device_phh_treble/bluetooth/audio/hw/device_port_proxy.cc

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gsi: Initial implementation of sysbta, a system-side bluetooth audio HAL On platform release T, the legacy `audio.a2dp.default` HAL no longer exists, and cannot be trivially restored for generic system-side A2DP audio support. Rather than trying to cling on to its existence (which does not even work anymore even if one did so), it is time to come up with a new solution. This commit introduces a system-side implementation of the generic bluetooth audio HAL. The HAL itself is modelled after the default bluetooth audio HAL, while substantial components of the default audio HAL are also included as it has to also implement the audio HAL interfaces. The audio HAL implementation is delegated to `audio.sysbta.default`, forked from `audio.bluetooth.default` from the Bluetooth apex package. It then communicates with the bluetooth audio HAL interfaces, which need to live in the same process (in this case, the process of the sysbta HAL). This is why we cannot just load `audio.sysbta.default` into the default audio HAL or the audioserver process directly, but rather have to include our own simplistic audio HAL implementation. For now, the audio HAL implementation only includes one for the 6.0 version, but technically, an interface for *every* audio HAL version needs to exist. This, along with other messiness in the sysbta implementation, will be addressed in a future commit. Note that to actually make use of the sysbta audio hal, patches in frameworks/av and packages/modules/Bluetooth are required to introduce support for the property `persist.bluetooth.system_audio_hal.enabled`.
2022-08-24 19:47:06 +00:00
/*
* Copyright 2022 The Android Open Source Project
*
* 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 "BTAudioHalDeviceProxyAIDL"
#include "device_port_proxy.h"
#include <android-base/logging.h>
#include <android-base/stringprintf.h>
#include <audio_utils/primitives.h>
#include <inttypes.h>
#include <log/log.h>
#include <stdlib.h>
#include "BluetoothAudioSessionControl.h"
#include "stream_apis.h"
#include "utils.h"
namespace android {
namespace bluetooth {
namespace audio {
namespace aidl {
using ::aidl::android::hardware::bluetooth::audio::AudioConfiguration;
using ::aidl::android::hardware::bluetooth::audio::BluetoothAudioSessionControl;
using ::aidl::android::hardware::bluetooth::audio::ChannelMode;
using ::aidl::android::hardware::bluetooth::audio::PcmConfiguration;
using ::aidl::android::hardware::bluetooth::audio::PortStatusCallbacks;
using ::aidl::android::hardware::bluetooth::audio::PresentationPosition;
using ::android::base::StringPrintf;
using ControlResultCallback = std::function<void(
uint16_t cookie, bool start_resp, const BluetoothAudioStatus& status)>;
using SessionChangedCallback = std::function<void(uint16_t cookie)>;
namespace {
audio_channel_mask_t OutputChannelModeToAudioFormat(ChannelMode channel_mode) {
switch (channel_mode) {
case ChannelMode::MONO:
return AUDIO_CHANNEL_OUT_MONO;
case ChannelMode::STEREO:
return AUDIO_CHANNEL_OUT_STEREO;
default:
return kBluetoothDefaultOutputChannelModeMask;
}
}
audio_channel_mask_t InputChannelModeToAudioFormat(ChannelMode channel_mode) {
switch (channel_mode) {
case ChannelMode::MONO:
return AUDIO_CHANNEL_IN_MONO;
case ChannelMode::STEREO:
return AUDIO_CHANNEL_IN_STEREO;
default:
return kBluetoothDefaultInputChannelModeMask;
}
}
audio_format_t BitsPerSampleToAudioFormat(uint8_t bits_per_sample,
const SessionType& session_type) {
switch (bits_per_sample) {
case 16:
return AUDIO_FORMAT_PCM_16_BIT;
case 24:
/* Now we use knowledge that Classic sessions used packed, and LE Audio
* LC3 encoder uses unpacked as input. This should be passed as parameter
* from BT stack through AIDL, but it would require new interface version,
* so sticking with this workaround for now. */
if (session_type ==
SessionType::A2DP_HARDWARE_OFFLOAD_ENCODING_DATAPATH ||
session_type == SessionType::A2DP_SOFTWARE_ENCODING_DATAPATH) {
return AUDIO_FORMAT_PCM_24_BIT_PACKED;
} else {
return AUDIO_FORMAT_PCM_8_24_BIT;
}
case 32:
return AUDIO_FORMAT_PCM_32_BIT;
default:
return kBluetoothDefaultAudioFormatBitsPerSample;
}
}
// The maximum time to wait in std::condition_variable::wait_for()
constexpr unsigned int kMaxWaitingTimeMs = 4500;
} // namespace
BluetoothAudioPortAidl::BluetoothAudioPortAidl()
: cookie_(::aidl::android::hardware::bluetooth::audio::
kObserversCookieUndefined),
state_(BluetoothStreamState::DISABLED),
session_type_(SessionType::UNKNOWN) {}
BluetoothAudioPortAidlOut::~BluetoothAudioPortAidlOut() {
if (in_use()) TearDown();
}
BluetoothAudioPortAidlIn::~BluetoothAudioPortAidlIn() {
if (in_use()) TearDown();
}
bool BluetoothAudioPortAidl::SetUp(audio_devices_t devices) {
if (!init_session_type(devices)) return false;
state_ = BluetoothStreamState::STANDBY;
auto control_result_cb = [port = this](uint16_t cookie, bool start_resp,
const BluetoothAudioStatus& status) {
if (!port->in_use()) {
LOG(ERROR) << "control_result_cb: BluetoothAudioPortAidl is not in use";
return;
}
if (port->cookie_ != cookie) {
LOG(ERROR) << "control_result_cb: proxy of device port (cookie="
<< StringPrintf("%#hx", cookie) << ") is corrupted";
return;
}
port->ControlResultHandler(status);
};
auto session_changed_cb = [port = this](uint16_t cookie) {
if (!port->in_use()) {
LOG(ERROR) << "session_changed_cb: BluetoothAudioPortAidl is not in use";
return;
}
if (port->cookie_ != cookie) {
LOG(ERROR) << "session_changed_cb: proxy of device port (cookie="
<< StringPrintf("%#hx", cookie) << ") is corrupted";
return;
}
port->SessionChangedHandler();
};
// TODO: Add audio_config_changed_cb
PortStatusCallbacks cbacks = {
.control_result_cb_ = control_result_cb,
.session_changed_cb_ = session_changed_cb,
};
cookie_ = BluetoothAudioSessionControl::RegisterControlResultCback(
session_type_, cbacks);
LOG(INFO) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_);
return (
cookie_ !=
::aidl::android::hardware::bluetooth::audio::kObserversCookieUndefined);
}
bool BluetoothAudioPortAidl::init_session_type(audio_devices_t device) {
switch (device) {
case AUDIO_DEVICE_OUT_BLUETOOTH_A2DP:
case AUDIO_DEVICE_OUT_BLUETOOTH_A2DP_HEADPHONES:
case AUDIO_DEVICE_OUT_BLUETOOTH_A2DP_SPEAKER:
LOG(VERBOSE)
<< __func__
<< ": device=AUDIO_DEVICE_OUT_BLUETOOTH_A2DP (HEADPHONES/SPEAKER) ("
<< StringPrintf("%#x", device) << ")";
session_type_ = SessionType::A2DP_SOFTWARE_ENCODING_DATAPATH;
break;
case AUDIO_DEVICE_OUT_HEARING_AID:
LOG(VERBOSE) << __func__
<< ": device=AUDIO_DEVICE_OUT_HEARING_AID (MEDIA/VOICE) ("
<< StringPrintf("%#x", device) << ")";
session_type_ = SessionType::HEARING_AID_SOFTWARE_ENCODING_DATAPATH;
break;
case AUDIO_DEVICE_OUT_BLE_HEADSET:
LOG(VERBOSE) << __func__
<< ": device=AUDIO_DEVICE_OUT_BLE_HEADSET (MEDIA/VOICE) ("
<< StringPrintf("%#x", device) << ")";
session_type_ = SessionType::LE_AUDIO_SOFTWARE_ENCODING_DATAPATH;
break;
case AUDIO_DEVICE_OUT_BLE_SPEAKER:
LOG(VERBOSE) << __func__
<< ": device=AUDIO_DEVICE_OUT_BLE_SPEAKER (MEDIA) ("
<< StringPrintf("%#x", device) << ")";
session_type_ = SessionType::LE_AUDIO_SOFTWARE_ENCODING_DATAPATH;
break;
case AUDIO_DEVICE_IN_BLE_HEADSET:
LOG(VERBOSE) << __func__
<< ": device=AUDIO_DEVICE_IN_BLE_HEADSET (VOICE) ("
<< StringPrintf("%#x", device) << ")";
session_type_ = SessionType::LE_AUDIO_SOFTWARE_DECODING_DATAPATH;
break;
case AUDIO_DEVICE_OUT_BLE_BROADCAST:
LOG(VERBOSE) << __func__
<< ": device=AUDIO_DEVICE_OUT_BLE_BROADCAST (MEDIA) ("
<< StringPrintf("%#x", device) << ")";
session_type_ =
SessionType::LE_AUDIO_BROADCAST_SOFTWARE_ENCODING_DATAPATH;
break;
default:
LOG(ERROR) << __func__
<< ": unknown device=" << StringPrintf("%#x", device);
return false;
}
if (!BluetoothAudioSessionControl::IsSessionReady(session_type_)) {
LOG(ERROR) << __func__ << ": device=" << StringPrintf("%#x", device)
<< ", session_type=" << toString(session_type_)
<< " is not ready";
return false;
}
return true;
}
void BluetoothAudioPortAidl::TearDown() {
if (!in_use()) {
LOG(ERROR) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< " unknown monitor";
return;
}
LOG(INFO) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_);
BluetoothAudioSessionControl::UnregisterControlResultCback(session_type_,
cookie_);
cookie_ =
::aidl::android::hardware::bluetooth::audio::kObserversCookieUndefined;
}
void BluetoothAudioPortAidl::ControlResultHandler(
const BluetoothAudioStatus& status) {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidlis not in use";
return;
}
std::unique_lock<std::mutex> port_lock(cv_mutex_);
BluetoothStreamState previous_state = state_;
LOG(INFO) << "control_result_cb: session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", previous_state=" << previous_state
<< ", status=" << toString(status);
switch (previous_state) {
case BluetoothStreamState::STARTED:
/* Only Suspend signal can be send in STARTED state*/
if (status == BluetoothAudioStatus::RECONFIGURATION ||
status == BluetoothAudioStatus::SUCCESS) {
state_ = BluetoothStreamState::STANDBY;
} else {
// Set to standby since the stack may be busy switching between outputs
LOG(WARNING) << "control_result_cb: status=" << toString(status)
<< " failure for session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", previous_state=" << previous_state;
}
break;
case BluetoothStreamState::STARTING:
if (status == BluetoothAudioStatus::SUCCESS) {
state_ = BluetoothStreamState::STARTED;
} else {
// Set to standby since the stack may be busy switching between outputs
LOG(WARNING) << "control_result_cb: status=" << toString(status)
<< " failure for session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", previous_state=" << previous_state;
state_ = BluetoothStreamState::STANDBY;
}
break;
case BluetoothStreamState::SUSPENDING:
if (status == BluetoothAudioStatus::SUCCESS) {
state_ = BluetoothStreamState::STANDBY;
} else {
// It will be failed if the headset is disconnecting, and set to disable
// to wait for re-init again
LOG(WARNING) << "control_result_cb: status=" << toString(status)
<< " failure for session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", previous_state=" << previous_state;
state_ = BluetoothStreamState::DISABLED;
}
break;
default:
LOG(ERROR) << "control_result_cb: unexpected status=" << toString(status)
<< " for session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", previous_state=" << previous_state;
return;
}
port_lock.unlock();
internal_cv_.notify_all();
}
void BluetoothAudioPortAidl::SessionChangedHandler() {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidl is not in use";
return;
}
std::unique_lock<std::mutex> port_lock(cv_mutex_);
BluetoothStreamState previous_state = state_;
LOG(INFO) << "session_changed_cb: session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", previous_state=" << previous_state;
state_ = BluetoothStreamState::DISABLED;
port_lock.unlock();
internal_cv_.notify_all();
}
bool BluetoothAudioPortAidl::in_use() const {
return (
cookie_ !=
::aidl::android::hardware::bluetooth::audio::kObserversCookieUndefined);
}
bool BluetoothAudioPortAidl::GetPreferredDataIntervalUs(
size_t* interval_us) const {
if (!in_use()) {
return false;
}
const AudioConfiguration& hal_audio_cfg =
BluetoothAudioSessionControl::GetAudioConfig(session_type_);
if (hal_audio_cfg.getTag() != AudioConfiguration::pcmConfig) {
return false;
}
const PcmConfiguration& pcm_cfg =
hal_audio_cfg.get<AudioConfiguration::pcmConfig>();
*interval_us = pcm_cfg.dataIntervalUs;
return true;
}
bool BluetoothAudioPortAidlOut::LoadAudioConfig(
audio_config_t* audio_cfg) const {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidlOut is not in use";
audio_cfg->sample_rate = kBluetoothDefaultSampleRate;
audio_cfg->channel_mask = kBluetoothDefaultOutputChannelModeMask;
audio_cfg->format = kBluetoothDefaultAudioFormatBitsPerSample;
return false;
}
const AudioConfiguration& hal_audio_cfg =
BluetoothAudioSessionControl::GetAudioConfig(session_type_);
if (hal_audio_cfg.getTag() != AudioConfiguration::pcmConfig) {
audio_cfg->sample_rate = kBluetoothDefaultSampleRate;
audio_cfg->channel_mask = kBluetoothDefaultOutputChannelModeMask;
audio_cfg->format = kBluetoothDefaultAudioFormatBitsPerSample;
return false;
}
const PcmConfiguration& pcm_cfg =
hal_audio_cfg.get<AudioConfiguration::pcmConfig>();
LOG(VERBOSE) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << ", PcmConfig=[" << pcm_cfg.toString()
<< "]";
if (pcm_cfg.channelMode == ChannelMode::UNKNOWN) {
return false;
}
audio_cfg->sample_rate = pcm_cfg.sampleRateHz;
audio_cfg->channel_mask =
(is_stereo_to_mono_
? AUDIO_CHANNEL_OUT_STEREO
: OutputChannelModeToAudioFormat(pcm_cfg.channelMode));
audio_cfg->format =
BitsPerSampleToAudioFormat(pcm_cfg.bitsPerSample, session_type_);
return true;
}
bool BluetoothAudioPortAidlIn::LoadAudioConfig(
audio_config_t* audio_cfg) const {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidlIn is not in use";
audio_cfg->sample_rate = kBluetoothDefaultSampleRate;
audio_cfg->channel_mask = kBluetoothDefaultInputChannelModeMask;
audio_cfg->format = kBluetoothDefaultAudioFormatBitsPerSample;
return false;
}
const AudioConfiguration& hal_audio_cfg =
BluetoothAudioSessionControl::GetAudioConfig(session_type_);
if (hal_audio_cfg.getTag() != AudioConfiguration::pcmConfig) {
audio_cfg->sample_rate = kBluetoothDefaultSampleRate;
audio_cfg->channel_mask = kBluetoothDefaultInputChannelModeMask;
audio_cfg->format = kBluetoothDefaultAudioFormatBitsPerSample;
return false;
}
const PcmConfiguration& pcm_cfg =
hal_audio_cfg.get<AudioConfiguration::pcmConfig>();
LOG(VERBOSE) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << ", PcmConfig=[" << pcm_cfg.toString()
<< "]";
if (pcm_cfg.channelMode == ChannelMode::UNKNOWN) {
return false;
}
audio_cfg->sample_rate = pcm_cfg.sampleRateHz;
audio_cfg->channel_mask = InputChannelModeToAudioFormat(pcm_cfg.channelMode);
audio_cfg->format =
BitsPerSampleToAudioFormat(pcm_cfg.bitsPerSample, session_type_);
return true;
}
bool BluetoothAudioPortAidl::CondwaitState(BluetoothStreamState state) {
bool retval;
std::unique_lock<std::mutex> port_lock(cv_mutex_);
switch (state) {
case BluetoothStreamState::STARTING:
LOG(VERBOSE) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< " waiting for STARTED";
retval = internal_cv_.wait_for(
port_lock, std::chrono::milliseconds(kMaxWaitingTimeMs),
[this] { return this->state_ != BluetoothStreamState::STARTING; });
retval = retval && state_ == BluetoothStreamState::STARTED;
break;
case BluetoothStreamState::SUSPENDING:
LOG(VERBOSE) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< " waiting for SUSPENDED";
retval = internal_cv_.wait_for(
port_lock, std::chrono::milliseconds(kMaxWaitingTimeMs),
[this] { return this->state_ != BluetoothStreamState::SUSPENDING; });
retval = retval && state_ == BluetoothStreamState::STANDBY;
break;
default:
LOG(WARNING) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< " waiting for KNOWN";
return false;
}
return retval; // false if any failure like timeout
}
bool BluetoothAudioPortAidl::Start() {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidl is not in use";
return false;
}
LOG(INFO) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_
<< ", mono=" << (is_stereo_to_mono_ ? "true" : "false")
<< " request";
bool retval = false;
if (state_ == BluetoothStreamState::STANDBY) {
state_ = BluetoothStreamState::STARTING;
if (BluetoothAudioSessionControl::StartStream(session_type_)) {
retval = CondwaitState(BluetoothStreamState::STARTING);
} else {
LOG(ERROR) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << " Hal fails";
}
}
if (retval) {
LOG(INFO) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_
<< ", mono=" << (is_stereo_to_mono_ ? "true" : "false")
<< " done";
} else {
LOG(ERROR) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << " failure";
}
return retval; // false if any failure like timeout
}
bool BluetoothAudioPortAidl::Suspend() {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidl is not in use";
return false;
}
LOG(INFO) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << " request";
bool retval = false;
if (state_ == BluetoothStreamState::STARTED) {
state_ = BluetoothStreamState::SUSPENDING;
if (BluetoothAudioSessionControl::SuspendStream(session_type_)) {
retval = CondwaitState(BluetoothStreamState::SUSPENDING);
} else {
LOG(ERROR) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << " Hal fails";
}
}
if (retval) {
LOG(INFO) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << " done";
} else {
LOG(ERROR) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << " failure";
}
return retval; // false if any failure like timeout
}
void BluetoothAudioPortAidl::Stop() {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidl is not in use";
return;
}
LOG(INFO) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << " request";
state_ = BluetoothStreamState::DISABLED;
BluetoothAudioSessionControl::StopStream(session_type_);
LOG(INFO) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << " done";
}
size_t BluetoothAudioPortAidlOut::WriteData(const void* buffer,
size_t bytes) const {
if (!in_use()) return 0;
if (!is_stereo_to_mono_) {
return BluetoothAudioSessionControl::OutWritePcmData(session_type_, buffer,
bytes);
}
// WAR to mix the stereo into Mono (16 bits per sample)
const size_t write_frames = bytes >> 2;
if (write_frames == 0) return 0;
auto src = static_cast<const int16_t*>(buffer);
std::unique_ptr<int16_t[]> dst{new int16_t[write_frames]};
downmix_to_mono_i16_from_stereo_i16(dst.get(), src, write_frames);
// a frame is 16 bits, and the size of a mono frame is equal to half a stereo.
return BluetoothAudioSessionControl::OutWritePcmData(session_type_, dst.get(),
write_frames * 2) *
2;
}
size_t BluetoothAudioPortAidlIn::ReadData(void* buffer, size_t bytes) const {
if (!in_use()) return 0;
return BluetoothAudioSessionControl::InReadPcmData(session_type_, buffer,
bytes);
}
bool BluetoothAudioPortAidl::GetPresentationPosition(
uint64_t* delay_ns, uint64_t* bytes, timespec* timestamp) const {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidl is not in use";
return false;
}
PresentationPosition presentation_position;
bool retval = BluetoothAudioSessionControl::GetPresentationPosition(
session_type_, presentation_position);
*delay_ns = presentation_position.remoteDeviceAudioDelayNanos;
*bytes = presentation_position.transmittedOctets;
*timestamp = {.tv_sec = static_cast<__kernel_old_time_t>(
presentation_position.transmittedOctetsTimestamp.tvSec),
.tv_nsec = static_cast<long>(
presentation_position.transmittedOctetsTimestamp.tvNSec)};
LOG(VERBOSE) << __func__
<< ": session_type=" << StringPrintf("%#hhx", session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << ", delay=" << *delay_ns
<< "ns, data=" << *bytes
<< " bytes, timestamp=" << timestamp->tv_sec << "."
<< StringPrintf("%09ld", timestamp->tv_nsec) << "s";
return retval;
}
void BluetoothAudioPortAidl::UpdateSourceMetadata(
const source_metadata* source_metadata) const {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidl is not in use";
return;
}
LOG(DEBUG) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << ", " << source_metadata->track_count
<< " track(s)";
if (source_metadata->track_count == 0) return;
BluetoothAudioSessionControl::UpdateSourceMetadata(session_type_,
*source_metadata);
}
void BluetoothAudioPortAidl::UpdateSinkMetadata(
const sink_metadata* sink_metadata) const {
if (!in_use()) {
LOG(ERROR) << __func__ << ": BluetoothAudioPortAidl is not in use";
return;
}
LOG(DEBUG) << __func__ << ": session_type=" << toString(session_type_)
<< ", cookie=" << StringPrintf("%#hx", cookie_)
<< ", state=" << state_ << ", " << sink_metadata->track_count
<< " track(s)";
if (sink_metadata->track_count == 0) return;
BluetoothAudioSessionControl::UpdateSinkMetadata(session_type_,
*sink_metadata);
}
BluetoothStreamState BluetoothAudioPortAidl::GetState() const { return state_; }
void BluetoothAudioPortAidl::SetState(BluetoothStreamState state) {
state_ = state;
}
} // namespace aidl
} // namespace audio
} // namespace bluetooth
} // namespace android