/* 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 "MediaEngineWebRTC.h" #include "Layers.h" #include "ImageTypes.h" #include "ImageContainer.h" namespace mozilla { #ifdef PR_LOGGING extern PRLogModuleInfo* gMediaManagerLog; #define LOG(msg) PR_LOG(gMediaManagerLog, PR_LOG_DEBUG, msg) #else #define LOG(msg) #endif /** * Webrtc video source. */ NS_IMPL_THREADSAFE_ISUPPORTS1(MediaEngineWebRTCVideoSource, nsIRunnable) // ViEExternalRenderer Callback. int MediaEngineWebRTCVideoSource::FrameSizeChange( unsigned int w, unsigned int h, unsigned int streams) { mWidth = w; mHeight = h; return 0; } // ViEExternalRenderer Callback. Process every incoming frame here. int MediaEngineWebRTCVideoSource::DeliverFrame( unsigned char* buffer, int size, uint32_t time_stamp, int64_t render_time) { if (mInSnapshotMode) { // Set the condition variable to false and notify Snapshot(). PR_Lock(mSnapshotLock); mInSnapshotMode = false; PR_NotifyCondVar(mSnapshotCondVar); PR_Unlock(mSnapshotLock); return 0; } // Check for proper state. if (mState != kStarted) { LOG(("DeliverFrame: video not started")); return 0; } // Create a video frame and append it to the track. ImageFormat format = PLANAR_YCBCR; nsRefPtr image = mImageContainer->CreateImage(&format, 1); layers::PlanarYCbCrImage* videoImage = static_cast(image.get()); uint8_t* frame = static_cast (buffer); const uint8_t lumaBpp = 8; const uint8_t chromaBpp = 4; layers::PlanarYCbCrImage::Data data; data.mYChannel = frame; data.mYSize = gfxIntSize(mWidth, mHeight); data.mYStride = mWidth * lumaBpp/ 8; data.mCbCrStride = mWidth * chromaBpp / 8; data.mCbChannel = frame + mHeight * data.mYStride; data.mCrChannel = data.mCbChannel + mHeight * data.mCbCrStride / 2; data.mCbCrSize = gfxIntSize(mWidth/ 2, mHeight/ 2); data.mPicX = 0; data.mPicY = 0; data.mPicSize = gfxIntSize(mWidth, mHeight); data.mStereoMode = STEREO_MODE_MONO; videoImage->SetData(data); #ifdef LOG_ALL_FRAMES static uint32_t frame_num = 0; LOG(("frame %d; timestamp %u, render_time %lu", frame_num++, time_stamp, render_time)); #endif // we don't touch anything in 'this' until here (except for snapshot, // which has it's own lock) ReentrantMonitorAutoEnter enter(mMonitor); // implicitly releases last image mImage = image.forget(); return 0; } // Called if the graph thinks it's running out of buffered video; repeat // the last frame for whatever minimum period it think it needs. Note that // this means that no *real* frame can be inserted during this period. void MediaEngineWebRTCVideoSource::NotifyPull(MediaStreamGraph* aGraph, StreamTime aDesiredTime) { VideoSegment segment; ReentrantMonitorAutoEnter enter(mMonitor); if (mState != kStarted) return; // Note: we're not giving up mImage here nsRefPtr image = mImage; TrackTicks target = TimeToTicksRoundUp(USECS_PER_S, aDesiredTime); TrackTicks delta = target - mLastEndTime; #ifdef LOG_ALL_FRAMES LOG(("NotifyPull, target = %lu, delta = %lu", (uint64_t) target, (uint64_t) delta)); #endif // NULL images are allowed segment.AppendFrame(image ? image.forget() : nullptr, delta, gfxIntSize(mWidth, mHeight)); mSource->AppendToTrack(mTrackID, &(segment)); mLastEndTime = target; } void MediaEngineWebRTCVideoSource::ChooseCapability(uint32_t aWidth, uint32_t aHeight, uint32_t aMinFPS) { int num = mViECapture->NumberOfCapabilities(mUniqueId, KMaxUniqueIdLength); NS_WARN_IF_FALSE(!mCapabilityChosen,"Shouldn't select capability of a device twice"); if (num <= 0) { // Set to default values mCapability.width = mOpts.mWidth = aWidth; mCapability.height = mOpts.mHeight = aHeight; mCapability.maxFPS = mOpts.mMaxFPS = DEFAULT_VIDEO_FPS; mOpts.codecType = kVideoCodecI420; // Mac doesn't support capabilities. mCapabilityChosen = true; return; } // Default is closest to available capability but equal to or below; // otherwise closest above. Since we handle the num=0 case above and // take the first entry always, we can never exit uninitialized. webrtc::CaptureCapability cap; bool higher = true; for (int i = 0; i < num; i++) { mViECapture->GetCaptureCapability(mUniqueId, KMaxUniqueIdLength, i, cap); if (higher) { if (i == 0 || (mOpts.mWidth > cap.width && mOpts.mHeight > cap.height)) { mOpts.mWidth = cap.width; mOpts.mHeight = cap.height; mOpts.mMaxFPS = cap.maxFPS; mCapability = cap; // FIXME: expose expected capture delay? } if (cap.width <= aWidth && cap.height <= aHeight) { higher = false; } } else { if (cap.width > aWidth || cap.height > aHeight || cap.maxFPS < aMinFPS) { continue; } if (mOpts.mWidth < cap.width && mOpts.mHeight < cap.height) { mOpts.mWidth = cap.width; mOpts.mHeight = cap.height; mOpts.mMaxFPS = cap.maxFPS; mCapability = cap; // FIXME: expose expected capture delay? } } } mCapabilityChosen = true; } void MediaEngineWebRTCVideoSource::GetName(nsAString& aName) { // mDeviceName is UTF8 CopyUTF8toUTF16(mDeviceName, aName); } void MediaEngineWebRTCVideoSource::GetUUID(nsAString& aUUID) { // mUniqueId is UTF8 CopyUTF8toUTF16(mUniqueId, aUUID); } nsresult MediaEngineWebRTCVideoSource::Allocate() { if (mState != kReleased) { return NS_ERROR_FAILURE; } if (!mCapabilityChosen) { // XXX these should come from constraints ChooseCapability(mWidth, mHeight, mMinFps); } if (mViECapture->AllocateCaptureDevice(mUniqueId, KMaxUniqueIdLength, mCaptureIndex)) { return NS_ERROR_FAILURE; } mState = kAllocated; return NS_OK; } nsresult MediaEngineWebRTCVideoSource::Deallocate() { if (mState != kStopped && mState != kAllocated) { return NS_ERROR_FAILURE; } mViECapture->ReleaseCaptureDevice(mCaptureIndex); mState = kReleased; return NS_OK; } const MediaEngineVideoOptions* MediaEngineWebRTCVideoSource::GetOptions() { if (!mCapabilityChosen) { ChooseCapability(mWidth, mHeight, mMinFps); } return &mOpts; } nsresult MediaEngineWebRTCVideoSource::Start(SourceMediaStream* aStream, TrackID aID) { int error = 0; if (!mInitDone || mState != kAllocated) { return NS_ERROR_FAILURE; } if (!aStream) { return NS_ERROR_FAILURE; } if (mState == kStarted) { return NS_OK; } mSource = aStream; mTrackID = aID; mImageContainer = layers::LayerManager::CreateImageContainer(); mSource->AddTrack(aID, USECS_PER_S, 0, new VideoSegment()); mSource->AdvanceKnownTracksTime(STREAM_TIME_MAX); mLastEndTime = 0; mState = kStarted; error = mViERender->AddRenderer(mCaptureIndex, webrtc::kVideoI420, (webrtc::ExternalRenderer*)this); if (error == -1) { return NS_ERROR_FAILURE; } error = mViERender->StartRender(mCaptureIndex); if (error == -1) { return NS_ERROR_FAILURE; } if (mViECapture->StartCapture(mCaptureIndex, mCapability) < 0) { return NS_ERROR_FAILURE; } return NS_OK; } nsresult MediaEngineWebRTCVideoSource::Stop() { if (mState != kStarted) { return NS_ERROR_FAILURE; } { ReentrantMonitorAutoEnter enter(mMonitor); mState = kStopped; mSource->EndTrack(mTrackID); } mViERender->StopRender(mCaptureIndex); mViERender->RemoveRenderer(mCaptureIndex); mViECapture->StopCapture(mCaptureIndex); return NS_OK; } nsresult MediaEngineWebRTCVideoSource::Snapshot(uint32_t aDuration, nsIDOMFile** aFile) { /** * To get a Snapshot we do the following: * - Set a condition variable (mInSnapshotMode) to true * - Attach the external renderer and start the camera * - Wait for the condition variable to change to false * * Starting the camera has the effect of invoking DeliverFrame() when * the first frame arrives from the camera. We only need one frame for * GetCaptureDeviceSnapshot to work, so we immediately set the condition * variable to false and notify this method. * * This causes the current thread to continue (PR_CondWaitVar will return), * at which point we can grab a snapshot, convert it to a file and * return from this function after cleaning up the temporary stream object * and caling Stop() on the media source. */ *aFile = nullptr; if (!mInitDone || mState != kAllocated) { return NS_ERROR_FAILURE; } mSnapshotLock = PR_NewLock(); mSnapshotCondVar = PR_NewCondVar(mSnapshotLock); PR_Lock(mSnapshotLock); mInSnapshotMode = true; // Start the rendering (equivalent to calling Start(), but without a track). int error = 0; if (!mInitDone || mState != kAllocated) { return NS_ERROR_FAILURE; } error = mViERender->AddRenderer(mCaptureIndex, webrtc::kVideoI420, (webrtc::ExternalRenderer*)this); if (error == -1) { return NS_ERROR_FAILURE; } error = mViERender->StartRender(mCaptureIndex); if (error == -1) { return NS_ERROR_FAILURE; } // Wait for the condition variable, will be set in DeliverFrame. // We use a while loop, because even if PR_WaitCondVar returns, it's not // guaranteed that the condition variable changed. while (mInSnapshotMode) { PR_WaitCondVar(mSnapshotCondVar, PR_INTERVAL_NO_TIMEOUT); } // If we get here, DeliverFrame received at least one frame. PR_Unlock(mSnapshotLock); PR_DestroyCondVar(mSnapshotCondVar); PR_DestroyLock(mSnapshotLock); webrtc::ViEFile* vieFile = webrtc::ViEFile::GetInterface(mVideoEngine); if (!vieFile) { return NS_ERROR_FAILURE; } // Create a temporary file on the main thread and put the snapshot in it. // See Run() in MediaEngineWebRTCVideo.h (sets mSnapshotPath). NS_DispatchToMainThread(this, NS_DISPATCH_SYNC); if (!mSnapshotPath) { return NS_ERROR_FAILURE; } NS_ConvertUTF16toUTF8 path(*mSnapshotPath); if (vieFile->GetCaptureDeviceSnapshot(mCaptureIndex, path.get()) < 0) { delete mSnapshotPath; mSnapshotPath = NULL; return NS_ERROR_FAILURE; } // Stop the camera. mViERender->StopRender(mCaptureIndex); mViERender->RemoveRenderer(mCaptureIndex); nsCOMPtr file; nsresult rv = NS_NewLocalFile(*mSnapshotPath, false, getter_AddRefs(file)); delete mSnapshotPath; mSnapshotPath = NULL; NS_ENSURE_SUCCESS(rv, rv); NS_ADDREF(*aFile = new nsDOMFileFile(file)); return NS_OK; } /** * Initialization and Shutdown functions for the video source, called by the * constructor and destructor respectively. */ void MediaEngineWebRTCVideoSource::Init() { mDeviceName[0] = '\0'; // paranoia mUniqueId[0] = '\0'; if (mVideoEngine == NULL) { return; } mViEBase = webrtc::ViEBase::GetInterface(mVideoEngine); if (mViEBase == NULL) { return; } // Get interfaces for capture, render for now mViECapture = webrtc::ViECapture::GetInterface(mVideoEngine); mViERender = webrtc::ViERender::GetInterface(mVideoEngine); if (mViECapture == NULL || mViERender == NULL) { return; } if (mViECapture->GetCaptureDevice(mCaptureIndex, mDeviceName, sizeof(mDeviceName), mUniqueId, sizeof(mUniqueId))) { return; } mInitDone = true; } void MediaEngineWebRTCVideoSource::Shutdown() { bool continueShutdown = false; if (!mInitDone) { return; } if (mState == kStarted) { mViERender->StopRender(mCaptureIndex); mViERender->RemoveRenderer(mCaptureIndex); continueShutdown = true; } if (mState == kAllocated || continueShutdown) { mViECapture->StopCapture(mCaptureIndex); mViECapture->ReleaseCaptureDevice(mCaptureIndex); continueShutdown = false; } mViECapture->Release(); mViERender->Release(); mViEBase->Release(); mState = kReleased; mInitDone = false; } }