/******************************************************************************
*
* Copyright (C) 2016 The Android Open Source Project
* Copyright (C) 2009-2012 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.
*
******************************************************************************/
#define LOG_TAG "bt_btif_a2dp_sink"
#include <string.h>
#include "bt_common.h"
#include "btif_a2dp.h"
#include "btif_a2dp_sink.h"
#include "btif_av.h"
#include "btif_av_co.h"
#include "btif_avrcp_audio_track.h"
#include "btif_util.h"
#include "osi/include/fixed_queue.h"
#include "osi/include/log.h"
#include "osi/include/osi.h"
#include "osi/include/thread.h"
#include "oi_codec_sbc.h"
#include "oi_status.h"
/**
* The receiving queue buffer size.
*/
#define MAX_INPUT_A2DP_FRAME_QUEUE_SZ (MAX_PCM_FRAME_NUM_PER_TICK * 2)
#define BTIF_SINK_MEDIA_TIME_TICK_MS 20
/* In case of A2DP Sink, we will delay start by 5 AVDTP Packets */
#define MAX_A2DP_DELAYED_START_FRAME_COUNT 5
enum {
BTIF_A2DP_SINK_STATE_OFF,
BTIF_A2DP_SINK_STATE_STARTING_UP,
BTIF_A2DP_SINK_STATE_RUNNING,
BTIF_A2DP_SINK_STATE_SHUTTING_DOWN
};
/* BTIF Media Sink command event definition */
enum {
BTIF_MEDIA_SINK_DECODER_UPDATE = 1,
BTIF_MEDIA_SINK_CLEAR_TRACK,
BTIF_MEDIA_SINK_SET_FOCUS_STATE,
BTIF_MEDIA_SINK_AUDIO_RX_FLUSH
};
typedef struct {
BT_HDR hdr;
uint8_t codec_info[AVDT_CODEC_SIZE];
} tBTIF_MEDIA_SINK_DECODER_UPDATE;
typedef struct {
BT_HDR hdr;
btif_a2dp_sink_focus_state_t focus_state;
} tBTIF_MEDIA_SINK_FOCUS_UPDATE;
typedef struct {
uint16_t num_frames_to_be_processed;
uint16_t len;
uint16_t offset;
uint16_t layer_specific;
} tBT_SBC_HDR;
/* BTIF A2DP Sink control block */
typedef struct {
thread_t* worker_thread;
fixed_queue_t* cmd_msg_queue;
fixed_queue_t* rx_audio_queue;
bool rx_flush; /* discards any incoming data when true */
alarm_t* decode_alarm;
uint8_t frames_to_process;
tA2DP_SAMPLE_RATE sample_rate;
tA2DP_CHANNEL_COUNT channel_count;
btif_a2dp_sink_focus_state_t rx_focus_state; /* audio focus state */
void* audio_track;
} tBTIF_A2DP_SINK_CB;
static tBTIF_A2DP_SINK_CB btif_a2dp_sink_cb;
static int btif_a2dp_sink_state = BTIF_A2DP_SINK_STATE_OFF;
static OI_CODEC_SBC_DECODER_CONTEXT btif_a2dp_sink_context;
static uint32_t btif_a2dp_sink_context_data[CODEC_DATA_WORDS(
2, SBC_CODEC_FAST_FILTER_BUFFERS)];
static int16_t
btif_a2dp_sink_pcm_data[15 * SBC_MAX_SAMPLES_PER_FRAME * SBC_MAX_CHANNELS];
static void btif_a2dp_sink_startup_delayed(void* context);
static void btif_a2dp_sink_shutdown_delayed(void* context);
static void btif_a2dp_sink_command_ready(fixed_queue_t* queue, void* context);
static void btif_a2dp_sink_audio_handle_stop_decoding(void);
static void btif_decode_alarm_cb(void* context);
static void btif_a2dp_sink_audio_handle_start_decoding(void);
static void btif_a2dp_sink_avk_handle_timer(UNUSED_ATTR void* context);
static void btif_a2dp_sink_audio_rx_flush_req(void);
/* Handle incoming media packets A2DP SINK streaming */
static void btif_a2dp_sink_handle_inc_media(tBT_SBC_HDR* p_msg);
static void btif_a2dp_sink_decoder_update_event(
tBTIF_MEDIA_SINK_DECODER_UPDATE* p_buf);
static void btif_a2dp_sink_clear_track_event(void);
static void btif_a2dp_sink_set_focus_state_event(
btif_a2dp_sink_focus_state_t state);
static void btif_a2dp_sink_audio_rx_flush_event(void);
static void btif_a2dp_sink_clear_track_event_req(void);
UNUSED_ATTR static const char* dump_media_event(uint16_t event) {
switch (event) {
CASE_RETURN_STR(BTIF_MEDIA_SINK_DECODER_UPDATE)
CASE_RETURN_STR(BTIF_MEDIA_SINK_CLEAR_TRACK)
CASE_RETURN_STR(BTIF_MEDIA_SINK_SET_FOCUS_STATE)
CASE_RETURN_STR(BTIF_MEDIA_SINK_AUDIO_RX_FLUSH)
default:
break;
}
return "UNKNOWN A2DP SINK EVENT";
}
bool btif_a2dp_sink_startup(void) {
if (btif_a2dp_sink_state != BTIF_A2DP_SINK_STATE_OFF) {
APPL_TRACE_ERROR("%s: A2DP Sink media task already running", __func__);
return false;
}
memset(&btif_a2dp_sink_cb, 0, sizeof(btif_a2dp_sink_cb));
btif_a2dp_sink_state = BTIF_A2DP_SINK_STATE_STARTING_UP;
APPL_TRACE_EVENT("## A2DP SINK START MEDIA THREAD ##");
/* Start A2DP Sink media task */
btif_a2dp_sink_cb.worker_thread = thread_new("btif_a2dp_sink_worker_thread");
if (btif_a2dp_sink_cb.worker_thread == NULL) {
APPL_TRACE_ERROR("%s: unable to start up media thread", __func__);
btif_a2dp_sink_state = BTIF_A2DP_SINK_STATE_OFF;
return false;
}
btif_a2dp_sink_cb.rx_focus_state = BTIF_A2DP_SINK_FOCUS_NOT_GRANTED;
btif_a2dp_sink_cb.audio_track = NULL;
btif_a2dp_sink_cb.rx_audio_queue = fixed_queue_new(SIZE_MAX);
btif_a2dp_sink_cb.cmd_msg_queue = fixed_queue_new(SIZE_MAX);
fixed_queue_register_dequeue(
btif_a2dp_sink_cb.cmd_msg_queue,
thread_get_reactor(btif_a2dp_sink_cb.worker_thread),
btif_a2dp_sink_command_ready, NULL);
APPL_TRACE_EVENT("## A2DP SINK MEDIA THREAD STARTED ##");
/* Schedule the rest of the startup operations */
thread_post(btif_a2dp_sink_cb.worker_thread, btif_a2dp_sink_startup_delayed,
NULL);
return true;
}
static void btif_a2dp_sink_startup_delayed(UNUSED_ATTR void* context) {
raise_priority_a2dp(TASK_HIGH_MEDIA);
btif_a2dp_sink_state = BTIF_A2DP_SINK_STATE_RUNNING;
}
void btif_a2dp_sink_shutdown(void) {
if ((btif_a2dp_sink_state == BTIF_A2DP_SINK_STATE_OFF) ||
(btif_a2dp_sink_state == BTIF_A2DP_SINK_STATE_SHUTTING_DOWN)) {
return;
}
/* Make sure no channels are restarted while shutting down */
btif_a2dp_sink_state = BTIF_A2DP_SINK_STATE_SHUTTING_DOWN;
APPL_TRACE_EVENT("## A2DP SINK STOP MEDIA THREAD ##");
// Stop the timer
alarm_free(btif_a2dp_sink_cb.decode_alarm);
btif_a2dp_sink_cb.decode_alarm = NULL;
// Exit the thread
fixed_queue_free(btif_a2dp_sink_cb.cmd_msg_queue, NULL);
btif_a2dp_sink_cb.cmd_msg_queue = NULL;
thread_post(btif_a2dp_sink_cb.worker_thread, btif_a2dp_sink_shutdown_delayed,
NULL);
thread_free(btif_a2dp_sink_cb.worker_thread);
btif_a2dp_sink_cb.worker_thread = NULL;
}
static void btif_a2dp_sink_shutdown_delayed(UNUSED_ATTR void* context) {
fixed_queue_free(btif_a2dp_sink_cb.rx_audio_queue, NULL);
btif_a2dp_sink_cb.rx_audio_queue = NULL;
btif_a2dp_sink_state = BTIF_A2DP_SINK_STATE_OFF;
}
tA2DP_SAMPLE_RATE btif_a2dp_sink_get_sample_rate(void) {
return btif_a2dp_sink_cb.sample_rate;
}
tA2DP_CHANNEL_COUNT btif_a2dp_sink_get_channel_count(void) {
return btif_a2dp_sink_cb.channel_count;
}
static void btif_a2dp_sink_command_ready(fixed_queue_t* queue,
UNUSED_ATTR void* context) {
BT_HDR* p_msg = (BT_HDR*)fixed_queue_dequeue(queue);
LOG_VERBOSE(LOG_TAG, "%s: event %d %s", __func__, p_msg->event,
dump_media_event(p_msg->event));
switch (p_msg->event) {
case BTIF_MEDIA_SINK_DECODER_UPDATE:
btif_a2dp_sink_decoder_update_event(
(tBTIF_MEDIA_SINK_DECODER_UPDATE*)p_msg);
break;
case BTIF_MEDIA_SINK_CLEAR_TRACK:
btif_a2dp_sink_clear_track_event();
break;
case BTIF_MEDIA_SINK_SET_FOCUS_STATE: {
btif_a2dp_sink_focus_state_t state =
((tBTIF_MEDIA_SINK_FOCUS_UPDATE*)p_msg)->focus_state;
btif_a2dp_sink_set_focus_state_event(state);
break;
}
case BTIF_MEDIA_SINK_AUDIO_RX_FLUSH:
btif_a2dp_sink_audio_rx_flush_event();
break;
default:
APPL_TRACE_ERROR("ERROR in %s unknown event %d", __func__, p_msg->event);
break;
}
osi_free(p_msg);
LOG_VERBOSE(LOG_TAG, "%s: %s DONE", __func__, dump_media_event(p_msg->event));
}
void btif_a2dp_sink_update_decoder(const uint8_t* p_codec_info) {
tBTIF_MEDIA_SINK_DECODER_UPDATE* p_buf =
reinterpret_cast<tBTIF_MEDIA_SINK_DECODER_UPDATE*>(
osi_malloc(sizeof(tBTIF_MEDIA_SINK_DECODER_UPDATE)));
APPL_TRACE_EVENT("%s: p_codec_info[%x:%x:%x:%x:%x:%x]", __func__,
p_codec_info[1], p_codec_info[2], p_codec_info[3],
p_codec_info[4], p_codec_info[5], p_codec_info[6]);
memcpy(p_buf->codec_info, p_codec_info, AVDT_CODEC_SIZE);
p_buf->hdr.event = BTIF_MEDIA_SINK_DECODER_UPDATE;
fixed_queue_enqueue(btif_a2dp_sink_cb.cmd_msg_queue, p_buf);
}
void btif_a2dp_sink_on_idle(void) {
if (btif_a2dp_sink_state == BTIF_A2DP_SINK_STATE_OFF) return;
btif_a2dp_sink_audio_handle_stop_decoding();
btif_a2dp_sink_clear_track_event_req();
APPL_TRACE_DEBUG("Stopped BT track");
}
void btif_a2dp_sink_on_stopped(UNUSED_ATTR tBTA_AV_SUSPEND* p_av_suspend) {
if (btif_a2dp_sink_state == BTIF_A2DP_SINK_STATE_OFF) return;
btif_a2dp_sink_audio_handle_stop_decoding();
}
void btif_a2dp_sink_on_suspended(UNUSED_ATTR tBTA_AV_SUSPEND* p_av_suspend) {
if (btif_a2dp_sink_state == BTIF_A2DP_SINK_STATE_OFF) return;
btif_a2dp_sink_audio_handle_stop_decoding();
}
static void btif_a2dp_sink_audio_handle_stop_decoding(void) {
btif_a2dp_sink_cb.rx_flush = true;
btif_a2dp_sink_audio_rx_flush_req();
alarm_free(btif_a2dp_sink_cb.decode_alarm);
btif_a2dp_sink_cb.decode_alarm = NULL;
#ifndef OS_GENERIC
BtifAvrcpAudioTrackPause(btif_a2dp_sink_cb.audio_track);
#endif
}
static void btif_decode_alarm_cb(UNUSED_ATTR void* context) {
if (btif_a2dp_sink_cb.worker_thread != NULL) {
thread_post(btif_a2dp_sink_cb.worker_thread,
btif_a2dp_sink_avk_handle_timer, NULL);
}
}
static void btif_a2dp_sink_clear_track_event(void) {
APPL_TRACE_DEBUG("%s", __func__);
#ifndef OS_GENERIC
BtifAvrcpAudioTrackStop(btif_a2dp_sink_cb.audio_track);
BtifAvrcpAudioTrackDelete(btif_a2dp_sink_cb.audio_track);
#endif
btif_a2dp_sink_cb.audio_track = NULL;
}
static void btif_a2dp_sink_audio_handle_start_decoding(void) {
if (btif_a2dp_sink_cb.decode_alarm != NULL)
return; // Already started decoding
#ifndef OS_GENERIC
BtifAvrcpAudioTrackStart(btif_a2dp_sink_cb.audio_track);
#endif
btif_a2dp_sink_cb.decode_alarm = alarm_new_periodic("btif.a2dp_sink_decode");
if (btif_a2dp_sink_cb.decode_alarm == NULL) {
LOG_ERROR(LOG_TAG, "%s: unable to allocate decode alarm", __func__);
return;
}
alarm_set(btif_a2dp_sink_cb.decode_alarm, BTIF_SINK_MEDIA_TIME_TICK_MS,
btif_decode_alarm_cb, NULL);
}
static void btif_a2dp_sink_handle_inc_media(tBT_SBC_HDR* p_msg) {
uint8_t* sbc_start_frame = ((uint8_t*)(p_msg + 1) + p_msg->offset + 1);
int count;
uint32_t pcmBytes, availPcmBytes;
int16_t* pcmDataPointer =
btif_a2dp_sink_pcm_data; /* Will be overwritten on next packet receipt */
OI_STATUS status;
int num_sbc_frames = p_msg->num_frames_to_be_processed;
uint32_t sbc_frame_len = p_msg->len - 1;
availPcmBytes = sizeof(btif_a2dp_sink_pcm_data);
if ((btif_av_get_peer_sep() == AVDT_TSEP_SNK) ||
(btif_a2dp_sink_cb.rx_flush)) {
APPL_TRACE_DEBUG("State Changed happened in this tick");
return;
}
APPL_TRACE_DEBUG("%s Number of SBC frames %d, frame_len %d", __func__,
num_sbc_frames, sbc_frame_len);
for (count = 0; count < num_sbc_frames && sbc_frame_len != 0; count++) {
pcmBytes = availPcmBytes;
status = OI_CODEC_SBC_DecodeFrame(
&btif_a2dp_sink_context, (const OI_BYTE**)&sbc_start_frame,
(uint32_t*)&sbc_frame_len, (int16_t*)pcmDataPointer,
(uint32_t*)&pcmBytes);
if (!OI_SUCCESS(status)) {
APPL_TRACE_ERROR("%s: Decoding failure: %d", __func__, status);
break;
}
availPcmBytes -= pcmBytes;
pcmDataPointer += pcmBytes / 2;
p_msg->offset += (p_msg->len - 1) - sbc_frame_len;
p_msg->len = sbc_frame_len + 1;
}
#ifndef OS_GENERIC
BtifAvrcpAudioTrackWriteData(
btif_a2dp_sink_cb.audio_track, (void*)btif_a2dp_sink_pcm_data,
(sizeof(btif_a2dp_sink_pcm_data) - availPcmBytes));
#endif
}
static void btif_a2dp_sink_avk_handle_timer(UNUSED_ATTR void* context) {
tBT_SBC_HDR* p_msg;
int num_sbc_frames;
int num_frames_to_process;
if (fixed_queue_is_empty(btif_a2dp_sink_cb.rx_audio_queue)) {
APPL_TRACE_DEBUG("%s: empty queue", __func__);
return;
}
/* Don't do anything in case of focus not granted */
if (btif_a2dp_sink_cb.rx_focus_state == BTIF_A2DP_SINK_FOCUS_NOT_GRANTED) {
APPL_TRACE_DEBUG("%s: skipping frames since focus is not present",
__func__);
return;
}
/* Play only in BTIF_A2DP_SINK_FOCUS_GRANTED case */
if (btif_a2dp_sink_cb.rx_flush) {
fixed_queue_flush(btif_a2dp_sink_cb.rx_audio_queue, osi_free);
return;
}
num_frames_to_process = btif_a2dp_sink_cb.frames_to_process;
APPL_TRACE_DEBUG(" Process Frames + ");
do {
p_msg = (tBT_SBC_HDR*)fixed_queue_try_peek_first(
btif_a2dp_sink_cb.rx_audio_queue);
if (p_msg == NULL) return;
/* Number of frames in queue packets */
num_sbc_frames = p_msg->num_frames_to_be_processed;
APPL_TRACE_DEBUG("Frames left in topmost packet %d", num_sbc_frames);
APPL_TRACE_DEBUG("Remaining frames to process in tick %d",
num_frames_to_process);
APPL_TRACE_DEBUG("Number of packets in queue %d",
fixed_queue_length(btif_a2dp_sink_cb.rx_audio_queue));
if (num_sbc_frames > num_frames_to_process) {
/* Queue packet has more frames */
p_msg->num_frames_to_be_processed = num_frames_to_process;
btif_a2dp_sink_handle_inc_media(p_msg);
p_msg->num_frames_to_be_processed =
num_sbc_frames - num_frames_to_process;
num_frames_to_process = 0;
break;
}
/* Queue packet has less frames */
btif_a2dp_sink_handle_inc_media(p_msg);
p_msg =
(tBT_SBC_HDR*)fixed_queue_try_dequeue(btif_a2dp_sink_cb.rx_audio_queue);
if (p_msg == NULL) {
APPL_TRACE_ERROR("Insufficient data in queue");
break;
}
num_frames_to_process =
num_frames_to_process - p_msg->num_frames_to_be_processed;
osi_free(p_msg);
} while (num_frames_to_process > 0);
APPL_TRACE_DEBUG("Process Frames - ");
}
/* when true media task discards any rx frames */
void btif_a2dp_sink_set_rx_flush(bool enable) {
APPL_TRACE_EVENT("## DROP RX %d ##", enable);
btif_a2dp_sink_cb.rx_flush = enable;
}
static void btif_a2dp_sink_audio_rx_flush_event(void) {
/* Flush all received SBC buffers (encoded) */
APPL_TRACE_DEBUG("%s", __func__);
fixed_queue_flush(btif_a2dp_sink_cb.rx_audio_queue, osi_free);
}
static void btif_a2dp_sink_decoder_update_event(
tBTIF_MEDIA_SINK_DECODER_UPDATE* p_buf) {
OI_STATUS status;
APPL_TRACE_DEBUG("%s: p_codec_info[%x:%x:%x:%x:%x:%x]", __func__,
p_buf->codec_info[1], p_buf->codec_info[2],
p_buf->codec_info[3], p_buf->codec_info[4],
p_buf->codec_info[5], p_buf->codec_info[6]);
int sample_rate = A2DP_GetTrackSampleRate(p_buf->codec_info);
if (sample_rate == -1) {
APPL_TRACE_ERROR("%s: cannot get the track frequency", __func__);
return;
}
int channel_count = A2DP_GetTrackChannelCount(p_buf->codec_info);
if (channel_count == -1) {
APPL_TRACE_ERROR("%s: cannot get the channel count", __func__);
return;
}
int channel_type = A2DP_GetSinkTrackChannelType(p_buf->codec_info);
if (channel_type == -1) {
APPL_TRACE_ERROR("%s: cannot get the Sink channel type", __func__);
return;
}
btif_a2dp_sink_cb.sample_rate = sample_rate;
btif_a2dp_sink_cb.channel_count = channel_count;
btif_a2dp_sink_cb.rx_flush = false;
APPL_TRACE_DEBUG("%s: Reset to Sink role", __func__);
status = OI_CODEC_SBC_DecoderReset(
&btif_a2dp_sink_context, btif_a2dp_sink_context_data,
sizeof(btif_a2dp_sink_context_data), 2, 2, false);
if (!OI_SUCCESS(status)) {
APPL_TRACE_ERROR("%s: OI_CODEC_SBC_DecoderReset failed with error code %d",
__func__, status);
}
APPL_TRACE_DEBUG("%s: A2dpSink: SBC create track", __func__);
btif_a2dp_sink_cb.audio_track =
#ifndef OS_GENERIC
BtifAvrcpAudioTrackCreate(sample_rate, channel_type);
#else
NULL;
#endif
if (btif_a2dp_sink_cb.audio_track == NULL) {
APPL_TRACE_ERROR("%s: A2dpSink: Track creation failed", __func__);
return;
}
btif_a2dp_sink_cb.frames_to_process = A2DP_GetSinkFramesCountToProcess(
BTIF_SINK_MEDIA_TIME_TICK_MS, p_buf->codec_info);
APPL_TRACE_DEBUG("%s: Frames to be processed in 20 ms %d", __func__,
btif_a2dp_sink_cb.frames_to_process);
if (btif_a2dp_sink_cb.frames_to_process == 0) {
APPL_TRACE_ERROR("%s: Cannot compute the number of frames to process",
__func__);
}
}
uint8_t btif_a2dp_sink_enqueue_buf(BT_HDR* p_pkt) {
if (btif_a2dp_sink_cb.rx_flush) /* Flush enabled, do not enqueue */
return fixed_queue_length(btif_a2dp_sink_cb.rx_audio_queue);
if (fixed_queue_length(btif_a2dp_sink_cb.rx_audio_queue) ==
MAX_INPUT_A2DP_FRAME_QUEUE_SZ) {
uint8_t ret = fixed_queue_length(btif_a2dp_sink_cb.rx_audio_queue);
osi_free(fixed_queue_try_dequeue(btif_a2dp_sink_cb.rx_audio_queue));
return ret;
}
BTIF_TRACE_VERBOSE("%s +", __func__);
/* Allocate and queue this buffer */
tBT_SBC_HDR* p_msg = reinterpret_cast<tBT_SBC_HDR*>(
osi_malloc(sizeof(tBT_SBC_HDR) + p_pkt->offset + p_pkt->len));
memcpy((uint8_t*)(p_msg + 1), (uint8_t*)(p_pkt + 1) + p_pkt->offset,
p_pkt->len);
p_msg->num_frames_to_be_processed =
(*((uint8_t*)(p_pkt + 1) + p_pkt->offset)) & 0x0f;
p_msg->len = p_pkt->len;
p_msg->offset = 0;
p_msg->layer_specific = p_pkt->layer_specific;
BTIF_TRACE_VERBOSE("%s: frames to process %d, len %d", __func__,
p_msg->num_frames_to_be_processed, p_msg->len);
fixed_queue_enqueue(btif_a2dp_sink_cb.rx_audio_queue, p_msg);
if (fixed_queue_length(btif_a2dp_sink_cb.rx_audio_queue) ==
MAX_A2DP_DELAYED_START_FRAME_COUNT) {
BTIF_TRACE_DEBUG("%s: Initiate decoding", __func__);
btif_a2dp_sink_audio_handle_start_decoding();
}
return fixed_queue_length(btif_a2dp_sink_cb.rx_audio_queue);
}
void btif_a2dp_sink_audio_rx_flush_req(void) {
if (fixed_queue_is_empty(btif_a2dp_sink_cb.rx_audio_queue)) {
/* Queue is already empty */
return;
}
BT_HDR* p_buf = reinterpret_cast<BT_HDR*>(osi_malloc(sizeof(BT_HDR)));
p_buf->event = BTIF_MEDIA_SINK_AUDIO_RX_FLUSH;
fixed_queue_enqueue(btif_a2dp_sink_cb.cmd_msg_queue, p_buf);
}
void btif_a2dp_sink_debug_dump(UNUSED_ATTR int fd) {
// Nothing to do
}
void btif_a2dp_sink_set_focus_state_req(btif_a2dp_sink_focus_state_t state) {
tBTIF_MEDIA_SINK_FOCUS_UPDATE* p_buf =
reinterpret_cast<tBTIF_MEDIA_SINK_FOCUS_UPDATE*>(
osi_malloc(sizeof(tBTIF_MEDIA_SINK_FOCUS_UPDATE)));
APPL_TRACE_EVENT("%s", __func__);
p_buf->focus_state = state;
p_buf->hdr.event = BTIF_MEDIA_SINK_SET_FOCUS_STATE;
fixed_queue_enqueue(btif_a2dp_sink_cb.cmd_msg_queue, p_buf);
}
static void btif_a2dp_sink_set_focus_state_event(
btif_a2dp_sink_focus_state_t state) {
if (!btif_av_is_connected()) return;
APPL_TRACE_DEBUG("%s: setting focus state to %d", __func__, state);
btif_a2dp_sink_cb.rx_focus_state = state;
if (btif_a2dp_sink_cb.rx_focus_state == BTIF_A2DP_SINK_FOCUS_NOT_GRANTED) {
fixed_queue_flush(btif_a2dp_sink_cb.rx_audio_queue, osi_free);
btif_a2dp_sink_cb.rx_flush = true;
} else if (btif_a2dp_sink_cb.rx_focus_state == BTIF_A2DP_SINK_FOCUS_GRANTED) {
btif_a2dp_sink_cb.rx_flush = false;
}
}
void btif_a2dp_sink_set_audio_track_gain(float gain) {
APPL_TRACE_DEBUG("%s set gain to %f", __func__, gain);
#ifndef OS_GENERIC
BtifAvrcpSetAudioTrackGain(btif_a2dp_sink_cb.audio_track, gain);
#endif
}
static void btif_a2dp_sink_clear_track_event_req(void) {
BT_HDR* p_buf = reinterpret_cast<BT_HDR*>(osi_malloc(sizeof(BT_HDR)));
p_buf->event = BTIF_MEDIA_SINK_CLEAR_TRACK;
fixed_queue_enqueue(btif_a2dp_sink_cb.cmd_msg_queue, p_buf);
}