/* * Copyright (C) 2011 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 1 #define LOG_TAG "PreviewPlayer" #include #include #include "include/ARTSPController.h" #include "PreviewPlayer.h" #include "DummyAudioSource.h" #include "DummyVideoSource.h" #include "VideoEditorSRC.h" #include "include/NuCachedSource2.h" #include "include/ThrottledSource.h" #include "PreviewRenderer.h" #include #include #include #include #include #include #include #include #include #include #include #include namespace android { struct PreviewPlayerEvent : public TimedEventQueue::Event { PreviewPlayerEvent( PreviewPlayer *player, void (PreviewPlayer::*method)()) : mPlayer(player), mMethod(method) { } protected: virtual ~PreviewPlayerEvent() {} virtual void fire(TimedEventQueue *queue, int64_t /* now_us */) { (mPlayer->*mMethod)(); } private: PreviewPlayer *mPlayer; void (PreviewPlayer::*mMethod)(); PreviewPlayerEvent(const PreviewPlayerEvent &); PreviewPlayerEvent &operator=(const PreviewPlayerEvent &); }; struct PreviewLocalRenderer : public PreviewPlayerRenderer { static PreviewLocalRenderer* initPreviewLocalRenderer ( bool previewOnly, OMX_COLOR_FORMATTYPE colorFormat, const sp &surface, size_t displayWidth, size_t displayHeight, size_t decodedWidth, size_t decodedHeight, int32_t rotationDegrees = 0) { PreviewLocalRenderer* mLocalRenderer = new PreviewLocalRenderer( previewOnly, colorFormat, surface, displayWidth, displayHeight, decodedWidth, decodedHeight, rotationDegrees); if ( mLocalRenderer->init(previewOnly, colorFormat, surface, displayWidth, displayHeight, decodedWidth, decodedHeight, rotationDegrees) != OK ) { delete mLocalRenderer; return NULL; } return mLocalRenderer; } virtual void render(MediaBuffer *buffer) { render((const uint8_t *)buffer->data() + buffer->range_offset(), buffer->range_length()); } void render(const void *data, size_t size) { mTarget->render(data, size, NULL); } void render() { mTarget->renderYV12(); } void getBuffer(uint8_t **data, size_t *stride) { mTarget->getBufferYV12(data, stride); } protected: virtual ~PreviewLocalRenderer() { delete mTarget; mTarget = NULL; } private: PreviewRenderer *mTarget; PreviewLocalRenderer( bool previewOnly, OMX_COLOR_FORMATTYPE colorFormat, const sp &surface, size_t displayWidth, size_t displayHeight, size_t decodedWidth, size_t decodedHeight, int32_t rotationDegrees = 0) : mTarget(NULL) { } int init( bool previewOnly, OMX_COLOR_FORMATTYPE colorFormat, const sp &surface, size_t displayWidth, size_t displayHeight, size_t decodedWidth, size_t decodedHeight, int32_t rotationDegrees = 0); PreviewLocalRenderer(const PreviewLocalRenderer &); PreviewLocalRenderer &operator=(const PreviewLocalRenderer &);; }; int PreviewLocalRenderer::init( bool previewOnly, OMX_COLOR_FORMATTYPE colorFormat, const sp &surface, size_t displayWidth, size_t displayHeight, size_t decodedWidth, size_t decodedHeight, int32_t rotationDegrees) { mTarget = PreviewRenderer::CreatePreviewRenderer ( colorFormat, surface, displayWidth, displayHeight, decodedWidth, decodedHeight, rotationDegrees); if (mTarget == M4OSA_NULL) { return UNKNOWN_ERROR; } return OK; } PreviewPlayer::PreviewPlayer() : PreviewPlayerBase(), mCurrFramingEffectIndex(0) , mReportedWidth(0), mReportedHeight(0), mFrameRGBBuffer(NULL), mFrameYUVBuffer(NULL){ mVideoRenderer = NULL; mLastVideoBuffer = NULL; mSuspensionState = NULL; mEffectsSettings = NULL; mVeAudioPlayer = NULL; mAudioMixStoryBoardTS = 0; mCurrentMediaBeginCutTime = 0; mCurrentMediaVolumeValue = 0; mNumberEffects = 0; mDecodedVideoTs = 0; mDecVideoTsStoryBoard = 0; mCurrentVideoEffect = VIDEO_EFFECT_NONE; mProgressCbInterval = 0; mNumberDecVideoFrames = 0; mOverlayUpdateEventPosted = false; mIsChangeSourceRequired = true; mVideoEvent = new PreviewPlayerEvent(this, &PreviewPlayer::onVideoEvent); mVideoEventPending = false; mStreamDoneEvent = new PreviewPlayerEvent(this, &PreviewPlayer::onStreamDone); mStreamDoneEventPending = false; mCheckAudioStatusEvent = new PreviewPlayerEvent( this, &PreviewPlayerBase::onCheckAudioStatus); mAudioStatusEventPending = false; mProgressCbEvent = new PreviewPlayerEvent(this, &PreviewPlayer::onProgressCbEvent); mOverlayUpdateEvent = new PreviewPlayerEvent(this, &PreviewPlayer::onUpdateOverlayEvent); mProgressCbEventPending = false; mOverlayUpdateEventPending = false; mResizedVideoBuffer = NULL; mVideoResizedOrCropped = false; mRenderingMode = (M4xVSS_MediaRendering)MEDIA_RENDERING_INVALID; mIsFiftiesEffectStarted = false; reset(); } PreviewPlayer::~PreviewPlayer() { if (mQueueStarted) { mQueue.stop(); } reset(); if(mResizedVideoBuffer != NULL) { free((mResizedVideoBuffer->data())); mResizedVideoBuffer = NULL; } mVideoRenderer.clear(); mVideoRenderer = NULL; } void PreviewPlayer::cancelPlayerEvents(bool keepBufferingGoing) { mQueue.cancelEvent(mVideoEvent->eventID()); mVideoEventPending = false; mQueue.cancelEvent(mStreamDoneEvent->eventID()); mStreamDoneEventPending = false; mQueue.cancelEvent(mCheckAudioStatusEvent->eventID()); mAudioStatusEventPending = false; mQueue.cancelEvent(mProgressCbEvent->eventID()); mProgressCbEventPending = false; } status_t PreviewPlayer::setDataSource( const char *uri, const KeyedVector *headers) { Mutex::Autolock autoLock(mLock); return setDataSource_l(uri, headers); } status_t PreviewPlayer::setDataSource_l( const char *uri, const KeyedVector *headers) { reset_l(); mUri = uri; if (headers) { mUriHeaders = *headers; } // The actual work will be done during preparation in the call to // ::finishSetDataSource_l to avoid blocking the calling thread in // setDataSource for any significant time. return OK; } status_t PreviewPlayer::setDataSource_l(const sp &extractor) { bool haveAudio = false; bool haveVideo = false; for (size_t i = 0; i < extractor->countTracks(); ++i) { sp meta = extractor->getTrackMetaData(i); const char *mime; CHECK(meta->findCString(kKeyMIMEType, &mime)); if (!haveVideo && !strncasecmp(mime, "video/", 6)) { setVideoSource(extractor->getTrack(i)); haveVideo = true; } else if (!haveAudio && !strncasecmp(mime, "audio/", 6)) { setAudioSource(extractor->getTrack(i)); haveAudio = true; if (!strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_VORBIS)) { // Only do this for vorbis audio, none of the other audio // formats even support this ringtone specific hack and // retrieving the metadata on some extractors may turn out // to be very expensive. sp fileMeta = extractor->getMetaData(); int32_t loop; if (fileMeta != NULL && fileMeta->findInt32(kKeyAutoLoop, &loop) && loop != 0) { mFlags |= AUTO_LOOPING; } } } if (haveAudio && haveVideo) { break; } } /* Add the support for Dummy audio*/ if( !haveAudio ){ LOGV("PreviewPlayer: setDataSource_l Dummyaudiocreation started"); mAudioTrack = DummyAudioSource::Create(32000, 2, 20000, ((mPlayEndTimeMsec)*1000LL)); LOGV("PreviewPlayer: setDataSource_l Dummyauiosource created"); if(mAudioTrack != NULL) { haveAudio = true; } } if (!haveAudio && !haveVideo) { return UNKNOWN_ERROR; } mExtractorFlags = extractor->flags(); return OK; } status_t PreviewPlayer::setDataSource_l_jpg() { M4OSA_ERR err = M4NO_ERROR; LOGV("PreviewPlayer: setDataSource_l_jpg started"); mAudioSource = DummyAudioSource::Create(32000, 2, 20000, ((mPlayEndTimeMsec)*1000LL)); LOGV("PreviewPlayer: setDataSource_l_jpg Dummyaudiosource created"); if(mAudioSource != NULL) { setAudioSource(mAudioSource); } status_t error = mAudioSource->start(); if (error != OK) { LOGV("Error starting dummy audio source"); mAudioSource.clear(); return err; } mDurationUs = (mPlayEndTimeMsec - mPlayBeginTimeMsec)*1000LL; mVideoSource = DummyVideoSource::Create(mVideoWidth, mVideoHeight, mDurationUs, mUri); mReportedWidth = mVideoWidth; mReportedHeight = mVideoHeight; setVideoSource(mVideoSource); status_t err1 = mVideoSource->start(); if (err1 != OK) { mVideoSource.clear(); return err; } mIsVideoSourceJpg = true; return OK; } void PreviewPlayer::reset() { Mutex::Autolock autoLock(mLock); reset_l(); } void PreviewPlayer::reset_l() { if (mFlags & PREPARING) { mFlags |= PREPARE_CANCELLED; } while (mFlags & PREPARING) { mPreparedCondition.wait(mLock); } cancelPlayerEvents(); mAudioTrack.clear(); mVideoTrack.clear(); // Shutdown audio first, so that the respone to the reset request // appears to happen instantaneously as far as the user is concerned // If we did this later, audio would continue playing while we // shutdown the video-related resources and the player appear to // not be as responsive to a reset request. if (mAudioPlayer == NULL && mAudioSource != NULL) { // If we had an audio player, it would have effectively // taken possession of the audio source and stopped it when // _it_ is stopped. Otherwise this is still our responsibility. mAudioSource->stop(); } mAudioSource.clear(); mTimeSource = NULL; //Single audio player instance used //So donot delete it here //It is deleted from PreviewController class //delete mAudioPlayer; mAudioPlayer = NULL; if (mLastVideoBuffer) { mLastVideoBuffer->release(); mLastVideoBuffer = NULL; } if (mVideoBuffer) { mVideoBuffer->release(); mVideoBuffer = NULL; } if (mVideoSource != NULL) { mVideoSource->stop(); // The following hack is necessary to ensure that the OMX // component is completely released by the time we may try // to instantiate it again. wp tmp = mVideoSource; mVideoSource.clear(); while (tmp.promote() != NULL) { usleep(1000); } IPCThreadState::self()->flushCommands(); } mDurationUs = -1; mFlags = 0; mExtractorFlags = 0; mVideoWidth = mVideoHeight = -1; mTimeSourceDeltaUs = 0; mVideoTimeUs = 0; mSeeking = NO_SEEK; mSeekNotificationSent = false; mSeekTimeUs = 0; mUri.setTo(""); mUriHeaders.clear(); mFileSource.clear(); delete mSuspensionState; mSuspensionState = NULL; mCurrentVideoEffect = VIDEO_EFFECT_NONE; mIsVideoSourceJpg = false; mFrameRGBBuffer = NULL; if(mFrameYUVBuffer != NULL) { free(mFrameYUVBuffer); mFrameYUVBuffer = NULL; } } status_t PreviewPlayer::play() { Mutex::Autolock autoLock(mLock); mFlags &= ~CACHE_UNDERRUN; return play_l(); } status_t PreviewPlayer::startAudioPlayer_l() { CHECK(!(mFlags & AUDIO_RUNNING)); if (mAudioSource == NULL || mAudioPlayer == NULL) { return OK; } if (!(mFlags & AUDIOPLAYER_STARTED)) { mFlags |= AUDIOPLAYER_STARTED; // We've already started the MediaSource in order to enable // the prefetcher to read its data. status_t err = mVeAudioPlayer->start( true /* sourceAlreadyStarted */); if (err != OK) { notifyListener_l(MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, err); return err; } } else { mVeAudioPlayer->resume(); } mFlags |= AUDIO_RUNNING; mWatchForAudioEOS = true; return OK; } status_t PreviewPlayer::setAudioPlayer(AudioPlayerBase *audioPlayer) { Mutex::Autolock autoLock(mLock); CHECK(!(mFlags & PLAYING)); mAudioPlayer = audioPlayer; LOGV("SetAudioPlayer"); mIsChangeSourceRequired = true; mVeAudioPlayer = (VideoEditorAudioPlayer*)mAudioPlayer; // check if the new and old source are dummy sp anAudioSource = mVeAudioPlayer->getSource(); if (anAudioSource == NULL) { // Audio player does not have any source set. LOGV("setAudioPlayer: Audio player does not have any source set"); return OK; } // If new video source is not dummy, then always change source // Else audio player continues using old audio source and there are // frame drops to maintain AV sync sp meta; if (mVideoSource != NULL) { meta = mVideoSource->getFormat(); const char *pVidSrcType; if (meta->findCString(kKeyDecoderComponent, &pVidSrcType)) { if (strcmp(pVidSrcType, "DummyVideoSource") != 0) { LOGV(" Video clip with silent audio; need to change source"); return OK; } } } const char *pSrcType1; const char *pSrcType2; meta = anAudioSource->getFormat(); if (meta->findCString(kKeyDecoderComponent, &pSrcType1)) { if (strcmp(pSrcType1, "DummyAudioSource") == 0) { meta = mAudioSource->getFormat(); if (meta->findCString(kKeyDecoderComponent, &pSrcType2)) { if (strcmp(pSrcType2, "DummyAudioSource") == 0) { mIsChangeSourceRequired = false; // Just set the new play duration for the existing source MediaSource *pMediaSrc = anAudioSource.get(); DummyAudioSource *pDummyAudioSource = (DummyAudioSource*)pMediaSrc; //Increment the duration of audio source pDummyAudioSource->setDuration( (int64_t)((mPlayEndTimeMsec)*1000LL)); // Stop the new audio source // since we continue using old source LOGV("setAudioPlayer: stop new audio source"); mAudioSource->stop(); } } } } return OK; } void PreviewPlayer::onStreamDone() { // Posted whenever any stream finishes playing. Mutex::Autolock autoLock(mLock); if (!mStreamDoneEventPending) { return; } mStreamDoneEventPending = false; if (mStreamDoneStatus != ERROR_END_OF_STREAM) { LOGV("MEDIA_ERROR %d", mStreamDoneStatus); notifyListener_l( MEDIA_ERROR, MEDIA_ERROR_UNKNOWN, mStreamDoneStatus); pause_l(true /* at eos */); mFlags |= AT_EOS; return; } const bool allDone = (mVideoSource == NULL || (mFlags & VIDEO_AT_EOS)) && (mAudioSource == NULL || (mFlags & AUDIO_AT_EOS)); if (!allDone) { return; } if (mFlags & (LOOPING | AUTO_LOOPING)) { seekTo_l(0); if (mVideoSource != NULL) { postVideoEvent_l(); } } else { LOGV("MEDIA_PLAYBACK_COMPLETE"); //pause before sending event pause_l(true /* at eos */); //This lock is used to syncronize onStreamDone() in PreviewPlayer and //stopPreview() in PreviewController Mutex::Autolock autoLock(mLockControl); notifyListener_l(MEDIA_PLAYBACK_COMPLETE); mFlags |= AT_EOS; LOGV("onStreamDone end"); return; } } status_t PreviewPlayer::play_l() { mFlags &= ~SEEK_PREVIEW; if (mFlags & PLAYING) { return OK; } mStartNextPlayer = false; if (!(mFlags & PREPARED)) { status_t err = prepare_l(); if (err != OK) { return err; } } mFlags |= PLAYING; mFlags |= FIRST_FRAME; bool deferredAudioSeek = false; if (mAudioSource != NULL) { if (mAudioPlayer == NULL) { if (mAudioSink != NULL) { mAudioPlayer = new VideoEditorAudioPlayer(mAudioSink, this); mVeAudioPlayer = (VideoEditorAudioPlayer*)mAudioPlayer; mAudioPlayer->setSource(mAudioSource); mVeAudioPlayer->setAudioMixSettings( mPreviewPlayerAudioMixSettings); mVeAudioPlayer->setAudioMixPCMFileHandle( mAudioMixPCMFileHandle); mVeAudioPlayer->setAudioMixStoryBoardSkimTimeStamp( mAudioMixStoryBoardTS, mCurrentMediaBeginCutTime, mCurrentMediaVolumeValue); mFlags |= AUDIOPLAYER_STARTED; // We've already started the MediaSource in order to enable // the prefetcher to read its data. status_t err = mVeAudioPlayer->start( true /* sourceAlreadyStarted */); if (err != OK) { //delete mAudioPlayer; mAudioPlayer = NULL; mFlags &= ~(PLAYING | FIRST_FRAME); return err; } mTimeSource = mVeAudioPlayer; mFlags |= AUDIO_RUNNING; deferredAudioSeek = true; mWatchForAudioSeekComplete = false; mWatchForAudioEOS = true; } } else { mVeAudioPlayer = (VideoEditorAudioPlayer*)mAudioPlayer; bool isAudioPlayerStarted = mVeAudioPlayer->isStarted(); if (mIsChangeSourceRequired == true) { LOGV("play_l: Change audio source required"); if (isAudioPlayerStarted == true) { mVeAudioPlayer->pause(); } mVeAudioPlayer->setSource(mAudioSource); mVeAudioPlayer->setObserver(this); mVeAudioPlayer->setAudioMixSettings( mPreviewPlayerAudioMixSettings); mVeAudioPlayer->setAudioMixStoryBoardSkimTimeStamp( mAudioMixStoryBoardTS, mCurrentMediaBeginCutTime, mCurrentMediaVolumeValue); if (isAudioPlayerStarted == true) { mVeAudioPlayer->resume(); } else { status_t err = OK; err = mVeAudioPlayer->start(true); if (err != OK) { mAudioPlayer = NULL; mVeAudioPlayer = NULL; mFlags &= ~(PLAYING | FIRST_FRAME); return err; } } } else { LOGV("play_l: No Source change required"); mVeAudioPlayer->setAudioMixStoryBoardSkimTimeStamp( mAudioMixStoryBoardTS, mCurrentMediaBeginCutTime, mCurrentMediaVolumeValue); mVeAudioPlayer->resume(); } mFlags |= AUDIOPLAYER_STARTED; mFlags |= AUDIO_RUNNING; mTimeSource = mVeAudioPlayer; deferredAudioSeek = true; mWatchForAudioSeekComplete = false; mWatchForAudioEOS = true; } } if (mTimeSource == NULL && mAudioPlayer == NULL) { mTimeSource = &mSystemTimeSource; } // Set the seek option for Image source files and read. // This resets the timestamping for image play if (mIsVideoSourceJpg) { MediaSource::ReadOptions options; MediaBuffer *aLocalBuffer; options.setSeekTo(mSeekTimeUs); mVideoSource->read(&aLocalBuffer, &options); aLocalBuffer->release(); } if (mVideoSource != NULL) { // Kick off video playback postVideoEvent_l(); } if (deferredAudioSeek) { // If there was a seek request while we were paused // and we're just starting up again, honor the request now. seekAudioIfNecessary_l(); } if (mFlags & AT_EOS) { // Legacy behaviour, if a stream finishes playing and then // is started again, we play from the start... seekTo_l(0); } return OK; } status_t PreviewPlayer::initRenderer_l() { if (mSurface != NULL) { sp meta = mVideoSource->getFormat(); int32_t format; const char *component; int32_t decodedWidth, decodedHeight; CHECK(meta->findInt32(kKeyColorFormat, &format)); CHECK(meta->findCString(kKeyDecoderComponent, &component)); CHECK(meta->findInt32(kKeyWidth, &decodedWidth)); CHECK(meta->findInt32(kKeyHeight, &decodedHeight)); // Must ensure that mVideoRenderer's destructor is actually executed // before creating a new one. IPCThreadState::self()->flushCommands(); // always use localrenderer since decoded buffers are modified // by postprocessing module // Other decoders are instantiated locally and as a consequence // allocate their buffers in local address space. if(mVideoRenderer == NULL) { mVideoRenderer = PreviewLocalRenderer:: initPreviewLocalRenderer ( false, // previewOnly (OMX_COLOR_FORMATTYPE)format, mSurface, mOutputVideoWidth, mOutputVideoHeight, mOutputVideoWidth, mOutputVideoHeight); if ( mVideoRenderer == NULL ) { return UNKNOWN_ERROR; } return OK; } } return OK; } status_t PreviewPlayer::seekTo(int64_t timeUs) { if ((mExtractorFlags & MediaExtractor::CAN_SEEK) || (mIsVideoSourceJpg)) { Mutex::Autolock autoLock(mLock); return seekTo_l(timeUs); } return OK; } status_t PreviewPlayer::getVideoDimensions( int32_t *width, int32_t *height) const { Mutex::Autolock autoLock(mLock); if (mVideoWidth < 0 || mVideoHeight < 0) { return UNKNOWN_ERROR; } *width = mVideoWidth; *height = mVideoHeight; return OK; } status_t PreviewPlayer::initAudioDecoder() { sp meta = mAudioTrack->getFormat(); const char *mime; CHECK(meta->findCString(kKeyMIMEType, &mime)); if (!strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_RAW)) { mAudioSource = mAudioTrack; } else { sp aRawSource; aRawSource = OMXCodec::Create( mClient.interface(), mAudioTrack->getFormat(), false, // createEncoder mAudioTrack); if(aRawSource != NULL) { LOGV("initAudioDecoder: new VideoEditorSRC"); mAudioSource = new VideoEditorSRC(aRawSource); } } if (mAudioSource != NULL) { int64_t durationUs; if (mAudioTrack->getFormat()->findInt64(kKeyDuration, &durationUs)) { Mutex::Autolock autoLock(mMiscStateLock); if (mDurationUs < 0 || durationUs > mDurationUs) { mDurationUs = durationUs; } } status_t err = mAudioSource->start(); if (err != OK) { mAudioSource.clear(); return err; } } else if (!strcasecmp(mime, MEDIA_MIMETYPE_AUDIO_QCELP)) { // For legacy reasons we're simply going to ignore the absence // of an audio decoder for QCELP instead of aborting playback // altogether. return OK; } return mAudioSource != NULL ? OK : UNKNOWN_ERROR; } status_t PreviewPlayer::initVideoDecoder(uint32_t flags) { mVideoSource = OMXCodec::Create( mClient.interface(), mVideoTrack->getFormat(), false, mVideoTrack, NULL, flags); if (mVideoSource != NULL) { int64_t durationUs; if (mVideoTrack->getFormat()->findInt64(kKeyDuration, &durationUs)) { Mutex::Autolock autoLock(mMiscStateLock); if (mDurationUs < 0 || durationUs > mDurationUs) { mDurationUs = durationUs; } } CHECK(mVideoTrack->getFormat()->findInt32(kKeyWidth, &mVideoWidth)); CHECK(mVideoTrack->getFormat()->findInt32(kKeyHeight, &mVideoHeight)); mReportedWidth = mVideoWidth; mReportedHeight = mVideoHeight; status_t err = mVideoSource->start(); if (err != OK) { mVideoSource.clear(); return err; } } return mVideoSource != NULL ? OK : UNKNOWN_ERROR; } void PreviewPlayer::onVideoEvent() { uint32_t i=0; bool bAppliedVideoEffect = false; M4OSA_ERR err1 = M4NO_ERROR; int64_t imageFrameTimeUs = 0; Mutex::Autolock autoLock(mLock); if (!mVideoEventPending) { // The event has been cancelled in reset_l() but had already // been scheduled for execution at that time. return; } mVideoEventPending = false; if (mFlags & SEEK_PREVIEW) { mFlags &= ~SEEK_PREVIEW; return; } TimeSource *ts_st = &mSystemTimeSource; int64_t timeStartUs = ts_st->getRealTimeUs(); if (mSeeking != NO_SEEK) { if (mLastVideoBuffer) { mLastVideoBuffer->release(); mLastVideoBuffer = NULL; } if(mAudioSource != NULL) { // We're going to seek the video source first, followed by // the audio source. // In order to avoid jumps in the DataSource offset caused by // the audio codec prefetching data from the old locations // while the video codec is already reading data from the new // locations, we'll "pause" the audio source, causing it to // stop reading input data until a subsequent seek. if (mAudioPlayer != NULL && (mFlags & AUDIO_RUNNING)) { mAudioPlayer->pause(); mFlags &= ~AUDIO_RUNNING; } mAudioSource->pause(); } } if (!mVideoBuffer) { MediaSource::ReadOptions options; if (mSeeking != NO_SEEK) { LOGV("LV PLAYER seeking to %lld us (%.2f secs)", mSeekTimeUs, mSeekTimeUs / 1E6); options.setSeekTo( mSeekTimeUs, MediaSource::ReadOptions::SEEK_CLOSEST); } for (;;) { status_t err = mVideoSource->read(&mVideoBuffer, &options); options.clearSeekTo(); if (err != OK) { CHECK_EQ(mVideoBuffer, NULL); if (err == INFO_FORMAT_CHANGED) { LOGV("LV PLAYER VideoSource signalled format change"); notifyVideoSize_l(); sp meta = mVideoSource->getFormat(); CHECK(meta->findInt32(kKeyWidth, &mReportedWidth)); CHECK(meta->findInt32(kKeyHeight, &mReportedHeight)); if (mVideoRenderer != NULL) { mVideoRendererIsPreview = false; err = initRenderer_l(); if (err != OK) { postStreamDoneEvent_l(err); } } continue; } // So video playback is complete, but we may still have // a seek request pending that needs to be applied to the audio track if (mSeeking != NO_SEEK) { LOGV("video stream ended while seeking!"); } finishSeekIfNecessary(-1); LOGV("PreviewPlayer: onVideoEvent EOS reached."); mFlags |= VIDEO_AT_EOS; mFlags |= AUDIO_AT_EOS; mOverlayUpdateEventPosted = false; postStreamDoneEvent_l(err); // Set the last decoded timestamp to duration mDecodedVideoTs = (mPlayEndTimeMsec*1000LL); return; } if (mVideoBuffer->range_length() == 0) { // Some decoders, notably the PV AVC software decoder // return spurious empty buffers that we just want to ignore. mVideoBuffer->release(); mVideoBuffer = NULL; continue; } int64_t videoTimeUs; CHECK(mVideoBuffer->meta_data()->findInt64(kKeyTime, &videoTimeUs)); if (mSeeking != NO_SEEK) { if (videoTimeUs < mSeekTimeUs) { // buffers are before seek time // ignore them mVideoBuffer->release(); mVideoBuffer = NULL; continue; } } else { if((videoTimeUs/1000) < mPlayBeginTimeMsec) { // Frames are before begin cut time // Donot render mVideoBuffer->release(); mVideoBuffer = NULL; continue; } } break; } } mNumberDecVideoFrames++; int64_t timeUs; CHECK(mVideoBuffer->meta_data()->findInt64(kKeyTime, &timeUs)); { Mutex::Autolock autoLock(mMiscStateLock); mVideoTimeUs = timeUs; } if(!mStartNextPlayer) { int64_t playbackTimeRemaining = (mPlayEndTimeMsec*1000LL) - timeUs; if(playbackTimeRemaining <= 1500000) { //When less than 1.5 sec of playback left // send notification to start next player mStartNextPlayer = true; notifyListener_l(0xAAAAAAAA); } } SeekType wasSeeking = mSeeking; finishSeekIfNecessary(timeUs); if (mAudioPlayer != NULL && !(mFlags & (AUDIO_RUNNING))) { status_t err = startAudioPlayer_l(); if (err != OK) { LOGE("Starting the audio player failed w/ err %d", err); return; } } TimeSource *ts = (mFlags & AUDIO_AT_EOS) ? &mSystemTimeSource : mTimeSource; if(ts == NULL) { mVideoBuffer->release(); mVideoBuffer = NULL; return; } if(!mIsVideoSourceJpg) { if (mFlags & FIRST_FRAME) { mFlags &= ~FIRST_FRAME; mTimeSourceDeltaUs = ts->getRealTimeUs() - timeUs; } int64_t realTimeUs, mediaTimeUs; if (!(mFlags & AUDIO_AT_EOS) && mAudioPlayer != NULL && mAudioPlayer->getMediaTimeMapping(&realTimeUs, &mediaTimeUs)) { mTimeSourceDeltaUs = realTimeUs - mediaTimeUs; } int64_t nowUs = ts->getRealTimeUs() - mTimeSourceDeltaUs; int64_t latenessUs = nowUs - timeUs; if (wasSeeking != NO_SEEK) { // Let's display the first frame after seeking right away. latenessUs = 0; } LOGV("Audio time stamp = %lld and video time stamp = %lld", ts->getRealTimeUs(),timeUs); if (latenessUs > 40000) { // We're more than 40ms late. LOGV("LV PLAYER we're late by %lld us (%.2f secs)", latenessUs, latenessUs / 1E6); mVideoBuffer->release(); mVideoBuffer = NULL; postVideoEvent_l(0); return; } if (latenessUs < -25000) { // We're more than 25ms early. LOGV("We're more than 25ms early, lateness %lld", latenessUs); postVideoEvent_l(25000); return; } } if (mVideoRendererIsPreview || mVideoRenderer == NULL) { mVideoRendererIsPreview = false; status_t err = initRenderer_l(); if (err != OK) { postStreamDoneEvent_l(err); } } // If timestamp exceeds endCutTime of clip, donot render if((timeUs/1000) > mPlayEndTimeMsec) { if (mLastVideoBuffer) { mLastVideoBuffer->release(); mLastVideoBuffer = NULL; } mLastVideoBuffer = mVideoBuffer; mVideoBuffer = NULL; mFlags |= VIDEO_AT_EOS; mFlags |= AUDIO_AT_EOS; LOGV("PreviewPlayer: onVideoEvent timeUs > mPlayEndTime; send EOS.."); mOverlayUpdateEventPosted = false; // Set the last decoded timestamp to duration mDecodedVideoTs = (mPlayEndTimeMsec*1000LL); postStreamDoneEvent_l(ERROR_END_OF_STREAM); return; } // Capture the frame timestamp to be rendered mDecodedVideoTs = timeUs; // Post processing to apply video effects for(i=0;i= ((mDecVideoTsStoryBoard/1000) + mPlayEndTimeMsec - mPlayBeginTimeMsec))) { // This effect doesn't belong to this clip, check next one continue; } // Check if effect applies to this particular frame timestamp if((mEffectsSettings[i].uiStartTime <= (((timeUs+mDecVideoTsStoryBoard)/1000)-mPlayBeginTimeMsec)) && ((mEffectsSettings[i].uiStartTime+mEffectsSettings[i].uiDuration) >= (((timeUs+mDecVideoTsStoryBoard)/1000)-mPlayBeginTimeMsec)) && (mEffectsSettings[i].uiDuration != 0)) { setVideoPostProcessingNode( mEffectsSettings[i].VideoEffectType, TRUE); } else { setVideoPostProcessingNode( mEffectsSettings[i].VideoEffectType, FALSE); } } //Provide the overlay Update indication when there is an overlay effect if (mCurrentVideoEffect & VIDEO_EFFECT_FRAMING) { mCurrentVideoEffect &= ~VIDEO_EFFECT_FRAMING; //never apply framing here. if (!mOverlayUpdateEventPosted) { // Find the effect in effectSettings array M4OSA_UInt32 index; for (index = 0; index < mNumberEffects; index++) { M4OSA_UInt32 timeMs = mDecodedVideoTs/1000; M4OSA_UInt32 timeOffset = mDecVideoTsStoryBoard/1000; if(mEffectsSettings[index].VideoEffectType == (M4VSS3GPP_VideoEffectType)M4xVSS_kVideoEffectType_Framing) { if (((mEffectsSettings[index].uiStartTime + 1) <= timeMs + timeOffset - mPlayBeginTimeMsec) && ((mEffectsSettings[index].uiStartTime - 1 + mEffectsSettings[index].uiDuration) >= timeMs + timeOffset - mPlayBeginTimeMsec)) { break; } } } if (index < mNumberEffects) { mCurrFramingEffectIndex = index; mOverlayUpdateEventPosted = true; postOverlayUpdateEvent_l(); LOGV("Framing index = %d", mCurrFramingEffectIndex); } else { LOGV("No framing effects found"); } } } else if (mOverlayUpdateEventPosted) { //Post the event when the overlay is no more valid LOGV("Overlay is Done"); mOverlayUpdateEventPosted = false; postOverlayUpdateEvent_l(); } if (mCurrentVideoEffect != VIDEO_EFFECT_NONE) { err1 = doVideoPostProcessing(); if(err1 != M4NO_ERROR) { LOGE("doVideoPostProcessing returned err"); bAppliedVideoEffect = false; } else { bAppliedVideoEffect = true; } } else { bAppliedVideoEffect = false; if(mRenderingMode != MEDIA_RENDERING_INVALID) { // No effects to be applied, but media rendering to be done err1 = doMediaRendering(); if(err1 != M4NO_ERROR) { LOGE("doMediaRendering returned err"); //Use original mVideoBuffer for rendering mVideoResizedOrCropped = false; } } } if (mVideoRenderer != NULL) { LOGV("mVideoRenderer CALL render()"); mVideoRenderer->render(); } if (mLastVideoBuffer) { mLastVideoBuffer->release(); mLastVideoBuffer = NULL; } mLastVideoBuffer = mVideoBuffer; mVideoBuffer = NULL; // Post progress callback based on callback interval set if(mNumberDecVideoFrames >= mProgressCbInterval) { postProgressCallbackEvent_l(); mNumberDecVideoFrames = 0; // reset counter } // if reached EndCutTime of clip, post EOS event if((timeUs/1000) >= mPlayEndTimeMsec) { LOGV("PreviewPlayer: onVideoEvent EOS."); mFlags |= VIDEO_AT_EOS; mFlags |= AUDIO_AT_EOS; mOverlayUpdateEventPosted = false; // Set the last decoded timestamp to duration mDecodedVideoTs = (mPlayEndTimeMsec*1000LL); postStreamDoneEvent_l(ERROR_END_OF_STREAM); } else { if ((wasSeeking != NO_SEEK) && (mFlags & SEEK_PREVIEW)) { mFlags &= ~SEEK_PREVIEW; return; } if(!mIsVideoSourceJpg) { postVideoEvent_l(0); } else { postVideoEvent_l(33000); } } } status_t PreviewPlayer::prepare() { Mutex::Autolock autoLock(mLock); return prepare_l(); } status_t PreviewPlayer::prepare_l() { if (mFlags & PREPARED) { return OK; } if (mFlags & PREPARING) { return UNKNOWN_ERROR; } mIsAsyncPrepare = false; status_t err = prepareAsync_l(); if (err != OK) { return err; } while (mFlags & PREPARING) { mPreparedCondition.wait(mLock); } return mPrepareResult; } status_t PreviewPlayer::prepareAsync_l() { if (mFlags & PREPARING) { return UNKNOWN_ERROR; // async prepare already pending } if (!mQueueStarted) { mQueue.start(); mQueueStarted = true; } mFlags |= PREPARING; mAsyncPrepareEvent = new PreviewPlayerEvent( this, &PreviewPlayer::onPrepareAsyncEvent); mQueue.postEvent(mAsyncPrepareEvent); return OK; } status_t PreviewPlayer::finishSetDataSource_l() { sp dataSource; sp extractor; dataSource = DataSource::CreateFromURI(mUri.string(), &mUriHeaders); if (dataSource == NULL) { return UNKNOWN_ERROR; } //If file type is .rgb, then no need to check for Extractor int uriLen = strlen(mUri); int startOffset = uriLen - 4; if(!strncasecmp(mUri+startOffset, ".rgb", 4)) { extractor = NULL; } else { extractor = MediaExtractor::Create(dataSource, MEDIA_MIMETYPE_CONTAINER_MPEG4); } if (extractor == NULL) { LOGV("PreviewPlayer::finishSetDataSource_l extractor == NULL"); return setDataSource_l_jpg(); } return setDataSource_l(extractor); } // static bool PreviewPlayer::ContinuePreparation(void *cookie) { PreviewPlayer *me = static_cast(cookie); return (me->mFlags & PREPARE_CANCELLED) == 0; } void PreviewPlayer::onPrepareAsyncEvent() { Mutex::Autolock autoLock(mLock); LOGV("onPrepareAsyncEvent"); if (mFlags & PREPARE_CANCELLED) { LOGV("LV PLAYER prepare was cancelled before doing anything"); abortPrepare(UNKNOWN_ERROR); return; } if (mUri.size() > 0) { status_t err = finishSetDataSource_l(); if (err != OK) { abortPrepare(err); return; } } if (mVideoTrack != NULL && mVideoSource == NULL) { status_t err = initVideoDecoder(OMXCodec::kHardwareCodecsOnly); if (err != OK) { abortPrepare(err); return; } } if (mAudioTrack != NULL && mAudioSource == NULL) { status_t err = initAudioDecoder(); if (err != OK) { abortPrepare(err); return; } } finishAsyncPrepare_l(); } void PreviewPlayer::finishAsyncPrepare_l() { if (mIsAsyncPrepare) { if (mVideoSource == NULL) { LOGV("finishAsyncPrepare_l: MEDIA_SET_VIDEO_SIZE 0 0 "); notifyListener_l(MEDIA_SET_VIDEO_SIZE, 0, 0); } else { LOGV("finishAsyncPrepare_l: MEDIA_SET_VIDEO_SIZE"); notifyVideoSize_l(); } LOGV("finishAsyncPrepare_l: MEDIA_PREPARED"); notifyListener_l(MEDIA_PREPARED); } mPrepareResult = OK; mFlags &= ~(PREPARING|PREPARE_CANCELLED); mFlags |= PREPARED; mAsyncPrepareEvent = NULL; mPreparedCondition.broadcast(); } status_t PreviewPlayer::suspend() { LOGV("suspend"); Mutex::Autolock autoLock(mLock); if (mSuspensionState != NULL) { if (mLastVideoBuffer == NULL) { //go into here if video is suspended again //after resuming without being played between //them SuspensionState *state = mSuspensionState; mSuspensionState = NULL; reset_l(); mSuspensionState = state; return OK; } delete mSuspensionState; mSuspensionState = NULL; } if (mFlags & PREPARING) { mFlags |= PREPARE_CANCELLED; } while (mFlags & PREPARING) { mPreparedCondition.wait(mLock); } SuspensionState *state = new SuspensionState; state->mUri = mUri; state->mUriHeaders = mUriHeaders; state->mFileSource = mFileSource; state->mFlags = mFlags & (PLAYING | AUTO_LOOPING | LOOPING | AT_EOS); getPosition(&state->mPositionUs); if (mLastVideoBuffer) { size_t size = mLastVideoBuffer->range_length(); if (size) { int32_t unreadable; if (!mLastVideoBuffer->meta_data()->findInt32( kKeyIsUnreadable, &unreadable) || unreadable == 0) { state->mLastVideoFrameSize = size; state->mLastVideoFrame = malloc(size); memcpy(state->mLastVideoFrame, (const uint8_t *)mLastVideoBuffer->data() + mLastVideoBuffer->range_offset(), size); state->mVideoWidth = mVideoWidth; state->mVideoHeight = mVideoHeight; sp meta = mVideoSource->getFormat(); CHECK(meta->findInt32(kKeyColorFormat, &state->mColorFormat)); CHECK(meta->findInt32(kKeyWidth, &state->mDecodedWidth)); CHECK(meta->findInt32(kKeyHeight, &state->mDecodedHeight)); } else { LOGV("Unable to save last video frame, we have no access to " "the decoded video data."); } } } reset_l(); mSuspensionState = state; return OK; } void PreviewPlayer::acquireLock() { LOGV("acquireLock"); mLockControl.lock(); } void PreviewPlayer::releaseLock() { LOGV("releaseLock"); mLockControl.unlock(); } status_t PreviewPlayer::resume() { LOGV("resume"); Mutex::Autolock autoLock(mLock); if (mSuspensionState == NULL) { return INVALID_OPERATION; } SuspensionState *state = mSuspensionState; mSuspensionState = NULL; status_t err; if (state->mFileSource != NULL) { err = PreviewPlayerBase::setDataSource_l(state->mFileSource); if (err == OK) { mFileSource = state->mFileSource; } } else { err = PreviewPlayerBase::setDataSource_l(state->mUri, &state->mUriHeaders); } if (err != OK) { delete state; state = NULL; return err; } seekTo_l(state->mPositionUs); mFlags = state->mFlags & (AUTO_LOOPING | LOOPING | AT_EOS); if (state->mLastVideoFrame && (mSurface != NULL)) { mVideoRenderer = PreviewLocalRenderer::initPreviewLocalRenderer( true, // previewOnly (OMX_COLOR_FORMATTYPE)state->mColorFormat, mSurface, state->mVideoWidth, state->mVideoHeight, state->mDecodedWidth, state->mDecodedHeight); mVideoRendererIsPreview = true; ((PreviewLocalRenderer *)mVideoRenderer.get())->render( state->mLastVideoFrame, state->mLastVideoFrameSize); } if (state->mFlags & PLAYING) { play_l(); } mSuspensionState = state; state = NULL; return OK; } status_t PreviewPlayer::loadEffectsSettings( M4VSS3GPP_EffectSettings* pEffectSettings, int nEffects) { M4OSA_UInt32 i = 0, rgbSize = 0; M4VIFI_UInt8 *tmp = M4OSA_NULL; mNumberEffects = nEffects; mEffectsSettings = pEffectSettings; return OK; } status_t PreviewPlayer::loadAudioMixSettings( M4xVSS_AudioMixingSettings* pAudioMixSettings) { LOGV("PreviewPlayer: loadAudioMixSettings: "); mPreviewPlayerAudioMixSettings = pAudioMixSettings; return OK; } status_t PreviewPlayer::setAudioMixPCMFileHandle( M4OSA_Context pAudioMixPCMFileHandle) { LOGV("PreviewPlayer: setAudioMixPCMFileHandle: "); mAudioMixPCMFileHandle = pAudioMixPCMFileHandle; return OK; } status_t PreviewPlayer::setAudioMixStoryBoardParam( M4OSA_UInt32 audioMixStoryBoardTS, M4OSA_UInt32 currentMediaBeginCutTime, M4OSA_UInt32 primaryTrackVolValue ) { mAudioMixStoryBoardTS = audioMixStoryBoardTS; mCurrentMediaBeginCutTime = currentMediaBeginCutTime; mCurrentMediaVolumeValue = primaryTrackVolValue; return OK; } status_t PreviewPlayer::setPlaybackBeginTime(uint32_t msec) { mPlayBeginTimeMsec = msec; return OK; } status_t PreviewPlayer::setPlaybackEndTime(uint32_t msec) { mPlayEndTimeMsec = msec; return OK; } status_t PreviewPlayer::setStoryboardStartTime(uint32_t msec) { mStoryboardStartTimeMsec = msec; mDecVideoTsStoryBoard = mStoryboardStartTimeMsec*1000LL; return OK; } status_t PreviewPlayer::setProgressCallbackInterval(uint32_t cbInterval) { mProgressCbInterval = cbInterval; return OK; } status_t PreviewPlayer::setMediaRenderingMode( M4xVSS_MediaRendering mode, M4VIDEOEDITING_VideoFrameSize outputVideoSize) { mRenderingMode = mode; /* reset boolean for each clip*/ mVideoResizedOrCropped = false; switch(outputVideoSize) { case M4VIDEOEDITING_kSQCIF: mOutputVideoWidth = 128; mOutputVideoHeight = 96; break; case M4VIDEOEDITING_kQQVGA: mOutputVideoWidth = 160; mOutputVideoHeight = 120; break; case M4VIDEOEDITING_kQCIF: mOutputVideoWidth = 176; mOutputVideoHeight = 144; break; case M4VIDEOEDITING_kQVGA: mOutputVideoWidth = 320; mOutputVideoHeight = 240; break; case M4VIDEOEDITING_kCIF: mOutputVideoWidth = 352; mOutputVideoHeight = 288; break; case M4VIDEOEDITING_kVGA: mOutputVideoWidth = 640; mOutputVideoHeight = 480; break; case M4VIDEOEDITING_kWVGA: mOutputVideoWidth = 800; mOutputVideoHeight = 480; break; case M4VIDEOEDITING_kNTSC: mOutputVideoWidth = 720; mOutputVideoHeight = 480; break; case M4VIDEOEDITING_k640_360: mOutputVideoWidth = 640; mOutputVideoHeight = 360; break; case M4VIDEOEDITING_k854_480: mOutputVideoWidth = 854; mOutputVideoHeight = 480; break; case M4VIDEOEDITING_kHD1280: mOutputVideoWidth = 1280; mOutputVideoHeight = 720; break; case M4VIDEOEDITING_kHD1080: mOutputVideoWidth = 1080; mOutputVideoHeight = 720; break; case M4VIDEOEDITING_kHD960: mOutputVideoWidth = 960; mOutputVideoHeight = 720; break; default: LOGE("unsupported output video size set"); return BAD_VALUE; } return OK; } M4OSA_ERR PreviewPlayer::doMediaRendering() { M4OSA_ERR err = M4NO_ERROR; M4VIFI_ImagePlane planeIn[3], planeOut[3]; M4VIFI_UInt8 *inBuffer = M4OSA_NULL, *finalOutputBuffer = M4OSA_NULL; M4VIFI_UInt8 *tempOutputBuffer= M4OSA_NULL; size_t videoBufferSize = 0; M4OSA_UInt32 frameSize = 0, i=0, index =0, nFrameCount =0, bufferOffset =0; int32_t colorFormat = 0; if(!mIsVideoSourceJpg) { sp meta = mVideoSource->getFormat(); CHECK(meta->findInt32(kKeyColorFormat, &colorFormat)); } else { colorFormat = OMX_COLOR_FormatYUV420Planar; } videoBufferSize = mVideoBuffer->size(); frameSize = (mVideoWidth*mVideoHeight*3) >> 1; uint8_t* outBuffer; size_t outBufferStride = 0; mVideoRenderer->getBuffer(&outBuffer, &outBufferStride); bufferOffset = index*frameSize; inBuffer = (M4OSA_UInt8 *)mVideoBuffer->data()+ mVideoBuffer->range_offset()+bufferOffset; /* In plane*/ prepareYUV420ImagePlane(planeIn, mVideoWidth, mVideoHeight, (M4VIFI_UInt8 *)inBuffer, mReportedWidth, mReportedHeight); // Set the output YUV420 plane to be compatible with YV12 format // W & H even // YVU instead of YUV // align buffers on 32 bits //In YV12 format, sizes must be even M4OSA_UInt32 yv12PlaneWidth = ((mOutputVideoWidth +1)>>1)<<1; M4OSA_UInt32 yv12PlaneHeight = ((mOutputVideoHeight+1)>>1)<<1; prepareYV12ImagePlane(planeOut, yv12PlaneWidth, yv12PlaneHeight, (M4OSA_UInt32)outBufferStride, (M4VIFI_UInt8 *)outBuffer); err = applyRenderingMode(planeIn, planeOut, mRenderingMode); if(err != M4NO_ERROR) { LOGE("doMediaRendering: applyRenderingMode returned err=0x%x", (int)err); return err; } mVideoResizedOrCropped = true; return err; } status_t PreviewPlayer::resetJniCallbackTimeStamp() { mDecVideoTsStoryBoard = mStoryboardStartTimeMsec*1000LL; return OK; } void PreviewPlayer::postProgressCallbackEvent_l() { if (mProgressCbEventPending) { return; } mProgressCbEventPending = true; mQueue.postEvent(mProgressCbEvent); } void PreviewPlayer::onProgressCbEvent() { Mutex::Autolock autoLock(mLock); if (!mProgressCbEventPending) { return; } mProgressCbEventPending = false; // If playback starts from previous I-frame, // then send frame storyboard duration if((mDecodedVideoTs/1000) < mPlayBeginTimeMsec) { notifyListener_l(MEDIA_INFO, 0, mDecVideoTsStoryBoard/1000); } else { notifyListener_l(MEDIA_INFO, 0, (((mDecodedVideoTs+mDecVideoTsStoryBoard)/1000)-mPlayBeginTimeMsec)); } } void PreviewPlayer::postOverlayUpdateEvent_l() { if (mOverlayUpdateEventPending) { return; } mOverlayUpdateEventPending = true; mQueue.postEvent(mOverlayUpdateEvent); } void PreviewPlayer::onUpdateOverlayEvent() { Mutex::Autolock autoLock(mLock); if (!mOverlayUpdateEventPending) { return; } mOverlayUpdateEventPending = false; int updateState; if (mOverlayUpdateEventPosted) { updateState = 1; } else { updateState = 0; } notifyListener_l(0xBBBBBBBB, updateState, mCurrFramingEffectIndex); } void PreviewPlayer::setVideoPostProcessingNode( M4VSS3GPP_VideoEffectType type, M4OSA_Bool enable) { uint32_t effect = VIDEO_EFFECT_NONE; //Map M4VSS3GPP_VideoEffectType to local enum switch(type) { case M4VSS3GPP_kVideoEffectType_FadeFromBlack: effect = VIDEO_EFFECT_FADEFROMBLACK; break; case M4VSS3GPP_kVideoEffectType_FadeToBlack: effect = VIDEO_EFFECT_FADETOBLACK; break; case M4VSS3GPP_kVideoEffectType_CurtainOpening: effect = VIDEO_EFFECT_CURTAINOPEN; break; case M4VSS3GPP_kVideoEffectType_CurtainClosing: effect = VIDEO_EFFECT_CURTAINCLOSE; break; case M4xVSS_kVideoEffectType_BlackAndWhite: effect = VIDEO_EFFECT_BLACKANDWHITE; break; case M4xVSS_kVideoEffectType_Pink: effect = VIDEO_EFFECT_PINK; break; case M4xVSS_kVideoEffectType_Green: effect = VIDEO_EFFECT_GREEN; break; case M4xVSS_kVideoEffectType_Sepia: effect = VIDEO_EFFECT_SEPIA; break; case M4xVSS_kVideoEffectType_Negative: effect = VIDEO_EFFECT_NEGATIVE; break; case M4xVSS_kVideoEffectType_Framing: effect = VIDEO_EFFECT_FRAMING; break; case M4xVSS_kVideoEffectType_Fifties: effect = VIDEO_EFFECT_FIFTIES; break; case M4xVSS_kVideoEffectType_ColorRGB16: effect = VIDEO_EFFECT_COLOR_RGB16; break; case M4xVSS_kVideoEffectType_Gradient: effect = VIDEO_EFFECT_GRADIENT; break; default: effect = VIDEO_EFFECT_NONE; break; } if(enable == M4OSA_TRUE) { //If already set, then no need to set again if(!(mCurrentVideoEffect & effect)) { mCurrentVideoEffect |= effect; if(effect == VIDEO_EFFECT_FIFTIES) { mIsFiftiesEffectStarted = true; } } } else { //Reset only if already set if(mCurrentVideoEffect & effect) { mCurrentVideoEffect &= ~effect; } } } status_t PreviewPlayer::setImageClipProperties(uint32_t width,uint32_t height) { mVideoWidth = width; mVideoHeight = height; return OK; } M4OSA_ERR PreviewPlayer::doVideoPostProcessing() { M4OSA_ERR err = M4NO_ERROR; vePostProcessParams postProcessParams; int32_t colorFormat = 0; if(!mIsVideoSourceJpg) { sp meta = mVideoSource->getFormat(); CHECK(meta->findInt32(kKeyColorFormat, &colorFormat)); } else { colorFormat = OMX_COLOR_FormatYUV420Planar; } if((colorFormat == OMX_COLOR_FormatYUV420SemiPlanar) || (colorFormat == 0x7FA30C00)) { LOGE("doVideoPostProcessing: colorFormat YUV420Sp not supported"); return M4ERR_UNSUPPORTED_MEDIA_TYPE; } postProcessParams.vidBuffer = (M4VIFI_UInt8*)mVideoBuffer->data() + mVideoBuffer->range_offset(); postProcessParams.videoWidth = mVideoWidth; postProcessParams.videoHeight = mVideoHeight; postProcessParams.timeMs = mDecodedVideoTs/1000; postProcessParams.timeOffset = mDecVideoTsStoryBoard/1000; postProcessParams.effectsSettings = mEffectsSettings; postProcessParams.numberEffects = mNumberEffects; postProcessParams.outVideoWidth = mOutputVideoWidth; postProcessParams.outVideoHeight = mOutputVideoHeight; postProcessParams.currentVideoEffect = mCurrentVideoEffect; postProcessParams.renderingMode = mRenderingMode; if(mIsFiftiesEffectStarted == M4OSA_TRUE) { postProcessParams.isFiftiesEffectStarted = M4OSA_TRUE; mIsFiftiesEffectStarted = M4OSA_FALSE; } else { postProcessParams.isFiftiesEffectStarted = M4OSA_FALSE; } postProcessParams.overlayFrameRGBBuffer = mFrameRGBBuffer; postProcessParams.overlayFrameYUVBuffer = mFrameYUVBuffer; mVideoRenderer->getBuffer(&(postProcessParams.pOutBuffer), &(postProcessParams.outBufferStride)); err = applyEffectsAndRenderingMode(&postProcessParams, mReportedWidth, mReportedHeight); return err; } status_t PreviewPlayer::readFirstVideoFrame() { LOGV("PreviewPlayer::readFirstVideoFrame"); if (!mVideoBuffer) { MediaSource::ReadOptions options; if (mSeeking != NO_SEEK) { LOGV("LV PLAYER seeking to %lld us (%.2f secs)", mSeekTimeUs, mSeekTimeUs / 1E6); options.setSeekTo( mSeekTimeUs, MediaSource::ReadOptions::SEEK_CLOSEST); } for (;;) { status_t err = mVideoSource->read(&mVideoBuffer, &options); options.clearSeekTo(); if (err != OK) { CHECK_EQ(mVideoBuffer, NULL); if (err == INFO_FORMAT_CHANGED) { LOGV("LV PLAYER VideoSource signalled format change"); notifyVideoSize_l(); sp meta = mVideoSource->getFormat(); CHECK(meta->findInt32(kKeyWidth, &mReportedWidth)); CHECK(meta->findInt32(kKeyHeight, &mReportedHeight)); if (mVideoRenderer != NULL) { mVideoRendererIsPreview = false; err = initRenderer_l(); if (err != OK) { postStreamDoneEvent_l(err); } } continue; } LOGV("PreviewPlayer: onVideoEvent EOS reached."); mFlags |= VIDEO_AT_EOS; mFlags |= AUDIO_AT_EOS; postStreamDoneEvent_l(err); return OK; } if (mVideoBuffer->range_length() == 0) { // Some decoders, notably the PV AVC software decoder // return spurious empty buffers that we just want to ignore. mVideoBuffer->release(); mVideoBuffer = NULL; continue; } int64_t videoTimeUs; CHECK(mVideoBuffer->meta_data()->findInt64(kKeyTime, &videoTimeUs)); if (mSeeking != NO_SEEK) { if (videoTimeUs < mSeekTimeUs) { // buffers are before seek time // ignore them mVideoBuffer->release(); mVideoBuffer = NULL; continue; } } else { if((videoTimeUs/1000) < mPlayBeginTimeMsec) { // buffers are before begin cut time // ignore them mVideoBuffer->release(); mVideoBuffer = NULL; continue; } } break; } } int64_t timeUs; CHECK(mVideoBuffer->meta_data()->findInt64(kKeyTime, &timeUs)); { Mutex::Autolock autoLock(mMiscStateLock); mVideoTimeUs = timeUs; } mDecodedVideoTs = timeUs; return OK; } status_t PreviewPlayer::getLastRenderedTimeMs(uint32_t *lastRenderedTimeMs) { *lastRenderedTimeMs = (((mDecodedVideoTs+mDecVideoTsStoryBoard)/1000)-mPlayBeginTimeMsec); return OK; } } // namespace android