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|
/*
* Copyright (c) 2010-2011 Atheros Communications Inc.
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
#include <linux/dma-mapping.h>
#include <linux/slab.h>
#include "ath9k.h"
#include "mci.h"
static const u8 ath_mci_duty_cycle[] = { 55, 50, 60, 70, 80, 85, 90, 95, 98 };
static struct ath_mci_profile_info*
ath_mci_find_profile(struct ath_mci_profile *mci,
struct ath_mci_profile_info *info)
{
struct ath_mci_profile_info *entry;
if (list_empty(&mci->info))
return NULL;
list_for_each_entry(entry, &mci->info, list) {
if (entry->conn_handle == info->conn_handle)
return entry;
}
return NULL;
}
static bool ath_mci_add_profile(struct ath_common *common,
struct ath_mci_profile *mci,
struct ath_mci_profile_info *info)
{
struct ath_mci_profile_info *entry;
u8 voice_priority[] = { 110, 110, 110, 112, 110, 110, 114, 116, 118 };
if ((mci->num_sco == ATH_MCI_MAX_SCO_PROFILE) &&
(info->type == MCI_GPM_COEX_PROFILE_VOICE))
return false;
if (((NUM_PROF(mci) - mci->num_sco) == ATH_MCI_MAX_ACL_PROFILE) &&
(info->type != MCI_GPM_COEX_PROFILE_VOICE))
return false;
entry = kzalloc(sizeof(*entry), GFP_ATOMIC);
if (!entry)
return false;
memcpy(entry, info, 10);
INC_PROF(mci, info);
list_add_tail(&entry->list, &mci->info);
if (info->type == MCI_GPM_COEX_PROFILE_VOICE) {
if (info->voice_type < sizeof(voice_priority))
mci->voice_priority = voice_priority[info->voice_type];
else
mci->voice_priority = 110;
}
return true;
}
static void ath_mci_del_profile(struct ath_common *common,
struct ath_mci_profile *mci,
struct ath_mci_profile_info *entry)
{
if (!entry)
return;
DEC_PROF(mci, entry);
list_del(&entry->list);
kfree(entry);
}
void ath_mci_flush_profile(struct ath_mci_profile *mci)
{
struct ath_mci_profile_info *info, *tinfo;
mci->aggr_limit = 0;
mci->num_mgmt = 0;
if (list_empty(&mci->info))
return;
list_for_each_entry_safe(info, tinfo, &mci->info, list) {
list_del(&info->list);
DEC_PROF(mci, info);
kfree(info);
}
}
static void ath_mci_adjust_aggr_limit(struct ath_btcoex *btcoex)
{
struct ath_mci_profile *mci = &btcoex->mci;
u32 wlan_airtime = btcoex->btcoex_period *
(100 - btcoex->duty_cycle) / 100;
/*
* Scale: wlan_airtime is in ms, aggr_limit is in 0.25 ms.
* When wlan_airtime is less than 4ms, aggregation limit has to be
* adjusted half of wlan_airtime to ensure that the aggregation can fit
* without collision with BT traffic.
*/
if ((wlan_airtime <= 4) &&
(!mci->aggr_limit || (mci->aggr_limit > (2 * wlan_airtime))))
mci->aggr_limit = 2 * wlan_airtime;
}
static void ath_mci_update_scheme(struct ath_softc *sc)
{
struct ath_common *common = ath9k_hw_common(sc->sc_ah);
struct ath_btcoex *btcoex = &sc->btcoex;
struct ath_mci_profile *mci = &btcoex->mci;
struct ath9k_hw_mci *mci_hw = &sc->sc_ah->btcoex_hw.mci;
struct ath_mci_profile_info *info;
u32 num_profile = NUM_PROF(mci);
if (mci_hw->config & ATH_MCI_CONFIG_DISABLE_TUNING)
goto skip_tuning;
mci->aggr_limit = 0;
btcoex->duty_cycle = ath_mci_duty_cycle[num_profile];
btcoex->btcoex_period = ATH_MCI_DEF_BT_PERIOD;
if (NUM_PROF(mci))
btcoex->bt_stomp_type = ATH_BTCOEX_STOMP_LOW;
else
btcoex->bt_stomp_type = mci->num_mgmt ? ATH_BTCOEX_STOMP_ALL :
ATH_BTCOEX_STOMP_LOW;
if (num_profile == 1) {
info = list_first_entry(&mci->info,
struct ath_mci_profile_info,
list);
if (mci->num_sco) {
if (info->T == 12)
mci->aggr_limit = 8;
else if (info->T == 6) {
mci->aggr_limit = 6;
btcoex->duty_cycle = 30;
} else
mci->aggr_limit = 6;
ath_dbg(common, MCI,
"Single SCO, aggregation limit %d 1/4 ms\n",
mci->aggr_limit);
} else if (mci->num_pan || mci->num_other_acl) {
/*
* For single PAN/FTP profile, allocate 35% for BT
* to improve WLAN throughput.
*/
btcoex->duty_cycle = AR_SREV_9565(sc->sc_ah) ? 40 : 35;
btcoex->btcoex_period = 53;
ath_dbg(common, MCI,
"Single PAN/FTP bt period %d ms dutycycle %d\n",
btcoex->duty_cycle, btcoex->btcoex_period);
} else if (mci->num_hid) {
btcoex->duty_cycle = 30;
mci->aggr_limit = 6;
ath_dbg(common, MCI,
"Multiple attempt/timeout single HID "
"aggregation limit 1.5 ms dutycycle 30%%\n");
}
} else if (num_profile == 2) {
if (mci->num_hid == 2)
btcoex->duty_cycle = 30;
mci->aggr_limit = 6;
ath_dbg(common, MCI,
"Two BT profiles aggr limit 1.5 ms dutycycle %d%%\n",
btcoex->duty_cycle);
} else if (num_profile >= 3) {
mci->aggr_limit = 4;
ath_dbg(common, MCI,
"Three or more profiles aggregation limit 1 ms\n");
}
skip_tuning:
if (IS_CHAN_2GHZ(sc->sc_ah->curchan)) {
if (IS_CHAN_HT(sc->sc_ah->curchan))
ath_mci_adjust_aggr_limit(btcoex);
else
btcoex->btcoex_period >>= 1;
}
ath9k_btcoex_timer_pause(sc);
ath9k_hw_btcoex_disable(sc->sc_ah);
if (IS_CHAN_5GHZ(sc->sc_ah->curchan))
return;
btcoex->duty_cycle += (mci->num_bdr ? ATH_MCI_BDR_DUTY_CYCLE : 0);
if (btcoex->duty_cycle > ATH_MCI_MAX_DUTY_CYCLE)
btcoex->duty_cycle = ATH_MCI_MAX_DUTY_CYCLE;
btcoex->btcoex_no_stomp = btcoex->btcoex_period * 1000 *
(100 - btcoex->duty_cycle) / 100;
ath9k_hw_btcoex_enable(sc->sc_ah);
ath9k_btcoex_timer_resume(sc);
}
static void ath_mci_cal_msg(struct ath_softc *sc, u8 opcode, u8 *rx_payload)
{
struct ath_hw *ah = sc->sc_ah;
struct ath_common *common = ath9k_hw_common(ah);
struct ath9k_hw_mci *mci_hw = &ah->btcoex_hw.mci;
u32 payload[4] = {0, 0, 0, 0};
switch (opcode) {
case MCI_GPM_BT_CAL_REQ:
if (mci_hw->bt_state == MCI_BT_AWAKE) {
mci_hw->bt_state = MCI_BT_CAL_START;
ath9k_queue_reset(sc, RESET_TYPE_MCI);
}
ath_dbg(common, MCI, "MCI State : %d\n", mci_hw->bt_state);
break;
case MCI_GPM_BT_CAL_GRANT:
MCI_GPM_SET_CAL_TYPE(payload, MCI_GPM_WLAN_CAL_DONE);
ar9003_mci_send_message(sc->sc_ah, MCI_GPM, 0, payload,
16, false, true);
break;
default:
ath_dbg(common, MCI, "Unknown GPM CAL message\n");
break;
}
}
static void ath9k_mci_work(struct work_struct *work)
{
struct ath_softc *sc = container_of(work, struct ath_softc, mci_work);
ath_mci_update_scheme(sc);
}
static void ath_mci_update_stomp_txprio(u8 cur_txprio, u8 *stomp_prio)
{
if (cur_txprio < stomp_prio[ATH_BTCOEX_STOMP_NONE])
stomp_prio[ATH_BTCOEX_STOMP_NONE] = cur_txprio;
if (cur_txprio > stomp_prio[ATH_BTCOEX_STOMP_ALL])
stomp_prio[ATH_BTCOEX_STOMP_ALL] = cur_txprio;
if ((cur_txprio > ATH_MCI_HI_PRIO) &&
(cur_txprio < stomp_prio[ATH_BTCOEX_STOMP_LOW]))
stomp_prio[ATH_BTCOEX_STOMP_LOW] = cur_txprio;
}
static void ath_mci_set_concur_txprio(struct ath_softc *sc)
{
struct ath_btcoex *btcoex = &sc->btcoex;
struct ath_mci_profile *mci = &btcoex->mci;
u8 stomp_txprio[ATH_BTCOEX_STOMP_MAX];
memset(stomp_txprio, 0, sizeof(stomp_txprio));
if (mci->num_mgmt) {
stomp_txprio[ATH_BTCOEX_STOMP_ALL] = ATH_MCI_INQUIRY_PRIO;
if (!mci->num_pan && !mci->num_other_acl)
stomp_txprio[ATH_BTCOEX_STOMP_NONE] =
ATH_MCI_INQUIRY_PRIO;
} else {
u8 prof_prio[] = { 50, 90, 94, 52 };/* RFCOMM, A2DP, HID, PAN */
stomp_txprio[ATH_BTCOEX_STOMP_LOW] =
stomp_txprio[ATH_BTCOEX_STOMP_NONE] = 0xff;
if (mci->num_sco)
ath_mci_update_stomp_txprio(mci->voice_priority,
stomp_txprio);
if (mci->num_other_acl)
ath_mci_update_stomp_txprio(prof_prio[0], stomp_txprio);
if (mci->num_a2dp)
ath_mci_update_stomp_txprio(prof_prio[1], stomp_txprio);
if (mci->num_hid)
ath_mci_update_stomp_txprio(prof_prio[2], stomp_txprio);
if (mci->num_pan)
ath_mci_update_stomp_txprio(prof_prio[3], stomp_txprio);
if (stomp_txprio[ATH_BTCOEX_STOMP_NONE] == 0xff)
stomp_txprio[ATH_BTCOEX_STOMP_NONE] = 0;
if (stomp_txprio[ATH_BTCOEX_STOMP_LOW] == 0xff)
stomp_txprio[ATH_BTCOEX_STOMP_LOW] = 0;
}
ath9k_hw_btcoex_set_concur_txprio(sc->sc_ah, stomp_txprio);
}
static u8 ath_mci_process_profile(struct ath_softc *sc,
struct ath_mci_profile_info *info)
{
struct ath_common *common = ath9k_hw_common(sc->sc_ah);
struct ath_btcoex *btcoex = &sc->btcoex;
struct ath_mci_profile *mci = &btcoex->mci;
struct ath_mci_profile_info *entry = NULL;
entry = ath_mci_find_profile(mci, info);
if (entry) {
/*
* Two MCI interrupts are generated while connecting to
* headset and A2DP profile, but only one MCI interrupt
* is generated with last added profile type while disconnecting
* both profiles.
* So while adding second profile type decrement
* the first one.
*/
if (entry->type != info->type) {
DEC_PROF(mci, entry);
INC_PROF(mci, info);
}
memcpy(entry, info, 10);
}
if (info->start) {
if (!entry && !ath_mci_add_profile(common, mci, info))
return 0;
} else
ath_mci_del_profile(common, mci, entry);
ath_mci_set_concur_txprio(sc);
return 1;
}
static u8 ath_mci_process_status(struct ath_softc *sc,
struct ath_mci_profile_status *status)
{
struct ath_btcoex *btcoex = &sc->btcoex;
struct ath_mci_profile *mci = &btcoex->mci;
struct ath_mci_profile_info info;
int i = 0, old_num_mgmt = mci->num_mgmt;
/* Link status type are not handled */
if (status->is_link)
return 0;
info.conn_handle = status->conn_handle;
if (ath_mci_find_profile(mci, &info))
return 0;
if (status->conn_handle >= ATH_MCI_MAX_PROFILE)
return 0;
if (status->is_critical)
__set_bit(status->conn_handle, mci->status);
else
__clear_bit(status->conn_handle, mci->status);
mci->num_mgmt = 0;
do {
if (test_bit(i, mci->status))
mci->num_mgmt++;
} while (++i < ATH_MCI_MAX_PROFILE);
ath_mci_set_concur_txprio(sc);
if (old_num_mgmt != mci->num_mgmt)
return 1;
return 0;
}
static void ath_mci_msg(struct ath_softc *sc, u8 opcode, u8 *rx_payload)
{
struct ath_hw *ah = sc->sc_ah;
struct ath_mci_profile_info profile_info;
struct ath_mci_profile_status profile_status;
struct ath_common *common = ath9k_hw_common(sc->sc_ah);
u8 major, minor, update_scheme = 0;
u32 seq_num;
if (ar9003_mci_state(ah, MCI_STATE_NEED_FLUSH_BT_INFO) &&
ar9003_mci_state(ah, MCI_STATE_ENABLE)) {
ath_dbg(common, MCI, "(MCI) Need to flush BT profiles\n");
ath_mci_flush_profile(&sc->btcoex.mci);
ar9003_mci_state(ah, MCI_STATE_SEND_STATUS_QUERY);
}
switch (opcode) {
case MCI_GPM_COEX_VERSION_QUERY:
ar9003_mci_state(ah, MCI_STATE_SEND_WLAN_COEX_VERSION);
break;
case MCI_GPM_COEX_VERSION_RESPONSE:
major = *(rx_payload + MCI_GPM_COEX_B_MAJOR_VERSION);
minor = *(rx_payload + MCI_GPM_COEX_B_MINOR_VERSION);
ar9003_mci_set_bt_version(ah, major, minor);
break;
case MCI_GPM_COEX_STATUS_QUERY:
ar9003_mci_send_wlan_channels(ah);
break;
case MCI_GPM_COEX_BT_PROFILE_INFO:
memcpy(&profile_info,
(rx_payload + MCI_GPM_COEX_B_PROFILE_TYPE), 10);
if ((profile_info.type == MCI_GPM_COEX_PROFILE_UNKNOWN) ||
(profile_info.type >= MCI_GPM_COEX_PROFILE_MAX)) {
ath_dbg(common, MCI,
"Illegal profile type = %d, state = %d\n",
profile_info.type,
profile_info.start);
break;
}
update_scheme += ath_mci_process_profile(sc, &profile_info);
break;
case MCI_GPM_COEX_BT_STATUS_UPDATE:
profile_status.is_link = *(rx_payload +
MCI_GPM_COEX_B_STATUS_TYPE);
profile_status.conn_handle = *(rx_payload +
MCI_GPM_COEX_B_STATUS_LINKID);
profile_status.is_critical = *(rx_payload +
MCI_GPM_COEX_B_STATUS_STATE);
seq_num = *((u32 *)(rx_payload + 12));
ath_dbg(common, MCI,
"BT_Status_Update: is_link=%d, linkId=%d, state=%d, SEQ=%u\n",
profile_status.is_link, profile_status.conn_handle,
profile_status.is_critical, seq_num);
update_scheme += ath_mci_process_status(sc, &profile_status);
break;
default:
ath_dbg(common, MCI, "Unknown GPM COEX message = 0x%02x\n", opcode);
break;
}
if (update_scheme)
ieee80211_queue_work(sc->hw, &sc->mci_work);
}
int ath_mci_setup(struct ath_softc *sc)
{
struct ath_common *common = ath9k_hw_common(sc->sc_ah);
struct ath_mci_coex *mci = &sc->mci_coex;
struct ath_mci_buf *buf = &mci->sched_buf;
int ret;
buf->bf_addr = dmam_alloc_coherent(sc->dev,
ATH_MCI_SCHED_BUF_SIZE + ATH_MCI_GPM_BUF_SIZE,
&buf->bf_paddr, GFP_KERNEL);
if (buf->bf_addr == NULL) {
ath_dbg(common, FATAL, "MCI buffer alloc failed\n");
return -ENOMEM;
}
memset(buf->bf_addr, MCI_GPM_RSVD_PATTERN,
ATH_MCI_SCHED_BUF_SIZE + ATH_MCI_GPM_BUF_SIZE);
mci->sched_buf.bf_len = ATH_MCI_SCHED_BUF_SIZE;
mci->gpm_buf.bf_len = ATH_MCI_GPM_BUF_SIZE;
mci->gpm_buf.bf_addr = (u8 *)mci->sched_buf.bf_addr + mci->sched_buf.bf_len;
mci->gpm_buf.bf_paddr = mci->sched_buf.bf_paddr + mci->sched_buf.bf_len;
ret = ar9003_mci_setup(sc->sc_ah, mci->gpm_buf.bf_paddr,
mci->gpm_buf.bf_addr, (mci->gpm_buf.bf_len >> 4),
mci->sched_buf.bf_paddr);
if (ret) {
ath_err(common, "Failed to initialize MCI\n");
return ret;
}
INIT_WORK(&sc->mci_work, ath9k_mci_work);
ath_dbg(common, MCI, "MCI Initialized\n");
return 0;
}
void ath_mci_cleanup(struct ath_softc *sc)
{
struct ath_common *common = ath9k_hw_common(sc->sc_ah);
struct ath_hw *ah = sc->sc_ah;
ar9003_mci_cleanup(ah);
ath_dbg(common, MCI, "MCI De-Initialized\n");
}
void ath_mci_intr(struct ath_softc *sc)
{
struct ath_mci_coex *mci = &sc->mci_coex;
struct ath_hw *ah = sc->sc_ah;
struct ath_common *common = ath9k_hw_common(ah);
struct ath9k_hw_mci *mci_hw = &ah->btcoex_hw.mci;
u32 mci_int, mci_int_rxmsg;
u32 offset, subtype, opcode;
u32 *pgpm;
u32 more_data = MCI_GPM_MORE;
bool skip_gpm = false;
ar9003_mci_get_interrupt(sc->sc_ah, &mci_int, &mci_int_rxmsg);
if (ar9003_mci_state(ah, MCI_STATE_ENABLE) == 0) {
ar9003_mci_get_next_gpm_offset(ah, true, NULL);
return;
}
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_REQ_WAKE) {
u32 payload[4] = { 0xffffffff, 0xffffffff,
0xffffffff, 0xffffff00};
/*
* The following REMOTE_RESET and SYS_WAKING used to sent
* only when BT wake up. Now they are always sent, as a
* recovery method to reset BT MCI's RX alignment.
*/
ar9003_mci_send_message(ah, MCI_REMOTE_RESET, 0,
payload, 16, true, false);
ar9003_mci_send_message(ah, MCI_SYS_WAKING, 0,
NULL, 0, true, false);
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_REQ_WAKE;
ar9003_mci_state(ah, MCI_STATE_RESET_REQ_WAKE);
/*
* always do this for recovery and 2G/5G toggling and LNA_TRANS
*/
ar9003_mci_state(ah, MCI_STATE_SET_BT_AWAKE);
}
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_SYS_WAKING) {
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_SYS_WAKING;
if ((mci_hw->bt_state == MCI_BT_SLEEP) &&
(ar9003_mci_state(ah, MCI_STATE_REMOTE_SLEEP) !=
MCI_BT_SLEEP))
ar9003_mci_state(ah, MCI_STATE_SET_BT_AWAKE);
}
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_SYS_SLEEPING) {
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_SYS_SLEEPING;
if ((mci_hw->bt_state == MCI_BT_AWAKE) &&
(ar9003_mci_state(ah, MCI_STATE_REMOTE_SLEEP) !=
MCI_BT_AWAKE))
mci_hw->bt_state = MCI_BT_SLEEP;
}
if ((mci_int & AR_MCI_INTERRUPT_RX_INVALID_HDR) ||
(mci_int & AR_MCI_INTERRUPT_CONT_INFO_TIMEOUT)) {
ar9003_mci_state(ah, MCI_STATE_RECOVER_RX);
skip_gpm = true;
}
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_SCHD_INFO) {
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_SCHD_INFO;
offset = ar9003_mci_state(ah, MCI_STATE_LAST_SCHD_MSG_OFFSET);
}
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_GPM) {
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_GPM;
while (more_data == MCI_GPM_MORE) {
if (test_bit(SC_OP_HW_RESET, &sc->sc_flags))
return;
pgpm = mci->gpm_buf.bf_addr;
offset = ar9003_mci_get_next_gpm_offset(ah, false,
&more_data);
if (offset == MCI_GPM_INVALID)
break;
pgpm += (offset >> 2);
/*
* The first dword is timer.
* The real data starts from 2nd dword.
*/
subtype = MCI_GPM_TYPE(pgpm);
opcode = MCI_GPM_OPCODE(pgpm);
if (skip_gpm)
goto recycle;
if (MCI_GPM_IS_CAL_TYPE(subtype)) {
ath_mci_cal_msg(sc, subtype, (u8 *)pgpm);
} else {
switch (subtype) {
case MCI_GPM_COEX_AGENT:
ath_mci_msg(sc, opcode, (u8 *)pgpm);
break;
default:
break;
}
}
recycle:
MCI_GPM_RECYCLE(pgpm);
}
}
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_HW_MSG_MASK) {
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_LNA_CONTROL)
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_LNA_CONTROL;
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_LNA_INFO)
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_LNA_INFO;
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_CONT_INFO) {
int value_dbm = MS(mci_hw->cont_status,
AR_MCI_CONT_RSSI_POWER);
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_CONT_INFO;
ath_dbg(common, MCI,
"MCI CONT_INFO: (%s) pri = %d pwr = %d dBm\n",
MS(mci_hw->cont_status, AR_MCI_CONT_TXRX) ?
"tx" : "rx",
MS(mci_hw->cont_status, AR_MCI_CONT_PRIORITY),
value_dbm);
}
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_CONT_NACK)
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_CONT_NACK;
if (mci_int_rxmsg & AR_MCI_INTERRUPT_RX_MSG_CONT_RST)
mci_int_rxmsg &= ~AR_MCI_INTERRUPT_RX_MSG_CONT_RST;
}
if ((mci_int & AR_MCI_INTERRUPT_RX_INVALID_HDR) ||
(mci_int & AR_MCI_INTERRUPT_CONT_INFO_TIMEOUT)) {
mci_int &= ~(AR_MCI_INTERRUPT_RX_INVALID_HDR |
AR_MCI_INTERRUPT_CONT_INFO_TIMEOUT);
ath_mci_msg(sc, MCI_GPM_COEX_NOOP, NULL);
}
}
void ath_mci_enable(struct ath_softc *sc)
{
struct ath_common *common = ath9k_hw_common(sc->sc_ah);
if (!common->btcoex_enabled)
return;
if (sc->sc_ah->caps.hw_caps & ATH9K_HW_CAP_MCI)
sc->sc_ah->imask |= ATH9K_INT_MCI;
}
void ath9k_mci_update_wlan_channels(struct ath_softc *sc, bool allow_all)
{
struct ath_hw *ah = sc->sc_ah;
struct ath9k_hw_mci *mci = &ah->btcoex_hw.mci;
struct ath9k_channel *chan = ah->curchan;
u32 channelmap[] = {0x00000000, 0xffff0000, 0xffffffff, 0x7fffffff};
int i;
s16 chan_start, chan_end;
u16 wlan_chan;
if (!chan || !IS_CHAN_2GHZ(chan))
return;
if (allow_all)
goto send_wlan_chan;
wlan_chan = chan->channel - 2402;
chan_start = wlan_chan - 10;
chan_end = wlan_chan + 10;
if (chan->chanmode == CHANNEL_G_HT40PLUS)
chan_end += 20;
else if (chan->chanmode == CHANNEL_G_HT40MINUS)
chan_start -= 20;
/* adjust side band */
chan_start -= 7;
chan_end += 7;
if (chan_start <= 0)
chan_start = 0;
if (chan_end >= ATH_MCI_NUM_BT_CHANNELS)
chan_end = ATH_MCI_NUM_BT_CHANNELS - 1;
ath_dbg(ath9k_hw_common(ah), MCI,
"WLAN current channel %d mask BT channel %d - %d\n",
wlan_chan, chan_start, chan_end);
for (i = chan_start; i < chan_end; i++)
MCI_GPM_CLR_CHANNEL_BIT(&channelmap, i);
send_wlan_chan:
/* update and send wlan channels info to BT */
for (i = 0; i < 4; i++)
mci->wlan_channels[i] = channelmap[i];
ar9003_mci_send_wlan_channels(ah);
ar9003_mci_state(ah, MCI_STATE_SEND_VERSION_QUERY);
}
void ath9k_mci_set_txpower(struct ath_softc *sc, bool setchannel,
bool concur_tx)
{
struct ath_hw *ah = sc->sc_ah;
struct ath9k_hw_mci *mci_hw = &sc->sc_ah->btcoex_hw.mci;
bool old_concur_tx = mci_hw->concur_tx;
if (!(mci_hw->config & ATH_MCI_CONFIG_CONCUR_TX)) {
mci_hw->concur_tx = false;
return;
}
if (!IS_CHAN_2GHZ(ah->curchan))
return;
if (setchannel) {
struct ath9k_hw_cal_data *caldata = &sc->caldata;
if ((caldata->chanmode == CHANNEL_G_HT40PLUS) &&
(ah->curchan->channel > caldata->channel) &&
(ah->curchan->channel <= caldata->channel + 20))
return;
if ((caldata->chanmode == CHANNEL_G_HT40MINUS) &&
(ah->curchan->channel < caldata->channel) &&
(ah->curchan->channel >= caldata->channel - 20))
return;
mci_hw->concur_tx = false;
} else
mci_hw->concur_tx = concur_tx;
if (old_concur_tx != mci_hw->concur_tx)
ath9k_hw_set_txpowerlimit(ah, sc->config.txpowlimit, false);
}
static void ath9k_mci_stomp_audio(struct ath_softc *sc)
{
struct ath_hw *ah = sc->sc_ah;
struct ath_btcoex *btcoex = &sc->btcoex;
struct ath_mci_profile *mci = &btcoex->mci;
if (!mci->num_sco && !mci->num_a2dp)
return;
if (ah->stats.avgbrssi > 25) {
btcoex->stomp_audio = 0;
return;
}
btcoex->stomp_audio++;
}
void ath9k_mci_update_rssi(struct ath_softc *sc)
{
struct ath_hw *ah = sc->sc_ah;
struct ath_btcoex *btcoex = &sc->btcoex;
struct ath9k_hw_mci *mci_hw = &sc->sc_ah->btcoex_hw.mci;
ath9k_mci_stomp_audio(sc);
if (!(mci_hw->config & ATH_MCI_CONFIG_CONCUR_TX))
return;
if (ah->stats.avgbrssi >= 40) {
if (btcoex->rssi_count < 0)
btcoex->rssi_count = 0;
if (++btcoex->rssi_count >= ATH_MCI_CONCUR_TX_SWITCH) {
btcoex->rssi_count = 0;
ath9k_mci_set_txpower(sc, false, true);
}
} else {
if (btcoex->rssi_count > 0)
btcoex->rssi_count = 0;
if (--btcoex->rssi_count <= -ATH_MCI_CONCUR_TX_SWITCH) {
btcoex->rssi_count = 0;
ath9k_mci_set_txpower(sc, false, false);
}
}
}
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