/* * Copyright (C) 2007 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_NDEBUG 0 #define LOG_TAG "SoundPool" #include <inttypes.h> #include <utils/Log.h> #define USE_SHARED_MEM_BUFFER #include <media/AudioTrack.h> #include <media/IMediaHTTPService.h> #include <media/mediaplayer.h> #include <media/stagefright/MediaExtractor.h> #include "SoundPool.h" #include "SoundPoolThread.h" #include <media/AudioPolicyHelper.h> #include <ndk/NdkMediaCodec.h> #include <ndk/NdkMediaExtractor.h> #include <ndk/NdkMediaFormat.h> namespace android { int kDefaultBufferCount = 4; uint32_t kMaxSampleRate = 48000; uint32_t kDefaultSampleRate = 44100; uint32_t kDefaultFrameCount = 1200; size_t kDefaultHeapSize = 1024 * 1024; // 1MB SoundPool::SoundPool(int maxChannels, const audio_attributes_t* pAttributes) { ALOGV("SoundPool constructor: maxChannels=%d, attr.usage=%d, attr.flags=0x%x, attr.tags=%s", maxChannels, pAttributes->usage, pAttributes->flags, pAttributes->tags); // check limits mMaxChannels = maxChannels; if (mMaxChannels < 1) { mMaxChannels = 1; } else if (mMaxChannels > 32) { mMaxChannels = 32; } ALOGW_IF(maxChannels != mMaxChannels, "App requested %d channels", maxChannels); mQuit = false; mDecodeThread = 0; memcpy(&mAttributes, pAttributes, sizeof(audio_attributes_t)); mAllocated = 0; mNextSampleID = 0; mNextChannelID = 0; mCallback = 0; mUserData = 0; mChannelPool = new SoundChannel[mMaxChannels]; for (int i = 0; i < mMaxChannels; ++i) { mChannelPool[i].init(this); mChannels.push_back(&mChannelPool[i]); } // start decode thread startThreads(); } SoundPool::~SoundPool() { ALOGV("SoundPool destructor"); mDecodeThread->quit(); quit(); Mutex::Autolock lock(&mLock); mChannels.clear(); if (mChannelPool) delete [] mChannelPool; // clean up samples ALOGV("clear samples"); mSamples.clear(); if (mDecodeThread) delete mDecodeThread; } void SoundPool::addToRestartList(SoundChannel* channel) { Mutex::Autolock lock(&mRestartLock); if (!mQuit) { mRestart.push_back(channel); mCondition.signal(); } } void SoundPool::addToStopList(SoundChannel* channel) { Mutex::Autolock lock(&mRestartLock); if (!mQuit) { mStop.push_back(channel); mCondition.signal(); } } int SoundPool::beginThread(void* arg) { SoundPool* p = (SoundPool*)arg; return p->run(); } int SoundPool::run() { mRestartLock.lock(); while (!mQuit) { mCondition.wait(mRestartLock); ALOGV("awake"); if (mQuit) break; while (!mStop.empty()) { SoundChannel* channel; ALOGV("Getting channel from stop list"); List<SoundChannel* >::iterator iter = mStop.begin(); channel = *iter; mStop.erase(iter); mRestartLock.unlock(); if (channel != 0) { Mutex::Autolock lock(&mLock); channel->stop(); } mRestartLock.lock(); if (mQuit) break; } while (!mRestart.empty()) { SoundChannel* channel; ALOGV("Getting channel from list"); List<SoundChannel*>::iterator iter = mRestart.begin(); channel = *iter; mRestart.erase(iter); mRestartLock.unlock(); if (channel != 0) { Mutex::Autolock lock(&mLock); channel->nextEvent(); } mRestartLock.lock(); if (mQuit) break; } } mStop.clear(); mRestart.clear(); mCondition.signal(); mRestartLock.unlock(); ALOGV("goodbye"); return 0; } void SoundPool::quit() { mRestartLock.lock(); mQuit = true; mCondition.signal(); mCondition.wait(mRestartLock); ALOGV("return from quit"); mRestartLock.unlock(); } bool SoundPool::startThreads() { createThreadEtc(beginThread, this, "SoundPool"); if (mDecodeThread == NULL) mDecodeThread = new SoundPoolThread(this); return mDecodeThread != NULL; } SoundChannel* SoundPool::findChannel(int channelID) { for (int i = 0; i < mMaxChannels; ++i) { if (mChannelPool[i].channelID() == channelID) { return &mChannelPool[i]; } } return NULL; } SoundChannel* SoundPool::findNextChannel(int channelID) { for (int i = 0; i < mMaxChannels; ++i) { if (mChannelPool[i].nextChannelID() == channelID) { return &mChannelPool[i]; } } return NULL; } int SoundPool::load(int fd, int64_t offset, int64_t length, int priority __unused) { ALOGV("load: fd=%d, offset=%" PRId64 ", length=%" PRId64 ", priority=%d", fd, offset, length, priority); Mutex::Autolock lock(&mLock); sp<Sample> sample = new Sample(++mNextSampleID, fd, offset, length); mSamples.add(sample->sampleID(), sample); doLoad(sample); return sample->sampleID(); } void SoundPool::doLoad(sp<Sample>& sample) { ALOGV("doLoad: loading sample sampleID=%d", sample->sampleID()); sample->startLoad(); mDecodeThread->loadSample(sample->sampleID()); } bool SoundPool::unload(int sampleID) { ALOGV("unload: sampleID=%d", sampleID); Mutex::Autolock lock(&mLock); return mSamples.removeItem(sampleID) >= 0; // removeItem() returns index or BAD_VALUE } int SoundPool::play(int sampleID, float leftVolume, float rightVolume, int priority, int loop, float rate) { ALOGV("play sampleID=%d, leftVolume=%f, rightVolume=%f, priority=%d, loop=%d, rate=%f", sampleID, leftVolume, rightVolume, priority, loop, rate); sp<Sample> sample; SoundChannel* channel; int channelID; Mutex::Autolock lock(&mLock); if (mQuit) { return 0; } // is sample ready? sample = findSample(sampleID); if ((sample == 0) || (sample->state() != Sample::READY)) { ALOGW(" sample %d not READY", sampleID); return 0; } dump(); // allocate a channel channel = allocateChannel_l(priority, sampleID); // no channel allocated - return 0 if (!channel) { ALOGV("No channel allocated"); return 0; } channelID = ++mNextChannelID; ALOGV("play channel %p state = %d", channel, channel->state()); channel->play(sample, channelID, leftVolume, rightVolume, priority, loop, rate); return channelID; } SoundChannel* SoundPool::allocateChannel_l(int priority, int sampleID) { List<SoundChannel*>::iterator iter; SoundChannel* channel = NULL; // check if channel for given sampleID still available if (!mChannels.empty()) { for (iter = mChannels.begin(); iter != mChannels.end(); ++iter) { if (sampleID == (*iter)->getPrevSampleID() && (*iter)->state() == SoundChannel::IDLE) { channel = *iter; mChannels.erase(iter); ALOGV("Allocated recycled channel for same sampleID"); break; } } } // allocate any channel if (!channel && !mChannels.empty()) { iter = mChannels.begin(); if (priority >= (*iter)->priority()) { channel = *iter; mChannels.erase(iter); ALOGV("Allocated active channel"); } } // update priority and put it back in the list if (channel) { channel->setPriority(priority); for (iter = mChannels.begin(); iter != mChannels.end(); ++iter) { if (priority < (*iter)->priority()) { break; } } mChannels.insert(iter, channel); } return channel; } // move a channel from its current position to the front of the list void SoundPool::moveToFront_l(SoundChannel* channel) { for (List<SoundChannel*>::iterator iter = mChannels.begin(); iter != mChannels.end(); ++iter) { if (*iter == channel) { mChannels.erase(iter); mChannels.push_front(channel); break; } } } void SoundPool::pause(int channelID) { ALOGV("pause(%d)", channelID); Mutex::Autolock lock(&mLock); SoundChannel* channel = findChannel(channelID); if (channel) { channel->pause(); } } void SoundPool::autoPause() { ALOGV("autoPause()"); Mutex::Autolock lock(&mLock); for (int i = 0; i < mMaxChannels; ++i) { SoundChannel* channel = &mChannelPool[i]; channel->autoPause(); } } void SoundPool::resume(int channelID) { ALOGV("resume(%d)", channelID); Mutex::Autolock lock(&mLock); SoundChannel* channel = findChannel(channelID); if (channel) { channel->resume(); } } void SoundPool::autoResume() { ALOGV("autoResume()"); Mutex::Autolock lock(&mLock); for (int i = 0; i < mMaxChannels; ++i) { SoundChannel* channel = &mChannelPool[i]; channel->autoResume(); } } void SoundPool::stop(int channelID) { ALOGV("stop(%d)", channelID); Mutex::Autolock lock(&mLock); SoundChannel* channel = findChannel(channelID); if (channel) { channel->stop(); } else { channel = findNextChannel(channelID); if (channel) channel->clearNextEvent(); } } void SoundPool::setVolume(int channelID, float leftVolume, float rightVolume) { Mutex::Autolock lock(&mLock); SoundChannel* channel = findChannel(channelID); if (channel) { channel->setVolume(leftVolume, rightVolume); } } void SoundPool::setPriority(int channelID, int priority) { ALOGV("setPriority(%d, %d)", channelID, priority); Mutex::Autolock lock(&mLock); SoundChannel* channel = findChannel(channelID); if (channel) { channel->setPriority(priority); } } void SoundPool::setLoop(int channelID, int loop) { ALOGV("setLoop(%d, %d)", channelID, loop); Mutex::Autolock lock(&mLock); SoundChannel* channel = findChannel(channelID); if (channel) { channel->setLoop(loop); } } void SoundPool::setRate(int channelID, float rate) { ALOGV("setRate(%d, %f)", channelID, rate); Mutex::Autolock lock(&mLock); SoundChannel* channel = findChannel(channelID); if (channel) { channel->setRate(rate); } } // call with lock held void SoundPool::done_l(SoundChannel* channel) { ALOGV("done_l(%d)", channel->channelID()); // if "stolen", play next event if (channel->nextChannelID() != 0) { ALOGV("add to restart list"); addToRestartList(channel); } // return to idle state else { ALOGV("move to front"); moveToFront_l(channel); } } void SoundPool::setCallback(SoundPoolCallback* callback, void* user) { Mutex::Autolock lock(&mCallbackLock); mCallback = callback; mUserData = user; } void SoundPool::notify(SoundPoolEvent event) { Mutex::Autolock lock(&mCallbackLock); if (mCallback != NULL) { mCallback(event, this, mUserData); } } void SoundPool::dump() { for (int i = 0; i < mMaxChannels; ++i) { mChannelPool[i].dump(); } } Sample::Sample(int sampleID, int fd, int64_t offset, int64_t length) { init(); mSampleID = sampleID; mFd = dup(fd); mOffset = offset; mLength = length; ALOGV("create sampleID=%d, fd=%d, offset=%" PRId64 " length=%" PRId64, mSampleID, mFd, mLength, mOffset); } void Sample::init() { mSize = 0; mRefCount = 0; mSampleID = 0; mState = UNLOADED; mFd = -1; mOffset = 0; mLength = 0; } Sample::~Sample() { ALOGV("Sample::destructor sampleID=%d, fd=%d", mSampleID, mFd); if (mFd > 0) { ALOGV("close(%d)", mFd); ::close(mFd); } } static status_t decode(int fd, int64_t offset, int64_t length, uint32_t *rate, int *numChannels, audio_format_t *audioFormat, sp<MemoryHeapBase> heap, size_t *memsize) { ALOGV("fd %d, offset %" PRId64 ", size %" PRId64, fd, offset, length); AMediaExtractor *ex = AMediaExtractor_new(); status_t err = AMediaExtractor_setDataSourceFd(ex, fd, offset, length); if (err != AMEDIA_OK) { AMediaExtractor_delete(ex); return err; } *audioFormat = AUDIO_FORMAT_PCM_16_BIT; size_t numTracks = AMediaExtractor_getTrackCount(ex); for (size_t i = 0; i < numTracks; i++) { AMediaFormat *format = AMediaExtractor_getTrackFormat(ex, i); const char *mime; if (!AMediaFormat_getString(format, AMEDIAFORMAT_KEY_MIME, &mime)) { AMediaExtractor_delete(ex); AMediaFormat_delete(format); return UNKNOWN_ERROR; } if (strncmp(mime, "audio/", 6) == 0) { AMediaCodec *codec = AMediaCodec_createDecoderByType(mime); if (codec == NULL || AMediaCodec_configure(codec, format, NULL /* window */, NULL /* drm */, 0 /* flags */) != AMEDIA_OK || AMediaCodec_start(codec) != AMEDIA_OK || AMediaExtractor_selectTrack(ex, i) != AMEDIA_OK) { AMediaExtractor_delete(ex); AMediaCodec_delete(codec); AMediaFormat_delete(format); return UNKNOWN_ERROR; } bool sawInputEOS = false; bool sawOutputEOS = false; uint8_t* writePos = static_cast<uint8_t*>(heap->getBase()); size_t available = heap->getSize(); size_t written = 0; AMediaFormat_delete(format); format = AMediaCodec_getOutputFormat(codec); while (!sawOutputEOS) { if (!sawInputEOS) { ssize_t bufidx = AMediaCodec_dequeueInputBuffer(codec, 5000); ALOGV("input buffer %zd", bufidx); if (bufidx >= 0) { size_t bufsize; uint8_t *buf = AMediaCodec_getInputBuffer(codec, bufidx, &bufsize); int sampleSize = AMediaExtractor_readSampleData(ex, buf, bufsize); ALOGV("read %d", sampleSize); if (sampleSize < 0) { sampleSize = 0; sawInputEOS = true; ALOGV("EOS"); } int64_t presentationTimeUs = AMediaExtractor_getSampleTime(ex); AMediaCodec_queueInputBuffer(codec, bufidx, 0 /* offset */, sampleSize, presentationTimeUs, sawInputEOS ? AMEDIACODEC_BUFFER_FLAG_END_OF_STREAM : 0); AMediaExtractor_advance(ex); } } AMediaCodecBufferInfo info; int status = AMediaCodec_dequeueOutputBuffer(codec, &info, 1); ALOGV("dequeueoutput returned: %d", status); if (status >= 0) { if (info.flags & AMEDIACODEC_BUFFER_FLAG_END_OF_STREAM) { ALOGV("output EOS"); sawOutputEOS = true; } ALOGV("got decoded buffer size %d", info.size); uint8_t *buf = AMediaCodec_getOutputBuffer(codec, status, NULL /* out_size */); size_t dataSize = info.size; if (dataSize > available) { dataSize = available; } memcpy(writePos, buf + info.offset, dataSize); writePos += dataSize; written += dataSize; available -= dataSize; AMediaCodec_releaseOutputBuffer(codec, status, false /* render */); if (available == 0) { // there might be more data, but there's no space for it sawOutputEOS = true; } } else if (status == AMEDIACODEC_INFO_OUTPUT_BUFFERS_CHANGED) { ALOGV("output buffers changed"); } else if (status == AMEDIACODEC_INFO_OUTPUT_FORMAT_CHANGED) { AMediaFormat_delete(format); format = AMediaCodec_getOutputFormat(codec); ALOGV("format changed to: %s", AMediaFormat_toString(format)); } else if (status == AMEDIACODEC_INFO_TRY_AGAIN_LATER) { ALOGV("no output buffer right now"); } else { ALOGV("unexpected info code: %d", status); } } AMediaCodec_stop(codec); AMediaCodec_delete(codec); AMediaExtractor_delete(ex); if (!AMediaFormat_getInt32(format, AMEDIAFORMAT_KEY_SAMPLE_RATE, (int32_t*) rate) || !AMediaFormat_getInt32(format, AMEDIAFORMAT_KEY_CHANNEL_COUNT, numChannels)) { AMediaFormat_delete(format); return UNKNOWN_ERROR; } AMediaFormat_delete(format); *memsize = written; return OK; } AMediaFormat_delete(format); } AMediaExtractor_delete(ex); return UNKNOWN_ERROR; } status_t Sample::doLoad() { uint32_t sampleRate; int numChannels; audio_format_t format; status_t status; mHeap = new MemoryHeapBase(kDefaultHeapSize); ALOGV("Start decode"); status = decode(mFd, mOffset, mLength, &sampleRate, &numChannels, &format, mHeap, &mSize); ALOGV("close(%d)", mFd); ::close(mFd); mFd = -1; if (status != NO_ERROR) { ALOGE("Unable to load sample"); goto error; } ALOGV("pointer = %p, size = %zu, sampleRate = %u, numChannels = %d", mHeap->getBase(), mSize, sampleRate, numChannels); if (sampleRate > kMaxSampleRate) { ALOGE("Sample rate (%u) out of range", sampleRate); status = BAD_VALUE; goto error; } if ((numChannels < 1) || (numChannels > 8)) { ALOGE("Sample channel count (%d) out of range", numChannels); status = BAD_VALUE; goto error; } mData = new MemoryBase(mHeap, 0, mSize); mSampleRate = sampleRate; mNumChannels = numChannels; mFormat = format; mState = READY; return NO_ERROR; error: mHeap.clear(); return status; } void SoundChannel::init(SoundPool* soundPool) { mSoundPool = soundPool; mPrevSampleID = -1; } // call with sound pool lock held void SoundChannel::play(const sp<Sample>& sample, int nextChannelID, float leftVolume, float rightVolume, int priority, int loop, float rate) { sp<AudioTrack> oldTrack; sp<AudioTrack> newTrack; status_t status = NO_ERROR; { // scope for the lock Mutex::Autolock lock(&mLock); ALOGV("SoundChannel::play %p: sampleID=%d, channelID=%d, leftVolume=%f, rightVolume=%f," " priority=%d, loop=%d, rate=%f", this, sample->sampleID(), nextChannelID, leftVolume, rightVolume, priority, loop, rate); // if not idle, this voice is being stolen if (mState != IDLE) { ALOGV("channel %d stolen - event queued for channel %d", channelID(), nextChannelID); mNextEvent.set(sample, nextChannelID, leftVolume, rightVolume, priority, loop, rate); stop_l(); return; } // initialize track size_t afFrameCount; uint32_t afSampleRate; audio_stream_type_t streamType = audio_attributes_to_stream_type(mSoundPool->attributes()); if (AudioSystem::getOutputFrameCount(&afFrameCount, streamType) != NO_ERROR) { afFrameCount = kDefaultFrameCount; } if (AudioSystem::getOutputSamplingRate(&afSampleRate, streamType) != NO_ERROR) { afSampleRate = kDefaultSampleRate; } int numChannels = sample->numChannels(); uint32_t sampleRate = uint32_t(float(sample->sampleRate()) * rate + 0.5); size_t frameCount = 0; if (loop) { const audio_format_t format = sample->format(); const size_t frameSize = audio_is_linear_pcm(format) ? numChannels * audio_bytes_per_sample(format) : 1; frameCount = sample->size() / frameSize; } #ifndef USE_SHARED_MEM_BUFFER uint32_t totalFrames = (kDefaultBufferCount * afFrameCount * sampleRate) / afSampleRate; // Ensure minimum audio buffer size in case of short looped sample if(frameCount < totalFrames) { frameCount = totalFrames; } #endif // check if the existing track has the same sample id. if (mAudioTrack != 0 && mPrevSampleID == sample->sampleID()) { // the sample rate may fail to change if the audio track is a fast track. if (mAudioTrack->setSampleRate(sampleRate) == NO_ERROR) { newTrack = mAudioTrack; ALOGV("reusing track %p for sample %d", mAudioTrack.get(), sample->sampleID()); } } if (newTrack == 0) { // mToggle toggles each time a track is started on a given channel. // The toggle is concatenated with the SoundChannel address and passed to AudioTrack // as callback user data. This enables the detection of callbacks received from the old // audio track while the new one is being started and avoids processing them with // wrong audio audio buffer size (mAudioBufferSize) unsigned long toggle = mToggle ^ 1; void *userData = (void *)((unsigned long)this | toggle); audio_channel_mask_t channelMask = audio_channel_out_mask_from_count(numChannels); // do not create a new audio track if current track is compatible with sample parameters #ifdef USE_SHARED_MEM_BUFFER newTrack = new AudioTrack(streamType, sampleRate, sample->format(), channelMask, sample->getIMemory(), AUDIO_OUTPUT_FLAG_FAST, callback, userData, 0 /*default notification frames*/, AUDIO_SESSION_ALLOCATE, AudioTrack::TRANSFER_DEFAULT, NULL /*offloadInfo*/, -1 /*uid*/, -1 /*pid*/, mSoundPool->attributes()); #else uint32_t bufferFrames = (totalFrames + (kDefaultBufferCount - 1)) / kDefaultBufferCount; newTrack = new AudioTrack(streamType, sampleRate, sample->format(), channelMask, frameCount, AUDIO_OUTPUT_FLAG_FAST, callback, userData, bufferFrames, AUDIO_SESSION_ALLOCATE, AudioTrack::TRANSFER_DEFAULT, NULL /*offloadInfo*/, -1 /*uid*/, -1 /*pid*/, mSoundPool->attributes()); #endif oldTrack = mAudioTrack; status = newTrack->initCheck(); if (status != NO_ERROR) { ALOGE("Error creating AudioTrack"); // newTrack goes out of scope, so reference count drops to zero goto exit; } // From now on, AudioTrack callbacks received with previous toggle value will be ignored. mToggle = toggle; mAudioTrack = newTrack; ALOGV("using new track %p for sample %d", newTrack.get(), sample->sampleID()); } newTrack->setVolume(leftVolume, rightVolume); newTrack->setLoop(0, frameCount, loop); mPos = 0; mSample = sample; mChannelID = nextChannelID; mPriority = priority; mLoop = loop; mLeftVolume = leftVolume; mRightVolume = rightVolume; mNumChannels = numChannels; mRate = rate; clearNextEvent(); mState = PLAYING; mAudioTrack->start(); mAudioBufferSize = newTrack->frameCount()*newTrack->frameSize(); } exit: ALOGV("delete oldTrack %p", oldTrack.get()); if (status != NO_ERROR) { mAudioTrack.clear(); } } void SoundChannel::nextEvent() { sp<Sample> sample; int nextChannelID; float leftVolume; float rightVolume; int priority; int loop; float rate; // check for valid event { Mutex::Autolock lock(&mLock); nextChannelID = mNextEvent.channelID(); if (nextChannelID == 0) { ALOGV("stolen channel has no event"); return; } sample = mNextEvent.sample(); leftVolume = mNextEvent.leftVolume(); rightVolume = mNextEvent.rightVolume(); priority = mNextEvent.priority(); loop = mNextEvent.loop(); rate = mNextEvent.rate(); } ALOGV("Starting stolen channel %d -> %d", channelID(), nextChannelID); play(sample, nextChannelID, leftVolume, rightVolume, priority, loop, rate); } void SoundChannel::callback(int event, void* user, void *info) { SoundChannel* channel = static_cast<SoundChannel*>((void *)((unsigned long)user & ~1)); channel->process(event, info, (unsigned long)user & 1); } void SoundChannel::process(int event, void *info, unsigned long toggle) { //ALOGV("process(%d)", mChannelID); Mutex::Autolock lock(&mLock); AudioTrack::Buffer* b = NULL; if (event == AudioTrack::EVENT_MORE_DATA) { b = static_cast<AudioTrack::Buffer *>(info); } if (mToggle != toggle) { ALOGV("process wrong toggle %p channel %d", this, mChannelID); if (b != NULL) { b->size = 0; } return; } sp<Sample> sample = mSample; // ALOGV("SoundChannel::process event %d", event); if (event == AudioTrack::EVENT_MORE_DATA) { // check for stop state if (b->size == 0) return; if (mState == IDLE) { b->size = 0; return; } if (sample != 0) { // fill buffer uint8_t* q = (uint8_t*) b->i8; size_t count = 0; if (mPos < (int)sample->size()) { uint8_t* p = sample->data() + mPos; count = sample->size() - mPos; if (count > b->size) { count = b->size; } memcpy(q, p, count); // ALOGV("fill: q=%p, p=%p, mPos=%u, b->size=%u, count=%d", q, p, mPos, b->size, // count); } else if (mPos < mAudioBufferSize) { count = mAudioBufferSize - mPos; if (count > b->size) { count = b->size; } memset(q, 0, count); // ALOGV("fill extra: q=%p, mPos=%u, b->size=%u, count=%d", q, mPos, b->size, count); } mPos += count; b->size = count; //ALOGV("buffer=%p, [0]=%d", b->i16, b->i16[0]); } } else if (event == AudioTrack::EVENT_UNDERRUN || event == AudioTrack::EVENT_BUFFER_END) { ALOGV("process %p channel %d event %s", this, mChannelID, (event == AudioTrack::EVENT_UNDERRUN) ? "UNDERRUN" : "BUFFER_END"); mSoundPool->addToStopList(this); } else if (event == AudioTrack::EVENT_LOOP_END) { ALOGV("End loop %p channel %d", this, mChannelID); } else if (event == AudioTrack::EVENT_NEW_IAUDIOTRACK) { ALOGV("process %p channel %d NEW_IAUDIOTRACK", this, mChannelID); } else { ALOGW("SoundChannel::process unexpected event %d", event); } } // call with lock held bool SoundChannel::doStop_l() { if (mState != IDLE) { setVolume_l(0, 0); ALOGV("stop"); mAudioTrack->stop(); mPrevSampleID = mSample->sampleID(); mSample.clear(); mState = IDLE; mPriority = IDLE_PRIORITY; return true; } return false; } // call with lock held and sound pool lock held void SoundChannel::stop_l() { if (doStop_l()) { mSoundPool->done_l(this); } } // call with sound pool lock held void SoundChannel::stop() { bool stopped; { Mutex::Autolock lock(&mLock); stopped = doStop_l(); } if (stopped) { mSoundPool->done_l(this); } } //FIXME: Pause is a little broken right now void SoundChannel::pause() { Mutex::Autolock lock(&mLock); if (mState == PLAYING) { ALOGV("pause track"); mState = PAUSED; mAudioTrack->pause(); } } void SoundChannel::autoPause() { Mutex::Autolock lock(&mLock); if (mState == PLAYING) { ALOGV("pause track"); mState = PAUSED; mAutoPaused = true; mAudioTrack->pause(); } } void SoundChannel::resume() { Mutex::Autolock lock(&mLock); if (mState == PAUSED) { ALOGV("resume track"); mState = PLAYING; mAutoPaused = false; mAudioTrack->start(); } } void SoundChannel::autoResume() { Mutex::Autolock lock(&mLock); if (mAutoPaused && (mState == PAUSED)) { ALOGV("resume track"); mState = PLAYING; mAutoPaused = false; mAudioTrack->start(); } } void SoundChannel::setRate(float rate) { Mutex::Autolock lock(&mLock); if (mAudioTrack != NULL && mSample != 0) { uint32_t sampleRate = uint32_t(float(mSample->sampleRate()) * rate + 0.5); mAudioTrack->setSampleRate(sampleRate); mRate = rate; } } // call with lock held void SoundChannel::setVolume_l(float leftVolume, float rightVolume) { mLeftVolume = leftVolume; mRightVolume = rightVolume; if (mAudioTrack != NULL) mAudioTrack->setVolume(leftVolume, rightVolume); } void SoundChannel::setVolume(float leftVolume, float rightVolume) { Mutex::Autolock lock(&mLock); setVolume_l(leftVolume, rightVolume); } void SoundChannel::setLoop(int loop) { Mutex::Autolock lock(&mLock); if (mAudioTrack != NULL && mSample != 0) { uint32_t loopEnd = mSample->size()/mNumChannels/ ((mSample->format() == AUDIO_FORMAT_PCM_16_BIT) ? sizeof(int16_t) : sizeof(uint8_t)); mAudioTrack->setLoop(0, loopEnd, loop); mLoop = loop; } } SoundChannel::~SoundChannel() { ALOGV("SoundChannel destructor %p", this); { Mutex::Autolock lock(&mLock); clearNextEvent(); doStop_l(); } // do not call AudioTrack destructor with mLock held as it will wait for the AudioTrack // callback thread to exit which may need to execute process() and acquire the mLock. mAudioTrack.clear(); } void SoundChannel::dump() { ALOGV("mState = %d mChannelID=%d, mNumChannels=%d, mPos = %d, mPriority=%d, mLoop=%d", mState, mChannelID, mNumChannels, mPos, mPriority, mLoop); } void SoundEvent::set(const sp<Sample>& sample, int channelID, float leftVolume, float rightVolume, int priority, int loop, float rate) { mSample = sample; mChannelID = channelID; mLeftVolume = leftVolume; mRightVolume = rightVolume; mPriority = priority; mLoop = loop; mRate =rate; } } // end namespace android