device_phh_treble/bluetooth/audio/utils/session/BluetoothAudioSession.cpp

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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 2018 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 "BTAudioProviderSession"
#include "BluetoothAudioSession.h"
#include <android-base/logging.h>
#include <android-base/stringprintf.h>
#include "../aidl_session/HidlToAidlMiddleware_2_0.h"
namespace android {
namespace bluetooth {
namespace audio {
using ::aidl::android::hardware::bluetooth::audio::HidlToAidlMiddleware_2_0;
using ::android::hardware::audio::common::V5_0::AudioContentType;
using ::android::hardware::audio::common::V5_0::AudioUsage;
using ::android::hardware::audio::common::V5_0::PlaybackTrackMetadata;
using ::android::hardware::audio::common::V5_0::SourceMetadata;
using ::android::hardware::bluetooth::audio::V2_0::CodecType;
using ::android::hardware::bluetooth::audio::V2_0::TimeSpec;
const CodecConfiguration BluetoothAudioSession::kInvalidCodecConfiguration = {
.codecType = CodecType::UNKNOWN,
.encodedAudioBitrate = 0x00000000,
.peerMtu = 0xffff,
.isScmstEnabled = false,
.config = {}};
AudioConfiguration BluetoothAudioSession::invalidSoftwareAudioConfiguration =
{};
AudioConfiguration BluetoothAudioSession::invalidOffloadAudioConfiguration = {};
static constexpr int kFmqSendTimeoutMs = 1000; // 1000 ms timeout for sending
static constexpr int kFmqReceiveTimeoutMs =
1000; // 1000 ms timeout for receiving
static constexpr int kWritePollMs = 1; // polled non-blocking interval
static constexpr int kReadPollMs = 1; // polled non-blocking interval
static inline timespec timespec_convert_from_hal(const TimeSpec& TS) {
return {.tv_sec = static_cast<long>(TS.tvSec),
.tv_nsec = static_cast<long>(TS.tvNSec)};
}
BluetoothAudioSession::BluetoothAudioSession(const SessionType& session_type)
: session_type_(session_type), stack_iface_(nullptr), mDataMQ(nullptr) {
invalidSoftwareAudioConfiguration.pcmConfig(kInvalidPcmParameters);
invalidOffloadAudioConfiguration.codecConfig(kInvalidCodecConfiguration);
}
// The report function is used to report that the Bluetooth stack has started
// this session without any failure, and will invoke session_changed_cb_ to
// notify those registered bluetooth_audio outputs
void BluetoothAudioSession::OnSessionStarted(
const sp<IBluetoothAudioPort> stack_iface, const DataMQ::Descriptor* dataMQ,
const AudioConfiguration& audio_config) {
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (stack_iface == nullptr) {
LOG(ERROR) << __func__ << " - SessionType=" << toString(session_type_)
<< ", IBluetoothAudioPort Invalid";
} else if (!UpdateAudioConfig(audio_config)) {
LOG(ERROR) << __func__ << " - SessionType=" << toString(session_type_)
<< ", AudioConfiguration=" << toString(audio_config)
<< " Invalid";
} else if (!UpdateDataPath(dataMQ)) {
LOG(ERROR) << __func__ << " - SessionType=" << toString(session_type_)
<< " DataMQ Invalid";
audio_config_ =
(session_type_ == SessionType::A2DP_HARDWARE_OFFLOAD_DATAPATH
? kInvalidOffloadAudioConfiguration
: kInvalidSoftwareAudioConfiguration);
} else {
stack_iface_ = stack_iface;
LOG(INFO) << __func__ << " - SessionType=" << toString(session_type_)
<< ", AudioConfiguration=" << toString(audio_config);
ReportSessionStatus();
}
}
// The report function is used to report that the Bluetooth stack has ended the
// session, and will invoke session_changed_cb_ to notify registered
// bluetooth_audio outputs
void BluetoothAudioSession::OnSessionEnded() {
std::lock_guard<std::recursive_mutex> guard(mutex_);
bool toggled = IsSessionReady();
LOG(INFO) << __func__ << " - SessionType=" << toString(session_type_);
audio_config_ = (session_type_ == SessionType::A2DP_HARDWARE_OFFLOAD_DATAPATH
? kInvalidOffloadAudioConfiguration
: kInvalidSoftwareAudioConfiguration);
stack_iface_ = nullptr;
UpdateDataPath(nullptr);
if (toggled) {
ReportSessionStatus();
}
}
// invoking the registered session_changed_cb_
void BluetoothAudioSession::ReportSessionStatus() {
// This is locked already by OnSessionStarted / OnSessionEnded
if (observers_.empty()) {
LOG(INFO) << __func__ << " - SessionType=" << toString(session_type_)
<< " has NO port state observer";
return;
}
for (auto& observer : observers_) {
uint16_t cookie = observer.first;
std::shared_ptr<struct PortStatusCallbacks> cb = observer.second;
LOG(INFO) << __func__ << " - SessionType=" << toString(session_type_)
<< " notify to bluetooth_audio=0x"
<< android::base::StringPrintf("%04x", cookie);
cb->session_changed_cb_(cookie);
}
}
// The report function is used to report that the Bluetooth stack has notified
// the result of startStream or suspendStream, and will invoke
// control_result_cb_ to notify registered bluetooth_audio outputs
void BluetoothAudioSession::ReportControlStatus(
bool start_resp, const BluetoothAudioStatus& status) {
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (observers_.empty()) {
LOG(WARNING) << __func__ << " - SessionType=" << toString(session_type_)
<< " has NO port state observer";
return;
}
for (auto& observer : observers_) {
uint16_t cookie = observer.first;
std::shared_ptr<struct PortStatusCallbacks> cb = observer.second;
LOG(INFO) << __func__ << " - status=" << toString(status)
<< " for SessionType=" << toString(session_type_)
<< ", bluetooth_audio=0x"
<< android::base::StringPrintf("%04x", cookie)
<< (start_resp ? " started" : " suspended");
cb->control_result_cb_(cookie, start_resp, status);
}
}
// The function helps to check if this session is ready or not
// @return: true if the Bluetooth stack has started the specified session
bool BluetoothAudioSession::IsSessionReady() {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::IsSessionReady(session_type_);
std::lock_guard<std::recursive_mutex> guard(mutex_);
bool dataMQ_valid =
(session_type_ == SessionType::A2DP_HARDWARE_OFFLOAD_DATAPATH ||
(mDataMQ != nullptr && mDataMQ->isValid()));
return stack_iface_ != nullptr && dataMQ_valid;
}
bool BluetoothAudioSession::UpdateDataPath(const DataMQ::Descriptor* dataMQ) {
if (dataMQ == nullptr) {
// usecase of reset by nullptr
mDataMQ = nullptr;
return true;
}
std::unique_ptr<DataMQ> tempDataMQ;
tempDataMQ.reset(new DataMQ(*dataMQ));
if (!tempDataMQ || !tempDataMQ->isValid()) {
mDataMQ = nullptr;
return false;
}
mDataMQ = std::move(tempDataMQ);
return true;
}
bool BluetoothAudioSession::UpdateAudioConfig(
const AudioConfiguration& audio_config) {
bool is_software_session =
(session_type_ == SessionType::A2DP_SOFTWARE_ENCODING_DATAPATH ||
session_type_ == SessionType::HEARING_AID_SOFTWARE_ENCODING_DATAPATH);
bool is_offload_session =
(session_type_ == SessionType::A2DP_HARDWARE_OFFLOAD_DATAPATH);
auto audio_config_discriminator = audio_config.getDiscriminator();
bool is_software_audio_config =
(is_software_session &&
audio_config_discriminator ==
AudioConfiguration::hidl_discriminator::pcmConfig);
bool is_offload_audio_config =
(is_offload_session &&
audio_config_discriminator ==
AudioConfiguration::hidl_discriminator::codecConfig);
if (!is_software_audio_config && !is_offload_audio_config) {
return false;
}
audio_config_ = audio_config;
return true;
}
// The control function helps the bluetooth_audio module to register
// PortStatusCallbacks
// @return: cookie - the assigned number to this bluetooth_audio output
uint16_t BluetoothAudioSession::RegisterStatusCback(
const PortStatusCallbacks& cbacks) {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::RegisterControlResultCback(session_type_,
cbacks);
std::lock_guard<std::recursive_mutex> guard(mutex_);
uint16_t cookie = ObserversCookieGetInitValue(session_type_);
uint16_t cookie_upper_bound = ObserversCookieGetUpperBound(session_type_);
while (cookie < cookie_upper_bound) {
if (observers_.find(cookie) == observers_.end()) {
break;
}
++cookie;
}
if (cookie >= cookie_upper_bound) {
LOG(ERROR) << __func__ << " - SessionType=" << toString(session_type_)
<< " has " << observers_.size()
<< " observers already (No Resource)";
return kObserversCookieUndefined;
}
std::shared_ptr<struct PortStatusCallbacks> cb =
std::make_shared<struct PortStatusCallbacks>();
*cb = cbacks;
observers_[cookie] = cb;
return cookie;
}
// The control function helps the bluetooth_audio module to unregister
// PortStatusCallbacks
// @param: cookie - indicates which bluetooth_audio output is
void BluetoothAudioSession::UnregisterStatusCback(uint16_t cookie) {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::UnregisterControlResultCback(session_type_,
cookie);
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (observers_.erase(cookie) != 1) {
LOG(WARNING) << __func__ << " - SessionType=" << toString(session_type_)
<< " no such provider=0x"
<< android::base::StringPrintf("%04x", cookie);
}
}
// The control function is for the bluetooth_audio module to get the current
// AudioConfiguration
const AudioConfiguration& BluetoothAudioSession::GetAudioConfig() {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return (audio_config_ =
HidlToAidlMiddleware_2_0::GetAudioConfig(session_type_));
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (IsSessionReady()) {
return audio_config_;
} else if (session_type_ == SessionType::A2DP_HARDWARE_OFFLOAD_DATAPATH) {
return kInvalidOffloadAudioConfiguration;
} else {
return kInvalidSoftwareAudioConfiguration;
}
}
// Those control functions are for the bluetooth_audio module to start, suspend,
// stop stream, to check position, and to update metadata.
bool BluetoothAudioSession::StartStream() {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::StartStream(session_type_);
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (!IsSessionReady()) {
LOG(DEBUG) << __func__ << " - SessionType=" << toString(session_type_)
<< " has NO session";
return false;
}
auto hal_retval = stack_iface_->startStream();
if (!hal_retval.isOk()) {
LOG(WARNING) << __func__ << " - IBluetoothAudioPort SessionType="
<< toString(session_type_) << " failed";
return false;
}
return true;
}
bool BluetoothAudioSession::SuspendStream() {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::SuspendStream(session_type_);
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (!IsSessionReady()) {
LOG(DEBUG) << __func__ << " - SessionType=" << toString(session_type_)
<< " has NO session";
return false;
}
auto hal_retval = stack_iface_->suspendStream();
if (!hal_retval.isOk()) {
LOG(WARNING) << __func__ << " - IBluetoothAudioPort SessionType="
<< toString(session_type_) << " failed";
return false;
}
return true;
}
void BluetoothAudioSession::StopStream() {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::StopStream(session_type_);
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (!IsSessionReady()) {
return;
}
auto hal_retval = stack_iface_->stopStream();
if (!hal_retval.isOk()) {
LOG(WARNING) << __func__ << " - IBluetoothAudioPort SessionType="
<< toString(session_type_) << " failed";
}
}
bool BluetoothAudioSession::GetPresentationPosition(
uint64_t* remote_delay_report_ns, uint64_t* total_bytes_readed,
timespec* data_position) {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::GetPresentationPosition(
session_type_, remote_delay_report_ns, total_bytes_readed,
data_position);
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (!IsSessionReady()) {
LOG(DEBUG) << __func__ << " - SessionType=" << toString(session_type_)
<< " has NO session";
return false;
}
bool retval = false;
auto hal_retval = stack_iface_->getPresentationPosition(
[&retval, &remote_delay_report_ns, &total_bytes_readed, &data_position](
BluetoothAudioStatus status,
const uint64_t& remoteDeviceAudioDelayNanos,
uint64_t transmittedOctets,
const TimeSpec& transmittedOctetsTimeStamp) {
if (status == BluetoothAudioStatus::SUCCESS) {
if (remote_delay_report_ns)
*remote_delay_report_ns = remoteDeviceAudioDelayNanos;
if (total_bytes_readed) *total_bytes_readed = transmittedOctets;
if (data_position)
*data_position =
timespec_convert_from_hal(transmittedOctetsTimeStamp);
retval = true;
}
});
if (!hal_retval.isOk()) {
LOG(WARNING) << __func__ << " - IBluetoothAudioPort SessionType="
<< toString(session_type_) << " failed";
return false;
}
return retval;
}
void BluetoothAudioSession::UpdateTracksMetadata(
const struct source_metadata* source_metadata) {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::UpdateTracksMetadata(session_type_,
source_metadata);
std::lock_guard<std::recursive_mutex> guard(mutex_);
if (!IsSessionReady()) {
LOG(DEBUG) << __func__ << " - SessionType=" << toString(session_type_)
<< " has NO session";
return;
}
ssize_t track_count = source_metadata->track_count;
LOG(INFO) << __func__ << " - SessionType=" << toString(session_type_) << ", "
<< track_count << " track(s)";
if (session_type_ == SessionType::A2DP_SOFTWARE_ENCODING_DATAPATH ||
session_type_ == SessionType::A2DP_HARDWARE_OFFLOAD_DATAPATH) {
return;
}
struct playback_track_metadata* track = source_metadata->tracks;
SourceMetadata sourceMetadata;
PlaybackTrackMetadata* halMetadata;
sourceMetadata.tracks.resize(track_count);
halMetadata = sourceMetadata.tracks.data();
while (track_count && track) {
halMetadata->usage = static_cast<AudioUsage>(track->usage);
halMetadata->contentType =
static_cast<AudioContentType>(track->content_type);
halMetadata->gain = track->gain;
LOG(VERBOSE) << __func__ << " - SessionType=" << toString(session_type_)
<< ", usage=" << toString(halMetadata->usage)
<< ", content=" << toString(halMetadata->contentType)
<< ", gain=" << halMetadata->gain;
--track_count;
++track;
++halMetadata;
}
auto hal_retval = stack_iface_->updateMetadata(sourceMetadata);
if (!hal_retval.isOk()) {
LOG(WARNING) << __func__ << " - IBluetoothAudioPort SessionType="
<< toString(session_type_) << " failed";
}
}
// The control function writes stream to FMQ
size_t BluetoothAudioSession::OutWritePcmData(const void* buffer,
size_t bytes) {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::OutWritePcmData(session_type_, buffer,
bytes);
if (buffer == nullptr || !bytes) return 0;
size_t totalWritten = 0;
int ms_timeout = kFmqSendTimeoutMs;
do {
std::unique_lock<std::recursive_mutex> lock(mutex_);
if (!IsSessionReady()) break;
size_t availableToWrite = mDataMQ->availableToWrite();
if (availableToWrite) {
if (availableToWrite > (bytes - totalWritten)) {
availableToWrite = bytes - totalWritten;
}
if (!mDataMQ->write(static_cast<const uint8_t*>(buffer) + totalWritten,
availableToWrite)) {
ALOGE("FMQ datapath writting %zu/%zu failed", totalWritten, bytes);
return totalWritten;
}
totalWritten += availableToWrite;
} else if (ms_timeout >= kWritePollMs) {
lock.unlock();
usleep(kWritePollMs * 1000);
ms_timeout -= kWritePollMs;
} else {
ALOGD("data %zu/%zu overflow %d ms", totalWritten, bytes,
(kFmqSendTimeoutMs - ms_timeout));
return totalWritten;
}
} while (totalWritten < bytes);
return totalWritten;
}
// The control function reads stream from FMQ
size_t BluetoothAudioSession::InReadPcmData(void* buffer, size_t bytes) {
if (HidlToAidlMiddleware_2_0::IsAidlAvailable())
return HidlToAidlMiddleware_2_0::InReadPcmData(session_type_, buffer,
bytes);
if (buffer == nullptr || !bytes) return 0;
size_t totalRead = 0;
int ms_timeout = kFmqReceiveTimeoutMs;
do {
std::unique_lock<std::recursive_mutex> lock(mutex_);
if (!IsSessionReady()) break;
size_t availableToRead = mDataMQ->availableToRead();
if (availableToRead) {
if (availableToRead > (bytes - totalRead)) {
availableToRead = bytes - totalRead;
}
if (!mDataMQ->read(static_cast<uint8_t*>(buffer) + totalRead,
availableToRead)) {
ALOGE("FMQ datapath reading %zu/%zu failed", totalRead, bytes);
return totalRead;
}
totalRead += availableToRead;
} else if (ms_timeout >= kReadPollMs) {
lock.unlock();
usleep(kReadPollMs * 1000);
ms_timeout -= kReadPollMs;
continue;
} else {
ALOGD("in data %zu/%zu overflow %d ms", totalRead, bytes,
(kFmqReceiveTimeoutMs - ms_timeout));
return totalRead;
}
} while (totalRead < bytes);
return totalRead;
}
std::unique_ptr<BluetoothAudioSessionInstance>
BluetoothAudioSessionInstance::instance_ptr =
std::unique_ptr<BluetoothAudioSessionInstance>(
new BluetoothAudioSessionInstance());
// API to fetch the session of A2DP / Hearing Aid
std::shared_ptr<BluetoothAudioSession>
BluetoothAudioSessionInstance::GetSessionInstance(
const SessionType& session_type) {
std::lock_guard<std::mutex> guard(instance_ptr->mutex_);
if (!instance_ptr->sessions_map_.empty()) {
auto entry = instance_ptr->sessions_map_.find(session_type);
if (entry != instance_ptr->sessions_map_.end()) {
return entry->second;
}
}
std::shared_ptr<BluetoothAudioSession> session_ptr =
std::make_shared<BluetoothAudioSession>(session_type);
instance_ptr->sessions_map_[session_type] = session_ptr;
return session_ptr;
}
} // namespace audio
} // namespace bluetooth
} // namespace android