/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim:set ts=2 sw=2 sts=2 et cindent: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include "base/basictypes.h" #include #include #include #include #include #include #include #include #include "mozilla/Preferences.h" #include "mozilla/Types.h" #include "mozilla/Monitor.h" #include "nsMimeTypes.h" #include "MPAPI.h" #include "prlog.h" #include "GonkNativeWindow.h" #include "GonkNativeWindowClient.h" #include "OMXCodecProxy.h" #include "OmxDecoder.h" #include "nsISeekableStream.h" #ifdef PR_LOGGING PRLogModuleInfo *gOmxDecoderLog; #define LOG(type, msg...) PR_LOG(gOmxDecoderLog, type, (msg)) #else #define LOG(x...) #endif using namespace MPAPI; using namespace mozilla; using namespace mozilla::gfx; namespace mozilla { class ReleaseOmxDecoderRunnable : public nsRunnable { public: ReleaseOmxDecoderRunnable(const android::sp& aOmxDecoder) : mOmxDecoder(aOmxDecoder) { } NS_METHOD Run() MOZ_OVERRIDE { MOZ_ASSERT(NS_IsMainThread()); mOmxDecoder = nullptr; // release OmxDecoder return NS_OK; } private: android::sp mOmxDecoder; }; class OmxDecoderProcessCachedDataTask : public Task { public: OmxDecoderProcessCachedDataTask(android::OmxDecoder* aOmxDecoder, int64_t aOffset) : mOmxDecoder(aOmxDecoder), mOffset(aOffset) { } void Run() { MOZ_ASSERT(!NS_IsMainThread()); MOZ_ASSERT(mOmxDecoder.get()); int64_t rem = mOmxDecoder->ProcessCachedData(mOffset, false); if (rem <= 0) { ReleaseOmxDecoderRunnable* r = new ReleaseOmxDecoderRunnable(mOmxDecoder); mOmxDecoder.clear(); NS_DispatchToMainThread(r); } } private: android::sp mOmxDecoder; int64_t mOffset; }; // When loading an MP3 stream from a file, we need to parse the file's // content to find its duration. Reading files of 100 MiB or more can // delay the player app noticably, so the file is read and decoded in // smaller chunks. // // We first read on the decode thread, but parsing must be done on the // main thread. After we read the file's initial MiBs in the decode // thread, an instance of this class is scheduled to the main thread for // parsing the MP3 stream. The decode thread waits until it has finished. // // If there is more data available from the file, the runnable dispatches // a task to the IO thread for retrieving the next chunk of data, and // the IO task dispatches a runnable to the main thread for parsing the // data. This goes on until all of the MP3 file has been parsed. class OmxDecoderNotifyDataArrivedRunnable : public nsRunnable { public: OmxDecoderNotifyDataArrivedRunnable(android::OmxDecoder* aOmxDecoder, const char* aBuffer, uint64_t aLength, int64_t aOffset, uint64_t aFullLength) : mOmxDecoder(aOmxDecoder), mBuffer(aBuffer), mLength(aLength), mOffset(aOffset), mFullLength(aFullLength), mCompletedMonitor("OmxDecoderNotifyDataArrived.mCompleted"), mCompleted(false) { MOZ_ASSERT(mOmxDecoder.get()); MOZ_ASSERT(mBuffer.get() || !mLength); } NS_IMETHOD Run() { NS_ASSERTION(NS_IsMainThread(), "Should be on main thread."); NotifyDataArrived(); Completed(); return NS_OK; } void WaitForCompletion() { MOZ_ASSERT(!NS_IsMainThread()); MonitorAutoLock mon(mCompletedMonitor); if (!mCompleted) { mCompletedMonitor.Wait(); } } private: void NotifyDataArrived() { const char* buffer = mBuffer.get(); while (mLength) { uint32_t length = std::min(mLength, UINT32_MAX); bool success = mOmxDecoder->NotifyDataArrived(buffer, mLength, mOffset); if (!success) { return; } buffer += length; mLength -= length; mOffset += length; } if (mOffset < mFullLength) { // We cannot read data in the main thread because it // might block for too long. Instead we post an IO task // to the IO thread if there is more data available. XRE_GetIOMessageLoop()->PostTask(FROM_HERE, new OmxDecoderProcessCachedDataTask(mOmxDecoder.get(), mOffset)); } } // Call this function at the end of Run() to notify waiting // threads. void Completed() { MonitorAutoLock mon(mCompletedMonitor); MOZ_ASSERT(!mCompleted); mCompleted = true; mCompletedMonitor.Notify(); } android::sp mOmxDecoder; nsAutoArrayPtr mBuffer; uint64_t mLength; int64_t mOffset; uint64_t mFullLength; Monitor mCompletedMonitor; bool mCompleted; }; namespace layers { VideoGraphicBuffer::VideoGraphicBuffer(const android::wp aOmxDecoder, android::MediaBuffer *aBuffer, SurfaceDescriptor& aDescriptor) : GraphicBufferLocked(aDescriptor), mMediaBuffer(aBuffer), mOmxDecoder(aOmxDecoder) { mMediaBuffer->add_ref(); } VideoGraphicBuffer::~VideoGraphicBuffer() { MOZ_ASSERT(!mMediaBuffer); } void VideoGraphicBuffer::Unlock() { android::sp omxDecoder = mOmxDecoder.promote(); if (omxDecoder.get()) { // Post kNotifyPostReleaseVideoBuffer message to OmxDecoder via ALooper. // The message is delivered to OmxDecoder on ALooper thread. // MediaBuffer::release() could take a very long time. // PostReleaseVideoBuffer() prevents long time locking. omxDecoder->PostReleaseVideoBuffer(mMediaBuffer); } else { NS_WARNING("OmxDecoder is not present"); if (mMediaBuffer) { mMediaBuffer->release(); } } mMediaBuffer = nullptr; } } } namespace android { MediaStreamSource::MediaStreamSource(MediaResource *aResource, AbstractMediaDecoder *aDecoder) : mResource(aResource), mDecoder(aDecoder) { } MediaStreamSource::~MediaStreamSource() { } status_t MediaStreamSource::initCheck() const { return OK; } ssize_t MediaStreamSource::readAt(off64_t offset, void *data, size_t size) { char *ptr = static_cast(data); size_t todo = size; while (todo > 0) { Mutex::Autolock autoLock(mLock); uint32_t bytesRead; if ((offset != mResource->Tell() && NS_FAILED(mResource->Seek(nsISeekableStream::NS_SEEK_SET, offset))) || NS_FAILED(mResource->Read(ptr, todo, &bytesRead))) { return ERROR_IO; } if (bytesRead == 0) { return size - todo; } offset += bytesRead; todo -= bytesRead; ptr += bytesRead; } return size; } status_t MediaStreamSource::getSize(off64_t *size) { uint64_t length = mResource->GetLength(); if (length == static_cast(-1)) return ERROR_UNSUPPORTED; *size = length; return OK; } } // namespace android using namespace android; OmxDecoder::OmxDecoder(MediaResource *aResource, AbstractMediaDecoder *aDecoder) : mDecoder(aDecoder), mResource(aResource), mVideoWidth(0), mVideoHeight(0), mVideoColorFormat(0), mVideoStride(0), mVideoSliceHeight(0), mVideoRotation(0), mAudioChannels(-1), mAudioSampleRate(-1), mDurationUs(-1), mMP3FrameParser(aResource->GetLength()), mIsMp3(false), mVideoBuffer(nullptr), mAudioBuffer(nullptr), mIsVideoSeeking(false), mAudioMetadataRead(false), mAudioPaused(false), mVideoPaused(false) { mLooper = new ALooper; mLooper->setName("OmxDecoder"); mReflector = new AHandlerReflector(this); // Register AMessage handler to ALooper. mLooper->registerHandler(mReflector); // Start ALooper thread. mLooper->start(); } OmxDecoder::~OmxDecoder() { MOZ_ASSERT(NS_IsMainThread()); ReleaseMediaResources(); // unregister AMessage handler from ALooper. mLooper->unregisterHandler(mReflector->id()); // Stop ALooper thread. mLooper->stop(); } void OmxDecoder::statusChanged() { sp notify = new AMessage(kNotifyStatusChanged, mReflector->id()); // post AMessage to OmxDecoder via ALooper. notify->post(); } static sp sOMX = nullptr; static sp GetOMX() { if(sOMX.get() == nullptr) { sOMX = new OMX; } return sOMX; } bool OmxDecoder::Init(sp& extractor) { #ifdef PR_LOGGING if (!gOmxDecoderLog) { gOmxDecoderLog = PR_NewLogModule("OmxDecoder"); } #endif const char* extractorMime; sp meta = extractor->getMetaData(); if (meta->findCString(kKeyMIMEType, &extractorMime) && !strcasecmp(extractorMime, AUDIO_MP3)) { mIsMp3 = true; } ssize_t audioTrackIndex = -1; ssize_t videoTrackIndex = -1; for (size_t i = 0; i < extractor->countTracks(); ++i) { sp meta = extractor->getTrackMetaData(i); int32_t bitRate; if (!meta->findInt32(kKeyBitRate, &bitRate)) bitRate = 0; const char *mime; if (!meta->findCString(kKeyMIMEType, &mime)) { continue; } if (videoTrackIndex == -1 && !strncasecmp(mime, "video/", 6)) { videoTrackIndex = i; } else if (audioTrackIndex == -1 && !strncasecmp(mime, "audio/", 6)) { audioTrackIndex = i; } } if (videoTrackIndex == -1 && audioTrackIndex == -1) { NS_WARNING("OMX decoder could not find video or audio tracks"); return false; } mResource->SetReadMode(MediaCacheStream::MODE_PLAYBACK); if (videoTrackIndex != -1) { mVideoTrack = extractor->getTrack(videoTrackIndex); } if (audioTrackIndex != -1) { mAudioTrack = extractor->getTrack(audioTrackIndex); } return true; } bool OmxDecoder::TryLoad() { if (!AllocateMediaResources()) { return false; } //check if video is waiting resources if (mVideoSource.get()) { if (mVideoSource->IsWaitingResources()) { return true; } } // calculate duration int64_t totalDurationUs = 0; int64_t durationUs = 0; if (mVideoTrack.get() && mVideoTrack->getFormat()->findInt64(kKeyDuration, &durationUs)) { if (durationUs > totalDurationUs) totalDurationUs = durationUs; } if (mAudioTrack.get()) { durationUs = -1; const char* audioMime; sp meta = mAudioTrack->getFormat(); if (mIsMp3) { // Feed MP3 parser with cached data. Local files will be fully // cached already, network streams will update with sucessive // calls to NotifyDataArrived. if (ProcessCachedData(0, true) >= 0) { durationUs = mMP3FrameParser.GetDuration(); if (durationUs > totalDurationUs) { totalDurationUs = durationUs; } } } if ((durationUs == -1) && meta->findInt64(kKeyDuration, &durationUs)) { if (durationUs > totalDurationUs) { totalDurationUs = durationUs; } } } mDurationUs = totalDurationUs; // read video metadata if (mVideoSource.get() && !SetVideoFormat()) { NS_WARNING("Couldn't set OMX video format"); return false; } // read audio metadata if (mAudioSource.get()) { // For RTSP, we don't read the audio source for now. // The metadata of RTSP will be obtained through SDP at connection time. if (mResource->GetRtspPointer()) { sp meta = mAudioSource->getFormat(); if (!meta->findInt32(kKeyChannelCount, &mAudioChannels) || !meta->findInt32(kKeySampleRate, &mAudioSampleRate)) { NS_WARNING("Couldn't get audio metadata from OMX decoder"); return false; } return true; } // To reliably get the channel and sample rate data we need to read from the // audio source until we get a INFO_FORMAT_CHANGE status status_t err = mAudioSource->read(&mAudioBuffer); if (err != INFO_FORMAT_CHANGED) { if (err != OK) { NS_WARNING("Couldn't read audio buffer from OMX decoder"); return false; } sp meta = mAudioSource->getFormat(); if (!meta->findInt32(kKeyChannelCount, &mAudioChannels) || !meta->findInt32(kKeySampleRate, &mAudioSampleRate)) { NS_WARNING("Couldn't get audio metadata from OMX decoder"); return false; } mAudioMetadataRead = true; } else if (!SetAudioFormat()) { NS_WARNING("Couldn't set audio format"); return false; } } return true; } bool OmxDecoder::IsDormantNeeded() { if (mVideoTrack.get()) { return true; } return false; } bool OmxDecoder::IsWaitingMediaResources() { if (mVideoSource.get()) { return mVideoSource->IsWaitingResources(); } return false; } bool OmxDecoder::AllocateMediaResources() { // OMXClient::connect() always returns OK and abort's fatally if // it can't connect. OMXClient client; DebugOnly err = client.connect(); NS_ASSERTION(err == OK, "Failed to connect to OMX in mediaserver."); sp omx = client.interface(); if ((mVideoTrack != nullptr) && (mVideoSource == nullptr)) { mNativeWindow = new GonkNativeWindow(); #if defined(MOZ_WIDGET_GONK) && ANDROID_VERSION >= 17 mNativeWindowClient = new GonkNativeWindowClient(mNativeWindow->getBufferQueue()); #else mNativeWindowClient = new GonkNativeWindowClient(mNativeWindow); #endif // Experience with OMX codecs is that only the HW decoders are // worth bothering with, at least on the platforms where this code // is currently used, and for formats this code is currently used // for (h.264). So if we don't get a hardware decoder, just give // up. int flags = kHardwareCodecsOnly; char propQemu[PROPERTY_VALUE_MAX]; property_get("ro.kernel.qemu", propQemu, ""); if (!strncmp(propQemu, "1", 1)) { // If we are in emulator, allow to fall back to software. flags = 0; } mVideoSource = OMXCodecProxy::Create(omx, mVideoTrack->getFormat(), false, // decoder mVideoTrack, nullptr, flags, mNativeWindowClient); if (mVideoSource == nullptr) { NS_WARNING("Couldn't create OMX video source"); return false; } else { sp listener = this; mVideoSource->setEventListener(listener); mVideoSource->requestResource(); } } if ((mAudioTrack != nullptr) && (mAudioSource == nullptr)) { const char *audioMime = nullptr; sp meta = mAudioTrack->getFormat(); if (!meta->findCString(kKeyMIMEType, &audioMime)) { return false; } if (!strcasecmp(audioMime, "audio/raw")) { mAudioSource = mAudioTrack; } else { // try to load hardware codec in mediaserver process. int flags = kHardwareCodecsOnly; mAudioSource = OMXCodec::Create(omx, mAudioTrack->getFormat(), false, // decoder mAudioTrack, nullptr, flags); } if (mAudioSource == nullptr) { // try to load software codec in this process. int flags = kSoftwareCodecsOnly; mAudioSource = OMXCodec::Create(GetOMX(), mAudioTrack->getFormat(), false, // decoder mAudioTrack, nullptr, flags); if (mAudioSource == nullptr) { NS_WARNING("Couldn't create OMX audio source"); return false; } } if (mAudioSource->start() != OK) { NS_WARNING("Couldn't start OMX audio source"); mAudioSource.clear(); return false; } } return true; } void OmxDecoder::ReleaseMediaResources() { { // Free all pending video buffers. Mutex::Autolock autoLock(mSeekLock); ReleaseAllPendingVideoBuffersLocked(); } ReleaseVideoBuffer(); ReleaseAudioBuffer(); if (mVideoSource.get()) { mVideoSource->stop(); mVideoSource.clear(); } if (mAudioSource.get()) { mAudioSource->stop(); mAudioSource.clear(); } mNativeWindowClient.clear(); mNativeWindow.clear(); } bool OmxDecoder::SetVideoFormat() { const char *componentName; if (!mVideoSource->getFormat()->findInt32(kKeyWidth, &mVideoWidth) || !mVideoSource->getFormat()->findInt32(kKeyHeight, &mVideoHeight) || !mVideoSource->getFormat()->findCString(kKeyDecoderComponent, &componentName) || !mVideoSource->getFormat()->findInt32(kKeyColorFormat, &mVideoColorFormat) ) { return false; } if (!mVideoSource->getFormat()->findInt32(kKeyStride, &mVideoStride)) { mVideoStride = mVideoWidth; NS_WARNING("stride not available, assuming width"); } if (!mVideoSource->getFormat()->findInt32(kKeySliceHeight, &mVideoSliceHeight)) { mVideoSliceHeight = mVideoHeight; NS_WARNING("slice height not available, assuming height"); } if (!mVideoSource->getFormat()->findInt32(kKeyRotation, &mVideoRotation)) { mVideoRotation = 0; NS_WARNING("rotation not available, assuming 0"); } LOG(PR_LOG_DEBUG, "width: %d height: %d component: %s format: %d stride: %d sliceHeight: %d rotation: %d", mVideoWidth, mVideoHeight, componentName, mVideoColorFormat, mVideoStride, mVideoSliceHeight, mVideoRotation); return true; } bool OmxDecoder::SetAudioFormat() { // If the format changed, update our cached info. if (!mAudioSource->getFormat()->findInt32(kKeyChannelCount, &mAudioChannels) || !mAudioSource->getFormat()->findInt32(kKeySampleRate, &mAudioSampleRate)) { return false; } LOG(PR_LOG_DEBUG, "channelCount: %d sampleRate: %d", mAudioChannels, mAudioSampleRate); return true; } void OmxDecoder::ReleaseDecoder() { mDecoder = nullptr; } bool OmxDecoder::NotifyDataArrived(const char* aBuffer, uint32_t aLength, int64_t aOffset) { if (!mAudioTrack.get() || !mIsMp3 || !mMP3FrameParser.IsMP3() || !mDecoder) { return false; } mMP3FrameParser.Parse(aBuffer, aLength, aOffset); int64_t durationUs = mMP3FrameParser.GetDuration(); if (durationUs != mDurationUs) { mDurationUs = durationUs; MOZ_ASSERT(mDecoder); ReentrantMonitorAutoEnter mon(mDecoder->GetReentrantMonitor()); mDecoder->UpdateEstimatedMediaDuration(mDurationUs); } return true; } void OmxDecoder::ReleaseVideoBuffer() { if (mVideoBuffer) { mVideoBuffer->release(); mVideoBuffer = nullptr; } } void OmxDecoder::ReleaseAudioBuffer() { if (mAudioBuffer) { mAudioBuffer->release(); mAudioBuffer = nullptr; } } void OmxDecoder::PlanarYUV420Frame(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) { void *y = aData; void *u = static_cast(y) + mVideoStride * mVideoSliceHeight; void *v = static_cast(u) + mVideoStride/2 * mVideoSliceHeight/2; aFrame->Set(aTimeUs, aKeyFrame, aData, aSize, mVideoStride, mVideoSliceHeight, mVideoRotation, y, mVideoStride, mVideoWidth, mVideoHeight, 0, 0, u, mVideoStride/2, mVideoWidth/2, mVideoHeight/2, 0, 0, v, mVideoStride/2, mVideoWidth/2, mVideoHeight/2, 0, 0); } void OmxDecoder::CbYCrYFrame(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) { aFrame->Set(aTimeUs, aKeyFrame, aData, aSize, mVideoStride, mVideoSliceHeight, mVideoRotation, aData, mVideoStride, mVideoWidth, mVideoHeight, 1, 1, aData, mVideoStride, mVideoWidth/2, mVideoHeight/2, 0, 3, aData, mVideoStride, mVideoWidth/2, mVideoHeight/2, 2, 3); } void OmxDecoder::SemiPlanarYUV420Frame(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) { void *y = aData; void *uv = static_cast(y) + (mVideoStride * mVideoSliceHeight); aFrame->Set(aTimeUs, aKeyFrame, aData, aSize, mVideoStride, mVideoSliceHeight, mVideoRotation, y, mVideoStride, mVideoWidth, mVideoHeight, 0, 0, uv, mVideoStride, mVideoWidth/2, mVideoHeight/2, 0, 1, uv, mVideoStride, mVideoWidth/2, mVideoHeight/2, 1, 1); } void OmxDecoder::SemiPlanarYVU420Frame(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) { SemiPlanarYUV420Frame(aFrame, aTimeUs, aData, aSize, aKeyFrame); aFrame->Cb.mOffset = 1; aFrame->Cr.mOffset = 0; } bool OmxDecoder::ToVideoFrame(VideoFrame *aFrame, int64_t aTimeUs, void *aData, size_t aSize, bool aKeyFrame) { const int OMX_QCOM_COLOR_FormatYVU420SemiPlanar = 0x7FA30C00; aFrame->mGraphicBuffer = nullptr; switch (mVideoColorFormat) { case OMX_COLOR_FormatYUV420Planar: PlanarYUV420Frame(aFrame, aTimeUs, aData, aSize, aKeyFrame); break; case OMX_COLOR_FormatCbYCrY: CbYCrYFrame(aFrame, aTimeUs, aData, aSize, aKeyFrame); break; case OMX_COLOR_FormatYUV420SemiPlanar: SemiPlanarYUV420Frame(aFrame, aTimeUs, aData, aSize, aKeyFrame); break; case OMX_QCOM_COLOR_FormatYVU420SemiPlanar: SemiPlanarYVU420Frame(aFrame, aTimeUs, aData, aSize, aKeyFrame); break; default: LOG(PR_LOG_DEBUG, "Unknown video color format %08x", mVideoColorFormat); return false; } return true; } bool OmxDecoder::ToAudioFrame(AudioFrame *aFrame, int64_t aTimeUs, void *aData, size_t aDataOffset, size_t aSize, int32_t aAudioChannels, int32_t aAudioSampleRate) { aFrame->Set(aTimeUs, static_cast(aData) + aDataOffset, aSize, aAudioChannels, aAudioSampleRate); return true; } bool OmxDecoder::ReadVideo(VideoFrame *aFrame, int64_t aTimeUs, bool aKeyframeSkip, bool aDoSeek) { if (!mVideoSource.get()) return false; ReleaseVideoBuffer(); status_t err; if (aDoSeek) { { Mutex::Autolock autoLock(mSeekLock); mIsVideoSeeking = true; } MediaSource::ReadOptions options; options.setSeekTo(aTimeUs, MediaSource::ReadOptions::SEEK_PREVIOUS_SYNC); err = mVideoSource->read(&mVideoBuffer, &options); { Mutex::Autolock autoLock(mSeekLock); mIsVideoSeeking = false; ReleaseAllPendingVideoBuffersLocked(); } aDoSeek = false; } else { err = mVideoSource->read(&mVideoBuffer); } aFrame->mSize = 0; if (err == OK) { int64_t timeUs; int32_t unreadable; int32_t keyFrame; if (!mVideoBuffer->meta_data()->findInt64(kKeyTime, &timeUs) ) { NS_WARNING("OMX decoder did not return frame time"); return false; } if (!mVideoBuffer->meta_data()->findInt32(kKeyIsSyncFrame, &keyFrame)) { keyFrame = 0; } if (!mVideoBuffer->meta_data()->findInt32(kKeyIsUnreadable, &unreadable)) { unreadable = 0; } mozilla::layers::SurfaceDescriptor *descriptor = nullptr; if ((mVideoBuffer->graphicBuffer().get())) { descriptor = mNativeWindow->getSurfaceDescriptorFromBuffer(mVideoBuffer->graphicBuffer().get()); } if (descriptor) { // Change the descriptor's size to video's size. There are cases that // GraphicBuffer's size and actual video size is different. // See Bug 850566. mozilla::layers::SurfaceDescriptorGralloc newDescriptor = descriptor->get_SurfaceDescriptorGralloc(); newDescriptor.size() = IntSize(mVideoWidth, mVideoHeight); mozilla::layers::SurfaceDescriptor descWrapper(newDescriptor); aFrame->mGraphicBuffer = new mozilla::layers::VideoGraphicBuffer(this, mVideoBuffer, descWrapper); aFrame->mRotation = mVideoRotation; aFrame->mTimeUs = timeUs; aFrame->mKeyFrame = keyFrame; aFrame->Y.mWidth = mVideoWidth; aFrame->Y.mHeight = mVideoHeight; } else if (mVideoBuffer->range_length() > 0) { char *data = static_cast(mVideoBuffer->data()) + mVideoBuffer->range_offset(); size_t length = mVideoBuffer->range_length(); if (unreadable) { LOG(PR_LOG_DEBUG, "video frame is unreadable"); } if (!ToVideoFrame(aFrame, timeUs, data, length, keyFrame)) { return false; } } if (aKeyframeSkip && timeUs < aTimeUs) { aFrame->mShouldSkip = true; } } else if (err == INFO_FORMAT_CHANGED) { // If the format changed, update our cached info. if (!SetVideoFormat()) { return false; } else { return ReadVideo(aFrame, aTimeUs, aKeyframeSkip, aDoSeek); } } else if (err == ERROR_END_OF_STREAM) { return false; } else if (err == -ETIMEDOUT) { LOG(PR_LOG_DEBUG, "OmxDecoder::ReadVideo timed out, will retry"); return true; } else { // UNKNOWN_ERROR is sometimes is used to mean "out of memory", but // regardless, don't keep trying to decode if the decoder doesn't want to. LOG(PR_LOG_DEBUG, "OmxDecoder::ReadVideo failed, err=%d", err); return false; } return true; } bool OmxDecoder::ReadAudio(AudioFrame *aFrame, int64_t aSeekTimeUs) { status_t err; if (mAudioMetadataRead && aSeekTimeUs == -1) { // Use the data read into the buffer during metadata time err = OK; } else { ReleaseAudioBuffer(); if (aSeekTimeUs != -1) { MediaSource::ReadOptions options; options.setSeekTo(aSeekTimeUs); err = mAudioSource->read(&mAudioBuffer, &options); } else { err = mAudioSource->read(&mAudioBuffer); } } mAudioMetadataRead = false; aSeekTimeUs = -1; aFrame->mSize = 0; if (err == OK && mAudioBuffer && mAudioBuffer->range_length() != 0) { int64_t timeUs; if (!mAudioBuffer->meta_data()->findInt64(kKeyTime, &timeUs)) return false; return ToAudioFrame(aFrame, timeUs, mAudioBuffer->data(), mAudioBuffer->range_offset(), mAudioBuffer->range_length(), mAudioChannels, mAudioSampleRate); } else if (err == INFO_FORMAT_CHANGED) { // If the format changed, update our cached info. if (!SetAudioFormat()) { return false; } else { return ReadAudio(aFrame, aSeekTimeUs); } } else if (err == ERROR_END_OF_STREAM) { if (aFrame->mSize == 0) { return false; } } else if (err == -ETIMEDOUT) { LOG(PR_LOG_DEBUG, "OmxDecoder::ReadAudio timed out, will retry"); return true; } else if (err != OK) { LOG(PR_LOG_DEBUG, "OmxDecoder::ReadAudio failed, err=%d", err); return false; } return true; } nsresult OmxDecoder::Play() { if (!mVideoPaused && !mAudioPaused) { return NS_OK; } if (mVideoPaused && mVideoSource.get() && mVideoSource->start() != OK) { return NS_ERROR_UNEXPECTED; } mVideoPaused = false; if (mAudioPaused && mAudioSource.get() && mAudioSource->start() != OK) { return NS_ERROR_UNEXPECTED; } mAudioPaused = false; return NS_OK; } // AOSP didn't give implementation on OMXCodec::Pause() and not define // OMXCodec::Start() should be called for resuming the decoding. Currently // it is customized by a specific open source repository only. // ToDo The one not supported OMXCodec::Pause() should return error code here, // so OMXCodec::Start() doesn't be called again for resuming. But if someone // implement the OMXCodec::Pause() and need a following OMXCodec::Read() with // seek option (define in MediaSource.h) then it is still not supported here. // We need to fix it until it is really happened. void OmxDecoder::Pause() { if (mVideoPaused || mAudioPaused) { return; } if (mVideoSource.get() && mVideoSource->pause() == OK) { mVideoPaused = true; } if (mAudioSource.get() && mAudioSource->pause() == OK) { mAudioPaused = true; } } // Called on ALooper thread. void OmxDecoder::onMessageReceived(const sp &msg) { switch (msg->what()) { case kNotifyPostReleaseVideoBuffer: { Mutex::Autolock autoLock(mSeekLock); // Free pending video buffers when OmxDecoder is not seeking video. // If OmxDecoder is seeking video, the buffers are freed on seek exit. if (!mIsVideoSeeking) { ReleaseAllPendingVideoBuffersLocked(); } break; } case kNotifyStatusChanged: { mozilla::ReentrantMonitorAutoEnter mon(mDecoder->GetReentrantMonitor()); mDecoder->GetReentrantMonitor().NotifyAll(); break; } default: TRESPASS(); break; } } void OmxDecoder::PostReleaseVideoBuffer(MediaBuffer *aBuffer) { { Mutex::Autolock autoLock(mPendingVideoBuffersLock); mPendingVideoBuffers.push(aBuffer); } sp notify = new AMessage(kNotifyPostReleaseVideoBuffer, mReflector->id()); // post AMessage to OmxDecoder via ALooper. notify->post(); } void OmxDecoder::ReleaseAllPendingVideoBuffersLocked() { Vector releasingVideoBuffers; { Mutex::Autolock autoLock(mPendingVideoBuffersLock); int size = mPendingVideoBuffers.size(); for (int i = 0; i < size; i++) { MediaBuffer *buffer = mPendingVideoBuffers[i]; releasingVideoBuffers.push(buffer); } mPendingVideoBuffers.clear(); } // Free all pending video buffers without holding mPendingVideoBuffersLock. int size = releasingVideoBuffers.size(); for (int i = 0; i < size; i++) { MediaBuffer *buffer; buffer = releasingVideoBuffers[i]; buffer->release(); } releasingVideoBuffers.clear(); } int64_t OmxDecoder::ProcessCachedData(int64_t aOffset, bool aWaitForCompletion) { // We read data in chunks of 32 KiB. We can reduce this // value if media, such as sdcards, is too slow. // Because of SD card's slowness, need to keep sReadSize to small size. // See Bug 914870. static const int64_t sReadSize = 32 * 1024; NS_ASSERTION(!NS_IsMainThread(), "Should not be on main thread."); MOZ_ASSERT(mResource); int64_t resourceLength = mResource->GetCachedDataEnd(0); NS_ENSURE_TRUE(resourceLength >= 0, -1); if (aOffset >= resourceLength) { return 0; // Cache is empty, nothing to do } int64_t bufferLength = std::min(resourceLength-aOffset, sReadSize); nsAutoArrayPtr buffer(new char[bufferLength]); nsresult rv = mResource->ReadFromCache(buffer.get(), aOffset, bufferLength); NS_ENSURE_SUCCESS(rv, -1); nsRefPtr runnable( new OmxDecoderNotifyDataArrivedRunnable(this, buffer.forget(), bufferLength, aOffset, resourceLength)); rv = NS_DispatchToMainThread(runnable.get()); NS_ENSURE_SUCCESS(rv, -1); if (aWaitForCompletion) { runnable->WaitForCompletion(); } return resourceLength - aOffset - bufferLength; }