зеркало из https://github.com/mozilla/gecko-dev.git
452 строки
16 KiB
C++
452 строки
16 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef VideoFrameConverter_h
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#define VideoFrameConverter_h
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#include "ImageContainer.h"
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#include "ImageToI420.h"
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#include "Pacer.h"
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#include "PerformanceRecorder.h"
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#include "VideoSegment.h"
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#include "VideoUtils.h"
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#include "nsISupportsImpl.h"
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#include "nsThreadUtils.h"
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#include "jsapi/RTCStatsReport.h"
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#include "mozilla/TaskQueue.h"
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#include "mozilla/dom/ImageBitmapBinding.h"
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#include "mozilla/dom/ImageUtils.h"
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#include "api/video/video_frame.h"
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#include "common_video/include/video_frame_buffer_pool.h"
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#include "common_video/include/video_frame_buffer.h"
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// The number of frame buffers VideoFrameConverter may create before returning
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// errors.
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// Sometimes these are released synchronously but they can be forwarded all the
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// way to the encoder for asynchronous encoding. With a pool size of 5,
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// we allow 1 buffer for the current conversion, and 4 buffers to be queued at
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// the encoder.
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#define CONVERTER_BUFFER_POOL_SIZE 5
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namespace mozilla {
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static mozilla::LazyLogModule gVideoFrameConverterLog("VideoFrameConverter");
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// An async video frame format converter.
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//
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// Input is typically a MediaTrackListener driven by MediaTrackGraph.
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//
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// Output is passed through to VideoFrameConvertedEvent() whenever a frame is
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// converted.
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class VideoFrameConverter {
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public:
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NS_INLINE_DECL_THREADSAFE_REFCOUNTING(VideoFrameConverter)
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protected:
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explicit VideoFrameConverter(
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const dom::RTCStatsTimestampMaker& aTimestampMaker)
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: mTimestampMaker(aTimestampMaker),
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mTaskQueue(TaskQueue::Create(
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GetMediaThreadPool(MediaThreadType::WEBRTC_WORKER),
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"VideoFrameConverter")),
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mPacer(MakeAndAddRef<Pacer<FrameToProcess>>(
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mTaskQueue, TimeDuration::FromSeconds(1))),
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mBufferPool(false, CONVERTER_BUFFER_POOL_SIZE) {
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MOZ_COUNT_CTOR(VideoFrameConverter);
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}
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void RegisterListener() {
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mPacingListener = mPacer->PacedItemEvent().Connect(
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mTaskQueue,
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[self = RefPtr(this)](FrameToProcess aFrame, TimeStamp aTime) {
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self->QueueForProcessing(std::move(aFrame.mImage), aTime,
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aFrame.mSize, aFrame.mForceBlack);
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});
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}
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public:
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static already_AddRefed<VideoFrameConverter> Create(
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const dom::RTCStatsTimestampMaker& aTimestampMaker) {
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RefPtr<VideoFrameConverter> converter =
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new VideoFrameConverter(aTimestampMaker);
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converter->RegisterListener();
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return converter.forget();
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}
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void QueueVideoChunk(const VideoChunk& aChunk, bool aForceBlack) {
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gfx::IntSize size = aChunk.mFrame.GetIntrinsicSize();
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if (size.width == 0 || size.height == 0) {
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return;
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}
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TimeStamp t = aChunk.mTimeStamp;
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MOZ_ASSERT(!t.IsNull());
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mPacer->Enqueue(
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FrameToProcess(aChunk.mFrame.GetImage(), t, size, aForceBlack), t);
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}
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/**
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* An active VideoFrameConverter actively converts queued video frames.
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* While inactive, we keep track of the frame most recently queued for
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* processing, so it can be immediately sent out once activated.
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*/
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void SetActive(bool aActive) {
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MOZ_ALWAYS_SUCCEEDS(mTaskQueue->Dispatch(NS_NewRunnableFunction(
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__func__, [self = RefPtr<VideoFrameConverter>(this), this, aActive,
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time = TimeStamp::Now()] {
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if (mActive == aActive) {
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return;
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}
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MOZ_LOG(gVideoFrameConverterLog, LogLevel::Debug,
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("VideoFrameConverter %p is now %s", this,
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aActive ? "active" : "inactive"));
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mActive = aActive;
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if (aActive && mLastFrameQueuedForProcessing.Serial() != -2) {
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// After activating, we re-process the last image that was queued
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// for processing so it can be immediately sent.
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mLastFrameQueuedForProcessing.mTime = time;
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MOZ_ALWAYS_SUCCEEDS(mTaskQueue->Dispatch(
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NewRunnableMethod<StoreCopyPassByLRef<FrameToProcess>>(
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"VideoFrameConverter::ProcessVideoFrame", this,
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&VideoFrameConverter::ProcessVideoFrame,
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mLastFrameQueuedForProcessing)));
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}
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})));
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}
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void SetTrackEnabled(bool aTrackEnabled) {
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MOZ_ALWAYS_SUCCEEDS(mTaskQueue->Dispatch(NS_NewRunnableFunction(
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__func__, [self = RefPtr<VideoFrameConverter>(this), this,
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aTrackEnabled, time = TimeStamp::Now()] {
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if (mTrackEnabled == aTrackEnabled) {
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return;
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}
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MOZ_LOG(gVideoFrameConverterLog, LogLevel::Debug,
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("VideoFrameConverter %p Track is now %s", this,
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aTrackEnabled ? "enabled" : "disabled"));
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mTrackEnabled = aTrackEnabled;
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if (!aTrackEnabled) {
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// After disabling we immediately send a frame as black, so it can
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// be seen quickly, even if no frames are flowing. If no frame has
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// been queued for processing yet, we use the FrameToProcess default
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// size (640x480).
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mLastFrameQueuedForProcessing.mTime = time;
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mLastFrameQueuedForProcessing.mForceBlack = true;
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mLastFrameQueuedForProcessing.mImage = nullptr;
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MOZ_ALWAYS_SUCCEEDS(mTaskQueue->Dispatch(
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NewRunnableMethod<StoreCopyPassByLRef<FrameToProcess>>(
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"VideoFrameConverter::ProcessVideoFrame", this,
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&VideoFrameConverter::ProcessVideoFrame,
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mLastFrameQueuedForProcessing)));
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}
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})));
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}
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void SetTrackingId(TrackingId aTrackingId) {
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MOZ_ALWAYS_SUCCEEDS(mTaskQueue->Dispatch(NS_NewRunnableFunction(
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__func__, [self = RefPtr<VideoFrameConverter>(this), this,
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id = std::move(aTrackingId)]() mutable {
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mTrackingId = Some(std::move(id));
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})));
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}
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void Shutdown() {
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mPacer->Shutdown()->Then(mTaskQueue, __func__,
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[self = RefPtr<VideoFrameConverter>(this), this] {
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mPacingListener.DisconnectIfExists();
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mBufferPool.Release();
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mLastFrameQueuedForProcessing = FrameToProcess();
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mLastFrameConverted = Nothing();
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});
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}
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MediaEventSourceExc<webrtc::VideoFrame>& VideoFrameConvertedEvent() {
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return mVideoFrameConvertedEvent;
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}
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protected:
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struct FrameToProcess {
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FrameToProcess() = default;
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FrameToProcess(RefPtr<layers::Image> aImage, TimeStamp aTime,
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gfx::IntSize aSize, bool aForceBlack)
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: mImage(std::move(aImage)),
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mTime(aTime),
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mSize(aSize),
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mForceBlack(aForceBlack) {}
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RefPtr<layers::Image> mImage;
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TimeStamp mTime = TimeStamp::Now();
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gfx::IntSize mSize = gfx::IntSize(640, 480);
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bool mForceBlack = false;
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int32_t Serial() const {
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if (mForceBlack) {
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// Set the last-img check to indicate black.
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// -1 is not a guaranteed invalid serial. See bug 1262134.
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return -1;
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}
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if (!mImage) {
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// Set the last-img check to indicate reset.
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// -2 is not a guaranteed invalid serial. See bug 1262134.
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return -2;
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}
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return mImage->GetSerial();
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}
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};
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struct FrameConverted {
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FrameConverted(webrtc::VideoFrame aFrame, int32_t aSerial)
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: mFrame(std::move(aFrame)), mSerial(aSerial) {}
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webrtc::VideoFrame mFrame;
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int32_t mSerial;
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};
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MOZ_COUNTED_DTOR_VIRTUAL(VideoFrameConverter)
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void VideoFrameConverted(webrtc::VideoFrame aVideoFrame, int32_t aSerial) {
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MOZ_ASSERT(mTaskQueue->IsCurrentThreadIn());
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MOZ_LOG(
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gVideoFrameConverterLog, LogLevel::Verbose,
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("VideoFrameConverter %p: Converted a frame. Diff from last: %.3fms",
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this,
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static_cast<double>(aVideoFrame.timestamp_us() -
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(mLastFrameConverted
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? mLastFrameConverted->mFrame.timestamp_us()
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: aVideoFrame.timestamp_us())) /
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1000));
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// Check that time doesn't go backwards
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MOZ_ASSERT_IF(mLastFrameConverted,
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aVideoFrame.timestamp_us() >
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mLastFrameConverted->mFrame.timestamp_us());
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mLastFrameConverted = Some(FrameConverted(aVideoFrame, aSerial));
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mVideoFrameConvertedEvent.Notify(std::move(aVideoFrame));
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}
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void QueueForProcessing(RefPtr<layers::Image> aImage, TimeStamp aTime,
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gfx::IntSize aSize, bool aForceBlack) {
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MOZ_ASSERT(mTaskQueue->IsCurrentThreadIn());
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FrameToProcess frame{std::move(aImage), aTime, aSize,
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aForceBlack || !mTrackEnabled};
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if (frame.mTime <= mLastFrameQueuedForProcessing.mTime) {
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MOZ_LOG(
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gVideoFrameConverterLog, LogLevel::Debug,
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("VideoFrameConverter %p: Dropping a frame because time did not "
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"progress (%.3fs)",
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this,
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(mLastFrameQueuedForProcessing.mTime - frame.mTime).ToSeconds()));
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return;
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}
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if (frame.Serial() == mLastFrameQueuedForProcessing.Serial()) {
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// This is the same frame as the last one. We limit the same-frame rate to
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// 1 second, and rewrite the time so the frame-gap is in whole seconds.
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//
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// The pacer only starts duplicating frames every second if there is no
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// flow of frames into it. There are other reasons the same frame could
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// repeat here, and at a shorter interval than one second. For instance
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// after the sender is disabled (SetTrackEnabled) but there is still a
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// flow of frames into the pacer. All disabled frames have the same
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// serial.
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if (int32_t diffSec = static_cast<int32_t>(
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(frame.mTime - mLastFrameQueuedForProcessing.mTime).ToSeconds());
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diffSec != 0) {
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MOZ_LOG(
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gVideoFrameConverterLog, LogLevel::Verbose,
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("VideoFrameConverter %p: Rewrote time interval for a duplicate "
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"frame from %.3fs to %.3fs",
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this,
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(frame.mTime - mLastFrameQueuedForProcessing.mTime).ToSeconds(),
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static_cast<float>(diffSec)));
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frame.mTime = mLastFrameQueuedForProcessing.mTime +
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TimeDuration::FromSeconds(diffSec);
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} else {
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MOZ_LOG(
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gVideoFrameConverterLog, LogLevel::Verbose,
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("VideoFrameConverter %p: Dropping a duplicate frame because a "
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"second hasn't passed (%.3fs)",
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this,
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(frame.mTime - mLastFrameQueuedForProcessing.mTime).ToSeconds()));
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return;
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}
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}
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mLastFrameQueuedForProcessing = std::move(frame);
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if (!mActive) {
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MOZ_LOG(
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gVideoFrameConverterLog, LogLevel::Debug,
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("VideoFrameConverter %p: Ignoring a frame because we're inactive",
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this));
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return;
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}
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MOZ_ALWAYS_SUCCEEDS(mTaskQueue->Dispatch(
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NewRunnableMethod<StoreCopyPassByLRef<FrameToProcess>>(
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"VideoFrameConverter::ProcessVideoFrame", this,
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&VideoFrameConverter::ProcessVideoFrame,
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mLastFrameQueuedForProcessing)));
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}
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void ProcessVideoFrame(const FrameToProcess& aFrame) {
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MOZ_ASSERT(mTaskQueue->IsCurrentThreadIn());
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if (aFrame.mTime < mLastFrameQueuedForProcessing.mTime) {
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MOZ_LOG(
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gVideoFrameConverterLog, LogLevel::Debug,
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("VideoFrameConverter %p: Dropping a frame that is %.3f seconds "
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"behind latest",
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this,
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(mLastFrameQueuedForProcessing.mTime - aFrame.mTime).ToSeconds()));
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return;
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}
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const webrtc::Timestamp time =
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dom::RTCStatsTimestamp::FromMozTime(mTimestampMaker, aFrame.mTime)
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.ToRealtime();
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if (mLastFrameConverted &&
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aFrame.Serial() == mLastFrameConverted->mSerial) {
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// This is the same input frame as last time. Avoid a conversion.
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webrtc::VideoFrame frame = mLastFrameConverted->mFrame;
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frame.set_timestamp_us(time.us());
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VideoFrameConverted(std::move(frame), mLastFrameConverted->mSerial);
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return;
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}
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if (aFrame.mForceBlack) {
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// Send a black image.
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rtc::scoped_refptr<webrtc::I420Buffer> buffer =
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mBufferPool.CreateI420Buffer(aFrame.mSize.width, aFrame.mSize.height);
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if (!buffer) {
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MOZ_DIAGNOSTIC_ASSERT(false,
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"Buffers not leaving scope except for "
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"reconfig, should never leak");
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MOZ_LOG(gVideoFrameConverterLog, LogLevel::Warning,
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("VideoFrameConverter %p: Creating a buffer for a black video "
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"frame failed",
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this));
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return;
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}
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MOZ_LOG(gVideoFrameConverterLog, LogLevel::Verbose,
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("VideoFrameConverter %p: Sending a black video frame", this));
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webrtc::I420Buffer::SetBlack(buffer.get());
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VideoFrameConverted(webrtc::VideoFrame::Builder()
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.set_video_frame_buffer(buffer)
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.set_timestamp_us(time.us())
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.build(),
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aFrame.Serial());
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return;
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}
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if (!aFrame.mImage) {
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// Don't send anything for null images.
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return;
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}
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MOZ_ASSERT(aFrame.mImage->GetSize() == aFrame.mSize);
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RefPtr<layers::PlanarYCbCrImage> image =
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aFrame.mImage->AsPlanarYCbCrImage();
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if (image) {
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dom::ImageUtils utils(image);
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if (utils.GetFormat() == dom::ImageBitmapFormat::YUV420P &&
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image->GetData()) {
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const layers::PlanarYCbCrData* data = image->GetData();
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rtc::scoped_refptr<webrtc::I420BufferInterface> video_frame_buffer =
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webrtc::WrapI420Buffer(
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aFrame.mImage->GetSize().width, aFrame.mImage->GetSize().height,
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data->mYChannel, data->mYStride, data->mCbChannel,
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data->mCbCrStride, data->mCrChannel, data->mCbCrStride,
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[image] { /* keep reference alive*/ });
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MOZ_LOG(gVideoFrameConverterLog, LogLevel::Verbose,
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("VideoFrameConverter %p: Sending an I420 video frame", this));
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VideoFrameConverted(webrtc::VideoFrame::Builder()
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.set_video_frame_buffer(video_frame_buffer)
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.set_timestamp_us(time.us())
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.build(),
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aFrame.Serial());
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return;
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}
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}
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rtc::scoped_refptr<webrtc::I420Buffer> buffer =
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mBufferPool.CreateI420Buffer(aFrame.mSize.width, aFrame.mSize.height);
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if (!buffer) {
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#ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED
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++mFramesDropped;
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#endif
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MOZ_DIAGNOSTIC_ASSERT(mFramesDropped <= 100, "Buffers must be leaking");
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MOZ_LOG(gVideoFrameConverterLog, LogLevel::Warning,
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("VideoFrameConverter %p: Creating a buffer failed", this));
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return;
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}
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#ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED
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mFramesDropped = 0;
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#endif
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PerformanceRecorder<CopyVideoStage> rec(
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"VideoFrameConverter::ConvertToI420"_ns, *mTrackingId, buffer->width(),
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buffer->height());
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nsresult rv =
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ConvertToI420(aFrame.mImage, buffer->MutableDataY(), buffer->StrideY(),
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buffer->MutableDataU(), buffer->StrideU(),
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buffer->MutableDataV(), buffer->StrideV());
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if (NS_FAILED(rv)) {
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MOZ_LOG(gVideoFrameConverterLog, LogLevel::Warning,
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("VideoFrameConverter %p: Image conversion failed", this));
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return;
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}
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rec.Record();
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VideoFrameConverted(webrtc::VideoFrame::Builder()
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.set_video_frame_buffer(buffer)
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.set_timestamp_us(time.us())
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.build(),
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aFrame.Serial());
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}
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public:
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const dom::RTCStatsTimestampMaker mTimestampMaker;
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const RefPtr<TaskQueue> mTaskQueue;
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protected:
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// Used to pace future frames close to their rendering-time. Thread-safe.
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const RefPtr<Pacer<FrameToProcess>> mPacer;
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MediaEventProducerExc<webrtc::VideoFrame> mVideoFrameConvertedEvent;
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// Accessed only from mTaskQueue.
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MediaEventListener mPacingListener;
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webrtc::VideoFrameBufferPool mBufferPool;
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FrameToProcess mLastFrameQueuedForProcessing;
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Maybe<FrameConverted> mLastFrameConverted;
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bool mActive = false;
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bool mTrackEnabled = true;
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Maybe<TrackingId> mTrackingId;
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#ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED
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size_t mFramesDropped = 0;
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#endif
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};
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} // namespace mozilla
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#endif // VideoFrameConverter_h
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