (macintstatus & MI_GP0) {
6491 WL_ERROR("wl%d: PSM microcode watchdog fired at %d (seconds). Resetting.\n",
6492 wlc->pub->unit, wlc->pub->now);
6493
6494 printk_once("%s : PSM Watchdog, chipid 0x%x, chiprev 0x%x\n",
6495 __func__, wlc->pub->sih->chip,
6496 wlc->pub->sih->chiprev);
6497
6498 wlc->pub->_cnt->psmwds++;
6499
6500 /* big hammer */
6501 wl_init(wlc->wl);
6502 }
6503
6504 /* gptimer timeout */
6505 if (macintstatus & MI_TO) {
6506 wlc_hwtimer_gptimer_cb(wlc);
6507 }
6508
6509 if (macintstatus & MI_RFDISABLE) {
6510 WL_ERROR("wl%d: MAC Detected a change on the RF Disable Input 0x%x\n",
6511 wlc->pub->unit,
6512 R_REG(®s->phydebug) & PDBG_RFD);
6513 /* delay the cleanup to wl_down in IBSS case */
6514 if ((R_REG(®s->phydebug) & PDBG_RFD)) {
6515 int idx;
6516 struct wlc_bsscfg *bsscfg;
6517 FOREACH_BSS(wlc, idx, bsscfg) {
6518 if (!BSSCFG_STA(bsscfg) || !bsscfg->enable
6519 || !bsscfg->BSS)
6520 continue;
6521 WL_ERROR("wl%d: wlc_dpc: rfdisable -> wlc_bsscfg_disable()\n",
6522 wlc->pub->unit);
6523 }
6524 }
6525 }
6526
6527 /* send any enq'd tx packets. Just makes sure to jump start tx */
6528 if (!pktq_empty(&wlc->active_queue->q))
6529 wlc_send_q(wlc, wlc->active_queue);
6530
6531 ASSERT(wlc_ps_check(wlc));
6532 }
6533
wlc_war16165(struct wlc_info * wlc,bool tx)6534 static void wlc_war16165(struct wlc_info *wlc, bool tx)
6535 {
6536 if (tx) {
6537 /* the post-increment is used in STAY_AWAKE macro */
6538 if (wlc->txpend16165war++ == 0)
6539 wlc_set_ps_ctrl(wlc);
6540 } else {
6541 wlc->txpend16165war--;
6542 if (wlc->txpend16165war == 0)
6543 wlc_set_ps_ctrl(wlc);
6544 }
6545 }
6546
6547 /* process an individual tx_status_t */
6548 /* WLC_HIGH_API */
6549 bool BCMFASTPATH
wlc_dotxstatus(struct wlc_info * wlc,tx_status_t * txs,u32 frm_tx2)6550 wlc_dotxstatus(struct wlc_info *wlc, tx_status_t *txs, u32 frm_tx2)
6551 {
6552 struct sk_buff *p;
6553 uint queue;
6554 d11txh_t *txh;
6555 struct scb *scb = NULL;
6556 bool free_pdu;
6557 int tx_rts, tx_frame_count, tx_rts_count;
6558 uint totlen, supr_status;
6559 bool lastframe;
6560 struct ieee80211_hdr *h;
6561 u16 mcl;
6562 struct ieee80211_tx_info *tx_info;
6563 struct ieee80211_tx_rate *txrate;
6564 int i;
6565
6566 (void)(frm_tx2); /* Compiler reference to avoid unused variable warning */
6567
6568 /* discard intermediate indications for ucode with one legitimate case:
6569 * e.g. if "useRTS" is set. ucode did a successful rts/cts exchange, but the subsequent
6570 * tx of DATA failed. so it will start rts/cts from the beginning (resetting the rts
6571 * transmission count)
6572 */
6573 if (!(txs->status & TX_STATUS_AMPDU)
6574 && (txs->status & TX_STATUS_INTERMEDIATE)) {
6575 WLCNTADD(wlc->pub->_cnt->txnoack,
6576 ((txs->
6577 status & TX_STATUS_FRM_RTX_MASK) >>
6578 TX_STATUS_FRM_RTX_SHIFT));
6579 WL_ERROR("%s: INTERMEDIATE but not AMPDU\n", __func__);
6580 return false;
6581 }
6582
6583 queue = txs->frameid & TXFID_QUEUE_MASK;
6584 ASSERT(queue < NFIFO);
6585 if (queue >= NFIFO) {
6586 p = NULL;
6587 goto fatal;
6588 }
6589
6590 p = GETNEXTTXP(wlc, queue);
6591 if (WLC_WAR16165(wlc))
6592 wlc_war16165(wlc, false);
6593 if (p == NULL)
6594 goto fatal;
6595
6596 txh = (d11txh_t *) (p->data);
6597 mcl = le16_to_cpu(txh->MacTxControlLow);
6598
6599 if (txs->phyerr) {
6600 if (WL_ERROR_ON()) {
6601 WL_ERROR("phyerr 0x%x, rate 0x%x\n",
6602 txs->phyerr, txh->MainRates);
6603 wlc_print_txdesc(txh);
6604 }
6605 wlc_print_txstatus(txs);
6606 }
6607
6608 ASSERT(txs->frameid == cpu_to_le16(txh->TxFrameID));
6609 if (txs->frameid != cpu_to_le16(txh->TxFrameID))
6610 goto fatal;
6611
6612 tx_info = IEEE80211_SKB_CB(p);
6613 h = (struct ieee80211_hdr *)((u8 *) (txh + 1) + D11_PHY_HDR_LEN);
6614
6615 if (tx_info->control.sta)
6616 scb = (struct scb *)tx_info->control.sta->drv_priv;
6617
6618 if (N_ENAB(wlc->pub)) {
6619 u8 *plcp = (u8 *) (txh + 1);
6620 if (PLCP3_ISSGI(plcp[3]))
6621 wlc->pub->_cnt->txmpdu_sgi++;
6622 if (PLCP3_ISSTBC(plcp[3]))
6623 wlc->pub->_cnt->txmpdu_stbc++;
6624 }
6625
6626 if (tx_info->flags & IEEE80211_TX_CTL_AMPDU) {
6627 ASSERT((mcl & TXC_AMPDU_MASK) != TXC_AMPDU_NONE);
6628 wlc_ampdu_dotxstatus(wlc->ampdu, scb, p, txs);
6629 return false;
6630 }
6631
6632 supr_status = txs->status & TX_STATUS_SUPR_MASK;
6633 if (supr_status == TX_STATUS_SUPR_BADCH)
6634 WL_NONE("%s: Pkt tx suppressed, possibly channel %d\n",
6635 __func__, CHSPEC_CHANNEL(wlc->default_bss->chanspec));
6636
6637 tx_rts = cpu_to_le16(txh->MacTxControlLow) & TXC_SENDRTS;
6638 tx_frame_count =
6639 (txs->status & TX_STATUS_FRM_RTX_MASK) >> TX_STATUS_FRM_RTX_SHIFT;
6640 tx_rts_count =
6641 (txs->status & TX_STATUS_RTS_RTX_MASK) >> TX_STATUS_RTS_RTX_SHIFT;
6642
6643 lastframe = !ieee80211_has_morefrags(h->frame_control);
6644
6645 if (!lastframe) {
6646 WL_ERROR("Not last frame!\n");
6647 } else {
6648 u16 sfbl, lfbl;
6649 ieee80211_tx_info_clear_status(tx_info);
6650 if (queue < AC_COUNT) {
6651 sfbl = WLC_WME_RETRY_SFB_GET(wlc, wme_fifo2ac[queue]);
6652 lfbl = WLC_WME_RETRY_LFB_GET(wlc, wme_fifo2ac[queue]);
6653 } else {
6654 sfbl = wlc->SFBL;
6655 lfbl = wlc->LFBL;
6656 }
6657
6658 txrate = tx_info->status.rates;
6659 /* FIXME: this should use a combination of sfbl, lfbl depending on frame length and RTS setting */
6660 if ((tx_frame_count > sfbl) && (txrate[1].idx >= 0)) {
6661 /* rate selection requested a fallback rate and we used it */
6662 txrate->count = lfbl;
6663 txrate[1].count = tx_frame_count - lfbl;
6664 } else {
6665 /* rate selection did not request fallback rate, or we didn't need it */
6666 txrate->count = tx_frame_count;
6667 /* rc80211_minstrel.c:minstrel_tx_status() expects unused rates to be marked with idx = -1 */
6668 txrate[1].idx = -1;
6669 txrate[1].count = 0;
6670 }
6671
6672 /* clear the rest of the rates */
6673 for (i = 2; i < IEEE80211_TX_MAX_RATES; i++) {
6674 txrate[i].idx = -1;
6675 txrate[i].count = 0;
6676 }
6677
6678 if (txs->status & TX_STATUS_ACK_RCV)
6679 tx_info->flags |= IEEE80211_TX_STAT_ACK;
6680 }
6681
6682 totlen = pkttotlen(p);
6683 free_pdu = true;
6684
6685 wlc_txfifo_complete(wlc, queue, 1);
6686
6687 if (lastframe) {
6688 p->next = NULL;
6689 p->prev = NULL;
6690 wlc->txretried = 0;
6691 /* remove PLCP & Broadcom tx descriptor header */
6692 skb_pull(p, D11_PHY_HDR_LEN);
6693 skb_pull(p, D11_TXH_LEN);
6694 ieee80211_tx_status_irqsafe(wlc->pub->ieee_hw, p);
6695 wlc->pub->_cnt->ieee_tx_status++;
6696 } else {
6697 WL_ERROR("%s: Not last frame => not calling tx_status\n",
6698 __func__);
6699 }
6700
6701 return false;
6702
6703 fatal:
6704 ASSERT(0);
6705 if (p)
6706 pkt_buf_free_skb(p);
6707
6708 return true;
6709
6710 }
6711
6712 void BCMFASTPATH
wlc_txfifo_complete(struct wlc_info * wlc,uint fifo,s8 txpktpend)6713 wlc_txfifo_complete(struct wlc_info *wlc, uint fifo, s8 txpktpend)
6714 {
6715 TXPKTPENDDEC(wlc, fifo, txpktpend);
6716 WL_TRACE("wlc_txfifo_complete, pktpend dec %d to %d\n",
6717 txpktpend, TXPKTPENDGET(wlc, fifo));
6718
6719 /* There is more room; mark precedences related to this FIFO sendable */
6720 WLC_TX_FIFO_ENAB(wlc, fifo);
6721 ASSERT(TXPKTPENDGET(wlc, fifo) >= 0);
6722
6723 if (!TXPKTPENDTOT(wlc)) {
6724 if (wlc->block_datafifo & DATA_BLOCK_TX_SUPR)
6725 wlc_bsscfg_tx_check(wlc);
6726 }
6727
6728 /* Clear MHF2_TXBCMC_NOW flag if BCMC fifo has drained */
6729 if (AP_ENAB(wlc->pub) &&
6730 wlc->bcmcfifo_drain && !TXPKTPENDGET(wlc, TX_BCMC_FIFO)) {
6731 wlc->bcmcfifo_drain = false;
6732 wlc_mhf(wlc, MHF2, MHF2_TXBCMC_NOW, 0, WLC_BAND_AUTO);
6733 }
6734
6735 /* figure out which bsscfg is being worked on... */
6736 }
6737
6738 /* Given the beacon interval in kus, and a 64 bit TSF in us,
6739 * return the offset (in us) of the TSF from the last TBTT
6740 */
wlc_calc_tbtt_offset(u32 bp,u32 tsf_h,u32 tsf_l)6741 u32 wlc_calc_tbtt_offset(u32 bp, u32 tsf_h, u32 tsf_l)
6742 {
6743 u32 k, btklo, btkhi, offset;
6744
6745 /* TBTT is always an even multiple of the beacon_interval,
6746 * so the TBTT less than or equal to the beacon timestamp is
6747 * the beacon timestamp minus the beacon timestamp modulo
6748 * the beacon interval.
6749 *
6750 * TBTT = BT - (BT % BIu)
6751 * = (BTk - (BTk % BP)) * 2^10
6752 *
6753 * BT = beacon timestamp (usec, 64bits)
6754 * BTk = beacon timestamp (Kusec, 54bits)
6755 * BP = beacon interval (Kusec, 16bits)
6756 * BIu = BP * 2^10 = beacon interval (usec, 26bits)
6757 *
6758 * To keep the calculations in u32s, the modulo operation
6759 * on the high part of BT needs to be done in parts using the
6760 * relations:
6761 * X*Y mod Z = ((X mod Z) * (Y mod Z)) mod Z
6762 * and
6763 * (X + Y) mod Z = ((X mod Z) + (Y mod Z)) mod Z
6764 *
6765 * So, if BTk[n] = u16 n [0,3] of BTk.
6766 * BTk % BP = SUM((BTk[n] * 2^16n) % BP , 0<=n<4) % BP
6767 * and the SUM term can be broken down:
6768 * (BTk[n] * 2^16n) % BP
6769 * (BTk[n] * (2^16n % BP)) % BP
6770 *
6771 * Create a set of power of 2 mod BP constants:
6772 * K[n] = 2^(16n) % BP
6773 * = (K[n-1] * 2^16) % BP
6774 * K[2] = 2^32 % BP = ((2^16 % BP) * 2^16) % BP
6775 *
6776 * BTk % BP = BTk[0-1] % BP +
6777 * (BTk[2] * K[2]) % BP +
6778 * (BTk[3] * K[3]) % BP
6779 *
6780 * Since K[n] < 2^16 and BTk[n] is < 2^16, then BTk[n] * K[n] < 2^32
6781 */
6782
6783 /* BTk = BT >> 10, btklo = BTk[0-3], bkthi = BTk[4-6] */
6784 btklo = (tsf_h << 22) | (tsf_l >> 10);
6785 btkhi = tsf_h >> 10;
6786
6787 /* offset = BTk % BP */
6788 offset = btklo % bp;
6789
6790 /* K[2] = ((2^16 % BP) * 2^16) % BP */
6791 k = (u32) (1 << 16) % bp;
6792 k = (u32) (k * 1 << 16) % (u32) bp;
6793
6794 /* offset += (BTk[2] * K[2]) % BP */
6795 offset += ((btkhi & 0xffff) * k) % bp;
6796
6797 /* BTk[3] */
6798 btkhi = btkhi >> 16;
6799
6800 /* k[3] = (K[2] * 2^16) % BP */
6801 k = (k << 16) % bp;
6802
6803 /* offset += (BTk[3] * K[3]) % BP */
6804 offset += ((btkhi & 0xffff) * k) % bp;
6805
6806 offset = offset % bp;
6807
6808 /* convert offset from kus to us by shifting up 10 bits and
6809 * add in the low 10 bits of tsf that we ignored
6810 */
6811 offset = (offset << 10) + (tsf_l & 0x3FF);
6812
6813 return offset;
6814 }
6815
6816 /* Update beacon listen interval in shared memory */
wlc_bcn_li_upd(struct wlc_info * wlc)6817 void wlc_bcn_li_upd(struct wlc_info *wlc)
6818 {
6819 if (AP_ENAB(wlc->pub))
6820 return;
6821
6822 /* wake up every DTIM is the default */
6823 if (wlc->bcn_li_dtim == 1)
6824 wlc_write_shm(wlc, M_BCN_LI, 0);
6825 else
6826 wlc_write_shm(wlc, M_BCN_LI,
6827 (wlc->bcn_li_dtim << 8) | wlc->bcn_li_bcn);
6828 }
6829
6830 static void
prep_mac80211_status(struct wlc_info * wlc,d11rxhdr_t * rxh,struct sk_buff * p,struct ieee80211_rx_status * rx_status)6831 prep_mac80211_status(struct wlc_info *wlc, d11rxhdr_t *rxh, struct sk_buff *p,
6832 struct ieee80211_rx_status *rx_status)
6833 {
6834 u32 tsf_l, tsf_h;
6835 wlc_d11rxhdr_t *wlc_rxh = (wlc_d11rxhdr_t *) rxh;
6836 int preamble;
6837 int channel;
6838 ratespec_t rspec;
6839 unsigned char *plcp;
6840
6841 #if 0
6842 /* Clearly, this is bogus -- reading the TSF now is wrong */
6843 wlc_read_tsf(wlc, &tsf_l, &tsf_h); /* mactime */
6844 rx_status->mactime = tsf_h;
6845 rx_status->mactime <<= 32;
6846 rx_status->mactime |= tsf_l;
6847 rx_status->flag |= RX_FLAG_MACTIME_MPDU; /* clearly wrong */
6848 #endif
6849
6850 channel = WLC_CHAN_CHANNEL(rxh->RxChan);
6851
6852 if (channel > 14) {
6853 rx_status->band = IEEE80211_BAND_5GHZ;
6854 rx_status->freq = ieee80211_ofdm_chan_to_freq(
6855 WF_CHAN_FACTOR_5_G/2, channel);
6856
6857 } else {
6858 rx_status->band = IEEE80211_BAND_2GHZ;
6859 rx_status->freq = ieee80211_dsss_chan_to_freq(channel);
6860 }
6861
6862 rx_status->signal = wlc_rxh->rssi; /* signal */
6863
6864 /* noise */
6865 /* qual */
6866 rx_status->antenna = (rxh->PhyRxStatus_0 & PRXS0_RXANT_UPSUBBAND) ? 1 : 0; /* ant */
6867
6868 plcp = p->data;
6869
6870 rspec = wlc_compute_rspec(rxh, plcp);
6871 if (IS_MCS(rspec)) {
6872 rx_status->rate_idx = rspec & RSPEC_RATE_MASK;
6873 rx_status->flag |= RX_FLAG_HT;
6874 if (RSPEC_IS40MHZ(rspec))
6875 rx_status->flag |= RX_FLAG_40MHZ;
6876 } else {
6877 switch (RSPEC2RATE(rspec)) {
6878 case WLC_RATE_1M:
6879 rx_status->rate_idx = 0;
6880 break;
6881 case WLC_RATE_2M:
6882 rx_status->rate_idx = 1;
6883 break;
6884 case WLC_RATE_5M5:
6885 rx_status->rate_idx = 2;
6886 break;
6887 case WLC_RATE_11M:
6888 rx_status->rate_idx = 3;
6889 break;
6890 case WLC_RATE_6M:
6891 rx_status->rate_idx = 4;
6892 break;
6893 case WLC_RATE_9M:
6894 rx_status->rate_idx = 5;
6895 break;
6896 case WLC_RATE_12M:
6897 rx_status->rate_idx = 6;
6898 break;
6899 case WLC_RATE_18M:
6900 rx_status->rate_idx = 7;
6901 break;
6902 case WLC_RATE_24M:
6903 rx_status->rate_idx = 8;
6904 break;
6905 case WLC_RATE_36M:
6906 rx_status->rate_idx = 9;
6907 break;
6908 case WLC_RATE_48M:
6909 rx_status->rate_idx = 10;
6910 break;
6911 case WLC_RATE_54M:
6912 rx_status->rate_idx = 11;
6913 break;
6914 default:
6915 WL_ERROR("%s: Unknown rate\n", __func__);
6916 }
6917
6918 /* Determine short preamble and rate_idx */
6919 preamble = 0;
6920 if (IS_CCK(rspec)) {
6921 if (rxh->PhyRxStatus_0 & PRXS0_SHORTH)
6922 rx_status->flag |= RX_FLAG_SHORTPRE;
6923 } else if (IS_OFDM(rspec)) {
6924 rx_status->flag |= RX_FLAG_SHORTPRE;
6925 } else {
6926 WL_ERROR("%s: Unknown modulation\n", __func__);
6927 }
6928 }
6929
6930 if (PLCP3_ISSGI(plcp[3]))
6931 rx_status->flag |= RX_FLAG_SHORT_GI;
6932
6933 if (rxh->RxStatus1 & RXS_DECERR) {
6934 rx_status->flag |= RX_FLAG_FAILED_PLCP_CRC;
6935 WL_ERROR("%s: RX_FLAG_FAILED_PLCP_CRC\n", __func__);
6936 }
6937 if (rxh->RxStatus1 & RXS_FCSERR) {
6938 rx_status->flag |= RX_FLAG_FAILED_FCS_CRC;
6939 WL_ERROR("%s: RX_FLAG_FAILED_FCS_CRC\n", __func__);
6940 }
6941 }
6942
6943 static void
wlc_recvctl(struct wlc_info * wlc,d11rxhdr_t * rxh,struct sk_buff * p)6944 wlc_recvctl(struct wlc_info *wlc, d11rxhdr_t *rxh, struct sk_buff *p)
6945 {
6946 int len_mpdu;
6947 struct ieee80211_rx_status rx_status;
6948 #if defined(BCMDBG)
6949 struct sk_buff *skb = p;
6950 #endif /* BCMDBG */
6951 /* Todo:
6952 * Cache plcp for first MPDU of AMPD and use chacched version for INTERMEDIATE.
6953 * Test for INTERMEDIATE like so:
6954 * if (!(plcp[0] | plcp[1] | plcp[2]))
6955 */
6956
6957 memset(&rx_status, 0, sizeof(rx_status));
6958 prep_mac80211_status(wlc, rxh, p, &rx_status);
6959
6960 /* mac header+body length, exclude CRC and plcp header */
6961 len_mpdu = p->len - D11_PHY_HDR_LEN - FCS_LEN;
6962 skb_pull(p, D11_PHY_HDR_LEN);
6963 __skb_trim(p, len_mpdu);
6964
6965 ASSERT(!(p->next));
6966 ASSERT(!(p->prev));
6967
6968 ASSERT(IS_ALIGNED((unsigned long)skb->data, 2));
6969
6970 memcpy(IEEE80211_SKB_RXCB(p), &rx_status, sizeof(rx_status));
6971 ieee80211_rx_irqsafe(wlc->pub->ieee_hw, p);
6972
6973 wlc->pub->_cnt->ieee_rx++;
6974 return;
6975 }
6976
wlc_bss_list_free(struct wlc_info * wlc,struct wlc_bss_list * bss_list)6977 void wlc_bss_list_free(struct wlc_info *wlc, struct wlc_bss_list *bss_list)
6978 {
6979 uint index;
6980
6981 if (!bss_list) {
6982 WL_ERROR("%s: Attempting to free NULL list\n", __func__);
6983 return;
6984 }
6985 /* inspect all BSS descriptor */
6986 for (index = 0; index < bss_list->count; index++) {
6987 kfree(bss_list->ptrs[index]);
6988 bss_list->ptrs[index] = NULL;
6989 }
6990 bss_list->count = 0;
6991 }
6992
6993 /* Process received frames */
6994 /*
6995 * Return true if more frames need to be processed. false otherwise.
6996 * Param 'bound' indicates max. # frames to process before break out.
6997 */
6998 /* WLC_HIGH_API */
wlc_recv(struct wlc_info * wlc,struct sk_buff * p)6999 void BCMFASTPATH wlc_recv(struct wlc_info *wlc, struct sk_buff *p)
7000 {
7001 d11rxhdr_t *rxh;
7002 struct ieee80211_hdr *h;
7003 uint len;
7004 bool is_amsdu;
7005
7006 WL_TRACE("wl%d: wlc_recv\n", wlc->pub->unit);
7007
7008 /* frame starts with rxhdr */
7009 rxh = (d11rxhdr_t *) (p->data);
7010
7011 /* strip off rxhdr */
7012 skb_pull(p, wlc->hwrxoff);
7013
7014 /* fixup rx header endianness */
7015 rxh->RxFrameSize = le16_to_cpu(rxh->RxFrameSize);
7016 rxh->PhyRxStatus_0 = le16_to_cpu(rxh->PhyRxStatus_0);
7017 rxh->PhyRxStatus_1 = le16_to_cpu(rxh->PhyRxStatus_1);
7018 rxh->PhyRxStatus_2 = le16_to_cpu(rxh->PhyRxStatus_2);
7019 rxh->PhyRxStatus_3 = le16_to_cpu(rxh->PhyRxStatus_3);
7020 rxh->PhyRxStatus_4 = le16_to_cpu(rxh->PhyRxStatus_4);
7021 rxh->PhyRxStatus_5 = le16_to_cpu(rxh->PhyRxStatus_5);
7022 rxh->RxStatus1 = le16_to_cpu(rxh->RxStatus1);
7023 rxh->RxStatus2 = le16_to_cpu(rxh->RxStatus2);
7024 rxh->RxTSFTime = le16_to_cpu(rxh->RxTSFTime);
7025 rxh->RxChan = le16_to_cpu(rxh->RxChan);
7026
7027 /* MAC inserts 2 pad bytes for a4 headers or QoS or A-MSDU subframes */
7028 if (rxh->RxStatus1 & RXS_PBPRES) {
7029 if (p->len < 2) {
7030 wlc->pub->_cnt->rxrunt++;
7031 WL_ERROR("wl%d: wlc_recv: rcvd runt of len %d\n",
7032 wlc->pub->unit, p->len);
7033 goto toss;
7034 }
7035 skb_pull(p, 2);
7036 }
7037
7038 h = (struct ieee80211_hdr *)(p->data + D11_PHY_HDR_LEN);
7039 len = p->len;
7040
7041 if (rxh->RxStatus1 & RXS_FCSERR) {
7042 if (wlc->pub->mac80211_state & MAC80211_PROMISC_BCNS) {
7043 WL_ERROR("FCSERR while scanning******* - tossing\n");
7044 goto toss;
7045 } else {
7046 WL_ERROR("RCSERR!!!\n");
7047 goto toss;
7048 }
7049 }
7050
7051 /* check received pkt has at least frame control field */
7052 if (len < D11_PHY_HDR_LEN + sizeof(h->frame_control)) {
7053 wlc->pub->_cnt->rxrunt++;
7054 goto toss;
7055 }
7056
7057 is_amsdu = rxh->RxStatus2 & RXS_AMSDU_MASK;
7058
7059 /* explicitly test bad src address to avoid sending bad deauth */
7060 if (!is_amsdu) {
7061 /* CTS and ACK CTL frames are w/o a2 */
7062
7063 if (ieee80211_is_data(h->frame_control) ||
7064 ieee80211_is_mgmt(h->frame_control)) {
7065 if ((is_zero_ether_addr(h->addr2) ||
7066 is_multicast_ether_addr(h->addr2))) {
7067 WL_ERROR("wl%d: %s: dropping a frame with "
7068 "invalid src mac address, a2: %pM\n",
7069 wlc->pub->unit, __func__, h->addr2);
7070 wlc->pub->_cnt->rxbadsrcmac++;
7071 goto toss;
7072 }
7073 wlc->pub->_cnt->rxfrag++;
7074 }
7075 }
7076
7077 /* due to sheer numbers, toss out probe reqs for now */
7078 if (ieee80211_is_probe_req(h->frame_control))
7079 goto toss;
7080
7081 if (is_amsdu)
7082 goto toss;
7083
7084 wlc_recvctl(wlc, rxh, p);
7085 return;
7086
7087 toss:
7088 pkt_buf_free_skb(p);
7089 }
7090
7091 /* calculate frame duration for Mixed-mode L-SIG spoofing, return
7092 * number of bytes goes in the length field
7093 *
7094 * Formula given by HT PHY Spec v 1.13
7095 * len = 3(nsyms + nstream + 3) - 3
7096 */
7097 u16 BCMFASTPATH
wlc_calc_lsig_len(struct wlc_info * wlc,ratespec_t ratespec,uint mac_len)7098 wlc_calc_lsig_len(struct wlc_info *wlc, ratespec_t ratespec, uint mac_len)
7099 {
7100 uint nsyms, len = 0, kNdps;
7101
7102 WL_TRACE("wl%d: wlc_calc_lsig_len: rate %d, len%d\n",
7103 wlc->pub->unit, RSPEC2RATE(ratespec), mac_len);
7104
7105 if (IS_MCS(ratespec)) {
7106 uint mcs = ratespec & RSPEC_RATE_MASK;
7107 /* MCS_TXS(mcs) returns num tx streams - 1 */
7108 int tot_streams = (MCS_TXS(mcs) + 1) + RSPEC_STC(ratespec);
7109
7110 ASSERT(WLC_PHY_11N_CAP(wlc->band));
7111 /* the payload duration calculation matches that of regular ofdm */
7112 /* 1000Ndbps = kbps * 4 */
7113 kNdps =
7114 MCS_RATE(mcs, RSPEC_IS40MHZ(ratespec),
7115 RSPEC_ISSGI(ratespec)) * 4;
7116
7117 if (RSPEC_STC(ratespec) == 0)
7118 /* NSyms = CEILING((SERVICE + 8*NBytes + TAIL) / Ndbps) */
7119 nsyms =
7120 CEIL((APHY_SERVICE_NBITS + 8 * mac_len +
7121 APHY_TAIL_NBITS) * 1000, kNdps);
7122 else
7123 /* STBC needs to have even number of symbols */
7124 nsyms =
7125 2 *
7126 CEIL((APHY_SERVICE_NBITS + 8 * mac_len +
7127 APHY_TAIL_NBITS) * 1000, 2 * kNdps);
7128
7129 nsyms += (tot_streams + 3); /* (+3) account for HT-SIG(2) and HT-STF(1) */
7130 /* 3 bytes/symbol @ legacy 6Mbps rate */
7131 len = (3 * nsyms) - 3; /* (-3) excluding service bits and tail bits */
7132 }
7133
7134 return (u16) len;
7135 }
7136
7137 /* calculate frame duration of a given rate and length, return time in usec unit */
7138 uint BCMFASTPATH
wlc_calc_frame_time(struct wlc_info * wlc,ratespec_t ratespec,u8 preamble_type,uint mac_len)7139 wlc_calc_frame_time(struct wlc_info *wlc, ratespec_t ratespec, u8 preamble_type,
7140 uint mac_len)
7141 {
7142 uint nsyms, dur = 0, Ndps, kNdps;
7143 uint rate = RSPEC2RATE(ratespec);
7144
7145 if (rate == 0) {
7146 ASSERT(0);
7147 WL_ERROR("wl%d: WAR: using rate of 1 mbps\n", wlc->pub->unit);
7148 rate = WLC_RATE_1M;
7149 }
7150
7151 WL_TRACE("wl%d: wlc_calc_frame_time: rspec 0x%x, preamble_type %d, len%d\n",
7152 wlc->pub->unit, ratespec, preamble_type, mac_len);
7153
7154 if (IS_MCS(ratespec)) {
7155 uint mcs = ratespec & RSPEC_RATE_MASK;
7156 int tot_streams = MCS_TXS(mcs) + RSPEC_STC(ratespec);
7157 ASSERT(WLC_PHY_11N_CAP(wlc->band));
7158 ASSERT(WLC_IS_MIMO_PREAMBLE(preamble_type));
7159
7160 dur = PREN_PREAMBLE + (tot_streams * PREN_PREAMBLE_EXT);
7161 if (preamble_type == WLC_MM_PREAMBLE)
7162 dur += PREN_MM_EXT;
7163 /* 1000Ndbps = kbps * 4 */
7164 kNdps =
7165 MCS_RATE(mcs, RSPEC_IS40MHZ(ratespec),
7166 RSPEC_ISSGI(ratespec)) * 4;
7167
7168 if (RSPEC_STC(ratespec) == 0)
7169 /* NSyms = CEILING((SERVICE + 8*NBytes + TAIL) / Ndbps) */
7170 nsyms =
7171 CEIL((APHY_SERVICE_NBITS + 8 * mac_len +
7172 APHY_TAIL_NBITS) * 1000, kNdps);
7173 else
7174 /* STBC needs to have even number of symbols */
7175 nsyms =
7176 2 *
7177 CEIL((APHY_SERVICE_NBITS + 8 * mac_len +
7178 APHY_TAIL_NBITS) * 1000, 2 * kNdps);
7179
7180 dur += APHY_SYMBOL_TIME * nsyms;
7181 if (BAND_2G(wlc->band->bandtype))
7182 dur += DOT11_OFDM_SIGNAL_EXTENSION;
7183 } else if (IS_OFDM(rate)) {
7184 dur = APHY_PREAMBLE_TIME;
7185 dur += APHY_SIGNAL_TIME;
7186 /* Ndbps = Mbps * 4 = rate(500Kbps) * 2 */
7187 Ndps = rate * 2;
7188 /* NSyms = CEILING((SERVICE + 8*NBytes + TAIL) / Ndbps) */
7189 nsyms =
7190 CEIL((APHY_SERVICE_NBITS + 8 * mac_len + APHY_TAIL_NBITS),
7191 Ndps);
7192 dur += APHY_SYMBOL_TIME * nsyms;
7193 if (BAND_2G(wlc->band->bandtype))
7194 dur += DOT11_OFDM_SIGNAL_EXTENSION;
7195 } else {
7196 /* calc # bits * 2 so factor of 2 in rate (1/2 mbps) will divide out */
7197 mac_len = mac_len * 8 * 2;
7198 /* calc ceiling of bits/rate = microseconds of air time */
7199 dur = (mac_len + rate - 1) / rate;
7200 if (preamble_type & WLC_SHORT_PREAMBLE)
7201 dur += BPHY_PLCP_SHORT_TIME;
7202 else
7203 dur += BPHY_PLCP_TIME;
7204 }
7205 return dur;
7206 }
7207
7208 /* The opposite of wlc_calc_frame_time */
7209 static uint
wlc_calc_frame_len(struct wlc_info * wlc,ratespec_t ratespec,u8 preamble_type,uint dur)7210 wlc_calc_frame_len(struct wlc_info *wlc, ratespec_t ratespec, u8 preamble_type,
7211 uint dur)
7212 {
7213 uint nsyms, mac_len, Ndps, kNdps;
7214 uint rate = RSPEC2RATE(ratespec);
7215
7216 WL_TRACE("wl%d: wlc_calc_frame_len: rspec 0x%x, preamble_type %d, dur %d\n",
7217 wlc->pub->unit, ratespec, preamble_type, dur);
7218
7219 if (IS_MCS(ratespec)) {
7220 uint mcs = ratespec & RSPEC_RATE_MASK;
7221 int tot_streams = MCS_TXS(mcs) + RSPEC_STC(ratespec);
7222 ASSERT(WLC_PHY_11N_CAP(wlc->band));
7223 dur -= PREN_PREAMBLE + (tot_streams * PREN_PREAMBLE_EXT);
7224 /* payload calculation matches that of regular ofdm */
7225 if (BAND_2G(wlc->band->bandtype))
7226 dur -= DOT11_OFDM_SIGNAL_EXTENSION;
7227 /* kNdbps = kbps * 4 */
7228 kNdps =
7229 MCS_RATE(mcs, RSPEC_IS40MHZ(ratespec),
7230 RSPEC_ISSGI(ratespec)) * 4;
7231 nsyms = dur / APHY_SYMBOL_TIME;
7232 mac_len =
7233 ((nsyms * kNdps) -
7234 ((APHY_SERVICE_NBITS + APHY_TAIL_NBITS) * 1000)) / 8000;
7235 } else if (IS_OFDM(ratespec)) {
7236 dur -= APHY_PREAMBLE_TIME;
7237 dur -= APHY_SIGNAL_TIME;
7238 /* Ndbps = Mbps * 4 = rate(500Kbps) * 2 */
7239 Ndps = rate * 2;
7240 nsyms = dur / APHY_SYMBOL_TIME;
7241 mac_len =
7242 ((nsyms * Ndps) -
7243 (APHY_SERVICE_NBITS + APHY_TAIL_NBITS)) / 8;
7244 } else {
7245 if (preamble_type & WLC_SHORT_PREAMBLE)
7246 dur -= BPHY_PLCP_SHORT_TIME;
7247 else
7248 dur -= BPHY_PLCP_TIME;
7249 mac_len = dur * rate;
7250 /* divide out factor of 2 in rate (1/2 mbps) */
7251 mac_len = mac_len / 8 / 2;
7252 }
7253 return mac_len;
7254 }
7255
7256 static uint
wlc_calc_ba_time(struct wlc_info * wlc,ratespec_t rspec,u8 preamble_type)7257 wlc_calc_ba_time(struct wlc_info *wlc, ratespec_t rspec, u8 preamble_type)
7258 {
7259 WL_TRACE("wl%d: wlc_calc_ba_time: rspec 0x%x, preamble_type %d\n",
7260 wlc->pub->unit, rspec, preamble_type);
7261 /* Spec 9.6: ack rate is the highest rate in BSSBasicRateSet that is less than
7262 * or equal to the rate of the immediately previous frame in the FES
7263 */
7264 rspec = WLC_BASIC_RATE(wlc, rspec);
7265 ASSERT(VALID_RATE_DBG(wlc, rspec));
7266
7267 /* BA len == 32 == 16(ctl hdr) + 4(ba len) + 8(bitmap) + 4(fcs) */
7268 return wlc_calc_frame_time(wlc, rspec, preamble_type,
7269 (DOT11_BA_LEN + DOT11_BA_BITMAP_LEN +
7270 FCS_LEN));
7271 }
7272
7273 static uint BCMFASTPATH
wlc_calc_ack_time(struct wlc_info * wlc,ratespec_t rspec,u8 preamble_type)7274 wlc_calc_ack_time(struct wlc_info *wlc, ratespec_t rspec, u8 preamble_type)
7275 {
7276 uint dur = 0;
7277
7278 WL_TRACE("wl%d: wlc_calc_ack_time: rspec 0x%x, preamble_type %d\n",
7279 wlc->pub->unit, rspec, preamble_type);
7280 /* Spec 9.6: ack rate is the highest rate in BSSBasicRateSet that is less than
7281 * or equal to the rate of the immediately previous frame in the FES
7282 */
7283 rspec = WLC_BASIC_RATE(wlc, rspec);
7284 ASSERT(VALID_RATE_DBG(wlc, rspec));
7285
7286 /* ACK frame len == 14 == 2(fc) + 2(dur) + 6(ra) + 4(fcs) */
7287 dur =
7288 wlc_calc_frame_time(wlc, rspec, preamble_type,
7289 (DOT11_ACK_LEN + FCS_LEN));
7290 return dur;
7291 }
7292
7293 static uint
wlc_calc_cts_time(struct wlc_info * wlc,ratespec_t rspec,u8 preamble_type)7294 wlc_calc_cts_time(struct wlc_info *wlc, ratespec_t rspec, u8 preamble_type)
7295 {
7296 WL_TRACE("wl%d: wlc_calc_cts_time: ratespec 0x%x, preamble_type %d\n",
7297 wlc->pub->unit, rspec, preamble_type);
7298 return wlc_calc_ack_time(wlc, rspec, preamble_type);
7299 }
7300
7301 /* derive wlc->band->basic_rate[] table from 'rateset' */
wlc_rate_lookup_init(struct wlc_info * wlc,wlc_rateset_t * rateset)7302 void wlc_rate_lookup_init(struct wlc_info *wlc, wlc_rateset_t *rateset)
7303 {
7304 u8 rate;
7305 u8 mandatory;
7306 u8 cck_basic = 0;
7307 u8 ofdm_basic = 0;
7308 u8 *br = wlc->band->basic_rate;
7309 uint i;
7310
7311 /* incoming rates are in 500kbps units as in 802.11 Supported Rates */
7312 memset(br, 0, WLC_MAXRATE + 1);
7313
7314 /* For each basic rate in the rates list, make an entry in the
7315 * best basic lookup.
7316 */
7317 for (i = 0; i < rateset->count; i++) {
7318 /* only make an entry for a basic rate */
7319 if (!(rateset->rates[i] & WLC_RATE_FLAG))
7320 continue;
7321
7322 /* mask off basic bit */
7323 rate = (rateset->rates[i] & RATE_MASK);
7324
7325 if (rate > WLC_MAXRATE) {
7326 WL_ERROR("wlc_rate_lookup_init: invalid rate 0x%X in rate set\n",
7327 rateset->rates[i]);
7328 continue;
7329 }
7330
7331 br[rate] = rate;
7332 }
7333
7334 /* The rate lookup table now has non-zero entries for each
7335 * basic rate, equal to the basic rate: br[basicN] = basicN
7336 *
7337 * To look up the best basic rate corresponding to any
7338 * particular rate, code can use the basic_rate table
7339 * like this
7340 *
7341 * basic_rate = wlc->band->basic_rate[tx_rate]
7342 *
7343 * Make sure there is a best basic rate entry for
7344 * every rate by walking up the table from low rates
7345 * to high, filling in holes in the lookup table
7346 */
7347
7348 for (i = 0; i < wlc->band->hw_rateset.count; i++) {
7349 rate = wlc->band->hw_rateset.rates[i];
7350 ASSERT(rate <= WLC_MAXRATE);
7351
7352 if (br[rate] != 0) {
7353 /* This rate is a basic rate.
7354 * Keep track of the best basic rate so far by
7355 * modulation type.
7356 */
7357 if (IS_OFDM(rate))
7358 ofdm_basic = rate;
7359 else
7360 cck_basic = rate;
7361
7362 continue;
7363 }
7364
7365 /* This rate is not a basic rate so figure out the
7366 * best basic rate less than this rate and fill in
7367 * the hole in the table
7368 */
7369
7370 br[rate] = IS_OFDM(rate) ? ofdm_basic : cck_basic;
7371
7372 if (br[rate] != 0)
7373 continue;
7374
7375 if (IS_OFDM(rate)) {
7376 /* In 11g and 11a, the OFDM mandatory rates are 6, 12, and 24 Mbps */
7377 if (rate >= WLC_RATE_24M)
7378 mandatory = WLC_RATE_24M;
7379 else if (rate >= WLC_RATE_12M)
7380 mandatory = WLC_RATE_12M;
7381 else
7382 mandatory = WLC_RATE_6M;
7383 } else {
7384 /* In 11b, all the CCK rates are mandatory 1 - 11 Mbps */
7385 mandatory = rate;
7386 }
7387
7388 br[rate] = mandatory;
7389 }
7390 }
7391
wlc_write_rate_shm(struct wlc_info * wlc,u8 rate,u8 basic_rate)7392 static void wlc_write_rate_shm(struct wlc_info *wlc, u8 rate, u8 basic_rate)
7393 {
7394 u8 phy_rate, index;
7395 u8 basic_phy_rate, basic_index;
7396 u16 dir_table, basic_table;
7397 u16 basic_ptr;
7398
7399 /* Shared memory address for the table we are reading */
7400 dir_table = IS_OFDM(basic_rate) ? M_RT_DIRMAP_A : M_RT_DIRMAP_B;
7401
7402 /* Shared memory address for the table we are writing */
7403 basic_table = IS_OFDM(rate) ? M_RT_BBRSMAP_A : M_RT_BBRSMAP_B;
7404
7405 /*
7406 * for a given rate, the LS-nibble of the PLCP SIGNAL field is
7407 * the index into the rate table.
7408 */
7409 phy_rate = rate_info[rate] & RATE_MASK;
7410 basic_phy_rate = rate_info[basic_rate] & RATE_MASK;
7411 index = phy_rate & 0xf;
7412 basic_index = basic_phy_rate & 0xf;
7413
7414 /* Find the SHM pointer to the ACK rate entry by looking in the
7415 * Direct-map Table
7416 */
7417 basic_ptr = wlc_read_shm(wlc, (dir_table + basic_index * 2));
7418
7419 /* Update the SHM BSS-basic-rate-set mapping table with the pointer
7420 * to the correct basic rate for the given incoming rate
7421 */
7422 wlc_write_shm(wlc, (basic_table + index * 2), basic_ptr);
7423 }
7424
wlc_rateset_get_hwrs(struct wlc_info * wlc)7425 static const wlc_rateset_t *wlc_rateset_get_hwrs(struct wlc_info *wlc)
7426 {
7427 const wlc_rateset_t *rs_dflt;
7428
7429 if (WLC_PHY_11N_CAP(wlc->band)) {
7430 if (BAND_5G(wlc->band->bandtype))
7431 rs_dflt = &ofdm_mimo_rates;
7432 else
7433 rs_dflt = &cck_ofdm_mimo_rates;
7434 } else if (wlc->band->gmode)
7435 rs_dflt = &cck_ofdm_rates;
7436 else
7437 rs_dflt = &cck_rates;
7438
7439 return rs_dflt;
7440 }
7441
wlc_set_ratetable(struct wlc_info * wlc)7442 void wlc_set_ratetable(struct wlc_info *wlc)
7443 {
7444 const wlc_rateset_t *rs_dflt;
7445 wlc_rateset_t rs;
7446 u8 rate, basic_rate;
7447 uint i;
7448
7449 rs_dflt = wlc_rateset_get_hwrs(wlc);
7450 ASSERT(rs_dflt != NULL);
7451
7452 wlc_rateset_copy(rs_dflt, &rs);
7453 wlc_rateset_mcs_upd(&rs, wlc->stf->txstreams);
7454
7455 /* walk the phy rate table and update SHM basic rate lookup table */
7456 for (i = 0; i < rs.count; i++) {
7457 rate = rs.rates[i] & RATE_MASK;
7458
7459 /* for a given rate WLC_BASIC_RATE returns the rate at
7460 * which a response ACK/CTS should be sent.
7461 */
7462 basic_rate = WLC_BASIC_RATE(wlc, rate);
7463 if (basic_rate == 0) {
7464 /* This should only happen if we are using a
7465 * restricted rateset.
7466 */
7467 basic_rate = rs.rates[0] & RATE_MASK;
7468 }
7469
7470 wlc_write_rate_shm(wlc, rate, basic_rate);
7471 }
7472 }
7473
7474 /*
7475 * Return true if the specified rate is supported by the specified band.
7476 * WLC_BAND_AUTO indicates the current band.
7477 */
wlc_valid_rate(struct wlc_info * wlc,ratespec_t rspec,int band,bool verbose)7478 bool wlc_valid_rate(struct wlc_info *wlc, ratespec_t rspec, int band,
7479 bool verbose)
7480 {
7481 wlc_rateset_t *hw_rateset;
7482 uint i;
7483
7484 if ((band == WLC_BAND_AUTO) || (band == wlc->band->bandtype)) {
7485 hw_rateset = &wlc->band->hw_rateset;
7486 } else if (NBANDS(wlc) > 1) {
7487 hw_rateset = &wlc->bandstate[OTHERBANDUNIT(wlc)]->hw_rateset;
7488 } else {
7489 /* other band specified and we are a single band device */
7490 return false;
7491 }
7492
7493 /* check if this is a mimo rate */
7494 if (IS_MCS(rspec)) {
7495 if (!VALID_MCS((rspec & RSPEC_RATE_MASK)))
7496 goto error;
7497
7498 return isset(hw_rateset->mcs, (rspec & RSPEC_RATE_MASK));
7499 }
7500
7501 for (i = 0; i < hw_rateset->count; i++)
7502 if (hw_rateset->rates[i] == RSPEC2RATE(rspec))
7503 return true;
7504 error:
7505 if (verbose) {
7506 WL_ERROR("wl%d: wlc_valid_rate: rate spec 0x%x not in hw_rateset\n",
7507 wlc->pub->unit, rspec);
7508 }
7509
7510 return false;
7511 }
7512
wlc_update_mimo_band_bwcap(struct wlc_info * wlc,u8 bwcap)7513 static void wlc_update_mimo_band_bwcap(struct wlc_info *wlc, u8 bwcap)
7514 {
7515 uint i;
7516 struct wlcband *band;
7517
7518 for (i = 0; i < NBANDS(wlc); i++) {
7519 if (IS_SINGLEBAND_5G(wlc->deviceid))
7520 i = BAND_5G_INDEX;
7521 band = wlc->bandstate[i];
7522 if (band->bandtype == WLC_BAND_5G) {
7523 if ((bwcap == WLC_N_BW_40ALL)
7524 || (bwcap == WLC_N_BW_20IN2G_40IN5G))
7525 band->mimo_cap_40 = true;
7526 else
7527 band->mimo_cap_40 = false;
7528 } else {
7529 ASSERT(band->bandtype == WLC_BAND_2G);
7530 if (bwcap == WLC_N_BW_40ALL)
7531 band->mimo_cap_40 = true;
7532 else
7533 band->mimo_cap_40 = false;
7534 }
7535 }
7536
7537 wlc->mimo_band_bwcap = bwcap;
7538 }
7539
wlc_mod_prb_rsp_rate_table(struct wlc_info * wlc,uint frame_len)7540 void wlc_mod_prb_rsp_rate_table(struct wlc_info *wlc, uint frame_len)
7541 {
7542 const wlc_rateset_t *rs_dflt;
7543 wlc_rateset_t rs;
7544 u8 rate;
7545 u16 entry_ptr;
7546 u8 plcp[D11_PHY_HDR_LEN];
7547 u16 dur, sifs;
7548 uint i;
7549
7550 sifs = SIFS(wlc->band);
7551
7552 rs_dflt = wlc_rateset_get_hwrs(wlc);
7553 ASSERT(rs_dflt != NULL);
7554
7555 wlc_rateset_copy(rs_dflt, &rs);
7556 wlc_rateset_mcs_upd(&rs, wlc->stf->txstreams);
7557
7558 /* walk the phy rate table and update MAC core SHM basic rate table entries */
7559 for (i = 0; i < rs.count; i++) {
7560 rate = rs.rates[i] & RATE_MASK;
7561
7562 entry_ptr = wlc_rate_shm_offset(wlc, rate);
7563
7564 /* Calculate the Probe Response PLCP for the given rate */
7565 wlc_compute_plcp(wlc, rate, frame_len, plcp);
7566
7567 /* Calculate the duration of the Probe Response frame plus SIFS for the MAC */
7568 dur =
7569 (u16) wlc_calc_frame_time(wlc, rate, WLC_LONG_PREAMBLE,
7570 frame_len);
7571 dur += sifs;
7572
7573 /* Update the SHM Rate Table entry Probe Response values */
7574 wlc_write_shm(wlc, entry_ptr + M_RT_PRS_PLCP_POS,
7575 (u16) (plcp[0] + (plcp[1] << 8)));
7576 wlc_write_shm(wlc, entry_ptr + M_RT_PRS_PLCP_POS + 2,
7577 (u16) (plcp[2] + (plcp[3] << 8)));
7578 wlc_write_shm(wlc, entry_ptr + M_RT_PRS_DUR_POS, dur);
7579 }
7580 }
7581
7582 u16
wlc_compute_bcntsfoff(struct wlc_info * wlc,ratespec_t rspec,bool short_preamble,bool phydelay)7583 wlc_compute_bcntsfoff(struct wlc_info *wlc, ratespec_t rspec,
7584 bool short_preamble, bool phydelay)
7585 {
7586 uint bcntsfoff = 0;
7587
7588 if (IS_MCS(rspec)) {
7589 WL_ERROR("wl%d: recd beacon with mcs rate; rspec 0x%x\n",
7590 wlc->pub->unit, rspec);
7591 } else if (IS_OFDM(rspec)) {
7592 /* tx delay from MAC through phy to air (2.1 usec) +
7593 * phy header time (preamble + PLCP SIGNAL == 20 usec) +
7594 * PLCP SERVICE + MAC header time (SERVICE + FC + DUR + A1 + A2 + A3 + SEQ == 26
7595 * bytes at beacon rate)
7596 */
7597 bcntsfoff += phydelay ? D11A_PHY_TX_DELAY : 0;
7598 bcntsfoff += APHY_PREAMBLE_TIME + APHY_SIGNAL_TIME;
7599 bcntsfoff +=
7600 wlc_compute_airtime(wlc, rspec,
7601 APHY_SERVICE_NBITS / 8 +
7602 DOT11_MAC_HDR_LEN);
7603 } else {
7604 /* tx delay from MAC through phy to air (3.4 usec) +
7605 * phy header time (long preamble + PLCP == 192 usec) +
7606 * MAC header time (FC + DUR + A1 + A2 + A3 + SEQ == 24 bytes at beacon rate)
7607 */
7608 bcntsfoff += phydelay ? D11B_PHY_TX_DELAY : 0;
7609 bcntsfoff +=
7610 short_preamble ? D11B_PHY_SPREHDR_TIME :
7611 D11B_PHY_LPREHDR_TIME;
7612 bcntsfoff += wlc_compute_airtime(wlc, rspec, DOT11_MAC_HDR_LEN);
7613 }
7614 return (u16) (bcntsfoff);
7615 }
7616
7617 /* Max buffering needed for beacon template/prb resp template is 142 bytes.
7618 *
7619 * PLCP header is 6 bytes.
7620 * 802.11 A3 header is 24 bytes.
7621 * Max beacon frame body template length is 112 bytes.
7622 * Max probe resp frame body template length is 110 bytes.
7623 *
7624 * *len on input contains the max length of the packet available.
7625 *
7626 * The *len value is set to the number of bytes in buf used, and starts with the PLCP
7627 * and included up to, but not including, the 4 byte FCS.
7628 */
7629 static void
wlc_bcn_prb_template(struct wlc_info * wlc,u16 type,ratespec_t bcn_rspec,struct wlc_bsscfg * cfg,u16 * buf,int * len)7630 wlc_bcn_prb_template(struct wlc_info *wlc, u16 type, ratespec_t bcn_rspec,
7631 struct wlc_bsscfg *cfg, u16 *buf, int *len)
7632 {
7633 static const u8 ether_bcast[ETH_ALEN] = {255, 255, 255, 255, 255, 255};
7634 cck_phy_hdr_t *plcp;
7635 struct ieee80211_mgmt *h;
7636 int hdr_len, body_len;
7637
7638 ASSERT(*len >= 142);
7639 ASSERT(type == IEEE80211_STYPE_BEACON ||
7640 type == IEEE80211_STYPE_PROBE_RESP);
7641
7642 if (MBSS_BCN_ENAB(cfg) && type == IEEE80211_STYPE_BEACON)
7643 hdr_len = DOT11_MAC_HDR_LEN;
7644 else
7645 hdr_len = D11_PHY_HDR_LEN + DOT11_MAC_HDR_LEN;
7646 body_len = *len - hdr_len; /* calc buffer size provided for frame body */
7647
7648 *len = hdr_len + body_len; /* return actual size */
7649
7650 /* format PHY and MAC headers */
7651 memset((char *)buf, 0, hdr_len);
7652
7653 plcp = (cck_phy_hdr_t *) buf;
7654
7655 /* PLCP for Probe Response frames are filled in from core's rate table */
7656 if (type == IEEE80211_STYPE_BEACON && !MBSS_BCN_ENAB(cfg)) {
7657 /* fill in PLCP */
7658 wlc_compute_plcp(wlc, bcn_rspec,
7659 (DOT11_MAC_HDR_LEN + body_len + FCS_LEN),
7660 (u8 *) plcp);
7661
7662 }
7663 /* "Regular" and 16 MBSS but not for 4 MBSS */
7664 /* Update the phytxctl for the beacon based on the rspec */
7665 if (!SOFTBCN_ENAB(cfg))
7666 wlc_beacon_phytxctl_txant_upd(wlc, bcn_rspec);
7667
7668 if (MBSS_BCN_ENAB(cfg) && type == IEEE80211_STYPE_BEACON)
7669 h = (struct ieee80211_mgmt *)&plcp[0];
7670 else
7671 h = (struct ieee80211_mgmt *)&plcp[1];
7672
7673 /* fill in 802.11 header */
7674 h->frame_control = cpu_to_le16(IEEE80211_FTYPE_MGMT | type);
7675
7676 /* DUR is 0 for multicast bcn, or filled in by MAC for prb resp */
7677 /* A1 filled in by MAC for prb resp, broadcast for bcn */
7678 if (type == IEEE80211_STYPE_BEACON)
7679 memcpy(&h->da, ðer_bcast, ETH_ALEN);
7680 memcpy(&h->sa, &cfg->cur_etheraddr, ETH_ALEN);
7681 memcpy(&h->bssid, &cfg->BSSID, ETH_ALEN);
7682
7683 /* SEQ filled in by MAC */
7684
7685 return;
7686 }
7687
wlc_get_header_len()7688 int wlc_get_header_len()
7689 {
7690 return TXOFF;
7691 }
7692
7693 /* Update a beacon for a particular BSS
7694 * For MBSS, this updates the software template and sets "latest" to the index of the
7695 * template updated.
7696 * Otherwise, it updates the hardware template.
7697 */
wlc_bss_update_beacon(struct wlc_info * wlc,struct wlc_bsscfg * cfg)7698 void wlc_bss_update_beacon(struct wlc_info *wlc, struct wlc_bsscfg *cfg)
7699 {
7700 int len = BCN_TMPL_LEN;
7701
7702 /* Clear the soft intmask */
7703 wlc->defmacintmask &= ~MI_BCNTPL;
7704
7705 if (!cfg->up) { /* Only allow updates on an UP bss */
7706 return;
7707 }
7708
7709 /* Optimize: Some of if/else could be combined */
7710 if (!MBSS_BCN_ENAB(cfg) && HWBCN_ENAB(cfg)) {
7711 /* Hardware beaconing for this config */
7712 u16 bcn[BCN_TMPL_LEN / 2];
7713 u32 both_valid = MCMD_BCN0VLD | MCMD_BCN1VLD;
7714 d11regs_t *regs = wlc->regs;
7715
7716 /* Check if both templates are in use, if so sched. an interrupt
7717 * that will call back into this routine
7718 */
7719 if ((R_REG(®s->maccommand) & both_valid) == both_valid) {
7720 /* clear any previous status */
7721 W_REG(®s->macintstatus, MI_BCNTPL);
7722 }
7723 /* Check that after scheduling the interrupt both of the
7724 * templates are still busy. if not clear the int. & remask
7725 */
7726 if ((R_REG(®s->maccommand) & both_valid) == both_valid) {
7727 wlc->defmacintmask |= MI_BCNTPL;
7728 return;
7729 }
7730
7731 wlc->bcn_rspec =
7732 wlc_lowest_basic_rspec(wlc, &cfg->current_bss->rateset);
7733 ASSERT(wlc_valid_rate
7734 (wlc, wlc->bcn_rspec,
7735 CHSPEC_IS2G(cfg->current_bss->
7736 chanspec) ? WLC_BAND_2G : WLC_BAND_5G,
7737 true));
7738
7739 /* update the template and ucode shm */
7740 wlc_bcn_prb_template(wlc, IEEE80211_STYPE_BEACON,
7741 wlc->bcn_rspec, cfg, bcn, &len);
7742 wlc_write_hw_bcntemplates(wlc, bcn, len, false);
7743 }
7744 }
7745
7746 /*
7747 * Update all beacons for the system.
7748 */
wlc_update_beacon(struct wlc_info * wlc)7749 void wlc_update_beacon(struct wlc_info *wlc)
7750 {
7751 int idx;
7752 struct wlc_bsscfg *bsscfg;
7753
7754 /* update AP or IBSS beacons */
7755 FOREACH_BSS(wlc, idx, bsscfg) {
7756 if (bsscfg->up && (BSSCFG_AP(bsscfg) || !bsscfg->BSS))
7757 wlc_bss_update_beacon(wlc, bsscfg);
7758 }
7759 }
7760
7761 /* Write ssid into shared memory */
wlc_shm_ssid_upd(struct wlc_info * wlc,struct wlc_bsscfg * cfg)7762 void wlc_shm_ssid_upd(struct wlc_info *wlc, struct wlc_bsscfg *cfg)
7763 {
7764 u8 *ssidptr = cfg->SSID;
7765 u16 base = M_SSID;
7766 u8 ssidbuf[IEEE80211_MAX_SSID_LEN];
7767
7768 /* padding the ssid with zero and copy it into shm */
7769 memset(ssidbuf, 0, IEEE80211_MAX_SSID_LEN);
7770 memcpy(ssidbuf, ssidptr, cfg->SSID_len);
7771
7772 wlc_copyto_shm(wlc, base, ssidbuf, IEEE80211_MAX_SSID_LEN);
7773
7774 if (!MBSS_BCN_ENAB(cfg))
7775 wlc_write_shm(wlc, M_SSIDLEN, (u16) cfg->SSID_len);
7776 }
7777
wlc_update_probe_resp(struct wlc_info * wlc,bool suspend)7778 void wlc_update_probe_resp(struct wlc_info *wlc, bool suspend)
7779 {
7780 int idx;
7781 struct wlc_bsscfg *bsscfg;
7782
7783 /* update AP or IBSS probe responses */
7784 FOREACH_BSS(wlc, idx, bsscfg) {
7785 if (bsscfg->up && (BSSCFG_AP(bsscfg) || !bsscfg->BSS))
7786 wlc_bss_update_probe_resp(wlc, bsscfg, suspend);
7787 }
7788 }
7789
7790 void
wlc_bss_update_probe_resp(struct wlc_info * wlc,struct wlc_bsscfg * cfg,bool suspend)7791 wlc_bss_update_probe_resp(struct wlc_info *wlc, struct wlc_bsscfg *cfg,
7792 bool suspend)
7793 {
7794 u16 prb_resp[BCN_TMPL_LEN / 2];
7795 int len = BCN_TMPL_LEN;
7796
7797 /* write the probe response to hardware, or save in the config structure */
7798 if (!MBSS_PRB_ENAB(cfg)) {
7799
7800 /* create the probe response template */
7801 wlc_bcn_prb_template(wlc, IEEE80211_STYPE_PROBE_RESP, 0, cfg,
7802 prb_resp, &len);
7803
7804 if (suspend)
7805 wlc_suspend_mac_and_wait(wlc);
7806
7807 /* write the probe response into the template region */
7808 wlc_bmac_write_template_ram(wlc->hw, T_PRS_TPL_BASE,
7809 (len + 3) & ~3, prb_resp);
7810
7811 /* write the length of the probe response frame (+PLCP/-FCS) */
7812 wlc_write_shm(wlc, M_PRB_RESP_FRM_LEN, (u16) len);
7813
7814 /* write the SSID and SSID length */
7815 wlc_shm_ssid_upd(wlc, cfg);
7816
7817 /*
7818 * Write PLCP headers and durations for probe response frames at all rates.
7819 * Use the actual frame length covered by the PLCP header for the call to
7820 * wlc_mod_prb_rsp_rate_table() by subtracting the PLCP len and adding the FCS.
7821 */
7822 len += (-D11_PHY_HDR_LEN + FCS_LEN);
7823 wlc_mod_prb_rsp_rate_table(wlc, (u16) len);
7824
7825 if (suspend)
7826 wlc_enable_mac(wlc);
7827 } else { /* Generating probe resp in sw; update local template */
7828 ASSERT(0 && "No software probe response support without MBSS");
7829 }
7830 }
7831
7832 /* prepares pdu for transmission. returns BCM error codes */
wlc_prep_pdu(struct wlc_info * wlc,struct sk_buff * pdu,uint * fifop)7833 int wlc_prep_pdu(struct wlc_info *wlc, struct sk_buff *pdu, uint *fifop)
7834 {
7835 uint fifo;
7836 d11txh_t *txh;
7837 struct ieee80211_hdr *h;
7838 struct scb *scb;
7839
7840 ASSERT(pdu);
7841 txh = (d11txh_t *) (pdu->data);
7842 ASSERT(txh);
7843 h = (struct ieee80211_hdr *)((u8 *) (txh + 1) + D11_PHY_HDR_LEN);
7844 ASSERT(h);
7845
7846 /* get the pkt queue info. This was put at wlc_sendctl or wlc_send for PDU */
7847 fifo = le16_to_cpu(txh->TxFrameID) & TXFID_QUEUE_MASK;
7848
7849 scb = NULL;
7850
7851 *fifop = fifo;
7852
7853 /* return if insufficient dma resources */
7854 if (TXAVAIL(wlc, fifo) < MAX_DMA_SEGS) {
7855 /* Mark precedences related to this FIFO, unsendable */
7856 WLC_TX_FIFO_CLEAR(wlc, fifo);
7857 return BCME_BUSY;
7858 }
7859
7860 if (!ieee80211_is_data(txh->MacFrameControl))
7861 wlc->pub->_cnt->txctl++;
7862
7863 return 0;
7864 }
7865
7866 /* init tx reported rate mechanism */
wlc_reprate_init(struct wlc_info * wlc)7867 void wlc_reprate_init(struct wlc_info *wlc)
7868 {
7869 int i;
7870 struct wlc_bsscfg *bsscfg;
7871
7872 FOREACH_BSS(wlc, i, bsscfg) {
7873 wlc_bsscfg_reprate_init(bsscfg);
7874 }
7875 }
7876
7877 /* per bsscfg init tx reported rate mechanism */
wlc_bsscfg_reprate_init(struct wlc_bsscfg * bsscfg)7878 void wlc_bsscfg_reprate_init(struct wlc_bsscfg *bsscfg)
7879 {
7880 bsscfg->txrspecidx = 0;
7881 memset((char *)bsscfg->txrspec, 0, sizeof(bsscfg->txrspec));
7882 }
7883
7884 /* Retrieve a consolidated set of revision information,
7885 * typically for the WLC_GET_REVINFO ioctl
7886 */
wlc_get_revision_info(struct wlc_info * wlc,void * buf,uint len)7887 int wlc_get_revision_info(struct wlc_info *wlc, void *buf, uint len)
7888 {
7889 wlc_rev_info_t *rinfo = (wlc_rev_info_t *) buf;
7890
7891 if (len < WL_REV_INFO_LEGACY_LENGTH)
7892 return BCME_BUFTOOSHORT;
7893
7894 rinfo->vendorid = wlc->vendorid;
7895 rinfo->deviceid = wlc->deviceid;
7896 rinfo->radiorev = (wlc->band->radiorev << IDCODE_REV_SHIFT) |
7897 (wlc->band->radioid << IDCODE_ID_SHIFT);
7898 rinfo->chiprev = wlc->pub->sih->chiprev;
7899 rinfo->corerev = wlc->pub->corerev;
7900 rinfo->boardid = wlc->pub->sih->boardtype;
7901 rinfo->boardvendor = wlc->pub->sih->boardvendor;
7902 rinfo->boardrev = wlc->pub->boardrev;
7903 rinfo->ucoderev = wlc->ucode_rev;
7904 rinfo->driverrev = EPI_VERSION_NUM;
7905 rinfo->bus = wlc->pub->sih->bustype;
7906 rinfo->chipnum = wlc->pub->sih->chip;
7907
7908 if (len >= (offsetof(wlc_rev_info_t, chippkg))) {
7909 rinfo->phytype = wlc->band->phytype;
7910 rinfo->phyrev = wlc->band->phyrev;
7911 rinfo->anarev = 0; /* obsolete stuff, suppress */
7912 }
7913
7914 if (len >= sizeof(*rinfo)) {
7915 rinfo->chippkg = wlc->pub->sih->chippkg;
7916 }
7917
7918 return BCME_OK;
7919 }
7920
wlc_default_rateset(struct wlc_info * wlc,wlc_rateset_t * rs)7921 void wlc_default_rateset(struct wlc_info *wlc, wlc_rateset_t *rs)
7922 {
7923 wlc_rateset_default(rs, NULL, wlc->band->phytype, wlc->band->bandtype,
7924 false, RATE_MASK_FULL, (bool) N_ENAB(wlc->pub),
7925 CHSPEC_WLC_BW(wlc->default_bss->chanspec),
7926 wlc->stf->txstreams);
7927 }
7928
wlc_bss_default_init(struct wlc_info * wlc)7929 static void wlc_bss_default_init(struct wlc_info *wlc)
7930 {
7931 chanspec_t chanspec;
7932 struct wlcband *band;
7933 wlc_bss_info_t *bi = wlc->default_bss;
7934
7935 /* init default and target BSS with some sane initial values */
7936 memset((char *)(bi), 0, sizeof(wlc_bss_info_t));
7937 bi->beacon_period = ISSIM_ENAB(wlc->pub->sih) ? BEACON_INTERVAL_DEF_QT :
7938 BEACON_INTERVAL_DEFAULT;
7939 bi->dtim_period = ISSIM_ENAB(wlc->pub->sih) ? DTIM_INTERVAL_DEF_QT :
7940 DTIM_INTERVAL_DEFAULT;
7941
7942 /* fill the default channel as the first valid channel
7943 * starting from the 2G channels
7944 */
7945 chanspec = CH20MHZ_CHSPEC(1);
7946 ASSERT(chanspec != INVCHANSPEC);
7947
7948 wlc->home_chanspec = bi->chanspec = chanspec;
7949
7950 /* find the band of our default channel */
7951 band = wlc->band;
7952 if (NBANDS(wlc) > 1 && band->bandunit != CHSPEC_WLCBANDUNIT(chanspec))
7953 band = wlc->bandstate[OTHERBANDUNIT(wlc)];
7954
7955 /* init bss rates to the band specific default rate set */
7956 wlc_rateset_default(&bi->rateset, NULL, band->phytype, band->bandtype,
7957 false, RATE_MASK_FULL, (bool) N_ENAB(wlc->pub),
7958 CHSPEC_WLC_BW(chanspec), wlc->stf->txstreams);
7959
7960 if (N_ENAB(wlc->pub))
7961 bi->flags |= WLC_BSS_HT;
7962 }
7963
7964 void
wlc_uint64_sub(u32 * a_high,u32 * a_low,u32 b_high,u32 b_low)7965 wlc_uint64_sub(u32 *a_high, u32 *a_low, u32 b_high, u32 b_low)
7966 {
7967 if (b_low > *a_low) {
7968 /* low half needs a carry */
7969 b_high += 1;
7970 }
7971 *a_low -= b_low;
7972 *a_high -= b_high;
7973 }
7974
7975 static ratespec_t
mac80211_wlc_set_nrate(struct wlc_info * wlc,struct wlcband * cur_band,u32 int_val)7976 mac80211_wlc_set_nrate(struct wlc_info *wlc, struct wlcband *cur_band,
7977 u32 int_val)
7978 {
7979 u8 stf = (int_val & NRATE_STF_MASK) >> NRATE_STF_SHIFT;
7980 u8 rate = int_val & NRATE_RATE_MASK;
7981 ratespec_t rspec;
7982 bool ismcs = ((int_val & NRATE_MCS_INUSE) == NRATE_MCS_INUSE);
7983 bool issgi = ((int_val & NRATE_SGI_MASK) >> NRATE_SGI_SHIFT);
7984 bool override_mcs_only = ((int_val & NRATE_OVERRIDE_MCS_ONLY)
7985 == NRATE_OVERRIDE_MCS_ONLY);
7986 int bcmerror = 0;
7987
7988 if (!ismcs) {
7989 return (ratespec_t) rate;
7990 }
7991
7992 /* validate the combination of rate/mcs/stf is allowed */
7993 if (N_ENAB(wlc->pub) && ismcs) {
7994 /* mcs only allowed when nmode */
7995 if (stf > PHY_TXC1_MODE_SDM) {
7996 WL_ERROR("wl%d: %s: Invalid stf\n",
7997 WLCWLUNIT(wlc), __func__);
7998 bcmerror = BCME_RANGE;
7999 goto done;
8000 }
8001
8002 /* mcs 32 is a special case, DUP mode 40 only */
8003 if (rate == 32) {
8004 if (!CHSPEC_IS40(wlc->home_chanspec) ||
8005 ((stf != PHY_TXC1_MODE_SISO)
8006 && (stf != PHY_TXC1_MODE_CDD))) {
8007 WL_ERROR("wl%d: %s: Invalid mcs 32\n",
8008 WLCWLUNIT(wlc), __func__);
8009 bcmerror = BCME_RANGE;
8010 goto done;
8011 }
8012 /* mcs > 7 must use stf SDM */
8013 } else if (rate > HIGHEST_SINGLE_STREAM_MCS) {
8014 /* mcs > 7 must use stf SDM */
8015 if (stf != PHY_TXC1_MODE_SDM) {
8016 WL_TRACE("wl%d: %s: enabling SDM mode for mcs %d\n",
8017 WLCWLUNIT(wlc), __func__, rate);
8018 stf = PHY_TXC1_MODE_SDM;
8019 }
8020 } else {
8021 /* MCS 0-7 may use SISO, CDD, and for phy_rev >= 3 STBC */
8022 if ((stf > PHY_TXC1_MODE_STBC) ||
8023 (!WLC_STBC_CAP_PHY(wlc)
8024 && (stf == PHY_TXC1_MODE_STBC))) {
8025 WL_ERROR("wl%d: %s: Invalid STBC\n",
8026 WLCWLUNIT(wlc), __func__);
8027 bcmerror = BCME_RANGE;
8028 goto done;
8029 }
8030 }
8031 } else if (IS_OFDM(rate)) {
8032 if ((stf != PHY_TXC1_MODE_CDD) && (stf != PHY_TXC1_MODE_SISO)) {
8033 WL_ERROR("wl%d: %s: Invalid OFDM\n",
8034 WLCWLUNIT(wlc), __func__);
8035 bcmerror = BCME_RANGE;
8036 goto done;
8037 }
8038 } else if (IS_CCK(rate)) {
8039 if ((cur_band->bandtype != WLC_BAND_2G)
8040 || (stf != PHY_TXC1_MODE_SISO)) {
8041 WL_ERROR("wl%d: %s: Invalid CCK\n",
8042 WLCWLUNIT(wlc), __func__);
8043 bcmerror = BCME_RANGE;
8044 goto done;
8045 }
8046 } else {
8047 WL_ERROR("wl%d: %s: Unknown rate type\n",
8048 WLCWLUNIT(wlc), __func__);
8049 bcmerror = BCME_RANGE;
8050 goto done;
8051 }
8052 /* make sure multiple antennae are available for non-siso rates */
8053 if ((stf != PHY_TXC1_MODE_SISO) && (wlc->stf->txstreams == 1)) {
8054 WL_ERROR("wl%d: %s: SISO antenna but !SISO request\n",
8055 WLCWLUNIT(wlc), __func__);
8056 bcmerror = BCME_RANGE;
8057 goto done;
8058 }
8059
8060 rspec = rate;
8061 if (ismcs) {
8062 rspec |= RSPEC_MIMORATE;
8063 /* For STBC populate the STC field of the ratespec */
8064 if (stf == PHY_TXC1_MODE_STBC) {
8065 u8 stc;
8066 stc = 1; /* Nss for single stream is always 1 */
8067 rspec |= (stc << RSPEC_STC_SHIFT);
8068 }
8069 }
8070
8071 rspec |= (stf << RSPEC_STF_SHIFT);
8072
8073 if (override_mcs_only)
8074 rspec |= RSPEC_OVERRIDE_MCS_ONLY;
8075
8076 if (issgi)
8077 rspec |= RSPEC_SHORT_GI;
8078
8079 if ((rate != 0)
8080 && !wlc_valid_rate(wlc, rspec, cur_band->bandtype, true)) {
8081 return rate;
8082 }
8083
8084 return rspec;
8085 done:
8086 WL_ERROR("Hoark\n");
8087 return rate;
8088 }
8089
8090 /* formula: IDLE_BUSY_RATIO_X_16 = (100-duty_cycle)/duty_cycle*16 */
8091 static int
wlc_duty_cycle_set(struct wlc_info * wlc,int duty_cycle,bool isOFDM,bool writeToShm)8092 wlc_duty_cycle_set(struct wlc_info *wlc, int duty_cycle, bool isOFDM,
8093 bool writeToShm)
8094 {
8095 int idle_busy_ratio_x_16 = 0;
8096 uint offset =
8097 isOFDM ? M_TX_IDLE_BUSY_RATIO_X_16_OFDM :
8098 M_TX_IDLE_BUSY_RATIO_X_16_CCK;
8099 if (duty_cycle > 100 || duty_cycle < 0) {
8100 WL_ERROR("wl%d: duty cycle value off limit\n", wlc->pub->unit);
8101 return BCME_RANGE;
8102 }
8103 if (duty_cycle)
8104 idle_busy_ratio_x_16 = (100 - duty_cycle) * 16 / duty_cycle;
8105 /* Only write to shared memory when wl is up */
8106 if (writeToShm)
8107 wlc_write_shm(wlc, offset, (u16) idle_busy_ratio_x_16);
8108
8109 if (isOFDM)
8110 wlc->tx_duty_cycle_ofdm = (u16) duty_cycle;
8111 else
8112 wlc->tx_duty_cycle_cck = (u16) duty_cycle;
8113
8114 return BCME_OK;
8115 }
8116
8117 /* Read a single u16 from shared memory.
8118 * SHM 'offset' needs to be an even address
8119 */
wlc_read_shm(struct wlc_info * wlc,uint offset)8120 u16 wlc_read_shm(struct wlc_info *wlc, uint offset)
8121 {
8122 return wlc_bmac_read_shm(wlc->hw, offset);
8123 }
8124
8125 /* Write a single u16 to shared memory.
8126 * SHM 'offset' needs to be an even address
8127 */
wlc_write_shm(struct wlc_info * wlc,uint offset,u16 v)8128 void wlc_write_shm(struct wlc_info *wlc, uint offset, u16 v)
8129 {
8130 wlc_bmac_write_shm(wlc->hw, offset, v);
8131 }
8132
8133 /* Set a range of shared memory to a value.
8134 * SHM 'offset' needs to be an even address and
8135 * Range length 'len' must be an even number of bytes
8136 */
wlc_set_shm(struct wlc_info * wlc,uint offset,u16 v,int len)8137 void wlc_set_shm(struct wlc_info *wlc, uint offset, u16 v, int len)
8138 {
8139 /* offset and len need to be even */
8140 ASSERT((offset & 1) == 0);
8141 ASSERT((len & 1) == 0);
8142
8143 if (len <= 0)
8144 return;
8145
8146 wlc_bmac_set_shm(wlc->hw, offset, v, len);
8147 }
8148
8149 /* Copy a buffer to shared memory.
8150 * SHM 'offset' needs to be an even address and
8151 * Buffer length 'len' must be an even number of bytes
8152 */
wlc_copyto_shm(struct wlc_info * wlc,uint offset,const void * buf,int len)8153 void wlc_copyto_shm(struct wlc_info *wlc, uint offset, const void *buf, int len)
8154 {
8155 /* offset and len need to be even */
8156 ASSERT((offset & 1) == 0);
8157 ASSERT((len & 1) == 0);
8158
8159 if (len <= 0)
8160 return;
8161 wlc_bmac_copyto_objmem(wlc->hw, offset, buf, len, OBJADDR_SHM_SEL);
8162
8163 }
8164
8165 /* Copy from shared memory to a buffer.
8166 * SHM 'offset' needs to be an even address and
8167 * Buffer length 'len' must be an even number of bytes
8168 */
wlc_copyfrom_shm(struct wlc_info * wlc,uint offset,void * buf,int len)8169 void wlc_copyfrom_shm(struct wlc_info *wlc, uint offset, void *buf, int len)
8170 {
8171 /* offset and len need to be even */
8172 ASSERT((offset & 1) == 0);
8173 ASSERT((len & 1) == 0);
8174
8175 if (len <= 0)
8176 return;
8177
8178 wlc_bmac_copyfrom_objmem(wlc->hw, offset, buf, len, OBJADDR_SHM_SEL);
8179 }
8180
8181 /* wrapper BMAC functions to for HIGH driver access */
wlc_mctrl(struct wlc_info * wlc,u32 mask,u32 val)8182 void wlc_mctrl(struct wlc_info *wlc, u32 mask, u32 val)
8183 {
8184 wlc_bmac_mctrl(wlc->hw, mask, val);
8185 }
8186
wlc_corereset(struct wlc_info * wlc,u32 flags)8187 void wlc_corereset(struct wlc_info *wlc, u32 flags)
8188 {
8189 wlc_bmac_corereset(wlc->hw, flags);
8190 }
8191
wlc_mhf(struct wlc_info * wlc,u8 idx,u16 mask,u16 val,int bands)8192 void wlc_mhf(struct wlc_info *wlc, u8 idx, u16 mask, u16 val, int bands)
8193 {
8194 wlc_bmac_mhf(wlc->hw, idx, mask, val, bands);
8195 }
8196
wlc_mhf_get(struct wlc_info * wlc,u8 idx,int bands)8197 u16 wlc_mhf_get(struct wlc_info *wlc, u8 idx, int bands)
8198 {
8199 return wlc_bmac_mhf_get(wlc->hw, idx, bands);
8200 }
8201
wlc_xmtfifo_sz_get(struct wlc_info * wlc,uint fifo,uint * blocks)8202 int wlc_xmtfifo_sz_get(struct wlc_info *wlc, uint fifo, uint *blocks)
8203 {
8204 return wlc_bmac_xmtfifo_sz_get(wlc->hw, fifo, blocks);
8205 }
8206
wlc_write_template_ram(struct wlc_info * wlc,int offset,int len,void * buf)8207 void wlc_write_template_ram(struct wlc_info *wlc, int offset, int len,
8208 void *buf)
8209 {
8210 wlc_bmac_write_template_ram(wlc->hw, offset, len, buf);
8211 }
8212
wlc_write_hw_bcntemplates(struct wlc_info * wlc,void * bcn,int len,bool both)8213 void wlc_write_hw_bcntemplates(struct wlc_info *wlc, void *bcn, int len,
8214 bool both)
8215 {
8216 wlc_bmac_write_hw_bcntemplates(wlc->hw, bcn, len, both);
8217 }
8218
8219 void
wlc_set_addrmatch(struct wlc_info * wlc,int match_reg_offset,const u8 * addr)8220 wlc_set_addrmatch(struct wlc_info *wlc, int match_reg_offset,
8221 const u8 *addr)
8222 {
8223 wlc_bmac_set_addrmatch(wlc->hw, match_reg_offset, addr);
8224 if (match_reg_offset == RCM_BSSID_OFFSET)
8225 memcpy(wlc->cfg->BSSID, addr, ETH_ALEN);
8226 }
8227
wlc_set_rcmta(struct wlc_info * wlc,int idx,const u8 * addr)8228 void wlc_set_rcmta(struct wlc_info *wlc, int idx, const u8 *addr)
8229 {
8230 wlc_bmac_set_rcmta(wlc->hw, idx, addr);
8231 }
8232
wlc_read_tsf(struct wlc_info * wlc,u32 * tsf_l_ptr,u32 * tsf_h_ptr)8233 void wlc_read_tsf(struct wlc_info *wlc, u32 *tsf_l_ptr, u32 *tsf_h_ptr)
8234 {
8235 wlc_bmac_read_tsf(wlc->hw, tsf_l_ptr, tsf_h_ptr);
8236 }
8237
wlc_set_cwmin(struct wlc_info * wlc,u16 newmin)8238 void wlc_set_cwmin(struct wlc_info *wlc, u16 newmin)
8239 {
8240 wlc->band->CWmin = newmin;
8241 wlc_bmac_set_cwmin(wlc->hw, newmin);
8242 }
8243
wlc_set_cwmax(struct wlc_info * wlc,u16 newmax)8244 void wlc_set_cwmax(struct wlc_info *wlc, u16 newmax)
8245 {
8246 wlc->band->CWmax = newmax;
8247 wlc_bmac_set_cwmax(wlc->hw, newmax);
8248 }
8249
wlc_fifoerrors(struct wlc_info * wlc)8250 void wlc_fifoerrors(struct wlc_info *wlc)
8251 {
8252
8253 wlc_bmac_fifoerrors(wlc->hw);
8254 }
8255
8256 /* Search mem rw utilities */
8257
wlc_pllreq(struct wlc_info * wlc,bool set,mbool req_bit)8258 void wlc_pllreq(struct wlc_info *wlc, bool set, mbool req_bit)
8259 {
8260 wlc_bmac_pllreq(wlc->hw, set, req_bit);
8261 }
8262
wlc_reset_bmac_done(struct wlc_info * wlc)8263 void wlc_reset_bmac_done(struct wlc_info *wlc)
8264 {
8265 }
8266
wlc_ht_mimops_cap_update(struct wlc_info * wlc,u8 mimops_mode)8267 void wlc_ht_mimops_cap_update(struct wlc_info *wlc, u8 mimops_mode)
8268 {
8269 wlc->ht_cap.cap_info &= ~IEEE80211_HT_CAP_SM_PS;
8270 wlc->ht_cap.cap_info |= (mimops_mode << IEEE80211_HT_CAP_SM_PS_SHIFT);
8271
8272 if (AP_ENAB(wlc->pub) && wlc->clk) {
8273 wlc_update_beacon(wlc);
8274 wlc_update_probe_resp(wlc, true);
8275 }
8276 }
8277
8278 /* check for the particular priority flow control bit being set */
8279 bool
wlc_txflowcontrol_prio_isset(struct wlc_info * wlc,struct wlc_txq_info * q,int prio)8280 wlc_txflowcontrol_prio_isset(struct wlc_info *wlc, struct wlc_txq_info *q,
8281 int prio)
8282 {
8283 uint prio_mask;
8284
8285 if (prio == ALLPRIO) {
8286 prio_mask = TXQ_STOP_FOR_PRIOFC_MASK;
8287 } else {
8288 ASSERT(prio >= 0 && prio <= MAXPRIO);
8289 prio_mask = NBITVAL(prio);
8290 }
8291
8292 return (q->stopped & prio_mask) == prio_mask;
8293 }
8294
8295 /* propagate the flow control to all interfaces using the given tx queue */
wlc_txflowcontrol(struct wlc_info * wlc,struct wlc_txq_info * qi,bool on,int prio)8296 void wlc_txflowcontrol(struct wlc_info *wlc, struct wlc_txq_info *qi,
8297 bool on, int prio)
8298 {
8299 uint prio_bits;
8300 uint cur_bits;
8301
8302 WL_TRACE("%s: flow control kicks in\n", __func__);
8303
8304 if (prio == ALLPRIO) {
8305 prio_bits = TXQ_STOP_FOR_PRIOFC_MASK;
8306 } else {
8307 ASSERT(prio >= 0 && prio <= MAXPRIO);
8308 prio_bits = NBITVAL(prio);
8309 }
8310
8311 cur_bits = qi->stopped & prio_bits;
8312
8313 /* Check for the case of no change and return early
8314 * Otherwise update the bit and continue
8315 */
8316 if (on) {
8317 if (cur_bits == prio_bits) {
8318 return;
8319 }
8320 mboolset(qi->stopped, prio_bits);
8321 } else {
8322 if (cur_bits == 0) {
8323 return;
8324 }
8325 mboolclr(qi->stopped, prio_bits);
8326 }
8327
8328 /* If there is a flow control override we will not change the external
8329 * flow control state.
8330 */
8331 if (qi->stopped & ~TXQ_STOP_FOR_PRIOFC_MASK) {
8332 return;
8333 }
8334
8335 wlc_txflowcontrol_signal(wlc, qi, on, prio);
8336 }
8337
8338 void
wlc_txflowcontrol_override(struct wlc_info * wlc,struct wlc_txq_info * qi,bool on,uint override)8339 wlc_txflowcontrol_override(struct wlc_info *wlc, struct wlc_txq_info *qi,
8340 bool on, uint override)
8341 {
8342 uint prev_override;
8343
8344 ASSERT(override != 0);
8345 ASSERT((override & TXQ_STOP_FOR_PRIOFC_MASK) == 0);
8346
8347 prev_override = (qi->stopped & ~TXQ_STOP_FOR_PRIOFC_MASK);
8348
8349 /* Update the flow control bits and do an early return if there is
8350 * no change in the external flow control state.
8351 */
8352 if (on) {
8353 mboolset(qi->stopped, override);
8354 /* if there was a previous override bit on, then setting this
8355 * makes no difference.
8356 */
8357 if (prev_override) {
8358 return;
8359 }
8360
8361 wlc_txflowcontrol_signal(wlc, qi, ON, ALLPRIO);
8362 } else {
8363 mboolclr(qi->stopped, override);
8364 /* clearing an override bit will only make a difference for
8365 * flow control if it was the only bit set. For any other
8366 * override setting, just return
8367 */
8368 if (prev_override != override) {
8369 return;
8370 }
8371
8372 if (qi->stopped == 0) {
8373 wlc_txflowcontrol_signal(wlc, qi, OFF, ALLPRIO);
8374 } else {
8375 int prio;
8376
8377 for (prio = MAXPRIO; prio >= 0; prio--) {
8378 if (!mboolisset(qi->stopped, NBITVAL(prio)))
8379 wlc_txflowcontrol_signal(wlc, qi, OFF,
8380 prio);
8381 }
8382 }
8383 }
8384 }
8385
wlc_txflowcontrol_reset(struct wlc_info * wlc)8386 static void wlc_txflowcontrol_reset(struct wlc_info *wlc)
8387 {
8388 struct wlc_txq_info *qi;
8389
8390 for (qi = wlc->tx_queues; qi != NULL; qi = qi->next) {
8391 if (qi->stopped) {
8392 wlc_txflowcontrol_signal(wlc, qi, OFF, ALLPRIO);
8393 qi->stopped = 0;
8394 }
8395 }
8396 }
8397
8398 static void
wlc_txflowcontrol_signal(struct wlc_info * wlc,struct wlc_txq_info * qi,bool on,int prio)8399 wlc_txflowcontrol_signal(struct wlc_info *wlc, struct wlc_txq_info *qi, bool on,
8400 int prio)
8401 {
8402 struct wlc_if *wlcif;
8403
8404 for (wlcif = wlc->wlcif_list; wlcif != NULL; wlcif = wlcif->next) {
8405 if (wlcif->qi == qi && wlcif->flags & WLC_IF_LINKED)
8406 wl_txflowcontrol(wlc->wl, wlcif->wlif, on, prio);
8407 }
8408 }
8409
wlc_txq_alloc(struct wlc_info * wlc)8410 static struct wlc_txq_info *wlc_txq_alloc(struct wlc_info *wlc)
8411 {
8412 struct wlc_txq_info *qi, *p;
8413
8414 qi = wlc_calloc(wlc->pub->unit, sizeof(struct wlc_txq_info));
8415 if (qi != NULL) {
8416 /*
8417 * Have enough room for control packets along with HI watermark
8418 * Also, add room to txq for total psq packets if all the SCBs
8419 * leave PS mode. The watermark for flowcontrol to OS packets
8420 * will remain the same
8421 */
8422 pktq_init(&qi->q, WLC_PREC_COUNT,
8423 (2 * wlc->pub->tunables->datahiwat) + PKTQ_LEN_DEFAULT
8424 + wlc->pub->psq_pkts_total);
8425
8426 /* add this queue to the the global list */
8427 p = wlc->tx_queues;
8428 if (p == NULL) {
8429 wlc->tx_queues = qi;
8430 } else {
8431 while (p->next != NULL)
8432 p = p->next;
8433 p->next = qi;
8434 }
8435 }
8436 return qi;
8437 }
8438
wlc_txq_free(struct wlc_info * wlc,struct wlc_txq_info * qi)8439 static void wlc_txq_free(struct wlc_info *wlc, struct wlc_txq_info *qi)
8440 {
8441 struct wlc_txq_info *p;
8442
8443 if (qi == NULL)
8444 return;
8445
8446 /* remove the queue from the linked list */
8447 p = wlc->tx_queues;
8448 if (p == qi)
8449 wlc->tx_queues = p->next;
8450 else {
8451 while (p != NULL && p->next != qi)
8452 p = p->next;
8453 ASSERT(p->next == qi);
8454 if (p != NULL)
8455 p->next = p->next->next;
8456 }
8457
8458 kfree(qi);
8459 }
8460
8461 /*
8462 * Flag 'scan in progress' to withhold dynamic phy calibration
8463 */
wlc_scan_start(struct wlc_info * wlc)8464 void wlc_scan_start(struct wlc_info *wlc)
8465 {
8466 wlc_phy_hold_upd(wlc->band->pi, PHY_HOLD_FOR_SCAN, true);
8467 }
8468
wlc_scan_stop(struct wlc_info * wlc)8469 void wlc_scan_stop(struct wlc_info *wlc)
8470 {
8471 wlc_phy_hold_upd(wlc->band->pi, PHY_HOLD_FOR_SCAN, false);
8472 }
8473
wlc_associate_upd(struct wlc_info * wlc,bool state)8474 void wlc_associate_upd(struct wlc_info *wlc, bool state)
8475 {
8476 wlc->pub->associated = state;
8477 wlc->cfg->associated = state;
8478 }
8479
8480 /*
8481 * When a remote STA/AP is removed by Mac80211, or when it can no longer accept
8482 * AMPDU traffic, packets pending in hardware have to be invalidated so that
8483 * when later on hardware releases them, they can be handled appropriately.
8484 */
wlc_inval_dma_pkts(struct wlc_hw_info * hw,struct ieee80211_sta * sta,void (* dma_callback_fn))8485 void wlc_inval_dma_pkts(struct wlc_hw_info *hw,
8486 struct ieee80211_sta *sta,
8487 void (*dma_callback_fn))
8488 {
8489 struct hnddma_pub *dmah;
8490 int i;
8491 for (i = 0; i < NFIFO; i++) {
8492 dmah = hw->di[i];
8493 if (dmah != NULL)
8494 dma_walk_packets(dmah, dma_callback_fn, sta);
8495 }
8496 }
8497