AudioFlinger: Create Thread callback
Test: atest AudioTrackTest AudioRecordTest
Test: Camera YouTube
Bug: 291012167
Bug: 291319167
Change-Id: I82024cc2bebe56282224efb4ffda1f5dcc513702
diff --git a/services/audioflinger/Threads.cpp b/services/audioflinger/Threads.cpp
index 9e29ba3..1e1d925 100644
--- a/services/audioflinger/Threads.cpp
+++ b/services/audioflinger/Threads.cpp
@@ -544,11 +544,11 @@
}
}
-ThreadBase::ThreadBase(const sp<AudioFlinger>& audioFlinger, audio_io_handle_t id,
+ThreadBase::ThreadBase(const sp<IAfThreadCallback>& afThreadCallback, audio_io_handle_t id,
type_t type, bool systemReady, bool isOut)
: Thread(false /*canCallJava*/),
mType(type),
- mAudioFlinger(audioFlinger),
+ mAfThreadCallback(afThreadCallback),
mThreadMetrics(std::string(AMEDIAMETRICS_KEY_PREFIX_AUDIO_THREAD) + std::to_string(id),
isOut),
mIsOut(isOut),
@@ -1588,7 +1588,7 @@
ALOGV("createEffect_l() got effect %p on chain %p", effect.get(), chain.get());
if (effect == 0) {
- effectId = mAudioFlinger->nextUniqueId(AUDIO_UNIQUE_ID_USE_EFFECT);
+ effectId = mAfThreadCallback->nextUniqueId(AUDIO_UNIQUE_ID_USE_EFFECT);
// create a new effect module if none present in the chain
lStatus = chain->createEffect_l(effect, desc, effectId, sessionId, pinned);
if (lStatus != NO_ERROR) {
@@ -1599,14 +1599,14 @@
// FIXME: use vector of device and address when effect interface is ready.
effect->setDevices(outDeviceTypeAddrs());
effect->setInputDevice(inDeviceTypeAddr());
- effect->setMode(mAudioFlinger->getMode());
+ effect->setMode(mAfThreadCallback->getMode());
effect->setAudioSource(mAudioSource);
}
if (effect->isHapticGenerator()) {
// TODO(b/184194057): Use the vibrator information from the vibrator that will be used
// for the HapticGenerator.
const std::optional<media::AudioVibratorInfo> defaultVibratorInfo =
- std::move(mAudioFlinger->getDefaultVibratorInfo_l());
+ std::move(mAfThreadCallback->getDefaultVibratorInfo_l());
if (defaultVibratorInfo) {
// Only set the vibrator info when it is a valid one.
effect->setVibratorInfo(*defaultVibratorInfo);
@@ -1664,7 +1664,7 @@
sendCheckOutputStageEffectsEvent_l();
}
if (remove) {
- mAudioFlinger->updateOrphanEffectChains(effect);
+ mAfThreadCallback->updateOrphanEffectChains(effect);
if (handle->enabled()) {
effect->checkSuspendOnEffectEnabled(false, false /*threadLocked*/);
}
@@ -1682,7 +1682,7 @@
t->invalidateTracks(AUDIO_STREAM_MUSIC);
}
if (effect->sessionId() == AUDIO_SESSION_OUTPUT_MIX) {
- mAudioFlinger->onNonOffloadableGlobalEffectEnable();
+ mAfThreadCallback->onNonOffloadableGlobalEffectEnable();
}
}
}
@@ -1755,7 +1755,7 @@
effect->setDevices(outDeviceTypeAddrs());
effect->setInputDevice(inDeviceTypeAddr());
- effect->setMode(mAudioFlinger->getMode());
+ effect->setMode(mAfThreadCallback->getMode());
effect->setAudioSource(mAudioSource);
return NO_ERROR;
@@ -2007,7 +2007,7 @@
product_strategy_t ThreadBase::getStrategyForStream(audio_stream_type_t stream) const
{
- if (!mAudioFlinger->isAudioPolicyReady()) {
+ if (!mAfThreadCallback->isAudioPolicyReady()) {
return PRODUCT_STRATEGY_NONE;
}
return AudioSystem::getStrategyForStream(stream);
@@ -2032,13 +2032,13 @@
// Playback
// ----------------------------------------------------------------------------
-PlaybackThread::PlaybackThread(const sp<AudioFlinger>& audioFlinger,
+PlaybackThread::PlaybackThread(const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamOut* output,
audio_io_handle_t id,
type_t type,
bool systemReady,
audio_config_base_t *mixerConfig)
- : ThreadBase(audioFlinger, id, type, systemReady, true /* isOut */),
+ : ThreadBase(afThreadCallback, id, type, systemReady, true /* isOut */),
mNormalFrameCount(0), mSinkBuffer(NULL),
mMixerBufferEnabled(AudioFlinger::kEnableExtendedPrecision || type == SPATIALIZER),
mMixerBuffer(NULL),
@@ -2075,7 +2075,7 @@
mIsTimestampAdvancing(kMinimumTimeBetweenTimestampChecksNs)
{
snprintf(mThreadName, kThreadNameLength, "AudioOut_%X", id);
- mNBLogWriter = audioFlinger->newWriter_l(kLogSize, mThreadName);
+ mNBLogWriter = afThreadCallback->newWriter_l(kLogSize, mThreadName);
// Assumes constructor is called by AudioFlinger with it's mLock held, but
// it would be safer to explicitly pass initial masterVolume/masterMute as
@@ -2084,8 +2084,8 @@
// If the HAL we are using has support for master volume or master mute,
// then do not attenuate or mute during mixing (just leave the volume at 1.0
// and the mute set to false).
- mMasterVolume = audioFlinger->masterVolume_l();
- mMasterMute = audioFlinger->masterMute_l();
+ mMasterVolume = afThreadCallback->masterVolume_l();
+ mMasterMute = afThreadCallback->masterMute_l();
if (mOutput->audioHwDev) {
if (mOutput->audioHwDev->canSetMasterVolume()) {
mMasterVolume = 1.0;
@@ -2123,7 +2123,7 @@
for (int i = AUDIO_STREAM_MIN; i < AUDIO_STREAM_FOR_POLICY_CNT; ++i) {
const audio_stream_type_t stream{static_cast<audio_stream_type_t>(i)};
mStreamTypes[stream].volume = 0.0f;
- mStreamTypes[stream].mute = mAudioFlinger->streamMute_l(stream);
+ mStreamTypes[stream].mute = mAfThreadCallback->streamMute_l(stream);
}
// Audio patch and call assistant volume are always max
mStreamTypes[AUDIO_STREAM_PATCH].volume = 1.0f;
@@ -2134,7 +2134,7 @@
PlaybackThread::~PlaybackThread()
{
- mAudioFlinger->unregisterWriter(mNBLogWriter);
+ mAfThreadCallback->unregisterWriter(mNBLogWriter);
free(mSinkBuffer);
free(mMixerBuffer);
free(mEffectBuffer);
@@ -2820,8 +2820,8 @@
{
// TODO(b/184194780): Use the vibrator information from the vibrator that will be
// used to play this track.
- Mutex::Autolock _l(mAudioFlinger->mLock);
- vibratorInfo = std::move(mAudioFlinger->getDefaultVibratorInfo_l());
+ Mutex::Autolock _l(mAfThreadCallback->mutex());
+ vibratorInfo = std::move(mAfThreadCallback->getDefaultVibratorInfo_l());
}
mLock.lock();
track->setHapticIntensity(intensity);
@@ -2946,7 +2946,7 @@
desc = sp<AudioIoDescriptor>::make(mId);
break;
}
- mAudioFlinger->ioConfigChanged(event, desc, pid);
+ mAfThreadCallback->ioConfigChanged(event, desc, pid);
}
void PlaybackThread::onWriteReady()
@@ -3190,7 +3190,7 @@
// create a copy of mEffectChains as calling moveEffectChain_l() can reorder some effect chains
Vector<sp<IAfEffectChain>> effectChains = mEffectChains;
for (size_t i = 0; i < effectChains.size(); i ++) {
- mAudioFlinger->moveEffectChain_l(effectChains[i]->sessionId(),
+ mAfThreadCallback->moveEffectChain_l(effectChains[i]->sessionId(),
this/* srcThread */, this/* dstThread */);
}
@@ -3620,12 +3620,12 @@
}
size_t numSamples = mNormalFrameCount
* (audio_channel_count_from_out_mask(channelMask) + mHapticChannelCount);
- status_t result = mAudioFlinger->mEffectsFactoryHal->allocateBuffer(
+ status_t result = mAfThreadCallback->getEffectsFactoryHal()->allocateBuffer(
numSamples * sizeof(float),
&halInBuffer);
if (result != OK) return result;
- result = mAudioFlinger->mEffectsFactoryHal->mirrorBuffer(
+ result = mAfThreadCallback->getEffectsFactoryHal()->mirrorBuffer(
isSessionSpatialized ? mEffectBuffer : mPostSpatializerBuffer,
isSessionSpatialized ? mEffectBufferSize : mPostSpatializerBufferSize,
&halOutBuffer);
@@ -3640,10 +3640,10 @@
// - OUTPUT_STAGE session uses the mEffectBuffer as input buffer and
// mPostSpatializerBuffer as output buffer
// - DEVICE session uses the mPostSpatializerBuffer as input and output buffer.
- status_t result = mAudioFlinger->mEffectsFactoryHal->mirrorBuffer(
+ status_t result = mAfThreadCallback->getEffectsFactoryHal()->mirrorBuffer(
mEffectBuffer, mEffectBufferSize, &halInBuffer);
if (result != OK) return result;
- result = mAudioFlinger->mEffectsFactoryHal->mirrorBuffer(
+ result = mAfThreadCallback->getEffectsFactoryHal()->mirrorBuffer(
mPostSpatializerBuffer, mPostSpatializerBufferSize, &halOutBuffer);
if (result != OK) return result;
@@ -3652,7 +3652,7 @@
}
}
} else {
- status_t result = mAudioFlinger->mEffectsFactoryHal->mirrorBuffer(
+ status_t result = mAfThreadCallback->getEffectsFactoryHal()->mirrorBuffer(
mEffectBufferEnabled ? mEffectBuffer : mSinkBuffer,
mEffectBufferEnabled ? mEffectBufferSize : mSinkBufferSize,
&halInBuffer);
@@ -3668,7 +3668,8 @@
size_t numSamples = mNormalFrameCount
* (audio_channel_count_from_out_mask(mMixerChannelMask)
+ mHapticChannelCount);
- const status_t allocateStatus = mAudioFlinger->mEffectsFactoryHal->allocateBuffer(
+ const status_t allocateStatus =
+ mAfThreadCallback->getEffectsFactoryHal()->allocateBuffer(
numSamples * sizeof(float),
&halInBuffer);
if (allocateStatus != OK) return allocateStatus;
@@ -3860,7 +3861,7 @@
{
// Log merge requests are performed during AudioFlinger binder transactions, but
// that does not cover audio playback. It's requested here for that reason.
- mAudioFlinger->requestLogMerge();
+ mAfThreadCallback->requestLogMerge();
cpuStats.sample(myName);
@@ -3875,12 +3876,12 @@
if (isMsdDevice() && outDeviceTypes().count(AUDIO_DEVICE_OUT_BUS) != 0) {
// Here, we try for the AF lock, but do not block on it as the latency
// is more informational.
- if (mAudioFlinger->mLock.tryLock() == NO_ERROR) {
+ if (mAfThreadCallback->mutex().tryLock() == NO_ERROR) {
std::vector<SoftwarePatch> swPatches;
double latencyMs = 0.; // not required; initialized for clang-tidy
status_t status = INVALID_OPERATION;
audio_patch_handle_t downstreamPatchHandle = AUDIO_PATCH_HANDLE_NONE;
- if (mAudioFlinger->mPatchPanel->getDownstreamSoftwarePatches(
+ if (mAfThreadCallback->getPatchPanel()->getDownstreamSoftwarePatches(
id(), &swPatches) == OK
&& swPatches.size() > 0) {
status = swPatches[0].getLatencyMs_l(&latencyMs);
@@ -3902,7 +3903,7 @@
}
mDownstreamLatencyStatMs.add(latencyMs);
}
- mAudioFlinger->mLock.unlock();
+ mAfThreadCallback->mutex().unlock();
}
} else {
if (lastDownstreamPatchHandle != AUDIO_PATCH_HANDLE_NONE) {
@@ -4263,7 +4264,7 @@
unlockEffectChains(effectChains);
if (!metadataUpdate.playbackMetadataUpdate.empty()) {
- mAudioFlinger->mMelReporter->updateMetadataForCsd(id(),
+ mAfThreadCallback->getMelReporter()->updateMetadataForCsd(id(),
metadataUpdate.playbackMetadataUpdate);
}
@@ -4855,14 +4856,14 @@
/* static */
sp<IAfPlaybackThread> IAfPlaybackThread::createMixerThread(
- const sp<AudioFlinger>& audioFlinger, AudioStreamOut* output,
+ const sp<IAfThreadCallback>& afThreadCallback, AudioStreamOut* output,
audio_io_handle_t id, bool systemReady, type_t type, audio_config_base_t* mixerConfig) {
- return sp<MixerThread>::make(audioFlinger, output, id, systemReady, type, mixerConfig);
+ return sp<MixerThread>::make(afThreadCallback, output, id, systemReady, type, mixerConfig);
}
-MixerThread::MixerThread(const sp<AudioFlinger>& audioFlinger, AudioStreamOut* output,
+MixerThread::MixerThread(const sp<IAfThreadCallback>& afThreadCallback, AudioStreamOut* output,
audio_io_handle_t id, bool systemReady, type_t type, audio_config_base_t *mixerConfig)
- : PlaybackThread(audioFlinger, output, id, type, systemReady, mixerConfig),
+ : PlaybackThread(afThreadCallback, output, id, type, systemReady, mixerConfig),
// mAudioMixer below
// mFastMixer below
mBluetoothLatencyModesEnabled(false),
@@ -4872,7 +4873,7 @@
// mPipeSink below
// mNormalSink below
{
- setMasterBalance(audioFlinger->getMasterBalance_l());
+ setMasterBalance(afThreadCallback->getMasterBalance_l());
ALOGV("MixerThread() id=%d type=%d", id, type);
ALOGV("mSampleRate=%u, mChannelMask=%#x, mChannelCount=%u, mFormat=%#x, mFrameSize=%zu, "
"mFrameCount=%zu, mNormalFrameCount=%zu",
@@ -4999,7 +5000,7 @@
state->mColdFutexAddr = &mFastMixerFutex;
state->mColdGen++;
state->mDumpState = &mFastMixerDumpState;
- mFastMixerNBLogWriter = audioFlinger->newWriter_l(kFastMixerLogSize, "FastMixer");
+ mFastMixerNBLogWriter = afThreadCallback->newWriter_l(kFastMixerLogSize, "FastMixer");
state->mNBLogWriter = mFastMixerNBLogWriter.get();
sq->end();
sq->push(FastMixerStateQueue::BLOCK_UNTIL_PUSHED);
@@ -5078,7 +5079,7 @@
}
#endif
}
- mAudioFlinger->unregisterWriter(mFastMixerNBLogWriter);
+ mAfThreadCallback->unregisterWriter(mFastMixerNBLogWriter);
delete mAudioMixer;
}
@@ -5135,7 +5136,7 @@
}
state->mCommand = FastMixerState::MIX_WRITE;
#ifdef FAST_THREAD_STATISTICS
- mFastMixerDumpState.increaseSamplingN(mAudioFlinger->isLowRamDevice() ?
+ mFastMixerDumpState.increaseSamplingN(mAfThreadCallback->isLowRamDevice() ?
FastThreadDumpState::kSamplingNforLowRamDevice : FastThreadDumpState::kSamplingN);
#endif
sq->end();
@@ -5563,7 +5564,7 @@
float vlf = float_from_gain(gain_minifloat_unpack_left(vlr));
float vrf = float_from_gain(gain_minifloat_unpack_right(vlr));
- track->processMuteEvent_l(mAudioFlinger->getOrCreateAudioManager(),
+ track->processMuteEvent_l(mAfThreadCallback->getOrCreateAudioManager(),
/*muteState=*/{masterVolume == 0.f,
mStreamTypes[track->streamType()].volume == 0.f,
mStreamTypes[track->streamType()].mute,
@@ -5746,7 +5747,7 @@
vrf = GAIN_FLOAT_UNITY;
}
- track->processMuteEvent_l(mAudioFlinger->getOrCreateAudioManager(),
+ track->processMuteEvent_l(mAfThreadCallback->getOrCreateAudioManager(),
/*muteState=*/{masterVolume == 0.f,
mStreamTypes[track->streamType()].volume == 0.f,
mStreamTypes[track->streamType()].mute,
@@ -6314,7 +6315,7 @@
}
void MixerThread::onHalLatencyModesChanged_l() {
- mAudioFlinger->onSupportedLatencyModesChanged(mId, mSupportedLatencyModes);
+ mAfThreadCallback->onSupportedLatencyModesChanged(mId, mSupportedLatencyModes);
}
void MixerThread::setHalLatencyMode_l() {
@@ -6411,20 +6412,20 @@
/* static */
sp<IAfPlaybackThread> IAfPlaybackThread::createDirectOutputThread(
- const sp<AudioFlinger>& audioFlinger,
+ const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamOut* output, audio_io_handle_t id, bool systemReady,
const audio_offload_info_t& offloadInfo) {
return sp<DirectOutputThread>::make(
- audioFlinger, output, id, systemReady, offloadInfo);
+ afThreadCallback, output, id, systemReady, offloadInfo);
}
-DirectOutputThread::DirectOutputThread(const sp<AudioFlinger>& audioFlinger,
+DirectOutputThread::DirectOutputThread(const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamOut* output, audio_io_handle_t id, ThreadBase::type_t type, bool systemReady,
const audio_offload_info_t& offloadInfo)
- : PlaybackThread(audioFlinger, output, id, type, systemReady)
+ : PlaybackThread(afThreadCallback, output, id, type, systemReady)
, mOffloadInfo(offloadInfo)
{
- setMasterBalance(audioFlinger->getMasterBalance_l());
+ setMasterBalance(afThreadCallback->getMasterBalance_l());
}
DirectOutputThread::~DirectOutputThread()
@@ -6488,14 +6489,14 @@
}
left *= v;
right *= v;
- if (mAudioFlinger->getMode() != AUDIO_MODE_IN_COMMUNICATION
+ if (mAfThreadCallback->getMode() != AUDIO_MODE_IN_COMMUNICATION
|| audio_channel_count_from_out_mask(mChannelMask) > 1) {
left *= mMasterBalanceLeft; // DirectOutputThread balance applied as track volume
right *= mMasterBalanceRight;
}
}
- track->processMuteEvent_l(mAudioFlinger->getOrCreateAudioManager(),
+ track->processMuteEvent_l(mAfThreadCallback->getOrCreateAudioManager(),
/*muteState=*/{mMasterMute,
mStreamTypes[track->streamType()].volume == 0.f,
mStreamTypes[track->streamType()].mute,
@@ -7079,16 +7080,16 @@
/* static */
sp<IAfPlaybackThread> IAfPlaybackThread::createOffloadThread(
- const sp<AudioFlinger>& audioFlinger,
+ const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamOut* output, audio_io_handle_t id, bool systemReady,
const audio_offload_info_t& offloadInfo) {
- return sp<OffloadThread>::make(audioFlinger, output, id, systemReady, offloadInfo);
+ return sp<OffloadThread>::make(afThreadCallback, output, id, systemReady, offloadInfo);
}
-OffloadThread::OffloadThread(const sp<AudioFlinger>& audioFlinger,
+OffloadThread::OffloadThread(const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamOut* output, audio_io_handle_t id, bool systemReady,
const audio_offload_info_t& offloadInfo)
- : DirectOutputThread(audioFlinger, output, id, OFFLOAD, systemReady, offloadInfo),
+ : DirectOutputThread(afThreadCallback, output, id, OFFLOAD, systemReady, offloadInfo),
mPausedWriteLength(0), mPausedBytesRemaining(0), mKeepWakeLock(true)
{
//FIXME: mStandby should be set to true by ThreadBase constructo
@@ -7411,14 +7412,14 @@
/* static */
sp<IAfDuplicatingThread> IAfDuplicatingThread::create(
- const sp<AudioFlinger>& audioFlinger,
+ const sp<IAfThreadCallback>& afThreadCallback,
IAfPlaybackThread* mainThread, audio_io_handle_t id, bool systemReady) {
- return sp<DuplicatingThread>::make(audioFlinger, mainThread, id, systemReady);
+ return sp<DuplicatingThread>::make(afThreadCallback, mainThread, id, systemReady);
}
-DuplicatingThread::DuplicatingThread(const sp<AudioFlinger>& audioFlinger,
+DuplicatingThread::DuplicatingThread(const sp<IAfThreadCallback>& afThreadCallback,
IAfPlaybackThread* mainThread, audio_io_handle_t id, bool systemReady)
- : MixerThread(audioFlinger, mainThread->getOutput(), id,
+ : MixerThread(afThreadCallback, mainThread->getOutput(), id,
systemReady, DUPLICATING),
mWaitTimeMs(UINT_MAX)
{
@@ -7655,20 +7656,20 @@
/* static */
sp<IAfPlaybackThread> IAfPlaybackThread::createSpatializerThread(
- const sp<AudioFlinger>& audioFlinger,
+ const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamOut* output,
audio_io_handle_t id,
bool systemReady,
audio_config_base_t* mixerConfig) {
- return sp<SpatializerThread>::make(audioFlinger, output, id, systemReady, mixerConfig);
+ return sp<SpatializerThread>::make(afThreadCallback, output, id, systemReady, mixerConfig);
}
-SpatializerThread::SpatializerThread(const sp<AudioFlinger>& audioFlinger,
+SpatializerThread::SpatializerThread(const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamOut* output,
audio_io_handle_t id,
bool systemReady,
audio_config_base_t *mixerConfig)
- : MixerThread(audioFlinger, output, id, systemReady, SPATIALIZER, mixerConfig)
+ : MixerThread(afThreadCallback, output, id, systemReady, SPATIALIZER, mixerConfig)
{
}
@@ -7759,7 +7760,7 @@
finalDownMixer.clear();
} else if (!hasDownMixer) {
std::vector<effect_descriptor_t> descriptors;
- status_t status = mAudioFlinger->mEffectsFactoryHal->getDescriptors(
+ status_t status = mAfThreadCallback->getEffectsFactoryHal()->getDescriptors(
EFFECT_UIID_DOWNMIX, &descriptors);
if (status != NO_ERROR) {
return;
@@ -7790,19 +7791,19 @@
// Record
// ----------------------------------------------------------------------------
-sp<IAfRecordThread> IAfRecordThread::create(const sp<AudioFlinger>& audioFlinger,
+sp<IAfRecordThread> IAfRecordThread::create(const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamIn* input,
audio_io_handle_t id,
bool systemReady) {
- return sp<RecordThread>::make(audioFlinger, input, id, systemReady);
+ return sp<RecordThread>::make(afThreadCallback, input, id, systemReady);
}
-RecordThread::RecordThread(const sp<AudioFlinger>& audioFlinger,
+RecordThread::RecordThread(const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamIn *input,
audio_io_handle_t id,
bool systemReady
) :
- ThreadBase(audioFlinger, id, RECORD, systemReady, false /* isOut */),
+ ThreadBase(afThreadCallback, id, RECORD, systemReady, false /* isOut */),
mInput(input),
mSource(mInput),
mActiveTracks(&this->mLocalLog),
@@ -7823,7 +7824,7 @@
, mBtNrecSuspended(false)
{
snprintf(mThreadName, kThreadNameLength, "AudioIn_%X", id);
- mNBLogWriter = audioFlinger->newWriter_l(kLogSize, mThreadName);
+ mNBLogWriter = afThreadCallback->newWriter_l(kLogSize, mThreadName);
if (mInput->audioHwDev != nullptr) {
mIsMsdDevice = strcmp(
@@ -7931,7 +7932,8 @@
#ifdef TEE_SINK
// FIXME
#endif
- mFastCaptureNBLogWriter = audioFlinger->newWriter_l(kFastCaptureLogSize, "FastCapture");
+ mFastCaptureNBLogWriter =
+ afThreadCallback->newWriter_l(kFastCaptureLogSize, "FastCapture");
state->mNBLogWriter = mFastCaptureNBLogWriter.get();
sq->end();
sq->push(FastCaptureStateQueue::BLOCK_UNTIL_PUSHED);
@@ -7973,8 +7975,8 @@
mFastCapture->join();
mFastCapture.clear();
}
- mAudioFlinger->unregisterWriter(mFastCaptureNBLogWriter);
- mAudioFlinger->unregisterWriter(mNBLogWriter);
+ mAfThreadCallback->unregisterWriter(mFastCaptureNBLogWriter);
+ mAfThreadCallback->unregisterWriter(mNBLogWriter);
free(mRsmpInBuffer);
}
@@ -8202,7 +8204,7 @@
}
state->mCommand = FastCaptureState::READ_WRITE;
#if 0 // FIXME
- mFastCaptureDumpState.increaseSamplingN(mAudioFlinger->isLowRamDevice() ?
+ mFastCaptureDumpState.increaseSamplingN(mAfThreadCallback->isLowRamDevice() ?
FastThreadDumpState::kSamplingNforLowRamDevice :
FastThreadDumpState::kSamplingN);
#endif
@@ -8821,7 +8823,7 @@
recordTrack->clearSyncStartEvent();
} else if (event != AudioSystem::SYNC_EVENT_SAME) {
recordTrack->synchronizedRecordState().startRecording(
- mAudioFlinger->createSyncEvent(
+ mAfThreadCallback->createSyncEvent(
event, triggerSession,
recordTrack->sessionId(), syncStartEventCallback, recordTrack));
}
@@ -9313,7 +9315,7 @@
// disable AEC and NS if the device is a BT SCO headset supporting those
// pre processings
bool suspend = audio_is_bluetooth_sco_device(inDeviceType()) &&
- mAudioFlinger->btNrecIsOff();
+ mAfThreadCallback->btNrecIsOff();
if (mBtNrecSuspended.exchange(suspend) != suspend) {
for (size_t i = 0; i < mEffectChains.size(); i++) {
setEffectSuspended_l(FX_IID_AEC, suspend, mEffectChains[i]->sessionId());
@@ -9441,7 +9443,7 @@
desc = sp<AudioIoDescriptor>::make(mId);
break;
}
- mAudioFlinger->ioConfigChanged(event, desc, pid);
+ mAfThreadCallback->ioConfigChanged(event, desc, pid);
}
void RecordThread::readInputParameters_l()
@@ -9885,9 +9887,9 @@
MmapThread::MmapThread(
- const sp<AudioFlinger>& audioFlinger, audio_io_handle_t id,
+ const sp<IAfThreadCallback>& afThreadCallback, audio_io_handle_t id,
AudioHwDevice *hwDev, const sp<StreamHalInterface>& stream, bool systemReady, bool isOut)
- : ThreadBase(audioFlinger, id, (isOut ? MMAP_PLAYBACK : MMAP_CAPTURE), systemReady, isOut),
+ : ThreadBase(afThreadCallback, id, (isOut ? MMAP_PLAYBACK : MMAP_CAPTURE), systemReady, isOut),
mSessionId(AUDIO_SESSION_NONE),
mPortId(AUDIO_PORT_HANDLE_NONE),
mHalStream(stream), mHalDevice(hwDev->hwDevice()), mAudioHwDev(hwDev),
@@ -10357,7 +10359,7 @@
desc = sp<AudioIoDescriptor>::make(mId);
break;
}
- mAudioFlinger->ioConfigChanged(event, desc, pid);
+ mAfThreadCallback->ioConfigChanged(event, desc, pid);
}
status_t MmapThread::createAudioPatch_l(const struct audio_patch* patch,
@@ -10643,27 +10645,27 @@
/* static */
sp<IAfMmapPlaybackThread> IAfMmapPlaybackThread::create(
- const sp<AudioFlinger>& audioFlinger, audio_io_handle_t id,
+ const sp<IAfThreadCallback>& afThreadCallback, audio_io_handle_t id,
AudioHwDevice* hwDev, AudioStreamOut* output, bool systemReady) {
- return sp<MmapPlaybackThread>::make(audioFlinger, id, hwDev, output, systemReady);
+ return sp<MmapPlaybackThread>::make(afThreadCallback, id, hwDev, output, systemReady);
}
MmapPlaybackThread::MmapPlaybackThread(
- const sp<AudioFlinger>& audioFlinger, audio_io_handle_t id,
+ const sp<IAfThreadCallback>& afThreadCallback, audio_io_handle_t id,
AudioHwDevice *hwDev, AudioStreamOut *output, bool systemReady)
- : MmapThread(audioFlinger, id, hwDev, output->stream, systemReady, true /* isOut */),
+ : MmapThread(afThreadCallback, id, hwDev, output->stream, systemReady, true /* isOut */),
mStreamType(AUDIO_STREAM_MUSIC),
mOutput(output)
{
snprintf(mThreadName, kThreadNameLength, "AudioMmapOut_%X", id);
mChannelCount = audio_channel_count_from_out_mask(mChannelMask);
- mMasterVolume = audioFlinger->masterVolume_l();
- mMasterMute = audioFlinger->masterMute_l();
+ mMasterVolume = afThreadCallback->masterVolume_l();
+ mMasterMute = afThreadCallback->masterMute_l();
for (int i = AUDIO_STREAM_MIN; i < AUDIO_STREAM_FOR_POLICY_CNT; ++i) {
const audio_stream_type_t stream{static_cast<audio_stream_type_t>(i)};
mStreamTypes[stream].volume = 0.0f;
- mStreamTypes[stream].mute = mAudioFlinger->streamMute_l(stream);
+ mStreamTypes[stream].mute = mAfThreadCallback->streamMute_l(stream);
}
// Audio patch and call assistant volume are always max
mStreamTypes[AUDIO_STREAM_PATCH].volume = 1.0f;
@@ -10821,7 +10823,7 @@
}
for (const sp<IAfMmapTrack>& track : mActiveTracks) {
track->setMetadataHasChanged();
- track->processMuteEvent_l(mAudioFlinger->getOrCreateAudioManager(),
+ track->processMuteEvent_l(mAfThreadCallback->getOrCreateAudioManager(),
/*muteState=*/{mMasterMute,
streamVolume_l() == 0.f,
streamMuted_l(),
@@ -10943,15 +10945,15 @@
/* static */
sp<IAfMmapCaptureThread> IAfMmapCaptureThread::create(
- const sp<AudioFlinger>& audioFlinger, audio_io_handle_t id,
+ const sp<IAfThreadCallback>& afThreadCallback, audio_io_handle_t id,
AudioHwDevice* hwDev, AudioStreamIn* input, bool systemReady) {
- return sp<MmapCaptureThread>::make(audioFlinger, id, hwDev, input, systemReady);
+ return sp<MmapCaptureThread>::make(afThreadCallback, id, hwDev, input, systemReady);
}
MmapCaptureThread::MmapCaptureThread(
- const sp<AudioFlinger>& audioFlinger, audio_io_handle_t id,
+ const sp<IAfThreadCallback>& afThreadCallback, audio_io_handle_t id,
AudioHwDevice *hwDev, AudioStreamIn *input, bool systemReady)
- : MmapThread(audioFlinger, id, hwDev, input->stream, systemReady, false /* isOut */),
+ : MmapThread(afThreadCallback, id, hwDev, input->stream, systemReady, false /* isOut */),
mInput(input)
{
snprintf(mThreadName, kThreadNameLength, "AudioMmapIn_%X", id);
@@ -11061,14 +11063,14 @@
/* static */
sp<IAfPlaybackThread> IAfPlaybackThread::createBitPerfectThread(
- const sp<AudioFlinger>& audioflinger,
+ const sp<IAfThreadCallback>& afThreadCallback,
AudioStreamOut* output, audio_io_handle_t id, bool systemReady) {
- return sp<BitPerfectThread>::make(audioflinger, output, id, systemReady);
+ return sp<BitPerfectThread>::make(afThreadCallback, output, id, systemReady);
}
-BitPerfectThread::BitPerfectThread(const sp<AudioFlinger> &audioflinger,
+BitPerfectThread::BitPerfectThread(const sp<IAfThreadCallback> &afThreadCallback,
AudioStreamOut *output, audio_io_handle_t id, bool systemReady)
- : MixerThread(audioflinger, output, id, systemReady, BIT_PERFECT) {}
+ : MixerThread(afThreadCallback, output, id, systemReady, BIT_PERFECT) {}
PlaybackThread::mixer_state BitPerfectThread::prepareTracks_l(
Vector<sp<IAfTrack>>* tracksToRemove) {