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a1db22a3e5b45b3bd3c2edf84c605ce211c89220
hardware_interfaces/audio/2.0/default/StreamOut.cpp
Mikhail Naganov a1db22a3e5 audiohal: Pass thread identifiers to the client for priority adjustment 
HALs are prohibited from using framework binder, and there is
no equivalent scheduling policy service in hwbinder. Thus, in order
to match priorities of FastCapture / Mixer threads with their
counterparts in the HAL, it is needed to request the priority boost
from audioflinger on behalf of the HAL.

Bug: 34131400
Change-Id: I7c8db9d520b4cf272d2896ad875752b109b57ab7
Test: check priority match between audioflinger's and hal's threads
2017-02-07 10:49:18 -08:00

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/*
* Copyright (C) 2016 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 "StreamOutHAL"
//#define LOG_NDEBUG 0
#define ATRACE_TAG ATRACE_TAG_AUDIO
#include <android/log.h>
#include <hardware/audio.h>
#include <utils/Trace.h>
#include "StreamOut.h"
namespace android {
namespace hardware {
namespace audio {
namespace V2_0 {
namespace implementation {
using ::android::hardware::audio::common::V2_0::ThreadInfo;
namespace {
class WriteThread : public Thread {
public:
// WriteThread's lifespan never exceeds StreamOut's lifespan.
WriteThread(std::atomic<bool>* stop,
audio_stream_out_t* stream,
StreamOut::CommandMQ* commandMQ,
StreamOut::DataMQ* dataMQ,
StreamOut::StatusMQ* statusMQ,
EventFlag* efGroup)
: Thread(false /*canCallJava*/),
mStop(stop),
mStream(stream),
mCommandMQ(commandMQ),
mDataMQ(dataMQ),
mStatusMQ(statusMQ),
mEfGroup(efGroup),
mBuffer(new uint8_t[dataMQ->getQuantumCount()]) {
}
virtual ~WriteThread() {}
private:
std::atomic<bool>* mStop;
audio_stream_out_t* mStream;
StreamOut::CommandMQ* mCommandMQ;
StreamOut::DataMQ* mDataMQ;
StreamOut::StatusMQ* mStatusMQ;
EventFlag* mEfGroup;
std::unique_ptr<uint8_t[]> mBuffer;
IStreamOut::WriteStatus mStatus;
bool threadLoop() override;
void doGetLatency();
void doGetPresentationPosition();
void doWrite();
};
void WriteThread::doWrite() {
const size_t availToRead = mDataMQ->availableToRead();
mStatus.retval = Result::OK;
mStatus.reply.written = 0;
if (mDataMQ->read(&mBuffer[0], availToRead)) {
ssize_t writeResult = mStream->write(mStream, &mBuffer[0], availToRead);
if (writeResult >= 0) {
mStatus.reply.written = writeResult;
} else {
mStatus.retval = Stream::analyzeStatus("write", writeResult);
}
}
}
void WriteThread::doGetPresentationPosition() {
mStatus.retval = StreamOut::getPresentationPositionImpl(
mStream,
&mStatus.reply.presentationPosition.frames,
&mStatus.reply.presentationPosition.timeStamp);
}
void WriteThread::doGetLatency() {
mStatus.retval = Result::OK;
mStatus.reply.latencyMs = mStream->get_latency(mStream);
}
bool WriteThread::threadLoop() {
// This implementation doesn't return control back to the Thread until it decides to stop,
// as the Thread uses mutexes, and this can lead to priority inversion.
while(!std::atomic_load_explicit(mStop, std::memory_order_acquire)) {
// TODO: Remove manual event flag handling once blocking MQ is implemented. b/33815422
uint32_t efState = 0;
mEfGroup->wait(
static_cast<uint32_t>(MessageQueueFlagBits::NOT_EMPTY), &efState, NS_PER_SEC);
if (!(efState & static_cast<uint32_t>(MessageQueueFlagBits::NOT_EMPTY))) {
continue; // Nothing to do.
}
if (!mCommandMQ->read(&mStatus.replyTo)) {
continue; // Nothing to do.
}
switch (mStatus.replyTo) {
case IStreamOut::WriteCommand::WRITE:
doWrite();
break;
case IStreamOut::WriteCommand::GET_PRESENTATION_POSITION:
doGetPresentationPosition();
break;
case IStreamOut::WriteCommand::GET_LATENCY:
doGetLatency();
break;
default:
ALOGE("Unknown write thread command code %d", mStatus.replyTo);
mStatus.retval = Result::NOT_SUPPORTED;
break;
}
if (!mStatusMQ->write(&mStatus)) {
ALOGE("status message queue write failed");
}
mEfGroup->wake(static_cast<uint32_t>(MessageQueueFlagBits::NOT_FULL));
}
return false;
}
} // namespace
StreamOut::StreamOut(audio_hw_device_t* device, audio_stream_out_t* stream)
: mIsClosed(false), mDevice(device), mStream(stream),
mStreamCommon(new Stream(&stream->common)),
mStreamMmap(new StreamMmap<audio_stream_out_t>(stream)),
mEfGroup(nullptr), mStopWriteThread(false) {
}
StreamOut::~StreamOut() {
ATRACE_CALL();
close();
if (mWriteThread.get()) {
ATRACE_NAME("mWriteThread->join");
status_t status = mWriteThread->join();
ALOGE_IF(status, "write thread exit error: %s", strerror(-status));
}
if (mEfGroup) {
status_t status = EventFlag::deleteEventFlag(&mEfGroup);
ALOGE_IF(status, "write MQ event flag deletion error: %s", strerror(-status));
}
mCallback.clear();
mDevice->close_output_stream(mDevice, mStream);
mStream = nullptr;
mDevice = nullptr;
}
// Methods from ::android::hardware::audio::V2_0::IStream follow.
Return<uint64_t> StreamOut::getFrameSize() {
return audio_stream_out_frame_size(mStream);
}
Return<uint64_t> StreamOut::getFrameCount() {
return mStreamCommon->getFrameCount();
}
Return<uint64_t> StreamOut::getBufferSize() {
return mStreamCommon->getBufferSize();
}
Return<uint32_t> StreamOut::getSampleRate() {
return mStreamCommon->getSampleRate();
}
Return<void> StreamOut::getSupportedSampleRates(getSupportedSampleRates_cb _hidl_cb) {
return mStreamCommon->getSupportedSampleRates(_hidl_cb);
}
Return<Result> StreamOut::setSampleRate(uint32_t sampleRateHz) {
return mStreamCommon->setSampleRate(sampleRateHz);
}
Return<AudioChannelMask> StreamOut::getChannelMask() {
return mStreamCommon->getChannelMask();
}
Return<void> StreamOut::getSupportedChannelMasks(getSupportedChannelMasks_cb _hidl_cb) {
return mStreamCommon->getSupportedChannelMasks(_hidl_cb);
}
Return<Result> StreamOut::setChannelMask(AudioChannelMask mask) {
return mStreamCommon->setChannelMask(mask);
}
Return<AudioFormat> StreamOut::getFormat() {
return mStreamCommon->getFormat();
}
Return<void> StreamOut::getSupportedFormats(getSupportedFormats_cb _hidl_cb) {
return mStreamCommon->getSupportedFormats(_hidl_cb);
}
Return<Result> StreamOut::setFormat(AudioFormat format) {
return mStreamCommon->setFormat(format);
}
Return<void> StreamOut::getAudioProperties(getAudioProperties_cb _hidl_cb) {
return mStreamCommon->getAudioProperties(_hidl_cb);
}
Return<Result> StreamOut::addEffect(uint64_t effectId) {
return mStreamCommon->addEffect(effectId);
}
Return<Result> StreamOut::removeEffect(uint64_t effectId) {
return mStreamCommon->removeEffect(effectId);
}
Return<Result> StreamOut::standby() {
return mStreamCommon->standby();
}
Return<AudioDevice> StreamOut::getDevice() {
return mStreamCommon->getDevice();
}
Return<Result> StreamOut::setDevice(const DeviceAddress& address) {
return mStreamCommon->setDevice(address);
}
Return<Result> StreamOut::setConnectedState(const DeviceAddress& address, bool connected) {
return mStreamCommon->setConnectedState(address, connected);
}
Return<Result> StreamOut::setHwAvSync(uint32_t hwAvSync) {
return mStreamCommon->setHwAvSync(hwAvSync);
}
Return<void> StreamOut::getParameters(
const hidl_vec<hidl_string>& keys, getParameters_cb _hidl_cb) {
return mStreamCommon->getParameters(keys, _hidl_cb);
}
Return<Result> StreamOut::setParameters(const hidl_vec<ParameterValue>& parameters) {
return mStreamCommon->setParameters(parameters);
}
Return<void> StreamOut::debugDump(const hidl_handle& fd) {
return mStreamCommon->debugDump(fd);
}
Return<Result> StreamOut::close() {
if (mIsClosed) return Result::INVALID_STATE;
mIsClosed = true;
if (mWriteThread.get()) {
mStopWriteThread.store(true, std::memory_order_release);
}
if (mEfGroup) {
mEfGroup->wake(static_cast<uint32_t>(MessageQueueFlagBits::NOT_EMPTY));
}
return Result::OK;
}
// Methods from ::android::hardware::audio::V2_0::IStreamOut follow.
Return<uint32_t> StreamOut::getLatency() {
return mStream->get_latency(mStream);
}
Return<Result> StreamOut::setVolume(float left, float right) {
Result retval(Result::NOT_SUPPORTED);
if (mStream->set_volume != NULL) {
retval = Stream::analyzeStatus(
"set_volume", mStream->set_volume(mStream, left, right));
}
return retval;
}
Return<void> StreamOut::prepareForWriting(
uint32_t frameSize, uint32_t framesCount, prepareForWriting_cb _hidl_cb) {
status_t status;
ThreadInfo threadInfo = { 0, 0 };
// Create message queues.
if (mDataMQ) {
ALOGE("the client attempts to call prepareForWriting twice");
_hidl_cb(Result::INVALID_STATE,
CommandMQ::Descriptor(), DataMQ::Descriptor(), StatusMQ::Descriptor(), threadInfo);
return Void();
}
std::unique_ptr<CommandMQ> tempCommandMQ(new CommandMQ(1));
std::unique_ptr<DataMQ> tempDataMQ(
new DataMQ(frameSize * framesCount, true /* EventFlag */));
std::unique_ptr<StatusMQ> tempStatusMQ(new StatusMQ(1));
if (!tempCommandMQ->isValid() || !tempDataMQ->isValid() || !tempStatusMQ->isValid()) {
ALOGE_IF(!tempCommandMQ->isValid(), "command MQ is invalid");
ALOGE_IF(!tempDataMQ->isValid(), "data MQ is invalid");
ALOGE_IF(!tempStatusMQ->isValid(), "status MQ is invalid");
_hidl_cb(Result::INVALID_ARGUMENTS,
CommandMQ::Descriptor(), DataMQ::Descriptor(), StatusMQ::Descriptor(), threadInfo);
return Void();
}
// TODO: Remove event flag management once blocking MQ is implemented. b/33815422
status = EventFlag::createEventFlag(tempDataMQ->getEventFlagWord(), &mEfGroup);
if (status != OK || !mEfGroup) {
ALOGE("failed creating event flag for data MQ: %s", strerror(-status));
_hidl_cb(Result::INVALID_ARGUMENTS,
CommandMQ::Descriptor(), DataMQ::Descriptor(), StatusMQ::Descriptor(), threadInfo);
return Void();
}
// Create and launch the thread.
mWriteThread = new WriteThread(
&mStopWriteThread,
mStream,
tempCommandMQ.get(),
tempDataMQ.get(),
tempStatusMQ.get(),
mEfGroup);
status = mWriteThread->run("writer", PRIORITY_URGENT_AUDIO);
if (status != OK) {
ALOGW("failed to start writer thread: %s", strerror(-status));
_hidl_cb(Result::INVALID_ARGUMENTS,
CommandMQ::Descriptor(), DataMQ::Descriptor(), StatusMQ::Descriptor(), threadInfo);
return Void();
}
mCommandMQ = std::move(tempCommandMQ);
mDataMQ = std::move(tempDataMQ);
mStatusMQ = std::move(tempStatusMQ);
threadInfo.pid = getpid();
threadInfo.tid = mWriteThread->getTid();
_hidl_cb(Result::OK,
*mCommandMQ->getDesc(), *mDataMQ->getDesc(), *mStatusMQ->getDesc(),
threadInfo);
return Void();
}
Return<void> StreamOut::getRenderPosition(getRenderPosition_cb _hidl_cb) {
uint32_t halDspFrames;
Result retval = Stream::analyzeStatus(
"get_render_position", mStream->get_render_position(mStream, &halDspFrames));
_hidl_cb(retval, halDspFrames);
return Void();
}
Return<void> StreamOut::getNextWriteTimestamp(getNextWriteTimestamp_cb _hidl_cb) {
Result retval(Result::NOT_SUPPORTED);
int64_t timestampUs = 0;
if (mStream->get_next_write_timestamp != NULL) {
retval = Stream::analyzeStatus(
"get_next_write_timestamp",
mStream->get_next_write_timestamp(mStream, &timestampUs));
}
_hidl_cb(retval, timestampUs);
return Void();
}
Return<Result> StreamOut::setCallback(const sp<IStreamOutCallback>& callback) {
if (mStream->set_callback == NULL) return Result::NOT_SUPPORTED;
int result = mStream->set_callback(mStream, StreamOut::asyncCallback, this);
if (result == 0) {
mCallback = callback;
}
return Stream::analyzeStatus("set_callback", result);
}
Return<Result> StreamOut::clearCallback() {
if (mStream->set_callback == NULL) return Result::NOT_SUPPORTED;
mCallback.clear();
return Result::OK;
}
// static
int StreamOut::asyncCallback(stream_callback_event_t event, void*, void *cookie) {
wp<StreamOut> weakSelf(reinterpret_cast<StreamOut*>(cookie));
sp<StreamOut> self = weakSelf.promote();
if (self == nullptr || self->mCallback == nullptr) return 0;
ALOGV("asyncCallback() event %d", event);
switch (event) {
case STREAM_CBK_EVENT_WRITE_READY:
self->mCallback->onWriteReady();
break;
case STREAM_CBK_EVENT_DRAIN_READY:
self->mCallback->onDrainReady();
break;
case STREAM_CBK_EVENT_ERROR:
self->mCallback->onError();
break;
default:
ALOGW("asyncCallback() unknown event %d", event);
break;
}
return 0;
}
Return<void> StreamOut::supportsPauseAndResume(supportsPauseAndResume_cb _hidl_cb) {
_hidl_cb(mStream->pause != NULL, mStream->resume != NULL);
return Void();
}
Return<Result> StreamOut::pause() {
return mStream->pause != NULL ?
Stream::analyzeStatus("pause", mStream->pause(mStream)) :
Result::NOT_SUPPORTED;
}
Return<Result> StreamOut::resume() {
return mStream->resume != NULL ?
Stream::analyzeStatus("resume", mStream->resume(mStream)) :
Result::NOT_SUPPORTED;
}
Return<bool> StreamOut::supportsDrain() {
return mStream->drain != NULL;
}
Return<Result> StreamOut::drain(AudioDrain type) {
return mStream->drain != NULL ?
Stream::analyzeStatus(
"drain", mStream->drain(mStream, static_cast<audio_drain_type_t>(type))) :
Result::NOT_SUPPORTED;
}
Return<Result> StreamOut::flush() {
return mStream->flush != NULL ?
Stream::analyzeStatus("flush", mStream->flush(mStream)) :
Result::NOT_SUPPORTED;
}
// static
Result StreamOut::getPresentationPositionImpl(
audio_stream_out_t *stream, uint64_t *frames, TimeSpec *timeStamp) {
Result retval(Result::NOT_SUPPORTED);
if (stream->get_presentation_position == NULL) return retval;
struct timespec halTimeStamp;
retval = Stream::analyzeStatus(
"get_presentation_position",
stream->get_presentation_position(stream, frames, &halTimeStamp),
// Don't logspam on EINVAL--it's normal for get_presentation_position
// to return it sometimes. EAGAIN may be returned by A2DP audio HAL
// implementation.
EINVAL, EAGAIN);
if (retval == Result::OK) {
timeStamp->tvSec = halTimeStamp.tv_sec;
timeStamp->tvNSec = halTimeStamp.tv_nsec;
}
return retval;
}
Return<void> StreamOut::getPresentationPosition(getPresentationPosition_cb _hidl_cb) {
uint64_t frames = 0;
TimeSpec timeStamp = { 0, 0 };
Result retval = getPresentationPositionImpl(mStream, &frames, &timeStamp);
_hidl_cb(retval, frames, timeStamp);
return Void();
}
Return<Result> StreamOut::start() {
return mStreamMmap->start();
}
Return<Result> StreamOut::stop() {
return mStreamMmap->stop();
}
Return<void> StreamOut::createMmapBuffer(int32_t minSizeFrames, createMmapBuffer_cb _hidl_cb) {
return mStreamMmap->createMmapBuffer(
minSizeFrames, audio_stream_out_frame_size(mStream), _hidl_cb);
}
Return<void> StreamOut::getMmapPosition(getMmapPosition_cb _hidl_cb) {
return mStreamMmap->getMmapPosition(_hidl_cb);
}
} // namespace implementation
} // namespace V2_0
} // namespace audio
} // namespace hardware
} // namespace android
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