1*6e778a7eSPedro F. Giffuni /*-
2*6e778a7eSPedro F. Giffuni * SPDX-License-Identifier: ISC
3*6e778a7eSPedro F. Giffuni *
414779705SSam Leffler * Copyright (c) 2002-2008 Sam Leffler, Errno Consulting
514779705SSam Leffler * Copyright (c) 2002-2008 Atheros Communications, Inc.
614779705SSam Leffler *
714779705SSam Leffler * Permission to use, copy, modify, and/or distribute this software for any
814779705SSam Leffler * purpose with or without fee is hereby granted, provided that the above
914779705SSam Leffler * copyright notice and this permission notice appear in all copies.
1014779705SSam Leffler *
1114779705SSam Leffler * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
1214779705SSam Leffler * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1314779705SSam Leffler * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
1414779705SSam Leffler * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1514779705SSam Leffler * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
1614779705SSam Leffler * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
1714779705SSam Leffler * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
1814779705SSam Leffler */
1914779705SSam Leffler #include "opt_ah.h"
2014779705SSam Leffler
2114779705SSam Leffler #include "ah.h"
2214779705SSam Leffler #include "ah_internal.h"
2314779705SSam Leffler #include "ah_devid.h"
2414779705SSam Leffler #include "ah_desc.h" /* NB: for HAL_PHYERR* */
2514779705SSam Leffler
2614779705SSam Leffler #include "ar5416/ar5416.h"
2714779705SSam Leffler #include "ar5416/ar5416reg.h"
2814779705SSam Leffler #include "ar5416/ar5416phy.h"
2914779705SSam Leffler
3040ffb20dSAdrian Chadd #include "ah_eeprom_v14.h" /* for owl_get_ntxchains() */
3140ffb20dSAdrian Chadd
3214779705SSam Leffler /*
3324b50986SRui Paulo * Return the wireless modes (a,b,g,n,t) supported by hardware.
3414779705SSam Leffler *
3514779705SSam Leffler * This value is what is actually supported by the hardware
3614779705SSam Leffler * and is unaffected by regulatory/country code settings.
3714779705SSam Leffler *
3814779705SSam Leffler */
3914779705SSam Leffler u_int
ar5416GetWirelessModes(struct ath_hal * ah)4014779705SSam Leffler ar5416GetWirelessModes(struct ath_hal *ah)
4114779705SSam Leffler {
4214779705SSam Leffler u_int mode;
43c44797fcSAdrian Chadd struct ath_hal_private *ahpriv = AH_PRIVATE(ah);
44c44797fcSAdrian Chadd HAL_CAPABILITIES *pCap = &ahpriv->ah_caps;
4514779705SSam Leffler
4614779705SSam Leffler mode = ar5212GetWirelessModes(ah);
47c44797fcSAdrian Chadd
48c44797fcSAdrian Chadd /* Only enable HT modes if the NIC supports HT */
49c44797fcSAdrian Chadd if (pCap->halHTSupport == AH_TRUE && (mode & HAL_MODE_11A))
5014779705SSam Leffler mode |= HAL_MODE_11NA_HT20
5114779705SSam Leffler | HAL_MODE_11NA_HT40PLUS
5214779705SSam Leffler | HAL_MODE_11NA_HT40MINUS
5314779705SSam Leffler ;
54c44797fcSAdrian Chadd if (pCap->halHTSupport == AH_TRUE && (mode & HAL_MODE_11G))
5514779705SSam Leffler mode |= HAL_MODE_11NG_HT20
5614779705SSam Leffler | HAL_MODE_11NG_HT40PLUS
5714779705SSam Leffler | HAL_MODE_11NG_HT40MINUS
5814779705SSam Leffler ;
5914779705SSam Leffler return mode;
6014779705SSam Leffler }
6114779705SSam Leffler
6214779705SSam Leffler /*
6314779705SSam Leffler * Change the LED blinking pattern to correspond to the connectivity
6414779705SSam Leffler */
6514779705SSam Leffler void
ar5416SetLedState(struct ath_hal * ah,HAL_LED_STATE state)6614779705SSam Leffler ar5416SetLedState(struct ath_hal *ah, HAL_LED_STATE state)
6714779705SSam Leffler {
6814779705SSam Leffler static const uint32_t ledbits[8] = {
6914779705SSam Leffler AR_MAC_LED_ASSOC_NONE, /* HAL_LED_INIT */
7014779705SSam Leffler AR_MAC_LED_ASSOC_PEND, /* HAL_LED_SCAN */
7114779705SSam Leffler AR_MAC_LED_ASSOC_PEND, /* HAL_LED_AUTH */
7214779705SSam Leffler AR_MAC_LED_ASSOC_ACTIVE, /* HAL_LED_ASSOC*/
7314779705SSam Leffler AR_MAC_LED_ASSOC_ACTIVE, /* HAL_LED_RUN */
7414779705SSam Leffler AR_MAC_LED_ASSOC_NONE,
7514779705SSam Leffler AR_MAC_LED_ASSOC_NONE,
7614779705SSam Leffler AR_MAC_LED_ASSOC_NONE,
7714779705SSam Leffler };
7814779705SSam Leffler
799f25ad52SAdrian Chadd if (AR_SREV_HOWL(ah))
809f25ad52SAdrian Chadd return;
819f25ad52SAdrian Chadd
822942e03fSAdrian Chadd /*
832942e03fSAdrian Chadd * Set the blink operating mode.
842942e03fSAdrian Chadd */
85252b52fdSAdrian Chadd OS_REG_RMW_FIELD(ah, AR_MAC_LED,
86252b52fdSAdrian Chadd AR_MAC_LED_ASSOC, ledbits[state & 0x7]);
87252b52fdSAdrian Chadd
882942e03fSAdrian Chadd /* XXX Blink slow mode? */
892942e03fSAdrian Chadd /* XXX Blink threshold? */
902942e03fSAdrian Chadd /* XXX Blink sleep hystersis? */
912942e03fSAdrian Chadd
92252b52fdSAdrian Chadd /*
932942e03fSAdrian Chadd * Set the LED blink configuration to be proportional
942942e03fSAdrian Chadd * to the current TX and RX filter bytes. (Ie, RX'ed
952942e03fSAdrian Chadd * frames that don't match the filter are ignored.)
962942e03fSAdrian Chadd * This means that higher TX/RX throughput will result
972942e03fSAdrian Chadd * in the blink rate increasing.
98252b52fdSAdrian Chadd */
992942e03fSAdrian Chadd OS_REG_RMW_FIELD(ah, AR_MAC_LED, AR_MAC_LED_MODE,
1002942e03fSAdrian Chadd AR_MAC_LED_MODE_PROP);
10114779705SSam Leffler }
10214779705SSam Leffler
10314779705SSam Leffler /*
104fc4de9b7SAdrian Chadd * Get the current hardware tsf for stamlme
105fc4de9b7SAdrian Chadd */
106fc4de9b7SAdrian Chadd uint64_t
ar5416GetTsf64(struct ath_hal * ah)107fc4de9b7SAdrian Chadd ar5416GetTsf64(struct ath_hal *ah)
108fc4de9b7SAdrian Chadd {
109fc4de9b7SAdrian Chadd uint32_t low1, low2, u32;
110fc4de9b7SAdrian Chadd
111fc4de9b7SAdrian Chadd /* sync multi-word read */
112fc4de9b7SAdrian Chadd low1 = OS_REG_READ(ah, AR_TSF_L32);
113fc4de9b7SAdrian Chadd u32 = OS_REG_READ(ah, AR_TSF_U32);
114fc4de9b7SAdrian Chadd low2 = OS_REG_READ(ah, AR_TSF_L32);
115fc4de9b7SAdrian Chadd if (low2 < low1) { /* roll over */
116fc4de9b7SAdrian Chadd /*
117fc4de9b7SAdrian Chadd * If we are not preempted this will work. If we are
118fc4de9b7SAdrian Chadd * then we re-reading AR_TSF_U32 does no good as the
119fc4de9b7SAdrian Chadd * low bits will be meaningless. Likewise reading
120fc4de9b7SAdrian Chadd * L32, U32, U32, then comparing the last two reads
121fc4de9b7SAdrian Chadd * to check for rollover doesn't help if preempted--so
122fc4de9b7SAdrian Chadd * we take this approach as it costs one less PCI read
123fc4de9b7SAdrian Chadd * which can be noticeable when doing things like
124fc4de9b7SAdrian Chadd * timestamping packets in monitor mode.
125fc4de9b7SAdrian Chadd */
126fc4de9b7SAdrian Chadd u32++;
127fc4de9b7SAdrian Chadd }
128fc4de9b7SAdrian Chadd return (((uint64_t) u32) << 32) | ((uint64_t) low2);
129fc4de9b7SAdrian Chadd }
130fc4de9b7SAdrian Chadd
1316dd853a7SAdrian Chadd /*
1326dd853a7SAdrian Chadd * Update the TSF.
1336dd853a7SAdrian Chadd *
1346dd853a7SAdrian Chadd * The full TSF is only updated once the upper 32 bits have
1356dd853a7SAdrian Chadd * been written. Writing only the lower 32 bits of the TSF
1366dd853a7SAdrian Chadd * will not actually correctly update the TSF.
1376dd853a7SAdrian Chadd *
1386dd853a7SAdrian Chadd * The #if 0'ed code is to check whether the previous TSF
1396dd853a7SAdrian Chadd * reset or write has completed before writing to the
1406dd853a7SAdrian Chadd * TSF. Strictly speaking, it should be also checked before
1416dd853a7SAdrian Chadd * reading the TSF as the write/reset may not have completed.
1426dd853a7SAdrian Chadd */
143fc4de9b7SAdrian Chadd void
ar5416SetTsf64(struct ath_hal * ah,uint64_t tsf64)144fc4de9b7SAdrian Chadd ar5416SetTsf64(struct ath_hal *ah, uint64_t tsf64)
145fc4de9b7SAdrian Chadd {
146c83ba0b9SAdrian Chadd /* XXX check if this is correct! */
147c83ba0b9SAdrian Chadd #if 0
148c83ba0b9SAdrian Chadd int i;
149c83ba0b9SAdrian Chadd uint32_t v;
150c83ba0b9SAdrian Chadd
151c83ba0b9SAdrian Chadd for (i = 0; i < 10; i++) {
152c83ba0b9SAdrian Chadd v = OS_REG_READ(ah, AR_SLP32_MODE);
153c83ba0b9SAdrian Chadd if ((v & AR_SLP32_TSF_WRITE_STATUS) == 0)
154c83ba0b9SAdrian Chadd break;
155c83ba0b9SAdrian Chadd OS_DELAY(10);
156c83ba0b9SAdrian Chadd }
157c83ba0b9SAdrian Chadd if (i == 10)
158c83ba0b9SAdrian Chadd ath_hal_printf(ah, "%s: couldn't slew things right!\n", __func__);
159c83ba0b9SAdrian Chadd #endif
160c83ba0b9SAdrian Chadd
161fc4de9b7SAdrian Chadd OS_REG_WRITE(ah, AR_TSF_L32, tsf64 & 0xffffffff);
162fc4de9b7SAdrian Chadd OS_REG_WRITE(ah, AR_TSF_U32, (tsf64 >> 32) & 0xffffffff);
163fc4de9b7SAdrian Chadd }
164fc4de9b7SAdrian Chadd
165fc4de9b7SAdrian Chadd /*
16614779705SSam Leffler * Reset the current hardware tsf for stamlme.
16714779705SSam Leffler */
16814779705SSam Leffler void
ar5416ResetTsf(struct ath_hal * ah)16914779705SSam Leffler ar5416ResetTsf(struct ath_hal *ah)
17014779705SSam Leffler {
17114779705SSam Leffler uint32_t v;
17214779705SSam Leffler int i;
17314779705SSam Leffler
17414779705SSam Leffler for (i = 0; i < 10; i++) {
17514779705SSam Leffler v = OS_REG_READ(ah, AR_SLP32_MODE);
17614779705SSam Leffler if ((v & AR_SLP32_TSF_WRITE_STATUS) == 0)
17714779705SSam Leffler break;
17814779705SSam Leffler OS_DELAY(10);
17914779705SSam Leffler }
18014779705SSam Leffler OS_REG_WRITE(ah, AR_RESET_TSF, AR_RESET_TSF_ONCE);
18114779705SSam Leffler }
18214779705SSam Leffler
183a57433b9SAdrian Chadd uint32_t
ar5416GetCurRssi(struct ath_hal * ah)184a57433b9SAdrian Chadd ar5416GetCurRssi(struct ath_hal *ah)
185a57433b9SAdrian Chadd {
186a57433b9SAdrian Chadd if (AR_SREV_OWL(ah))
187a57433b9SAdrian Chadd return (OS_REG_READ(ah, AR_PHY_CURRENT_RSSI) & 0xff);
188a57433b9SAdrian Chadd return (OS_REG_READ(ah, AR9130_PHY_CURRENT_RSSI) & 0xff);
189a57433b9SAdrian Chadd }
190a57433b9SAdrian Chadd
19114779705SSam Leffler HAL_BOOL
ar5416SetAntennaSwitch(struct ath_hal * ah,HAL_ANT_SETTING settings)19214779705SSam Leffler ar5416SetAntennaSwitch(struct ath_hal *ah, HAL_ANT_SETTING settings)
19314779705SSam Leffler {
19414779705SSam Leffler return AH_TRUE;
19514779705SSam Leffler }
19614779705SSam Leffler
19714779705SSam Leffler /* Setup decompression for given key index */
19814779705SSam Leffler HAL_BOOL
ar5416SetDecompMask(struct ath_hal * ah,uint16_t keyidx,int en)19914779705SSam Leffler ar5416SetDecompMask(struct ath_hal *ah, uint16_t keyidx, int en)
20014779705SSam Leffler {
201ead07963SAdrian Chadd return AH_TRUE;
20214779705SSam Leffler }
20314779705SSam Leffler
20414779705SSam Leffler /* Setup coverage class */
20514779705SSam Leffler void
ar5416SetCoverageClass(struct ath_hal * ah,uint8_t coverageclass,int now)20614779705SSam Leffler ar5416SetCoverageClass(struct ath_hal *ah, uint8_t coverageclass, int now)
20714779705SSam Leffler {
20841b53a9aSAdrian Chadd
20941b53a9aSAdrian Chadd ar5212SetCoverageClass(ah, coverageclass, now);
21014779705SSam Leffler }
21114779705SSam Leffler
21214779705SSam Leffler /*
213a1dd224bSAdrian Chadd * Return the busy for rx_frame, rx_clear, and tx_frame
214a1dd224bSAdrian Chadd */
215352f07f6SAdrian Chadd HAL_BOOL
ar5416GetMibCycleCounts(struct ath_hal * ah,HAL_SURVEY_SAMPLE * hsample)216af5336e3SAdrian Chadd ar5416GetMibCycleCounts(struct ath_hal *ah, HAL_SURVEY_SAMPLE *hsample)
217a1dd224bSAdrian Chadd {
218a1dd224bSAdrian Chadd struct ath_hal_5416 *ahp = AH5416(ah);
219352f07f6SAdrian Chadd u_int32_t good = AH_TRUE;
220a1dd224bSAdrian Chadd
221a1dd224bSAdrian Chadd /* XXX freeze/unfreeze mib counters */
222a1dd224bSAdrian Chadd uint32_t rc = OS_REG_READ(ah, AR_RCCNT);
223a1dd224bSAdrian Chadd uint32_t ec = OS_REG_READ(ah, AR_EXTRCCNT);
224a1dd224bSAdrian Chadd uint32_t rf = OS_REG_READ(ah, AR_RFCNT);
225a1dd224bSAdrian Chadd uint32_t tf = OS_REG_READ(ah, AR_TFCNT);
226a1dd224bSAdrian Chadd uint32_t cc = OS_REG_READ(ah, AR_CCCNT); /* read cycles last */
227a1dd224bSAdrian Chadd
228a1dd224bSAdrian Chadd if (ahp->ah_cycleCount == 0 || ahp->ah_cycleCount > cc) {
229a1dd224bSAdrian Chadd /*
230a1dd224bSAdrian Chadd * Cycle counter wrap (or initial call); it's not possible
231a1dd224bSAdrian Chadd * to accurately calculate a value because the registers
232a1dd224bSAdrian Chadd * right shift rather than wrap--so punt and return 0.
233a1dd224bSAdrian Chadd */
234a1dd224bSAdrian Chadd HALDEBUG(ah, HAL_DEBUG_ANY,
235a1dd224bSAdrian Chadd "%s: cycle counter wrap. ExtBusy = 0\n", __func__);
236352f07f6SAdrian Chadd good = AH_FALSE;
237a1dd224bSAdrian Chadd } else {
238af5336e3SAdrian Chadd hsample->cycle_count = cc - ahp->ah_cycleCount;
239af5336e3SAdrian Chadd hsample->chan_busy = rc - ahp->ah_ctlBusy;
240af5336e3SAdrian Chadd hsample->ext_chan_busy = ec - ahp->ah_extBusy;
241af5336e3SAdrian Chadd hsample->rx_busy = rf - ahp->ah_rxBusy;
242af5336e3SAdrian Chadd hsample->tx_busy = tf - ahp->ah_txBusy;
243af5336e3SAdrian Chadd }
244a1dd224bSAdrian Chadd
245af5336e3SAdrian Chadd /*
246af5336e3SAdrian Chadd * Keep a copy of the MIB results so the next sample has something
247af5336e3SAdrian Chadd * to work from.
248af5336e3SAdrian Chadd */
249a1dd224bSAdrian Chadd ahp->ah_cycleCount = cc;
250a1dd224bSAdrian Chadd ahp->ah_rxBusy = rf;
251a1dd224bSAdrian Chadd ahp->ah_ctlBusy = rc;
252a1dd224bSAdrian Chadd ahp->ah_txBusy = tf;
253a1dd224bSAdrian Chadd ahp->ah_extBusy = ec;
254a1dd224bSAdrian Chadd
255352f07f6SAdrian Chadd return (good);
256a1dd224bSAdrian Chadd }
257a1dd224bSAdrian Chadd
258a1dd224bSAdrian Chadd /*
259d2a72d67SAdrian Chadd * Setup the TX/RX chainmasks - this needs to be done before a call
260d2a72d67SAdrian Chadd * to the reset method as it doesn't update the hardware.
261d2a72d67SAdrian Chadd */
262d2a72d67SAdrian Chadd void
ar5416SetChainMasks(struct ath_hal * ah,uint32_t tx_chainmask,uint32_t rx_chainmask)263d2a72d67SAdrian Chadd ar5416SetChainMasks(struct ath_hal *ah, uint32_t tx_chainmask,
264d2a72d67SAdrian Chadd uint32_t rx_chainmask)
265d2a72d67SAdrian Chadd {
266d2a72d67SAdrian Chadd HAL_CAPABILITIES *pCap = &AH_PRIVATE(ah)->ah_caps;
267d2a72d67SAdrian Chadd
268d2a72d67SAdrian Chadd AH5416(ah)->ah_tx_chainmask = tx_chainmask & pCap->halTxChainMask;
269d2a72d67SAdrian Chadd AH5416(ah)->ah_rx_chainmask = rx_chainmask & pCap->halRxChainMask;
270d2a72d67SAdrian Chadd }
271d2a72d67SAdrian Chadd
272d2a72d67SAdrian Chadd /*
27314779705SSam Leffler * Return approximation of extension channel busy over an time interval
27414779705SSam Leffler * 0% (clear) -> 100% (busy)
27514779705SSam Leffler *
276af5336e3SAdrian Chadd * XXX TODO: update this to correctly sample all the counters,
277af5336e3SAdrian Chadd * rather than a subset of it.
27814779705SSam Leffler */
27914779705SSam Leffler uint32_t
ar5416Get11nExtBusy(struct ath_hal * ah)28014779705SSam Leffler ar5416Get11nExtBusy(struct ath_hal *ah)
28114779705SSam Leffler {
28214779705SSam Leffler struct ath_hal_5416 *ahp = AH5416(ah);
28314779705SSam Leffler uint32_t busy; /* percentage */
28414779705SSam Leffler uint32_t cycleCount, ctlBusy, extBusy;
28514779705SSam Leffler
28614779705SSam Leffler ctlBusy = OS_REG_READ(ah, AR_RCCNT);
28714779705SSam Leffler extBusy = OS_REG_READ(ah, AR_EXTRCCNT);
28814779705SSam Leffler cycleCount = OS_REG_READ(ah, AR_CCCNT);
28914779705SSam Leffler
29014779705SSam Leffler if (ahp->ah_cycleCount == 0 || ahp->ah_cycleCount > cycleCount) {
29114779705SSam Leffler /*
29214779705SSam Leffler * Cycle counter wrap (or initial call); it's not possible
29314779705SSam Leffler * to accurately calculate a value because the registers
29414779705SSam Leffler * right shift rather than wrap--so punt and return 0.
29514779705SSam Leffler */
29614779705SSam Leffler busy = 0;
29714779705SSam Leffler HALDEBUG(ah, HAL_DEBUG_ANY, "%s: cycle counter wrap. ExtBusy = 0\n",
29814779705SSam Leffler __func__);
29914779705SSam Leffler
30014779705SSam Leffler } else {
30114779705SSam Leffler uint32_t cycleDelta = cycleCount - ahp->ah_cycleCount;
30214779705SSam Leffler uint32_t ctlBusyDelta = ctlBusy - ahp->ah_ctlBusy;
30314779705SSam Leffler uint32_t extBusyDelta = extBusy - ahp->ah_extBusy;
30414779705SSam Leffler uint32_t ctlClearDelta = 0;
30514779705SSam Leffler
30614779705SSam Leffler /* Compute control channel rxclear.
30714779705SSam Leffler * The cycle delta may be less than the control channel delta.
30814779705SSam Leffler * This could be solved by freezing the timers (or an atomic read,
30914779705SSam Leffler * if one was available). Checking for the condition should be
31014779705SSam Leffler * sufficient.
31114779705SSam Leffler */
31214779705SSam Leffler if (cycleDelta > ctlBusyDelta) {
31314779705SSam Leffler ctlClearDelta = cycleDelta - ctlBusyDelta;
31414779705SSam Leffler }
31514779705SSam Leffler
31614779705SSam Leffler /* Compute ratio of extension channel busy to control channel clear
31714779705SSam Leffler * as an approximation to extension channel cleanliness.
31814779705SSam Leffler *
31914779705SSam Leffler * According to the hardware folks, ext rxclear is undefined
32014779705SSam Leffler * if the ctrl rxclear is de-asserted (i.e. busy)
32114779705SSam Leffler */
32214779705SSam Leffler if (ctlClearDelta) {
32314779705SSam Leffler busy = (extBusyDelta * 100) / ctlClearDelta;
32414779705SSam Leffler } else {
32514779705SSam Leffler busy = 100;
32614779705SSam Leffler }
32714779705SSam Leffler if (busy > 100) {
32814779705SSam Leffler busy = 100;
32914779705SSam Leffler }
33014779705SSam Leffler #if 0
33114779705SSam Leffler HALDEBUG(ah, HAL_DEBUG_ANY, "%s: cycleDelta 0x%x, ctlBusyDelta 0x%x, "
33214779705SSam Leffler "extBusyDelta 0x%x, ctlClearDelta 0x%x, "
33314779705SSam Leffler "busy %d\n",
33414779705SSam Leffler __func__, cycleDelta, ctlBusyDelta, extBusyDelta, ctlClearDelta, busy);
33514779705SSam Leffler #endif
33614779705SSam Leffler }
33714779705SSam Leffler
33814779705SSam Leffler ahp->ah_cycleCount = cycleCount;
33914779705SSam Leffler ahp->ah_ctlBusy = ctlBusy;
34014779705SSam Leffler ahp->ah_extBusy = extBusy;
34114779705SSam Leffler
34214779705SSam Leffler return busy;
34314779705SSam Leffler }
34414779705SSam Leffler
34514779705SSam Leffler /*
34614779705SSam Leffler * Configure 20/40 operation
34714779705SSam Leffler *
34814779705SSam Leffler * 20/40 = joint rx clear (control and extension)
34914779705SSam Leffler * 20 = rx clear (control)
35014779705SSam Leffler *
35114779705SSam Leffler * - NOTE: must stop MAC (tx) and requeue 40 MHz packets as 20 MHz when changing
35214779705SSam Leffler * from 20/40 => 20 only
35314779705SSam Leffler */
35414779705SSam Leffler void
ar5416Set11nMac2040(struct ath_hal * ah,HAL_HT_MACMODE mode)35514779705SSam Leffler ar5416Set11nMac2040(struct ath_hal *ah, HAL_HT_MACMODE mode)
35614779705SSam Leffler {
35714779705SSam Leffler uint32_t macmode;
35814779705SSam Leffler
35914779705SSam Leffler /* Configure MAC for 20/40 operation */
36014779705SSam Leffler if (mode == HAL_HT_MACMODE_2040) {
36114779705SSam Leffler macmode = AR_2040_JOINED_RX_CLEAR;
36214779705SSam Leffler } else {
36314779705SSam Leffler macmode = 0;
36414779705SSam Leffler }
36514779705SSam Leffler OS_REG_WRITE(ah, AR_2040_MODE, macmode);
36614779705SSam Leffler }
36714779705SSam Leffler
36814779705SSam Leffler /*
36914779705SSam Leffler * Get Rx clear (control/extension channel)
37014779705SSam Leffler *
37114779705SSam Leffler * Returns active low (busy) for ctrl/ext channel
37214779705SSam Leffler * Owl 2.0
37314779705SSam Leffler */
37414779705SSam Leffler HAL_HT_RXCLEAR
ar5416Get11nRxClear(struct ath_hal * ah)37514779705SSam Leffler ar5416Get11nRxClear(struct ath_hal *ah)
37614779705SSam Leffler {
37714779705SSam Leffler HAL_HT_RXCLEAR rxclear = 0;
37814779705SSam Leffler uint32_t val;
37914779705SSam Leffler
38014779705SSam Leffler val = OS_REG_READ(ah, AR_DIAG_SW);
38114779705SSam Leffler
38214779705SSam Leffler /* control channel */
38314779705SSam Leffler if (val & AR_DIAG_RXCLEAR_CTL_LOW) {
38414779705SSam Leffler rxclear |= HAL_RX_CLEAR_CTL_LOW;
38514779705SSam Leffler }
38614779705SSam Leffler /* extension channel */
3879ff4b713SAdrian Chadd if (val & AR_DIAG_RXCLEAR_EXT_LOW) {
38814779705SSam Leffler rxclear |= HAL_RX_CLEAR_EXT_LOW;
38914779705SSam Leffler }
39014779705SSam Leffler return rxclear;
39114779705SSam Leffler }
39214779705SSam Leffler
39314779705SSam Leffler /*
39414779705SSam Leffler * Set Rx clear (control/extension channel)
39514779705SSam Leffler *
39614779705SSam Leffler * Useful for forcing the channel to appear busy for
39714779705SSam Leffler * debugging/diagnostics
39814779705SSam Leffler * Owl 2.0
39914779705SSam Leffler */
40014779705SSam Leffler void
ar5416Set11nRxClear(struct ath_hal * ah,HAL_HT_RXCLEAR rxclear)40114779705SSam Leffler ar5416Set11nRxClear(struct ath_hal *ah, HAL_HT_RXCLEAR rxclear)
40214779705SSam Leffler {
40314779705SSam Leffler /* control channel */
40414779705SSam Leffler if (rxclear & HAL_RX_CLEAR_CTL_LOW) {
40514779705SSam Leffler OS_REG_SET_BIT(ah, AR_DIAG_SW, AR_DIAG_RXCLEAR_CTL_LOW);
40614779705SSam Leffler } else {
40714779705SSam Leffler OS_REG_CLR_BIT(ah, AR_DIAG_SW, AR_DIAG_RXCLEAR_CTL_LOW);
40814779705SSam Leffler }
40914779705SSam Leffler /* extension channel */
41014779705SSam Leffler if (rxclear & HAL_RX_CLEAR_EXT_LOW) {
41114779705SSam Leffler OS_REG_SET_BIT(ah, AR_DIAG_SW, AR_DIAG_RXCLEAR_EXT_LOW);
41214779705SSam Leffler } else {
41314779705SSam Leffler OS_REG_CLR_BIT(ah, AR_DIAG_SW, AR_DIAG_RXCLEAR_EXT_LOW);
41414779705SSam Leffler }
41514779705SSam Leffler }
41614779705SSam Leffler
41704d172dbSAdrian Chadd /* XXX shouldn't be here! */
41804d172dbSAdrian Chadd #define TU_TO_USEC(_tu) ((_tu) << 10)
41904d172dbSAdrian Chadd
42004d172dbSAdrian Chadd HAL_STATUS
ar5416SetQuiet(struct ath_hal * ah,uint32_t period,uint32_t duration,uint32_t nextStart,HAL_QUIET_FLAG flag)42104d172dbSAdrian Chadd ar5416SetQuiet(struct ath_hal *ah, uint32_t period, uint32_t duration,
42204d172dbSAdrian Chadd uint32_t nextStart, HAL_QUIET_FLAG flag)
42304d172dbSAdrian Chadd {
42404d172dbSAdrian Chadd uint32_t period_us = TU_TO_USEC(period); /* convert to us unit */
42504d172dbSAdrian Chadd uint32_t nextStart_us = TU_TO_USEC(nextStart); /* convert to us unit */
42604d172dbSAdrian Chadd if (flag & HAL_QUIET_ENABLE) {
42704d172dbSAdrian Chadd if ((!nextStart) || (flag & HAL_QUIET_ADD_CURRENT_TSF)) {
42804d172dbSAdrian Chadd /* Add the nextStart offset to the current TSF */
42904d172dbSAdrian Chadd nextStart_us += OS_REG_READ(ah, AR_TSF_L32);
43004d172dbSAdrian Chadd }
43104d172dbSAdrian Chadd if (flag & HAL_QUIET_ADD_SWBA_RESP_TIME) {
43237931a35SAdrian Chadd nextStart_us += ah->ah_config.ah_sw_beacon_response_time;
43304d172dbSAdrian Chadd }
43404d172dbSAdrian Chadd OS_REG_RMW_FIELD(ah, AR_QUIET1, AR_QUIET1_QUIET_ACK_CTS_ENABLE, 1);
43504d172dbSAdrian Chadd OS_REG_WRITE(ah, AR_QUIET2, SM(duration, AR_QUIET2_QUIET_DUR));
43604d172dbSAdrian Chadd OS_REG_WRITE(ah, AR_QUIET_PERIOD, period_us);
43704d172dbSAdrian Chadd OS_REG_WRITE(ah, AR_NEXT_QUIET, nextStart_us);
43804d172dbSAdrian Chadd OS_REG_SET_BIT(ah, AR_TIMER_MODE, AR_TIMER_MODE_QUIET);
43904d172dbSAdrian Chadd } else {
44004d172dbSAdrian Chadd OS_REG_CLR_BIT(ah, AR_TIMER_MODE, AR_TIMER_MODE_QUIET);
44104d172dbSAdrian Chadd }
44204d172dbSAdrian Chadd return HAL_OK;
44304d172dbSAdrian Chadd }
44404d172dbSAdrian Chadd #undef TU_TO_USEC
44504d172dbSAdrian Chadd
44614779705SSam Leffler HAL_STATUS
ar5416GetCapability(struct ath_hal * ah,HAL_CAPABILITY_TYPE type,uint32_t capability,uint32_t * result)44714779705SSam Leffler ar5416GetCapability(struct ath_hal *ah, HAL_CAPABILITY_TYPE type,
44814779705SSam Leffler uint32_t capability, uint32_t *result)
44914779705SSam Leffler {
45014779705SSam Leffler switch (type) {
45114779705SSam Leffler case HAL_CAP_BB_HANG:
45214779705SSam Leffler switch (capability) {
45314779705SSam Leffler case HAL_BB_HANG_RIFS:
454de1334e8SAdrian Chadd return (AR_SREV_HOWL(ah) || AR_SREV_SOWL(ah)) ? HAL_OK : HAL_ENOTSUPP;
45514779705SSam Leffler case HAL_BB_HANG_DFS:
456de1334e8SAdrian Chadd return (AR_SREV_HOWL(ah) || AR_SREV_SOWL(ah)) ? HAL_OK : HAL_ENOTSUPP;
45714779705SSam Leffler case HAL_BB_HANG_RX_CLEAR:
45814779705SSam Leffler return AR_SREV_MERLIN(ah) ? HAL_OK : HAL_ENOTSUPP;
45914779705SSam Leffler }
46014779705SSam Leffler break;
46114779705SSam Leffler case HAL_CAP_MAC_HANG:
46214779705SSam Leffler return ((ah->ah_macVersion == AR_XSREV_VERSION_OWL_PCI) ||
46314779705SSam Leffler (ah->ah_macVersion == AR_XSREV_VERSION_OWL_PCIE) ||
464de1334e8SAdrian Chadd AR_SREV_HOWL(ah) || AR_SREV_SOWL(ah)) ?
46514779705SSam Leffler HAL_OK : HAL_ENOTSUPP;
46652d84465SAdrian Chadd case HAL_CAP_DIVERSITY: /* disable classic fast diversity */
46752d84465SAdrian Chadd return HAL_ENXIO;
468e5d63a99SAdrian Chadd case HAL_CAP_ENFORCE_TXOP:
46938aa9f36SAdrian Chadd if (capability == 0)
47038aa9f36SAdrian Chadd return (HAL_OK);
47138aa9f36SAdrian Chadd if (capability != 1)
47238aa9f36SAdrian Chadd return (HAL_ENOTSUPP);
473e5d63a99SAdrian Chadd (*result) =
474e5d63a99SAdrian Chadd !! (AH5212(ah)->ah_miscMode & AR_PCU_TXOP_TBTT_LIMIT_ENA);
475e5d63a99SAdrian Chadd return (HAL_OK);
47614779705SSam Leffler default:
47714779705SSam Leffler break;
47814779705SSam Leffler }
47914779705SSam Leffler return ar5212GetCapability(ah, type, capability, result);
48014779705SSam Leffler }
48114779705SSam Leffler
48240ffb20dSAdrian Chadd HAL_BOOL
ar5416SetCapability(struct ath_hal * ah,HAL_CAPABILITY_TYPE type,u_int32_t capability,u_int32_t setting,HAL_STATUS * status)48340ffb20dSAdrian Chadd ar5416SetCapability(struct ath_hal *ah, HAL_CAPABILITY_TYPE type,
48440ffb20dSAdrian Chadd u_int32_t capability, u_int32_t setting, HAL_STATUS *status)
48540ffb20dSAdrian Chadd {
48640ffb20dSAdrian Chadd HAL_CAPABILITIES *pCap = &AH_PRIVATE(ah)->ah_caps;
48740ffb20dSAdrian Chadd
48840ffb20dSAdrian Chadd switch (type) {
48940ffb20dSAdrian Chadd case HAL_CAP_RX_CHAINMASK:
4902af3b95bSAdrian Chadd setting &= ath_hal_eepromGet(ah, AR_EEP_RXMASK, NULL);
49140ffb20dSAdrian Chadd pCap->halRxChainMask = setting;
49240ffb20dSAdrian Chadd if (owl_get_ntxchains(setting) > 2)
49340ffb20dSAdrian Chadd pCap->halRxStreams = 2;
49440ffb20dSAdrian Chadd else
49540ffb20dSAdrian Chadd pCap->halRxStreams = 1;
4962a4106cfSAdrian Chadd return AH_TRUE;
49740ffb20dSAdrian Chadd case HAL_CAP_TX_CHAINMASK:
4982af3b95bSAdrian Chadd setting &= ath_hal_eepromGet(ah, AR_EEP_TXMASK, NULL);
49940ffb20dSAdrian Chadd pCap->halTxChainMask = setting;
50040ffb20dSAdrian Chadd if (owl_get_ntxchains(setting) > 2)
50140ffb20dSAdrian Chadd pCap->halTxStreams = 2;
50240ffb20dSAdrian Chadd else
50340ffb20dSAdrian Chadd pCap->halTxStreams = 1;
5042a4106cfSAdrian Chadd return AH_TRUE;
505e5d63a99SAdrian Chadd case HAL_CAP_ENFORCE_TXOP:
50638aa9f36SAdrian Chadd if (capability != 1)
5076ea06919SAdrian Chadd return AH_FALSE;
508e5d63a99SAdrian Chadd if (setting) {
509e5d63a99SAdrian Chadd AH5212(ah)->ah_miscMode
510e5d63a99SAdrian Chadd |= AR_PCU_TXOP_TBTT_LIMIT_ENA;
511e5d63a99SAdrian Chadd OS_REG_SET_BIT(ah, AR_MISC_MODE,
512e5d63a99SAdrian Chadd AR_PCU_TXOP_TBTT_LIMIT_ENA);
513e5d63a99SAdrian Chadd } else {
514e5d63a99SAdrian Chadd AH5212(ah)->ah_miscMode
515e5d63a99SAdrian Chadd &= ~AR_PCU_TXOP_TBTT_LIMIT_ENA;
516e5d63a99SAdrian Chadd OS_REG_CLR_BIT(ah, AR_MISC_MODE,
517e5d63a99SAdrian Chadd AR_PCU_TXOP_TBTT_LIMIT_ENA);
518e5d63a99SAdrian Chadd }
519e5d63a99SAdrian Chadd return AH_TRUE;
52040ffb20dSAdrian Chadd default:
52140ffb20dSAdrian Chadd break;
52240ffb20dSAdrian Chadd }
52340ffb20dSAdrian Chadd return ar5212SetCapability(ah, type, capability, setting, status);
52440ffb20dSAdrian Chadd }
52540ffb20dSAdrian Chadd
52614779705SSam Leffler static int ar5416DetectMacHang(struct ath_hal *ah);
52714779705SSam Leffler static int ar5416DetectBBHang(struct ath_hal *ah);
52814779705SSam Leffler
52914779705SSam Leffler HAL_BOOL
ar5416GetDiagState(struct ath_hal * ah,int request,const void * args,uint32_t argsize,void ** result,uint32_t * resultsize)53014779705SSam Leffler ar5416GetDiagState(struct ath_hal *ah, int request,
53114779705SSam Leffler const void *args, uint32_t argsize,
53214779705SSam Leffler void **result, uint32_t *resultsize)
53314779705SSam Leffler {
53414779705SSam Leffler struct ath_hal_5416 *ahp = AH5416(ah);
53514779705SSam Leffler int hangs;
53614779705SSam Leffler
53714779705SSam Leffler if (ath_hal_getdiagstate(ah, request, args, argsize, result, resultsize))
53814779705SSam Leffler return AH_TRUE;
53914779705SSam Leffler switch (request) {
54014779705SSam Leffler case HAL_DIAG_EEPROM:
54114779705SSam Leffler return ath_hal_eepromDiag(ah, request,
54214779705SSam Leffler args, argsize, result, resultsize);
54314779705SSam Leffler case HAL_DIAG_CHECK_HANGS:
54414779705SSam Leffler if (argsize != sizeof(int))
54514779705SSam Leffler return AH_FALSE;
54614779705SSam Leffler hangs = *(const int *) args;
54714779705SSam Leffler ahp->ah_hangs = 0;
54814779705SSam Leffler if (hangs & HAL_BB_HANGS)
54914779705SSam Leffler ahp->ah_hangs |= ar5416DetectBBHang(ah);
55014779705SSam Leffler /* NB: if BB is hung MAC will be hung too so skip check */
55114779705SSam Leffler if (ahp->ah_hangs == 0 && (hangs & HAL_MAC_HANGS))
55214779705SSam Leffler ahp->ah_hangs |= ar5416DetectMacHang(ah);
55314779705SSam Leffler *result = &ahp->ah_hangs;
55414779705SSam Leffler *resultsize = sizeof(ahp->ah_hangs);
55514779705SSam Leffler return AH_TRUE;
55614779705SSam Leffler }
55714779705SSam Leffler return ar5212GetDiagState(ah, request,
55814779705SSam Leffler args, argsize, result, resultsize);
55914779705SSam Leffler }
56014779705SSam Leffler
561e7cb5d54SAdrian Chadd HAL_BOOL
ar5416SetRifsDelay(struct ath_hal * ah,const struct ieee80211_channel * chan,HAL_BOOL enable)562d6415a7cSAdrian Chadd ar5416SetRifsDelay(struct ath_hal *ah, const struct ieee80211_channel *chan,
563d6415a7cSAdrian Chadd HAL_BOOL enable)
564e7cb5d54SAdrian Chadd {
565e7cb5d54SAdrian Chadd uint32_t val;
566d6415a7cSAdrian Chadd HAL_BOOL is_chan_2g = AH_FALSE;
567d6415a7cSAdrian Chadd HAL_BOOL is_ht40 = AH_FALSE;
568d6415a7cSAdrian Chadd
569d6415a7cSAdrian Chadd if (chan)
570d6415a7cSAdrian Chadd is_chan_2g = IEEE80211_IS_CHAN_2GHZ(chan);
571d6415a7cSAdrian Chadd
572d6415a7cSAdrian Chadd if (chan)
573d6415a7cSAdrian Chadd is_ht40 = IEEE80211_IS_CHAN_HT40(chan);
574e7cb5d54SAdrian Chadd
575e7cb5d54SAdrian Chadd /* Only support disabling RIFS delay for now */
576e7cb5d54SAdrian Chadd HALASSERT(enable == AH_FALSE);
577e7cb5d54SAdrian Chadd
578e7cb5d54SAdrian Chadd if (enable == AH_TRUE)
579e7cb5d54SAdrian Chadd return AH_FALSE;
580e7cb5d54SAdrian Chadd
581e7cb5d54SAdrian Chadd /* Change RIFS init delay to 0 */
582e7cb5d54SAdrian Chadd val = OS_REG_READ(ah, AR_PHY_HEAVY_CLIP_FACTOR_RIFS);
583e7cb5d54SAdrian Chadd val &= ~AR_PHY_RIFS_INIT_DELAY;
584e7cb5d54SAdrian Chadd OS_REG_WRITE(ah, AR_PHY_HEAVY_CLIP_FACTOR_RIFS, val);
585e7cb5d54SAdrian Chadd
586d6415a7cSAdrian Chadd /*
587d6415a7cSAdrian Chadd * For Owl, RIFS RX parameters are controlled differently;
588d6415a7cSAdrian Chadd * it isn't enabled in the inivals by default.
589d6415a7cSAdrian Chadd *
590d6415a7cSAdrian Chadd * For Sowl/Howl, RIFS RX is enabled in the inivals by default;
591d6415a7cSAdrian Chadd * the following code sets them back to non-RIFS values.
592d6415a7cSAdrian Chadd *
593d6415a7cSAdrian Chadd * For > Sowl/Howl, RIFS RX can be left on by default and so
594d6415a7cSAdrian Chadd * this function shouldn't be called.
595d6415a7cSAdrian Chadd */
596d6415a7cSAdrian Chadd if ((! AR_SREV_SOWL(ah)) && (! AR_SREV_HOWL(ah)))
597d6415a7cSAdrian Chadd return AH_TRUE;
598d6415a7cSAdrian Chadd
599d6415a7cSAdrian Chadd /* Reset search delay to default values */
600d6415a7cSAdrian Chadd if (is_chan_2g)
601d6415a7cSAdrian Chadd if (is_ht40)
602d6415a7cSAdrian Chadd OS_REG_WRITE(ah, AR_PHY_SEARCH_START_DELAY, 0x268);
603d6415a7cSAdrian Chadd else
604d6415a7cSAdrian Chadd OS_REG_WRITE(ah, AR_PHY_SEARCH_START_DELAY, 0x134);
605d6415a7cSAdrian Chadd else
606d6415a7cSAdrian Chadd if (is_ht40)
607d6415a7cSAdrian Chadd OS_REG_WRITE(ah, AR_PHY_SEARCH_START_DELAY, 0x370);
608d6415a7cSAdrian Chadd else
609d6415a7cSAdrian Chadd OS_REG_WRITE(ah, AR_PHY_SEARCH_START_DELAY, 0x1b8);
610d6415a7cSAdrian Chadd
611e7cb5d54SAdrian Chadd return AH_TRUE;
612e7cb5d54SAdrian Chadd }
613e7cb5d54SAdrian Chadd
61414779705SSam Leffler static HAL_BOOL
ar5416CompareDbgHang(struct ath_hal * ah,const mac_dbg_regs_t * regs,const hal_mac_hang_check_t * check)61514779705SSam Leffler ar5416CompareDbgHang(struct ath_hal *ah, const mac_dbg_regs_t *regs,
61614779705SSam Leffler const hal_mac_hang_check_t *check)
61714779705SSam Leffler {
61814779705SSam Leffler int found_states;
61914779705SSam Leffler
62014779705SSam Leffler found_states = 0;
62114779705SSam Leffler if (check->states & dcu_chain_state) {
62214779705SSam Leffler int i;
62314779705SSam Leffler
62414779705SSam Leffler for (i = 0; i < 6; i++) {
62514779705SSam Leffler if (((regs->dma_dbg_4 >> (5*i)) & 0x1f) ==
62614779705SSam Leffler check->dcu_chain_state)
62714779705SSam Leffler found_states |= dcu_chain_state;
62814779705SSam Leffler }
62914779705SSam Leffler for (i = 0; i < 4; i++) {
63014779705SSam Leffler if (((regs->dma_dbg_5 >> (5*i)) & 0x1f) ==
63114779705SSam Leffler check->dcu_chain_state)
63214779705SSam Leffler found_states |= dcu_chain_state;
63314779705SSam Leffler }
63414779705SSam Leffler }
63514779705SSam Leffler if (check->states & dcu_complete_state) {
63614779705SSam Leffler if ((regs->dma_dbg_6 & 0x3) == check->dcu_complete_state)
63714779705SSam Leffler found_states |= dcu_complete_state;
63814779705SSam Leffler }
63914779705SSam Leffler if (check->states & qcu_stitch_state) {
64014779705SSam Leffler if (((regs->dma_dbg_3 >> 18) & 0xf) == check->qcu_stitch_state)
64114779705SSam Leffler found_states |= qcu_stitch_state;
64214779705SSam Leffler }
64314779705SSam Leffler if (check->states & qcu_fetch_state) {
64414779705SSam Leffler if (((regs->dma_dbg_3 >> 22) & 0xf) == check->qcu_fetch_state)
64514779705SSam Leffler found_states |= qcu_fetch_state;
64614779705SSam Leffler }
64714779705SSam Leffler if (check->states & qcu_complete_state) {
64814779705SSam Leffler if (((regs->dma_dbg_3 >> 26) & 0x7) == check->qcu_complete_state)
64914779705SSam Leffler found_states |= qcu_complete_state;
65014779705SSam Leffler }
65114779705SSam Leffler return (found_states == check->states);
65214779705SSam Leffler }
65314779705SSam Leffler
65414779705SSam Leffler #define NUM_STATUS_READS 50
65514779705SSam Leffler
65614779705SSam Leffler static int
ar5416DetectMacHang(struct ath_hal * ah)65714779705SSam Leffler ar5416DetectMacHang(struct ath_hal *ah)
65814779705SSam Leffler {
65914779705SSam Leffler static const hal_mac_hang_check_t hang_sig1 = {
66014779705SSam Leffler .dcu_chain_state = 0x6,
66114779705SSam Leffler .dcu_complete_state = 0x1,
66214779705SSam Leffler .states = dcu_chain_state
66314779705SSam Leffler | dcu_complete_state,
66414779705SSam Leffler };
66514779705SSam Leffler static const hal_mac_hang_check_t hang_sig2 = {
66614779705SSam Leffler .qcu_stitch_state = 0x9,
66714779705SSam Leffler .qcu_fetch_state = 0x8,
66814779705SSam Leffler .qcu_complete_state = 0x4,
66914779705SSam Leffler .states = qcu_stitch_state
67014779705SSam Leffler | qcu_fetch_state
67114779705SSam Leffler | qcu_complete_state,
67214779705SSam Leffler };
67314779705SSam Leffler mac_dbg_regs_t mac_dbg;
67414779705SSam Leffler int i;
67514779705SSam Leffler
67614779705SSam Leffler mac_dbg.dma_dbg_3 = OS_REG_READ(ah, AR_DMADBG_3);
67714779705SSam Leffler mac_dbg.dma_dbg_4 = OS_REG_READ(ah, AR_DMADBG_4);
67814779705SSam Leffler mac_dbg.dma_dbg_5 = OS_REG_READ(ah, AR_DMADBG_5);
67914779705SSam Leffler mac_dbg.dma_dbg_6 = OS_REG_READ(ah, AR_DMADBG_6);
68014779705SSam Leffler for (i = 1; i <= NUM_STATUS_READS; i++) {
68114779705SSam Leffler if (mac_dbg.dma_dbg_3 != OS_REG_READ(ah, AR_DMADBG_3) ||
68214779705SSam Leffler mac_dbg.dma_dbg_4 != OS_REG_READ(ah, AR_DMADBG_4) ||
68314779705SSam Leffler mac_dbg.dma_dbg_5 != OS_REG_READ(ah, AR_DMADBG_5) ||
68414779705SSam Leffler mac_dbg.dma_dbg_6 != OS_REG_READ(ah, AR_DMADBG_6))
68514779705SSam Leffler return 0;
68614779705SSam Leffler }
68714779705SSam Leffler
68814779705SSam Leffler if (ar5416CompareDbgHang(ah, &mac_dbg, &hang_sig1))
68914779705SSam Leffler return HAL_MAC_HANG_SIG1;
69014779705SSam Leffler if (ar5416CompareDbgHang(ah, &mac_dbg, &hang_sig2))
69114779705SSam Leffler return HAL_MAC_HANG_SIG2;
69214779705SSam Leffler
693de1334e8SAdrian Chadd HALDEBUG(ah, HAL_DEBUG_HANG, "%s Found an unknown MAC hang signature "
69414779705SSam Leffler "DMADBG_3=0x%x DMADBG_4=0x%x DMADBG_5=0x%x DMADBG_6=0x%x\n",
69514779705SSam Leffler __func__, mac_dbg.dma_dbg_3, mac_dbg.dma_dbg_4, mac_dbg.dma_dbg_5,
69614779705SSam Leffler mac_dbg.dma_dbg_6);
69714779705SSam Leffler
698001ac289SAdrian Chadd return 0;
69914779705SSam Leffler }
70014779705SSam Leffler
70114779705SSam Leffler /*
70214779705SSam Leffler * Determine if the baseband using the Observation Bus Register
70314779705SSam Leffler */
70414779705SSam Leffler static int
ar5416DetectBBHang(struct ath_hal * ah)70514779705SSam Leffler ar5416DetectBBHang(struct ath_hal *ah)
70614779705SSam Leffler {
70714779705SSam Leffler #define N(a) (sizeof(a)/sizeof(a[0]))
70814779705SSam Leffler /*
70914779705SSam Leffler * Check the PCU Observation Bus 1 register (0x806c)
71014779705SSam Leffler * NUM_STATUS_READS times
71114779705SSam Leffler *
71214779705SSam Leffler * 4 known BB hang signatures -
71314779705SSam Leffler * [1] bits 8,9,11 are 0. State machine state (bits 25-31) is 0x1E
71414779705SSam Leffler * [2] bits 8,9 are 1, bit 11 is 0. State machine state
71514779705SSam Leffler * (bits 25-31) is 0x52
71614779705SSam Leffler * [3] bits 8,9 are 1, bit 11 is 0. State machine state
71714779705SSam Leffler * (bits 25-31) is 0x18
71814779705SSam Leffler * [4] bit 10 is 1, bit 11 is 0. WEP state (bits 12-17) is 0x2,
71914779705SSam Leffler * Rx State (bits 20-24) is 0x7.
72014779705SSam Leffler */
72114779705SSam Leffler static const struct {
72214779705SSam Leffler uint32_t val;
72314779705SSam Leffler uint32_t mask;
72414779705SSam Leffler int code;
72514779705SSam Leffler } hang_list[] = {
72614779705SSam Leffler /* Reg Value Reg Mask Hang Code XXX */
72714779705SSam Leffler { 0x1E000000, 0x7E000B00, HAL_BB_HANG_DFS },
72814779705SSam Leffler { 0x52000B00, 0x7E000B00, HAL_BB_HANG_RIFS },
72914779705SSam Leffler { 0x18000B00, 0x7E000B00, HAL_BB_HANG_RX_CLEAR },
73014779705SSam Leffler { 0x00702400, 0x7E7FFFEF, HAL_BB_HANG_RX_CLEAR }
73114779705SSam Leffler };
73214779705SSam Leffler uint32_t hang_sig;
73314779705SSam Leffler int i;
73414779705SSam Leffler
73514779705SSam Leffler hang_sig = OS_REG_READ(ah, AR_OBSERV_1);
73614779705SSam Leffler for (i = 1; i <= NUM_STATUS_READS; i++) {
73714779705SSam Leffler if (hang_sig != OS_REG_READ(ah, AR_OBSERV_1))
73814779705SSam Leffler return 0;
73914779705SSam Leffler }
74014779705SSam Leffler for (i = 0; i < N(hang_list); i++)
74114779705SSam Leffler if ((hang_sig & hang_list[i].mask) == hang_list[i].val) {
742de1334e8SAdrian Chadd HALDEBUG(ah, HAL_DEBUG_HANG,
74314779705SSam Leffler "%s BB hang, signature 0x%x, code 0x%x\n",
74414779705SSam Leffler __func__, hang_sig, hang_list[i].code);
74514779705SSam Leffler return hang_list[i].code;
74614779705SSam Leffler }
74714779705SSam Leffler
748de1334e8SAdrian Chadd HALDEBUG(ah, HAL_DEBUG_HANG, "%s Found an unknown BB hang signature! "
74914779705SSam Leffler "<0x806c>=0x%x\n", __func__, hang_sig);
75014779705SSam Leffler
751001ac289SAdrian Chadd return 0;
75214779705SSam Leffler #undef N
75314779705SSam Leffler }
75414779705SSam Leffler #undef NUM_STATUS_READS
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