/****************************************************************************** * * Copyright 2003-2012 Broadcom Corporation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /****************************************************************************** * * This file contains the action functions for device manager state * machine. * ******************************************************************************/ #include <base/bind.h> #include <base/logging.h> #include <string.h> #include <mutex> #include "bt_common.h" #include "bta_api.h" #include "bta_dm_api.h" #include "bta_dm_int.h" #include "bta_sys.h" #include "btm_api.h" #include "stack/include/btu.h" static void bta_dm_pm_cback(tBTA_SYS_CONN_STATUS status, uint8_t id, uint8_t app_id, const RawAddress& peer_addr); static void bta_dm_pm_set_mode(const RawAddress& peer_addr, tBTA_DM_PM_ACTION pm_mode, tBTA_DM_PM_REQ pm_req); static void bta_dm_pm_timer_cback(void* data); static void bta_dm_pm_btm_cback(const RawAddress& bd_addr, tBTM_PM_STATUS status, uint16_t value, uint8_t hci_status); static bool bta_dm_pm_park(const RawAddress& peer_addr); static bool bta_dm_pm_sniff(tBTA_DM_PEER_DEVICE* p_peer_dev, uint8_t index); static bool bta_dm_pm_is_sco_active(); #if (BTM_SSR_INCLUDED == TRUE) static int bta_dm_get_sco_index(); #endif static void bta_dm_pm_hid_check(bool bScoActive); static void bta_dm_pm_set_sniff_policy(tBTA_DM_PEER_DEVICE* p_dev, bool bDisable); static void bta_dm_pm_stop_timer_by_index(tBTA_PM_TIMER* p_timer, uint8_t timer_idx); #if (BTM_SSR_INCLUDED == TRUE) #if (BTA_HH_INCLUDED == TRUE) #include "../hh/bta_hh_int.h" /* BTA_DM_PM_SSR1 will be dedicated for HH SSR setting entry, no other profile * can use it */ #define BTA_DM_PM_SSR_HH BTA_DM_PM_SSR1 #endif static void bta_dm_pm_ssr(const RawAddress& peer_addr, int ssr); #endif tBTA_DM_CONNECTED_SRVCS bta_dm_conn_srvcs; static std::recursive_mutex pm_timer_schedule_mutex; static std::recursive_mutex pm_timer_state_mutex; /******************************************************************************* * * Function bta_dm_init_pm * * Description Initializes the BT low power manager * * * Returns void * ******************************************************************************/ void bta_dm_init_pm(void) { memset(&bta_dm_conn_srvcs, 0x00, sizeof(bta_dm_conn_srvcs)); /* if there are no power manger entries, so not register */ if (p_bta_dm_pm_cfg[0].app_id != 0) { bta_sys_pm_register(bta_dm_pm_cback); BTM_PmRegister((BTM_PM_REG_SET | BTM_PM_REG_NOTIF), &bta_dm_cb.pm_id, bta_dm_pm_btm_cback); } /* Need to initialize all PM timer service IDs */ for (int i = 0; i < BTA_DM_NUM_PM_TIMER; i++) { for (int j = 0; j < BTA_DM_PM_MODE_TIMER_MAX; j++) bta_dm_cb.pm_timer[i].srvc_id[j] = BTA_ID_MAX; } } /******************************************************************************* * * Function bta_dm_disable_pm * * Description Disable PM * * * Returns void * ******************************************************************************/ void bta_dm_disable_pm(void) { BTM_PmRegister(BTM_PM_DEREG, &bta_dm_cb.pm_id, NULL); /* * Deregister the PM callback from the system handling to prevent * re-enabling the PM timers after this call if the callback is invoked. */ bta_sys_pm_register(NULL); /* Need to stop all active timers. */ for (int i = 0; i < BTA_DM_NUM_PM_TIMER; i++) { for (int j = 0; j < BTA_DM_PM_MODE_TIMER_MAX; j++) { bta_dm_pm_stop_timer_by_index(&bta_dm_cb.pm_timer[i], j); bta_dm_cb.pm_timer[i].pm_action[j] = BTA_DM_PM_NO_ACTION; } } } /******************************************************************************* * * Function bta_dm_get_av_count * * Description Get the number of connected AV * * * Returns number of av connections * ******************************************************************************/ uint8_t bta_dm_get_av_count(void) { uint8_t count = 0; for (int i = 0; i < bta_dm_conn_srvcs.count; i++) { if (bta_dm_conn_srvcs.conn_srvc[i].id == BTA_ID_AV) ++count; } return count; } /******************************************************************************* * * Function bta_dm_pm_stop_timer * * Description stop a PM timer * * * Returns void * ******************************************************************************/ static void bta_dm_pm_stop_timer(const RawAddress& peer_addr) { APPL_TRACE_DEBUG("%s: ", __func__); for (int i = 0; i < BTA_DM_NUM_PM_TIMER; i++) { if (bta_dm_cb.pm_timer[i].in_use && bta_dm_cb.pm_timer[i].peer_bdaddr == peer_addr) { for (int j = 0; j < BTA_DM_PM_MODE_TIMER_MAX; j++) { bta_dm_pm_stop_timer_by_index(&bta_dm_cb.pm_timer[i], j); /* * TODO: For now, stopping the timer does not reset * pm_action[j]. * The reason is because some of the internal logic that * (re)assigns the pm_action[] values is taking into account * the older value; e.g., see the pm_action[] assignment in * function bta_dm_pm_start_timer(). * Such subtlety in the execution logic is error prone, and * should be eliminiated in the future. */ } break; } } } /******************************************************************************* * * Function bta_pm_action_to_timer_idx * * Description convert power mode into timer index for each connected * device * * * Returns index of the power mode delay timer * ******************************************************************************/ static uint8_t bta_pm_action_to_timer_idx(uint8_t pm_action) { if (pm_action == BTA_DM_PM_SUSPEND) return BTA_DM_PM_SUSPEND_TIMER_IDX; else if (pm_action == BTA_DM_PM_PARK) return BTA_DM_PM_PARK_TIMER_IDX; else if ((pm_action & BTA_DM_PM_SNIFF) == BTA_DM_PM_SNIFF) return BTA_DM_PM_SNIFF_TIMER_IDX; /* Active, no preference, no action and retry */ return BTA_DM_PM_MODE_TIMER_MAX; } /******************************************************************************* * * Function bta_dm_pm_stop_timer_by_mode * * Description stop a PM timer * * * Returns void * ******************************************************************************/ static void bta_dm_pm_stop_timer_by_mode(const RawAddress& peer_addr, uint8_t power_mode) { const uint8_t timer_idx = bta_pm_action_to_timer_idx(power_mode); if (timer_idx == BTA_DM_PM_MODE_TIMER_MAX) return; for (int i = 0; i < BTA_DM_NUM_PM_TIMER; i++) { if (bta_dm_cb.pm_timer[i].in_use && bta_dm_cb.pm_timer[i].peer_bdaddr == peer_addr) { if (bta_dm_cb.pm_timer[i].srvc_id[timer_idx] != BTA_ID_MAX) { bta_dm_pm_stop_timer_by_index(&bta_dm_cb.pm_timer[i], timer_idx); /* * TODO: Intentionally setting pm_action[timer_idx]. * This assignment should be eliminated in the future - see the * pm_action[] related comment inside function * bta_dm_pm_stop_timer(). */ bta_dm_cb.pm_timer[i].pm_action[timer_idx] = power_mode; } break; } } } /******************************************************************************* * * Function bta_dm_pm_stop_timer_by_srvc_id * * Description stop all timer started by the service ID. * * * Returns index of the power mode delay timer * ******************************************************************************/ static void bta_dm_pm_stop_timer_by_srvc_id(const RawAddress& peer_addr, uint8_t srvc_id) { for (int i = 0; i < BTA_DM_NUM_PM_TIMER; i++) { if (bta_dm_cb.pm_timer[i].in_use && bta_dm_cb.pm_timer[i].peer_bdaddr == peer_addr) { for (int j = 0; j < BTA_DM_PM_MODE_TIMER_MAX; j++) { if (bta_dm_cb.pm_timer[i].srvc_id[j] == srvc_id) { bta_dm_pm_stop_timer_by_index(&bta_dm_cb.pm_timer[i], j); bta_dm_cb.pm_timer[i].pm_action[j] = BTA_DM_PM_NO_ACTION; break; } } } } } /******************************************************************************* * * Function bta_dm_pm_start_timer * * Description start a PM timer * * * Returns void * ******************************************************************************/ static void bta_dm_pm_start_timer(tBTA_PM_TIMER* p_timer, uint8_t timer_idx, uint64_t timeout_ms, uint8_t srvc_id, uint8_t pm_action) { std::unique_lock<std::recursive_mutex> schedule_lock(pm_timer_schedule_mutex); std::unique_lock<std::recursive_mutex> state_lock(pm_timer_state_mutex); p_timer->in_use = true; if (p_timer->srvc_id[timer_idx] == BTA_ID_MAX) p_timer->active++; if (p_timer->pm_action[timer_idx] < pm_action) p_timer->pm_action[timer_idx] = pm_action; p_timer->srvc_id[timer_idx] = srvc_id; state_lock.unlock(); alarm_set_on_mloop(p_timer->timer[timer_idx], timeout_ms, bta_dm_pm_timer_cback, p_timer->timer[timer_idx]); } /******************************************************************************* * * Function bta_dm_pm_stop_timer_by_index * * Description stop a PM timer * * * Returns void * ******************************************************************************/ static void bta_dm_pm_stop_timer_by_index(tBTA_PM_TIMER* p_timer, uint8_t timer_idx) { if ((p_timer == NULL) || (timer_idx >= BTA_DM_PM_MODE_TIMER_MAX)) return; std::unique_lock<std::recursive_mutex> schedule_lock(pm_timer_schedule_mutex); std::unique_lock<std::recursive_mutex> state_lock(pm_timer_state_mutex); if (p_timer->srvc_id[timer_idx] == BTA_ID_MAX) return; /* The timer was not scheduled */ CHECK(p_timer->in_use && (p_timer->active > 0)); p_timer->srvc_id[timer_idx] = BTA_ID_MAX; /* NOTE: pm_action[timer_idx] intentionally not reset */ p_timer->active--; if (p_timer->active == 0) p_timer->in_use = false; state_lock.unlock(); alarm_cancel(p_timer->timer[timer_idx]); } /******************************************************************************* * * Function bta_dm_pm_cback * * Description Conn change callback from sys for low power management * * * Returns void * ******************************************************************************/ static void bta_dm_pm_cback(tBTA_SYS_CONN_STATUS status, uint8_t id, uint8_t app_id, const RawAddress& peer_addr) { uint8_t i, j; tBTA_DM_PEER_DEVICE* p_dev; tBTA_DM_PM_REQ pm_req = BTA_DM_PM_NEW_REQ; APPL_TRACE_DEBUG("bta_dm_pm_cback: st(%d), id(%d), app(%d)", status, id, app_id); p_dev = bta_dm_find_peer_device(peer_addr); /* find if there is an power mode entry for the service */ for (i = 1; i <= p_bta_dm_pm_cfg[0].app_id; i++) { if ((p_bta_dm_pm_cfg[i].id == id) && ((p_bta_dm_pm_cfg[i].app_id == BTA_ALL_APP_ID) || (p_bta_dm_pm_cfg[i].app_id == app_id))) break; } /* if no entries are there for the app_id and subsystem in p_bta_dm_pm_spec*/ if (i > p_bta_dm_pm_cfg[0].app_id) return; bta_dm_pm_stop_timer_by_srvc_id(peer_addr, id); /*p_dev = bta_dm_find_peer_device(peer_addr);*/ #if (BTM_SSR_INCLUDED == TRUE) /* set SSR parameters on SYS CONN OPEN */ int index = BTA_DM_PM_SSR0; if ((BTA_SYS_CONN_OPEN == status) && p_dev && (p_dev->info & BTA_DM_DI_USE_SSR)) { index = p_bta_dm_pm_spec[p_bta_dm_pm_cfg[i].spec_idx].ssr; } else if (BTA_ID_AV == id) { if (BTA_SYS_CONN_BUSY == status) { /* set SSR4 for A2DP on SYS CONN BUSY */ index = BTA_DM_PM_SSR4; } else if (BTA_SYS_CONN_IDLE == status) { index = p_bta_dm_pm_spec[p_bta_dm_pm_cfg[i].spec_idx].ssr; } } #endif /* if no action for the event */ if (p_bta_dm_pm_spec[p_bta_dm_pm_cfg[i].spec_idx] .actn_tbl[status][0] .power_mode == BTA_DM_PM_NO_ACTION) { #if (BTM_SSR_INCLUDED == TRUE) if (BTA_DM_PM_SSR0 == index) /* and do not need to set SSR, return. */ #endif return; } for (j = 0; j < bta_dm_conn_srvcs.count; j++) { /* check if an entry already present */ if ((bta_dm_conn_srvcs.conn_srvc[j].id == id) && (bta_dm_conn_srvcs.conn_srvc[j].app_id == app_id) && bta_dm_conn_srvcs.conn_srvc[j].peer_bdaddr == peer_addr) { bta_dm_conn_srvcs.conn_srvc[j].new_request = true; break; } } /* if subsystem has no more preference on the power mode remove the cb */ if (p_bta_dm_pm_spec[p_bta_dm_pm_cfg[i].spec_idx] .actn_tbl[status][0] .power_mode == BTA_DM_PM_NO_PREF) { if (j != bta_dm_conn_srvcs.count) { bta_dm_conn_srvcs.count--; for (; j < bta_dm_conn_srvcs.count; j++) { memcpy(&bta_dm_conn_srvcs.conn_srvc[j], &bta_dm_conn_srvcs.conn_srvc[j + 1], sizeof(bta_dm_conn_srvcs.conn_srvc[j])); } } else { APPL_TRACE_WARNING("bta_dm_act no entry for connected service cbs"); return; } } else if (j == bta_dm_conn_srvcs.count) { /* check if we have more connected service that cbs */ if (bta_dm_conn_srvcs.count == BTA_DM_NUM_CONN_SRVS) { APPL_TRACE_WARNING("bta_dm_act no more connected service cbs"); return; } /* fill in a new cb */ bta_dm_conn_srvcs.conn_srvc[j].id = id; bta_dm_conn_srvcs.conn_srvc[j].app_id = app_id; bta_dm_conn_srvcs.conn_srvc[j].new_request = true; bta_dm_conn_srvcs.conn_srvc[j].peer_bdaddr = peer_addr; APPL_TRACE_WARNING("new conn_srvc id:%d, app_id:%d", id, app_id); bta_dm_conn_srvcs.count++; bta_dm_conn_srvcs.conn_srvc[j].state = status; } else { /* no service is added or removed. only updating status. */ bta_dm_conn_srvcs.conn_srvc[j].state = status; } /* stop timer */ bta_dm_pm_stop_timer(peer_addr); if (bta_dm_conn_srvcs.count > 0) { pm_req = BTA_DM_PM_RESTART; APPL_TRACE_DEBUG( "%s bta_dm_pm_stop_timer for current service, restart other " "service timers: count = %d", __func__, bta_dm_conn_srvcs.count); } if (p_dev) { p_dev->pm_mode_attempted = 0; p_dev->pm_mode_failed = 0; } #if (BTM_SSR_INCLUDED == TRUE) if (p_bta_dm_ssr_spec[index].max_lat #if (BTA_HH_INCLUDED == TRUE) || index == BTA_DM_PM_SSR_HH #endif ) { bta_dm_pm_ssr(peer_addr, index); } else { uint8_t* p = NULL; if (((NULL != (p = BTM_ReadLocalFeatures())) && HCI_SNIFF_SUB_RATE_SUPPORTED(p)) && ((NULL != (p = BTM_ReadRemoteFeatures(peer_addr))) && HCI_SNIFF_SUB_RATE_SUPPORTED(p)) && (index == BTA_DM_PM_SSR0)) { if (status == BTA_SYS_SCO_OPEN) { APPL_TRACE_DEBUG("%s: SCO inactive, reset SSR to zero", __func__); BTM_SetSsrParams(peer_addr, 0, 0, 0); } else if (status == BTA_SYS_SCO_CLOSE) { APPL_TRACE_DEBUG("%s: SCO active, back to old SSR", __func__); bta_dm_pm_ssr(peer_addr, BTA_DM_PM_SSR0); } } } #endif bta_dm_pm_set_mode(peer_addr, BTA_DM_PM_NO_ACTION, pm_req); /* perform the HID link workaround if needed ** 1. If SCO up/down event is received OR ** 2. If HID connection open is received and SCO is already active. ** This will handle the case where HID connects when SCO already active */ if (BTM_IsDeviceUp() && (((status == BTA_SYS_SCO_OPEN) || (status == BTA_SYS_SCO_CLOSE)) || ((status == BTA_SYS_CONN_OPEN) && (id == BTA_ID_HH) && bta_dm_pm_is_sco_active()))) { bool bScoActive; if (status == BTA_SYS_CONN_OPEN) bScoActive = true; else bScoActive = (status == BTA_SYS_SCO_OPEN); bta_dm_pm_hid_check(bScoActive); } } /******************************************************************************* * * Function bta_dm_pm_set_mode * * Description Set the power mode for the device * * * Returns void * ******************************************************************************/ static void bta_dm_pm_set_mode(const RawAddress& peer_addr, tBTA_DM_PM_ACTION pm_request, tBTA_DM_PM_REQ pm_req) { tBTA_DM_PM_ACTION pm_action = BTA_DM_PM_NO_ACTION; uint64_t timeout_ms = 0; uint8_t i, j; tBTA_DM_PM_ACTION failed_pm = 0; tBTA_DM_PEER_DEVICE* p_peer_device = NULL; tBTA_DM_PM_ACTION allowed_modes = 0; tBTA_DM_PM_ACTION pref_modes = 0; const tBTA_DM_PM_CFG* p_pm_cfg; const tBTA_DM_PM_SPEC* p_pm_spec; const tBTA_DM_PM_ACTN* p_act0; const tBTA_DM_PM_ACTN* p_act1; tBTA_DM_SRVCS* p_srvcs = NULL; bool timer_started = false; uint8_t timer_idx, available_timer = BTA_DM_PM_MODE_TIMER_MAX; uint64_t remaining_ms = 0; if (!bta_dm_cb.device_list.count) return; /* see if any attempt to put device in low power mode failed */ p_peer_device = bta_dm_find_peer_device(peer_addr); /* if no peer device found return */ if (p_peer_device == NULL) return; failed_pm = p_peer_device->pm_mode_failed; for (i = 0; i < bta_dm_conn_srvcs.count; i++) { p_srvcs = &bta_dm_conn_srvcs.conn_srvc[i]; if (p_srvcs->peer_bdaddr == peer_addr) { /* p_bta_dm_pm_cfg[0].app_id is the number of entries */ for (j = 1; j <= p_bta_dm_pm_cfg[0].app_id; j++) { if ((p_bta_dm_pm_cfg[j].id == p_srvcs->id) && ((p_bta_dm_pm_cfg[j].app_id == BTA_ALL_APP_ID) || (p_bta_dm_pm_cfg[j].app_id == p_srvcs->app_id))) break; } p_pm_cfg = &p_bta_dm_pm_cfg[j]; p_pm_spec = &p_bta_dm_pm_spec[p_pm_cfg->spec_idx]; p_act0 = &p_pm_spec->actn_tbl[p_srvcs->state][0]; p_act1 = &p_pm_spec->actn_tbl[p_srvcs->state][1]; APPL_TRACE_DEBUG("bta_dm_pm_set_mode: srvcsid: %d, state: %d, j: %d", p_srvcs->id, p_srvcs->state, j); allowed_modes |= p_pm_spec->allow_mask; /* PM actions are in the order of strictness */ /* first check if the first preference is ok */ if (!(failed_pm & p_act0->power_mode)) { pref_modes |= p_act0->power_mode; if (p_act0->power_mode >= pm_action) { pm_action = p_act0->power_mode; if (pm_req != BTA_DM_PM_NEW_REQ || p_srvcs->new_request) { p_srvcs->new_request = false; timeout_ms = p_act0->timeout; } } } /* if first preference has already failed, try second preference */ else if (!(failed_pm & p_act1->power_mode)) { pref_modes |= p_act1->power_mode; if (p_act1->power_mode > pm_action) { pm_action = p_act1->power_mode; timeout_ms = p_act1->timeout; } } } } if (pm_action & (BTA_DM_PM_PARK | BTA_DM_PM_SNIFF)) { /* some service don't like the mode */ if (!(allowed_modes & pm_action)) { /* select the other mode if its allowed and preferred, otherwise 0 which * is BTA_DM_PM_NO_ACTION */ pm_action = (allowed_modes & (BTA_DM_PM_PARK | BTA_DM_PM_SNIFF) & pref_modes); /* no timeout needed if no action is required */ if (pm_action == BTA_DM_PM_NO_ACTION) { timeout_ms = 0; } } } /* if need to start a timer */ if ((pm_req != BTA_DM_PM_EXECUTE) && (timeout_ms > 0)) { for (i = 0; i < BTA_DM_NUM_PM_TIMER; i++) { if (bta_dm_cb.pm_timer[i].in_use && bta_dm_cb.pm_timer[i].peer_bdaddr == peer_addr) { timer_idx = bta_pm_action_to_timer_idx(pm_action); if (timer_idx != BTA_DM_PM_MODE_TIMER_MAX) { remaining_ms = alarm_get_remaining_ms(bta_dm_cb.pm_timer[i].timer[timer_idx]); if (remaining_ms < timeout_ms) { /* Cancel and restart the timer */ /* * TODO: The value of pm_action[timer_idx] is * conditionally updated between the two function * calls below when the timer is restarted. * This logic is error-prone and should be eliminated * in the future. */ bta_dm_pm_stop_timer_by_index(&bta_dm_cb.pm_timer[i], timer_idx); bta_dm_pm_start_timer(&bta_dm_cb.pm_timer[i], timer_idx, timeout_ms, p_srvcs->id, pm_action); } timer_started = true; } break; } else if (!bta_dm_cb.pm_timer[i].in_use) { APPL_TRACE_DEBUG("%s dm_pm_timer:%d, %d ms", __func__, i, timeout_ms); if (available_timer == BTA_DM_PM_MODE_TIMER_MAX) available_timer = i; } } /* new power mode for a new active connection */ if (!timer_started) { if (available_timer != BTA_DM_PM_MODE_TIMER_MAX) { bta_dm_cb.pm_timer[available_timer].peer_bdaddr = peer_addr; timer_idx = bta_pm_action_to_timer_idx(pm_action); if (timer_idx != BTA_DM_PM_MODE_TIMER_MAX) { bta_dm_pm_start_timer(&bta_dm_cb.pm_timer[available_timer], timer_idx, timeout_ms, p_srvcs->id, pm_action); timer_started = true; } } /* no more timers */ else { APPL_TRACE_WARNING("bta_dm_act dm_pm_timer no more"); } } return; } /* if pending power mode timer expires, and currecnt link is in a lower power mode than current profile requirement, igonre it */ if (pm_req == BTA_DM_PM_EXECUTE && pm_request < pm_action) { APPL_TRACE_ERROR("Ignore the power mode request: %d", pm_request) return; } if (pm_action == BTA_DM_PM_PARK) { p_peer_device->pm_mode_attempted = BTA_DM_PM_PARK; bta_dm_pm_park(peer_addr); } else if (pm_action & BTA_DM_PM_SNIFF) { /* dont initiate SNIFF, if link_policy has it disabled */ if (p_peer_device->link_policy & HCI_ENABLE_SNIFF_MODE) { p_peer_device->pm_mode_attempted = BTA_DM_PM_SNIFF; bta_dm_pm_sniff(p_peer_device, (uint8_t)(pm_action & 0x0F)); } else { APPL_TRACE_DEBUG( "bta_dm_pm_set_mode: Link policy disallows SNIFF, ignore request"); } } else if (pm_action == BTA_DM_PM_ACTIVE) { bta_dm_pm_active(peer_addr); } } /******************************************************************************* * * Function bta_ag_pm_park * * Description Switch to park mode. * * * Returns true if park attempted, false otherwise. * ******************************************************************************/ static bool bta_dm_pm_park(const RawAddress& peer_addr) { tBTM_PM_MODE mode = BTM_PM_STS_ACTIVE; /* if not in park mode, switch to park */ BTM_ReadPowerMode(peer_addr, &mode); if (mode != BTM_PM_MD_PARK) { BTM_SetPowerMode(bta_dm_cb.pm_id, peer_addr, &p_bta_dm_pm_md[BTA_DM_PM_PARK_IDX]); } return true; } /******************************************************************************* * * Function bta_ag_pm_sniff * * Description Switch to sniff mode. * * * Returns true if sniff attempted, false otherwise. * ******************************************************************************/ static bool bta_dm_pm_sniff(tBTA_DM_PEER_DEVICE* p_peer_dev, uint8_t index) { tBTM_PM_MODE mode = BTM_PM_STS_ACTIVE; tBTM_PM_PWR_MD pwr_md; tBTM_STATUS status; BTM_ReadPowerMode(p_peer_dev->peer_bdaddr, &mode); #if (BTM_SSR_INCLUDED == TRUE) uint8_t* p_rem_feat = BTM_ReadRemoteFeatures(p_peer_dev->peer_bdaddr); APPL_TRACE_DEBUG("bta_dm_pm_sniff cur:%d, idx:%d, info:x%x", mode, index, p_peer_dev->info); if (mode != BTM_PM_MD_SNIFF || (HCI_SNIFF_SUB_RATE_SUPPORTED(BTM_ReadLocalFeatures()) && p_rem_feat && HCI_SNIFF_SUB_RATE_SUPPORTED(p_rem_feat) && !(p_peer_dev->info & BTA_DM_DI_USE_SSR))) { /* Dont initiate Sniff if controller has alreay accepted * remote sniff params. This avoid sniff loop issue with * some agrresive headsets who use sniff latencies more than * DUT supported range of Sniff intervals.*/ if ((mode == BTM_PM_MD_SNIFF) && (p_peer_dev->info & BTA_DM_DI_ACP_SNIFF)) { APPL_TRACE_DEBUG("%s: already in remote initiate sniff", __func__); return true; } #else APPL_TRACE_DEBUG("bta_dm_pm_sniff cur:%d, idx:%d", mode, index); if (mode != BTM_PM_MD_SNIFF) { #endif /* if the current mode is not sniff, issue the sniff command. * If sniff, but SSR is not used in this link, still issue the command */ memcpy(&pwr_md, &p_bta_dm_pm_md[index], sizeof(tBTM_PM_PWR_MD)); if (p_peer_dev->info & BTA_DM_DI_INT_SNIFF) { pwr_md.mode |= BTM_PM_MD_FORCE; } status = BTM_SetPowerMode(bta_dm_cb.pm_id, p_peer_dev->peer_bdaddr, &pwr_md); if (status == BTM_CMD_STORED || status == BTM_CMD_STARTED) { p_peer_dev->info &= ~(BTA_DM_DI_INT_SNIFF | BTA_DM_DI_ACP_SNIFF); p_peer_dev->info |= BTA_DM_DI_SET_SNIFF; } else if (status == BTM_SUCCESS) { APPL_TRACE_DEBUG( "bta_dm_pm_sniff BTM_SetPowerMode() returns BTM_SUCCESS"); p_peer_dev->info &= ~(BTA_DM_DI_INT_SNIFF | BTA_DM_DI_ACP_SNIFF | BTA_DM_DI_SET_SNIFF); } else /* error */ { APPL_TRACE_ERROR( "bta_dm_pm_sniff BTM_SetPowerMode() returns ERROR status=%d", status); p_peer_dev->info &= ~(BTA_DM_DI_INT_SNIFF | BTA_DM_DI_ACP_SNIFF | BTA_DM_DI_SET_SNIFF); } } return true; } /******************************************************************************* * * Function bta_dm_pm_ssr * * Description checks and sends SSR parameters * * Returns void * ******************************************************************************/ #if (BTM_SSR_INCLUDED == TRUE) static void bta_dm_pm_ssr(const RawAddress& peer_addr, int ssr) { int current_ssr_index; int ssr_index = ssr; tBTA_DM_SSR_SPEC* p_spec = &p_bta_dm_ssr_spec[ssr_index]; /* go through the connected services */ for (int i = 0; i < bta_dm_conn_srvcs.count; i++) { const tBTA_DM_SRVCS& service = bta_dm_conn_srvcs.conn_srvc[i]; if (service.peer_bdaddr != peer_addr) { continue; } /* p_bta_dm_pm_cfg[0].app_id is the number of entries */ for (int j = 1; j <= p_bta_dm_pm_cfg[0].app_id; j++) { /* find the associated p_bta_dm_pm_cfg */ const tBTA_DM_PM_CFG& config = p_bta_dm_pm_cfg[j]; current_ssr_index = p_bta_dm_pm_spec[config.spec_idx].ssr; if ((config.id == service.id) && ((config.app_id == BTA_ALL_APP_ID) || (config.app_id == service.app_id))) { APPL_TRACE_WARNING("%s: conn_srvc id:%d, app_id:%d", __func__, service.id, service.app_id); break; } } /* find the ssr index with the smallest max latency. */ tBTA_DM_SSR_SPEC* p_spec_cur = &p_bta_dm_ssr_spec[current_ssr_index]; #if (BTA_HH_INCLUDED == TRUE) /* HH has the per connection SSR preference, already read the SSR params * from BTA HH */ if (current_ssr_index == BTA_DM_PM_SSR_HH) { if (bta_hh_read_ssr_param(peer_addr, &p_spec_cur->max_lat, &p_spec_cur->min_rmt_to) == BTA_HH_ERR) { continue; } } #endif if (p_spec_cur->max_lat < p_spec->max_lat || (ssr_index == BTA_DM_PM_SSR0 && current_ssr_index != BTA_DM_PM_SSR0)) { ssr_index = current_ssr_index; p_spec = &p_bta_dm_ssr_spec[ssr_index]; } } APPL_TRACE_WARNING("%s ssr:%d, lat:%d", __func__, ssr_index, p_spec->max_lat); if (p_spec->max_lat) { /* Avoid SSR reset on device which has SCO connected */ if (bta_dm_pm_is_sco_active()) { int idx = bta_dm_get_sco_index(); if (idx != -1) { if (bta_dm_conn_srvcs.conn_srvc[idx].peer_bdaddr == peer_addr) { APPL_TRACE_WARNING("%s SCO is active on device, ignore SSR", __func__); return; } } } /* set the SSR parameters. */ BTM_SetSsrParams(peer_addr, p_spec->max_lat, p_spec->min_rmt_to, p_spec->min_loc_to); } } #endif /******************************************************************************* * * Function bta_dm_pm_active * * Description Brings connection to active mode * * * Returns void * ******************************************************************************/ void bta_dm_pm_active(const RawAddress& peer_addr) { tBTM_PM_PWR_MD pm; memset((void*)&pm, 0, sizeof(pm)); /* switch to active mode */ pm.mode = BTM_PM_MD_ACTIVE; BTM_SetPowerMode(bta_dm_cb.pm_id, peer_addr, &pm); } /** BTM power manager callback */ static void bta_dm_pm_btm_cback(const RawAddress& bd_addr, tBTM_PM_STATUS status, uint16_t value, uint8_t hci_status) { do_in_main_thread(FROM_HERE, base::Bind(bta_dm_pm_btm_status, bd_addr, status, value, hci_status)); } /******************************************************************************* * * Function bta_dm_pm_timer_cback * * Description Power management timer callback. * * * Returns void * ******************************************************************************/ static void bta_dm_pm_timer_cback(void* data) { uint8_t i, j; alarm_t* alarm = (alarm_t*)data; std::unique_lock<std::recursive_mutex> state_lock(pm_timer_state_mutex); for (i = 0; i < BTA_DM_NUM_PM_TIMER; i++) { APPL_TRACE_DEBUG("dm_pm_timer[%d] in use? %d", i, bta_dm_cb.pm_timer[i].in_use); if (bta_dm_cb.pm_timer[i].in_use) { for (j = 0; j < BTA_DM_PM_MODE_TIMER_MAX; j++) { if (bta_dm_cb.pm_timer[i].timer[j] == alarm) { bta_dm_cb.pm_timer[i].active--; bta_dm_cb.pm_timer[i].srvc_id[j] = BTA_ID_MAX; APPL_TRACE_DEBUG("dm_pm_timer[%d] expires, timer_idx=%d", i, j); break; } } if (bta_dm_cb.pm_timer[i].active == 0) bta_dm_cb.pm_timer[i].in_use = false; if (j < BTA_DM_PM_MODE_TIMER_MAX) break; } } state_lock.unlock(); /* no more timers */ if (i == BTA_DM_NUM_PM_TIMER) return; do_in_main_thread( FROM_HERE, base::Bind(bta_dm_pm_timer, bta_dm_cb.pm_timer[i].peer_bdaddr, bta_dm_cb.pm_timer[i].pm_action[j])); } /** Process pm status event from btm */ void bta_dm_pm_btm_status(const RawAddress& bd_addr, tBTM_PM_STATUS status, uint16_t value, uint8_t hci_status) { APPL_TRACE_DEBUG("%s status: %d", __func__, status); tBTA_DM_PEER_DEVICE* p_dev = bta_dm_find_peer_device(bd_addr); if (NULL == p_dev) return; tBTA_DM_DEV_INFO info = p_dev->info; /* check new mode */ switch (status) { case BTM_PM_STS_ACTIVE: /* if our sniff or park attempt failed we should not try it again*/ if (hci_status != 0) { APPL_TRACE_ERROR("%s hci_status=%d", __func__, hci_status); p_dev->info &= ~(BTA_DM_DI_INT_SNIFF | BTA_DM_DI_ACP_SNIFF | BTA_DM_DI_SET_SNIFF); if (p_dev->pm_mode_attempted & (BTA_DM_PM_PARK | BTA_DM_PM_SNIFF)) { p_dev->pm_mode_failed |= ((BTA_DM_PM_PARK | BTA_DM_PM_SNIFF) & p_dev->pm_mode_attempted); bta_dm_pm_stop_timer_by_mode(bd_addr, p_dev->pm_mode_attempted); bta_dm_pm_set_mode(bd_addr, BTA_DM_PM_NO_ACTION, BTA_DM_PM_RESTART); } } else { #if (BTM_SSR_INCLUDED == TRUE) if (p_dev->prev_low) { /* need to send the SSR paramaters to controller again */ bta_dm_pm_ssr(p_dev->peer_bdaddr, BTA_DM_PM_SSR0); } p_dev->prev_low = BTM_PM_STS_ACTIVE; #endif /* link to active mode, need to restart the timer for next low power * mode if needed */ bta_dm_pm_stop_timer(bd_addr); bta_dm_pm_set_mode(bd_addr, BTA_DM_PM_NO_ACTION, BTA_DM_PM_RESTART); } break; #if (BTM_SSR_INCLUDED == TRUE) case BTM_PM_STS_PARK: case BTM_PM_STS_HOLD: /* save the previous low power mode - for SSR. * SSR parameters are sent to controller on "conn open". * the numbers stay good until park/hold/detach */ if (p_dev->info & BTA_DM_DI_USE_SSR) p_dev->prev_low = status; break; case BTM_PM_STS_SSR: if (value) p_dev->info |= BTA_DM_DI_USE_SSR; else p_dev->info &= ~BTA_DM_DI_USE_SSR; break; #endif case BTM_PM_STS_SNIFF: if (hci_status == 0) { /* Stop PM timer now if already active for * particular device since link is already * put in sniff mode by remote device, and * PM timer sole purpose is to put the link * in sniff mode from host side. */ bta_dm_pm_stop_timer(bd_addr); } else { p_dev->info &= ~(BTA_DM_DI_SET_SNIFF | BTA_DM_DI_INT_SNIFF | BTA_DM_DI_ACP_SNIFF); if (info & BTA_DM_DI_SET_SNIFF) p_dev->info |= BTA_DM_DI_INT_SNIFF; else p_dev->info |= BTA_DM_DI_ACP_SNIFF; } break; case BTM_PM_STS_ERROR: p_dev->info &= ~BTA_DM_DI_SET_SNIFF; break; default: break; } } /** Process pm timer event from btm */ void bta_dm_pm_timer(const RawAddress& bd_addr, tBTA_DM_PM_ACTION pm_request) { APPL_TRACE_EVENT("%s", __func__); bta_dm_pm_set_mode(bd_addr, pm_request, BTA_DM_PM_EXECUTE); } /******************************************************************************* * * Function bta_dm_find_peer_device * * Description Given an address, find the associated control block. * * Returns tBTA_DM_PEER_DEVICE * ******************************************************************************/ tBTA_DM_PEER_DEVICE* bta_dm_find_peer_device(const RawAddress& peer_addr) { tBTA_DM_PEER_DEVICE* p_dev = NULL; for (int i = 0; i < bta_dm_cb.device_list.count; i++) { if (bta_dm_cb.device_list.peer_device[i].peer_bdaddr == peer_addr) { p_dev = &bta_dm_cb.device_list.peer_device[i]; break; } } return p_dev; } /******************************************************************************* * * Function bta_dm_is_sco_active * * Description Loop through connected services for HFP+State=SCO * * Returns bool. true if SCO active, else false * ******************************************************************************/ static bool bta_dm_pm_is_sco_active() { int j; bool bScoActive = false; for (j = 0; j < bta_dm_conn_srvcs.count; j++) { /* check if an entry already present */ if ((bta_dm_conn_srvcs.conn_srvc[j].id == BTA_ID_AG) && (bta_dm_conn_srvcs.conn_srvc[j].state == BTA_SYS_SCO_OPEN)) { bScoActive = true; break; } } APPL_TRACE_DEBUG("bta_dm_is_sco_active: SCO active: %d", bScoActive); return bScoActive; } #if (BTM_SSR_INCLUDED == TRUE) /******************************************************************************* * * Function bta_dm_get_sco_index * * Description Loop through connected services for HFP+State=SCO * * Returns index at which SCO is connected, in absence of SCO return -1 * ******************************************************************************/ static int bta_dm_get_sco_index() { for (int j = 0; j < bta_dm_conn_srvcs.count; j++) { /* check for SCO connected index */ if ((bta_dm_conn_srvcs.conn_srvc[j].id == BTA_ID_AG) && (bta_dm_conn_srvcs.conn_srvc[j].state == BTA_SYS_SCO_OPEN)) { return j; } } return -1; } #endif /******************************************************************************* * * Function bta_dm_pm_hid_check * * Description Disables/Enables sniff in link policy based on SCO Up/Down * * Returns None * ******************************************************************************/ static void bta_dm_pm_hid_check(bool bScoActive) { int j; /* if HID is active, disable the link policy */ for (j = 0; j < bta_dm_conn_srvcs.count; j++) { /* check if an entry already present */ if (bta_dm_conn_srvcs.conn_srvc[j].id == BTA_ID_HH) { APPL_TRACE_DEBUG( "SCO status change(Active: %d), modify HID link policy. state: %d", bScoActive, bta_dm_conn_srvcs.conn_srvc[j].state); bta_dm_pm_set_sniff_policy( bta_dm_find_peer_device(bta_dm_conn_srvcs.conn_srvc[j].peer_bdaddr), bScoActive); /* if we had disabled link policy, seems like the hid device stop retrying * SNIFF after a few tries. force sniff if needed */ if (!bScoActive) bta_dm_pm_set_mode(bta_dm_conn_srvcs.conn_srvc[j].peer_bdaddr, BTA_DM_PM_NO_ACTION, BTA_DM_PM_RESTART); } } } /******************************************************************************* * * Function bta_dm_pm_set_sniff_policy * * Description Disables/Enables sniff in link policy for the give device * * Returns None * ******************************************************************************/ static void bta_dm_pm_set_sniff_policy(tBTA_DM_PEER_DEVICE* p_dev, bool bDisable) { uint16_t policy_setting; if (!p_dev) return; if (bDisable) { policy_setting = bta_dm_cb.cur_policy & (HCI_ENABLE_MASTER_SLAVE_SWITCH | HCI_ENABLE_HOLD_MODE | HCI_ENABLE_PARK_MODE); } else { /* allow sniff after sco is closed */ policy_setting = bta_dm_cb.cur_policy; } /* if disabling SNIFF, make sure link is Active */ if (bDisable) bta_dm_pm_active(p_dev->peer_bdaddr); /* update device record and set link policy */ p_dev->link_policy = policy_setting; BTM_SetLinkPolicy(p_dev->peer_bdaddr, &policy_setting); } /******************************************************************************* * * Function bta_dm_pm_obtain_controller_state * * Description This function obtains the consolidated controller power * state * * Parameters: * ******************************************************************************/ tBTA_DM_CONTRL_STATE bta_dm_pm_obtain_controller_state(void) { /* Did not use counts as it is not sure, how accurate the count values are *in ** bta_dm_cb.device_list.count > 0 || bta_dm_cb.device_list.le_count > 0 */ tBTA_DM_CONTRL_STATE cur_state = BTA_DM_CONTRL_UNKNOWN; cur_state = BTM_PM_ReadControllerState(); APPL_TRACE_DEBUG("bta_dm_pm_obtain_controller_state: %d", cur_state); return cur_state; }